freebsd-nq/sys/dev/sound/pci/hda/hdac.c

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/*-
* Copyright (c) 2006 Stephane E. Potvin <sepotvin@videotron.ca>
* Copyright (c) 2006 Ariff Abdullah <ariff@FreeBSD.org>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
/*
* Intel High Definition Audio (Controller) driver for FreeBSD. Be advised
* that this driver still in its early stage, and possible of rewrite are
* pretty much guaranteed. There are supposedly several distinct parent/child
* busses to make this "perfect", but as for now and for the sake of
* simplicity, everything is gobble up within single source.
*
* List of subsys:
* 1) HDA Controller support
* 2) HDA Codecs support, which may include
* - HDA
* - Modem
* - HDMI
* 3) Widget parser - the real magic of why this driver works on so
* many hardwares with minimal vendor specific quirk. The original
* parser was written using Ruby and can be found at
* http://people.freebsd.org/~ariff/HDA/parser.rb . This crude
* ruby parser take the verbose dmesg dump as its input. Refer to
* http://www.microsoft.com/whdc/device/audio/default.mspx for various
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
* interesting documents, especially UAA (Universal Audio Architecture).
* 4) Possible vendor specific support.
* (snd_hda_intel, snd_hda_ati, etc..)
*
* Thanks to Ahmad Ubaidah Omar @ Defenxis Sdn. Bhd. for the
* Compaq V3000 with Conexant HDA.
*
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* * *
* * This driver is a collaborative effort made by: *
* * *
* * Stephane E. Potvin <sepotvin@videotron.ca> *
* * Andrea Bittau <a.bittau@cs.ucl.ac.uk> *
* * Wesley Morgan <morganw@chemikals.org> *
* * Daniel Eischen <deischen@FreeBSD.org> *
* * Maxime Guillaud <bsd-ports@mguillaud.net> *
* * Ariff Abdullah <ariff@FreeBSD.org> *
* * *
* * ....and various people from freebsd-multimedia@FreeBSD.org *
* * *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
*/
#include <sys/ctype.h>
#include <dev/sound/pcm/sound.h>
#include <dev/pci/pcireg.h>
#include <dev/pci/pcivar.h>
#include <dev/sound/pci/hda/hdac_private.h>
#include <dev/sound/pci/hda/hdac_reg.h>
#include <dev/sound/pci/hda/hda_reg.h>
#include <dev/sound/pci/hda/hdac.h>
#include "mixer_if.h"
#define HDA_DRV_TEST_REV "20061203_0035"
#define HDA_WIDGET_PARSER_REV 1
SND_DECLARE_FILE("$FreeBSD$");
#undef HDA_DEBUG_ENABLED
#define HDA_DEBUG_ENABLED 1
#ifdef HDA_DEBUG_ENABLED
#define HDA_DEBUG(stmt) do { \
stmt \
} while(0)
#else
#define HDA_DEBUG(stmt)
#endif
#define HDA_BOOTVERBOSE(stmt) do { \
if (bootverbose) { \
stmt \
} \
} while(0)
#if 1
#undef HDAC_INTR_EXTRA
#define HDAC_INTR_EXTRA 1
#endif
#define hdac_lock(sc) snd_mtxlock((sc)->lock)
#define hdac_unlock(sc) snd_mtxunlock((sc)->lock)
#define hdac_lockassert(sc) snd_mtxassert((sc)->lock)
#define hdac_lockowned(sc) mtx_owned((sc)->lock)
#define HDA_FLAG_MATCH(fl, v) (((fl) & (v)) == (v))
#define HDA_DEV_MATCH(fl, v) ((fl) == (v) || \
(fl) == 0xffffffff || \
(((fl) & 0xffff0000) == 0xffff0000 && \
((fl) & 0x0000ffff) == ((v) & 0x0000ffff)) || \
(((fl) & 0x0000ffff) == 0x0000ffff && \
((fl) & 0xffff0000) == ((v) & 0xffff0000)))
#define HDA_MATCH_ALL 0xffffffff
#define HDAC_INVALID 0xffffffff
#define HDA_MODEL_CONSTRUCT(vendor, model) \
(((uint32_t)(model) << 16) | ((vendor##_VENDORID) & 0xffff))
/* Controller models */
/* Intel */
#define INTEL_VENDORID 0x8086
#define HDA_INTEL_82801F HDA_MODEL_CONSTRUCT(INTEL, 0x2668)
#define HDA_INTEL_82801G HDA_MODEL_CONSTRUCT(INTEL, 0x27d8)
#define HDA_INTEL_82801H HDA_MODEL_CONSTRUCT(INTEL, 0x284b)
#define HDA_INTEL_63XXESB HDA_MODEL_CONSTRUCT(INTEL, 0x269a)
#define HDA_INTEL_ALL HDA_MODEL_CONSTRUCT(INTEL, 0xffff)
/* Nvidia */
#define NVIDIA_VENDORID 0x10de
#define HDA_NVIDIA_MCP51 HDA_MODEL_CONSTRUCT(NVIDIA, 0x026c)
#define HDA_NVIDIA_MCP55 HDA_MODEL_CONSTRUCT(NVIDIA, 0x0371)
#define HDA_NVIDIA_MCP61A HDA_MODEL_CONSTRUCT(NVIDIA, 0x03e4)
#define HDA_NVIDIA_MCP61B HDA_MODEL_CONSTRUCT(NVIDIA, 0x03f0)
#define HDA_NVIDIA_MCP65A HDA_MODEL_CONSTRUCT(NVIDIA, 0x044a)
#define HDA_NVIDIA_MCP65B HDA_MODEL_CONSTRUCT(NVIDIA, 0x044b)
#define HDA_NVIDIA_ALL HDA_MODEL_CONSTRUCT(NVIDIA, 0xffff)
/* ATI */
#define ATI_VENDORID 0x1002
#define HDA_ATI_SB450 HDA_MODEL_CONSTRUCT(ATI, 0x437b)
#define HDA_ATI_SB600 HDA_MODEL_CONSTRUCT(ATI, 0x4383)
#define HDA_ATI_ALL HDA_MODEL_CONSTRUCT(ATI, 0xffff)
/* VIA */
#define VIA_VENDORID 0x1106
#define HDA_VIA_VT82XX HDA_MODEL_CONSTRUCT(VIA, 0x3288)
#define HDA_VIA_ALL HDA_MODEL_CONSTRUCT(VIA, 0xffff)
/* SiS */
#define SIS_VENDORID 0x1039
#define HDA_SIS_966 HDA_MODEL_CONSTRUCT(SIS, 0x7502)
#define HDA_SIS_ALL HDA_MODEL_CONSTRUCT(SIS, 0xffff)
/* OEM/subvendors */
/* HP/Compaq */
#define HP_VENDORID 0x103c
#define HP_V3000_SUBVENDOR HDA_MODEL_CONSTRUCT(HP, 0x30b5)
#define HP_NX7400_SUBVENDOR HDA_MODEL_CONSTRUCT(HP, 0x30a2)
#define HP_NX6310_SUBVENDOR HDA_MODEL_CONSTRUCT(HP, 0x30aa)
#define HP_ALL_SUBVENDOR HDA_MODEL_CONSTRUCT(HP, 0xffff)
/* Dell */
#define DELL_VENDORID 0x1028
#define DELL_D820_SUBVENDOR HDA_MODEL_CONSTRUCT(DELL, 0x01cc)
#define DELL_I1300_SUBVENDOR HDA_MODEL_CONSTRUCT(DELL, 0x01c9)
#define DELL_ALL_SUBVENDOR HDA_MODEL_CONSTRUCT(DELL, 0xffff)
/* Clevo */
#define CLEVO_VENDORID 0x1558
#define CLEVO_D900T_SUBVENDOR HDA_MODEL_CONSTRUCT(CLEVO, 0x0900)
#define CLEVO_ALL_SUBVENDOR HDA_MODEL_CONSTRUCT(CLEVO, 0xffff)
/* Acer */
#define ACER_VENDORID 0x1025
#define ACER_ALL_SUBVENDOR HDA_MODEL_CONSTRUCT(ACER, 0xffff)
/* Asus */
#define ASUS_VENDORID 0x1043
#define ASUS_M5200_SUBVENDOR HDA_MODEL_CONSTRUCT(ASUS, 0x1993)
#define ASUS_U5F_SUBVENDOR HDA_MODEL_CONSTRUCT(ASUS, 0x1263)
#define ASUS_A8JC_SUBVENDOR HDA_MODEL_CONSTRUCT(ASUS, 0x1153)
#define ASUS_ALL_SUBVENDOR HDA_MODEL_CONSTRUCT(ASUS, 0xffff)
/* IBM / Lenovo */
#define IBM_VENDORID 0x1014
#define IBM_M52_SUBVENDOR HDA_MODEL_CONSTRUCT(IBM, 0x02f6)
#define IBM_ALL_SUBVENDOR HDA_MODEL_CONSTRUCT(IBM, 0xffff)
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
/* Lenovo */
#define LENOVO_VENDORID 0x17aa
#define LENOVO_3KN100_SUBVENDOR HDA_MODEL_CONSTRUCT(LENOVO, 0x2066)
#define LENOVO_ALL_SUBVENDOR HDA_MODEL_CONSTRUCT(LENOVO, 0xffff)
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
/* Samsung */
#define SAMSUNG_VENDORID 0x144d
#define SAMSUNG_Q1_SUBVENDOR HDA_MODEL_CONSTRUCT(SAMSUNG, 0xc027)
#define SAMSUNG_ALL_SUBVENDOR HDA_MODEL_CONSTRUCT(SAMSUNG, 0xffff)
/* Medion ? */
#define MEDION_VENDORID 0x161f
#define MEDION_MD95257_SUBVENDOR HDA_MODEL_CONSTRUCT(MEDION, 0x203d)
#define MEDION_ALL_SUBVENDOR HDA_MODEL_CONSTRUCT(MEDION, 0xffff)
/*
* Apple Intel MacXXXX seems using Sigmatel codec/vendor id
* instead of their own, which is beyond my comprehension
* (see HDA_CODEC_STAC9221 below).
*/
#define APPLE_INTEL_MAC 0x76808384
/* Misc constants.. */
#define HDA_AMP_MUTE_DEFAULT (0xffffffff)
#define HDA_AMP_MUTE_NONE (0)
#define HDA_AMP_MUTE_LEFT (1 << 0)
#define HDA_AMP_MUTE_RIGHT (1 << 1)
#define HDA_AMP_MUTE_ALL (HDA_AMP_MUTE_LEFT | HDA_AMP_MUTE_RIGHT)
#define HDA_AMP_LEFT_MUTED(v) ((v) & (HDA_AMP_MUTE_LEFT))
#define HDA_AMP_RIGHT_MUTED(v) (((v) & HDA_AMP_MUTE_RIGHT) >> 1)
#define HDA_DAC_PATH (1 << 0)
#define HDA_ADC_PATH (1 << 1)
#define HDA_ADC_RECSEL (1 << 2)
#define HDA_CTL_OUT (1 << 0)
#define HDA_CTL_IN (1 << 1)
#define HDA_CTL_BOTH (HDA_CTL_IN | HDA_CTL_OUT)
#define HDA_GPIO_MAX 15
/* 0 - 14 = GPIO */
#define HDA_QUIRK_GPIO0 (1 << 0)
#define HDA_QUIRK_GPIO1 (1 << 1)
#define HDA_QUIRK_GPIO2 (1 << 2)
#define HDA_QUIRK_SOFTPCMVOL (1 << 15)
#define HDA_QUIRK_FIXEDRATE (1 << 16)
#define HDA_QUIRK_FORCESTEREO (1 << 17)
#define HDA_QUIRK_EAPDINV (1 << 18)
static const struct {
char *key;
uint32_t value;
} hdac_quirks_tab[] = {
{ "gpio0", HDA_QUIRK_GPIO0 },
{ "gpio1", HDA_QUIRK_GPIO1 },
{ "gpio2", HDA_QUIRK_GPIO2 },
{ "softpcmvol", HDA_QUIRK_SOFTPCMVOL },
{ "fixedrate", HDA_QUIRK_FIXEDRATE },
{ "forcestereo", HDA_QUIRK_FORCESTEREO },
{ "eapdinv", HDA_QUIRK_EAPDINV },
};
#define HDAC_QUIRKS_TAB_LEN \
(sizeof(hdac_quirks_tab) / sizeof(hdac_quirks_tab[0]))
#define HDA_BDL_MIN 2
#define HDA_BDL_MAX 256
#define HDA_BDL_DEFAULT HDA_BDL_MIN
#define HDA_BUFSZ_MIN 4096
#define HDA_BUFSZ_MAX 65536
#define HDA_BUFSZ_DEFAULT 16384
#define HDA_PARSE_MAXDEPTH 10
#define HDAC_UNSOLTAG_EVENT_HP 0x00
static MALLOC_DEFINE(M_HDAC, "hdac", "High Definition Audio Controller");
enum {
HDA_PARSE_MIXER,
HDA_PARSE_DIRECT
};
/* Default */
static uint32_t hdac_fmt[] = {
AFMT_STEREO | AFMT_S16_LE,
0
};
static struct pcmchan_caps hdac_caps = {48000, 48000, hdac_fmt, 0};
static const struct {
uint32_t model;
char *desc;
} hdac_devices[] = {
{ HDA_INTEL_82801F, "Intel 82801F" },
{ HDA_INTEL_82801G, "Intel 82801G" },
{ HDA_INTEL_82801H, "Intel 82801H" },
{ HDA_INTEL_63XXESB, "Intel 631x/632xESB" },
{ HDA_NVIDIA_MCP51, "NVidia MCP51" },
{ HDA_NVIDIA_MCP55, "NVidia MCP55" },
{ HDA_NVIDIA_MCP61A, "NVidia MCP61A" },
{ HDA_NVIDIA_MCP61B, "NVidia MCP61B" },
{ HDA_NVIDIA_MCP65A, "NVidia MCP65A" },
{ HDA_NVIDIA_MCP65B, "NVidia MCP65B" },
{ HDA_ATI_SB450, "ATI SB450" },
{ HDA_ATI_SB600, "ATI SB600" },
{ HDA_VIA_VT82XX, "VIA VT8251/8237A" },
{ HDA_SIS_966, "SiS 966" },
/* Unknown */
{ HDA_INTEL_ALL, "Intel (Unknown)" },
{ HDA_NVIDIA_ALL, "NVidia (Unknown)" },
{ HDA_ATI_ALL, "ATI (Unknown)" },
{ HDA_VIA_ALL, "VIA (Unknown)" },
{ HDA_SIS_ALL, "SiS (Unknown)" },
};
#define HDAC_DEVICES_LEN (sizeof(hdac_devices) / sizeof(hdac_devices[0]))
static const struct {
uint32_t rate;
int valid;
uint16_t base;
uint16_t mul;
uint16_t div;
} hda_rate_tab[] = {
{ 8000, 1, 0x0000, 0x0000, 0x0500 }, /* (48000 * 1) / 6 */
{ 9600, 0, 0x0000, 0x0000, 0x0400 }, /* (48000 * 1) / 5 */
{ 12000, 0, 0x0000, 0x0000, 0x0300 }, /* (48000 * 1) / 4 */
{ 16000, 1, 0x0000, 0x0000, 0x0200 }, /* (48000 * 1) / 3 */
{ 18000, 0, 0x0000, 0x1000, 0x0700 }, /* (48000 * 3) / 8 */
{ 19200, 0, 0x0000, 0x0800, 0x0400 }, /* (48000 * 2) / 5 */
{ 24000, 0, 0x0000, 0x0000, 0x0100 }, /* (48000 * 1) / 2 */
{ 28800, 0, 0x0000, 0x1000, 0x0400 }, /* (48000 * 3) / 5 */
{ 32000, 1, 0x0000, 0x0800, 0x0200 }, /* (48000 * 2) / 3 */
{ 36000, 0, 0x0000, 0x1000, 0x0300 }, /* (48000 * 3) / 4 */
{ 38400, 0, 0x0000, 0x1800, 0x0400 }, /* (48000 * 4) / 5 */
{ 48000, 1, 0x0000, 0x0000, 0x0000 }, /* (48000 * 1) / 1 */
{ 64000, 0, 0x0000, 0x1800, 0x0200 }, /* (48000 * 4) / 3 */
{ 72000, 0, 0x0000, 0x1000, 0x0100 }, /* (48000 * 3) / 2 */
{ 96000, 1, 0x0000, 0x0800, 0x0000 }, /* (48000 * 2) / 1 */
{ 144000, 0, 0x0000, 0x1000, 0x0000 }, /* (48000 * 3) / 1 */
{ 192000, 1, 0x0000, 0x1800, 0x0000 }, /* (48000 * 4) / 1 */
{ 8820, 0, 0x4000, 0x0000, 0x0400 }, /* (44100 * 1) / 5 */
{ 11025, 1, 0x4000, 0x0000, 0x0300 }, /* (44100 * 1) / 4 */
{ 12600, 0, 0x4000, 0x0800, 0x0600 }, /* (44100 * 2) / 7 */
{ 14700, 0, 0x4000, 0x0000, 0x0200 }, /* (44100 * 1) / 3 */
{ 17640, 0, 0x4000, 0x0800, 0x0400 }, /* (44100 * 2) / 5 */
{ 18900, 0, 0x4000, 0x1000, 0x0600 }, /* (44100 * 3) / 7 */
{ 22050, 1, 0x4000, 0x0000, 0x0100 }, /* (44100 * 1) / 2 */
{ 25200, 0, 0x4000, 0x1800, 0x0600 }, /* (44100 * 4) / 7 */
{ 26460, 0, 0x4000, 0x1000, 0x0400 }, /* (44100 * 3) / 5 */
{ 29400, 0, 0x4000, 0x0800, 0x0200 }, /* (44100 * 2) / 3 */
{ 33075, 0, 0x4000, 0x1000, 0x0300 }, /* (44100 * 3) / 4 */
{ 35280, 0, 0x4000, 0x1800, 0x0400 }, /* (44100 * 4) / 5 */
{ 44100, 1, 0x4000, 0x0000, 0x0000 }, /* (44100 * 1) / 1 */
{ 58800, 0, 0x4000, 0x1800, 0x0200 }, /* (44100 * 4) / 3 */
{ 66150, 0, 0x4000, 0x1000, 0x0100 }, /* (44100 * 3) / 2 */
{ 88200, 1, 0x4000, 0x0800, 0x0000 }, /* (44100 * 2) / 1 */
{ 132300, 0, 0x4000, 0x1000, 0x0000 }, /* (44100 * 3) / 1 */
{ 176400, 1, 0x4000, 0x1800, 0x0000 }, /* (44100 * 4) / 1 */
};
#define HDA_RATE_TAB_LEN (sizeof(hda_rate_tab) / sizeof(hda_rate_tab[0]))
/* All codecs you can eat... */
#define HDA_CODEC_CONSTRUCT(vendor, id) \
(((uint32_t)(vendor##_VENDORID) << 16) | ((id) & 0xffff))
/* Realtek */
#define REALTEK_VENDORID 0x10ec
#define HDA_CODEC_ALC260 HDA_CODEC_CONSTRUCT(REALTEK, 0x0260)
#define HDA_CODEC_ALC861 HDA_CODEC_CONSTRUCT(REALTEK, 0x0861)
#define HDA_CODEC_ALC880 HDA_CODEC_CONSTRUCT(REALTEK, 0x0880)
#define HDA_CODEC_ALC882 HDA_CODEC_CONSTRUCT(REALTEK, 0x0882)
#define HDA_CODEC_ALC883 HDA_CODEC_CONSTRUCT(REALTEK, 0x0883)
#define HDA_CODEC_ALCXXXX HDA_CODEC_CONSTRUCT(REALTEK, 0xffff)
/* Analog Device */
#define ANALOGDEVICE_VENDORID 0x11d4
#define HDA_CODEC_AD1981HD HDA_CODEC_CONSTRUCT(ANALOGDEVICE, 0x1981)
#define HDA_CODEC_AD1983 HDA_CODEC_CONSTRUCT(ANALOGDEVICE, 0x1983)
#define HDA_CODEC_AD1986A HDA_CODEC_CONSTRUCT(ANALOGDEVICE, 0x1986)
#define HDA_CODEC_ADXXXX HDA_CODEC_CONSTRUCT(ANALOGDEVICE, 0xffff)
/* CMedia */
#define CMEDIA_VENDORID 0x434d
#define HDA_CODEC_CMI9880 HDA_CODEC_CONSTRUCT(CMEDIA, 0x4980)
#define HDA_CODEC_CMIXXXX HDA_CODEC_CONSTRUCT(CMEDIA, 0xffff)
/* Sigmatel */
#define SIGMATEL_VENDORID 0x8384
#define HDA_CODEC_STAC9221 HDA_CODEC_CONSTRUCT(SIGMATEL, 0x7680)
#define HDA_CODEC_STAC9221D HDA_CODEC_CONSTRUCT(SIGMATEL, 0x7683)
#define HDA_CODEC_STAC9220 HDA_CODEC_CONSTRUCT(SIGMATEL, 0x7690)
#define HDA_CODEC_STAC922XD HDA_CODEC_CONSTRUCT(SIGMATEL, 0x7681)
#define HDA_CODEC_STACXXXX HDA_CODEC_CONSTRUCT(SIGMATEL, 0xffff)
/*
* Conexant
*
* Ok, the truth is, I don't have any idea at all whether
* it is "Venice" or "Waikiki" or other unnamed CXyadayada. The only
* place that tell me it is "Venice" is from its Windows driver INF.
*
* Venice - CX?????
* Waikiki - CX20551-22
*/
#define CONEXANT_VENDORID 0x14f1
#define HDA_CODEC_CXVENICE HDA_CODEC_CONSTRUCT(CONEXANT, 0x5045)
#define HDA_CODEC_CXWAIKIKI HDA_CODEC_CONSTRUCT(CONEXANT, 0x5047)
#define HDA_CODEC_CXXXXX HDA_CODEC_CONSTRUCT(CONEXANT, 0xffff)
/* Codecs */
static const struct {
uint32_t id;
char *name;
} hdac_codecs[] = {
{ HDA_CODEC_ALC260, "Realtek ALC260" },
{ HDA_CODEC_ALC861, "Realtek ALC861" },
{ HDA_CODEC_ALC880, "Realtek ALC880" },
{ HDA_CODEC_ALC882, "Realtek ALC882" },
{ HDA_CODEC_ALC883, "Realtek ALC883" },
{ HDA_CODEC_AD1981HD, "Analog Device AD1981HD" },
{ HDA_CODEC_AD1983, "Analog Device AD1983" },
{ HDA_CODEC_AD1986A, "Analog Device AD1986A" },
{ HDA_CODEC_CMI9880, "CMedia CMI9880" },
{ HDA_CODEC_STAC9221, "Sigmatel STAC9221" },
{ HDA_CODEC_STAC9221D, "Sigmatel STAC9221D" },
{ HDA_CODEC_STAC9220, "Sigmatel STAC9220" },
{ HDA_CODEC_STAC922XD, "Sigmatel STAC9220D/9223D" },
{ HDA_CODEC_CXVENICE, "Conexant Venice" },
{ HDA_CODEC_CXWAIKIKI, "Conexant Waikiki" },
/* Unknown codec */
{ HDA_CODEC_ALCXXXX, "Realtek (Unknown)" },
{ HDA_CODEC_ADXXXX, "Analog Device (Unknown)" },
{ HDA_CODEC_CMIXXXX, "CMedia (Unknown)" },
{ HDA_CODEC_STACXXXX, "Sigmatel (Unknown)" },
{ HDA_CODEC_CXXXXX, "Conexant (Unknown)" },
};
#define HDAC_CODECS_LEN (sizeof(hdac_codecs) / sizeof(hdac_codecs[0]))
enum {
HDAC_HP_SWITCH_CTL,
HDAC_HP_SWITCH_CTRL
};
static const struct {
uint32_t model;
uint32_t id;
int type;
nid_t hpnid;
nid_t spkrnid[8];
nid_t eapdnid;
} hdac_hp_switch[] = {
/* Specific OEM models */
{ HP_V3000_SUBVENDOR, HDA_CODEC_CXVENICE, HDAC_HP_SWITCH_CTL,
17, { 16, -1 }, 16 },
{ HP_NX7400_SUBVENDOR, HDA_CODEC_AD1981HD, HDAC_HP_SWITCH_CTL,
6, { 5, -1 }, 5 },
{ HP_NX6310_SUBVENDOR, HDA_CODEC_AD1981HD, HDAC_HP_SWITCH_CTL,
6, { 5, -1 }, 5 },
{ DELL_D820_SUBVENDOR, HDA_CODEC_STAC9220, HDAC_HP_SWITCH_CTRL,
13, { 14, -1 }, -1 },
{ DELL_I1300_SUBVENDOR, HDA_CODEC_STAC9220, HDAC_HP_SWITCH_CTRL,
13, { 14, -1 }, -1 },
{ APPLE_INTEL_MAC, HDA_CODEC_STAC9221, HDAC_HP_SWITCH_CTRL,
10, { 13, -1 }, -1 },
/*
* All models that at least come from the same vendor with
* simmilar codec.
*/
{ HP_ALL_SUBVENDOR, HDA_CODEC_CXVENICE, HDAC_HP_SWITCH_CTL,
17, { 16, -1 }, 16 },
{ HP_ALL_SUBVENDOR, HDA_CODEC_AD1981HD, HDAC_HP_SWITCH_CTL,
6, { 5, -1 }, 5 },
{ DELL_ALL_SUBVENDOR, HDA_CODEC_STAC9220, HDAC_HP_SWITCH_CTRL,
13, { 14, -1 }, -1 },
};
#define HDAC_HP_SWITCH_LEN \
(sizeof(hdac_hp_switch) / sizeof(hdac_hp_switch[0]))
static const struct {
uint32_t model;
uint32_t id;
nid_t eapdnid;
int hp_switch;
} hdac_eapd_switch[] = {
{ HP_V3000_SUBVENDOR, HDA_CODEC_CXVENICE, 16, 1 },
{ HP_NX7400_SUBVENDOR, HDA_CODEC_AD1981HD, 5, 1 },
{ HP_NX6310_SUBVENDOR, HDA_CODEC_AD1981HD, 5, 1 },
};
#define HDAC_EAPD_SWITCH_LEN \
(sizeof(hdac_eapd_switch) / sizeof(hdac_eapd_switch[0]))
/****************************************************************************
* Function prototypes
****************************************************************************/
static void hdac_intr_handler(void *);
static int hdac_reset(struct hdac_softc *);
static int hdac_get_capabilities(struct hdac_softc *);
static void hdac_dma_cb(void *, bus_dma_segment_t *, int, int);
static int hdac_dma_alloc(struct hdac_softc *,
struct hdac_dma *, bus_size_t);
static void hdac_dma_free(struct hdac_dma *);
static int hdac_mem_alloc(struct hdac_softc *);
static void hdac_mem_free(struct hdac_softc *);
static int hdac_irq_alloc(struct hdac_softc *);
static void hdac_irq_free(struct hdac_softc *);
static void hdac_corb_init(struct hdac_softc *);
static void hdac_rirb_init(struct hdac_softc *);
static void hdac_corb_start(struct hdac_softc *);
static void hdac_rirb_start(struct hdac_softc *);
static void hdac_scan_codecs(struct hdac_softc *);
static int hdac_probe_codec(struct hdac_codec *);
static struct hdac_devinfo *hdac_probe_function(struct hdac_codec *, nid_t);
static void hdac_add_child(struct hdac_softc *, struct hdac_devinfo *);
static void hdac_attach2(void *);
static uint32_t hdac_command_sendone_internal(struct hdac_softc *,
uint32_t, int);
static void hdac_command_send_internal(struct hdac_softc *,
struct hdac_command_list *, int);
static int hdac_probe(device_t);
static int hdac_attach(device_t);
static int hdac_detach(device_t);
static void hdac_widget_connection_select(struct hdac_widget *, uint8_t);
static void hdac_audio_ctl_amp_set(struct hdac_audio_ctl *,
uint32_t, int, int);
static struct hdac_audio_ctl *hdac_audio_ctl_amp_get(struct hdac_devinfo *,
nid_t, int, int);
static void hdac_audio_ctl_amp_set_internal(struct hdac_softc *,
nid_t, nid_t, int, int, int, int, int, int);
static int hdac_audio_ctl_ossmixer_getnextdev(struct hdac_devinfo *);
static struct hdac_widget *hdac_widget_get(struct hdac_devinfo *, nid_t);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
static int hdac_rirb_flush(struct hdac_softc *sc);
static int hdac_unsolq_flush(struct hdac_softc *sc);
#define hdac_command(a1, a2, a3) \
hdac_command_sendone_internal(a1, a2, a3)
#define hdac_codec_id(d) \
((uint32_t)((d == NULL) ? 0x00000000 : \
((((uint32_t)(d)->vendor_id & 0x0000ffff) << 16) | \
((uint32_t)(d)->device_id & 0x0000ffff))))
static char *
hdac_codec_name(struct hdac_devinfo *devinfo)
{
uint32_t id;
int i;
id = hdac_codec_id(devinfo);
for (i = 0; i < HDAC_CODECS_LEN; i++) {
if (HDA_DEV_MATCH(hdac_codecs[i].id, id))
return (hdac_codecs[i].name);
}
return ((id == 0x00000000) ? "NULL Codec" : "Unknown Codec");
}
static char *
hdac_audio_ctl_ossmixer_mask2name(uint32_t devmask)
{
static char *ossname[] = SOUND_DEVICE_NAMES;
static char *unknown = "???";
int i;
for (i = SOUND_MIXER_NRDEVICES - 1; i >= 0; i--) {
if (devmask & (1 << i))
return (ossname[i]);
}
return (unknown);
}
static void
hdac_audio_ctl_ossmixer_mask2allname(uint32_t mask, char *buf, size_t len)
{
static char *ossname[] = SOUND_DEVICE_NAMES;
int i, first = 1;
bzero(buf, len);
for (i = 0; i < SOUND_MIXER_NRDEVICES; i++) {
if (mask & (1 << i)) {
if (first == 0)
strlcat(buf, ", ", len);
strlcat(buf, ossname[i], len);
first = 0;
}
}
}
static struct hdac_audio_ctl *
hdac_audio_ctl_each(struct hdac_devinfo *devinfo, int *index)
{
if (devinfo == NULL ||
devinfo->node_type != HDA_PARAM_FCT_GRP_TYPE_NODE_TYPE_AUDIO ||
index == NULL || devinfo->function.audio.ctl == NULL ||
devinfo->function.audio.ctlcnt < 1 ||
*index < 0 || *index >= devinfo->function.audio.ctlcnt)
return (NULL);
return (&devinfo->function.audio.ctl[(*index)++]);
}
static struct hdac_audio_ctl *
hdac_audio_ctl_amp_get(struct hdac_devinfo *devinfo, nid_t nid,
int index, int cnt)
{
struct hdac_audio_ctl *ctl, *retctl = NULL;
int i, at, atindex, found = 0;
if (devinfo == NULL || devinfo->function.audio.ctl == NULL)
return (NULL);
at = cnt;
if (at == 0)
at = 1;
else if (at < 0)
at = -1;
atindex = index;
if (atindex < 0)
atindex = -1;
i = 0;
while ((ctl = hdac_audio_ctl_each(devinfo, &i)) != NULL) {
if (ctl->enable == 0 || ctl->widget == NULL)
continue;
if (!(ctl->widget->nid == nid && (atindex == -1 ||
ctl->index == atindex)))
continue;
found++;
if (found == cnt)
return (ctl);
retctl = ctl;
}
return ((at == -1) ? retctl : NULL);
}
static void
hdac_hp_switch_handler(struct hdac_devinfo *devinfo)
{
struct hdac_softc *sc;
struct hdac_widget *w;
struct hdac_audio_ctl *ctl;
uint32_t id, res;
int i = 0, j, forcemute;
nid_t cad;
if (devinfo == NULL || devinfo->codec == NULL ||
devinfo->codec->sc == NULL)
return;
sc = devinfo->codec->sc;
cad = devinfo->codec->cad;
id = hdac_codec_id(devinfo);
for (i = 0; i < HDAC_HP_SWITCH_LEN; i++) {
if (HDA_DEV_MATCH(hdac_hp_switch[i].model,
sc->pci_subvendor) &&
hdac_hp_switch[i].id == id)
break;
}
if (i >= HDAC_HP_SWITCH_LEN)
return;
forcemute = 0;
if (hdac_hp_switch[i].eapdnid != -1) {
w = hdac_widget_get(devinfo, hdac_hp_switch[i].eapdnid);
if (w != NULL && w->param.eapdbtl != HDAC_INVALID)
forcemute = (w->param.eapdbtl &
HDA_CMD_SET_EAPD_BTL_ENABLE_EAPD) ? 0 : 1;
}
res = hdac_command(sc,
HDA_CMD_GET_PIN_SENSE(cad, hdac_hp_switch[i].hpnid), cad);
HDA_BOOTVERBOSE(
device_printf(sc->dev,
"HDA_DEBUG: Pin sense: nid=%d res=0x%08x\n",
hdac_hp_switch[i].hpnid, res);
);
res >>= 31;
switch (hdac_hp_switch[i].type) {
case HDAC_HP_SWITCH_CTL:
ctl = hdac_audio_ctl_amp_get(devinfo,
hdac_hp_switch[i].hpnid, 0, 1);
if (ctl != NULL) {
ctl->muted = (res != 0 && forcemute == 0) ?
HDA_AMP_MUTE_NONE : HDA_AMP_MUTE_ALL;
hdac_audio_ctl_amp_set(ctl,
HDA_AMP_MUTE_DEFAULT, ctl->left,
ctl->right);
}
for (j = 0; hdac_hp_switch[i].spkrnid[j] != -1; j++) {
ctl = hdac_audio_ctl_amp_get(devinfo,
hdac_hp_switch[i].spkrnid[j], 0, 1);
if (ctl != NULL) {
ctl->muted = (res != 0 || forcemute == 1) ?
HDA_AMP_MUTE_ALL : HDA_AMP_MUTE_NONE;
hdac_audio_ctl_amp_set(ctl,
HDA_AMP_MUTE_DEFAULT, ctl->left,
ctl->right);
}
}
break;
case HDAC_HP_SWITCH_CTRL:
if (res != 0) {
/* HP in */
w = hdac_widget_get(devinfo, hdac_hp_switch[i].hpnid);
if (w != NULL && w->type ==
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) {
if (forcemute == 0)
w->wclass.pin.ctrl |=
HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE;
else
w->wclass.pin.ctrl &=
~HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE;
hdac_command(sc,
HDA_CMD_SET_PIN_WIDGET_CTRL(cad, w->nid,
w->wclass.pin.ctrl), cad);
}
for (j = 0; hdac_hp_switch[i].spkrnid[j] != -1; j++) {
w = hdac_widget_get(devinfo,
hdac_hp_switch[i].spkrnid[j]);
if (w != NULL && w->type ==
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) {
w->wclass.pin.ctrl &=
~HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE;
hdac_command(sc,
HDA_CMD_SET_PIN_WIDGET_CTRL(cad,
w->nid,
w->wclass.pin.ctrl), cad);
}
}
} else {
/* HP out */
w = hdac_widget_get(devinfo, hdac_hp_switch[i].hpnid);
if (w != NULL && w->type ==
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) {
w->wclass.pin.ctrl &=
~HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE;
hdac_command(sc,
HDA_CMD_SET_PIN_WIDGET_CTRL(cad, w->nid,
w->wclass.pin.ctrl), cad);
}
for (j = 0; hdac_hp_switch[i].spkrnid[j] != -1; j++) {
w = hdac_widget_get(devinfo,
hdac_hp_switch[i].spkrnid[j]);
if (w != NULL && w->type ==
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) {
if (forcemute == 0)
w->wclass.pin.ctrl |=
HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE;
else
w->wclass.pin.ctrl &=
~HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE;
hdac_command(sc,
HDA_CMD_SET_PIN_WIDGET_CTRL(cad,
w->nid,
w->wclass.pin.ctrl), cad);
}
}
}
break;
default:
break;
}
}
static void
hdac_unsolicited_handler(struct hdac_codec *codec, uint32_t tag)
{
struct hdac_softc *sc;
struct hdac_devinfo *devinfo = NULL;
device_t *devlist = NULL;
int devcount, i;
if (codec == NULL || codec->sc == NULL)
return;
sc = codec->sc;
HDA_BOOTVERBOSE(
device_printf(sc->dev, "HDA_DEBUG: Unsol Tag: 0x%08x\n", tag);
);
device_get_children(sc->dev, &devlist, &devcount);
for (i = 0; devlist != NULL && i < devcount; i++) {
devinfo = (struct hdac_devinfo *)device_get_ivars(devlist[i]);
if (devinfo != NULL && devinfo->node_type ==
HDA_PARAM_FCT_GRP_TYPE_NODE_TYPE_AUDIO &&
devinfo->codec != NULL &&
devinfo->codec->cad == codec->cad) {
break;
} else
devinfo = NULL;
}
if (devlist != NULL)
free(devlist, M_TEMP);
if (devinfo == NULL)
return;
switch (tag) {
case HDAC_UNSOLTAG_EVENT_HP:
hdac_hp_switch_handler(devinfo);
break;
default:
break;
}
}
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
static int
hdac_stream_intr(struct hdac_softc *sc, struct hdac_chan *ch)
{
/* XXX to be removed */
#ifdef HDAC_INTR_EXTRA
uint32_t res;
#endif
if (ch->blkcnt == 0)
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
return (0);
/* XXX to be removed */
#ifdef HDAC_INTR_EXTRA
res = HDAC_READ_1(&sc->mem, ch->off + HDAC_SDSTS);
#endif
/* XXX to be removed */
#ifdef HDAC_INTR_EXTRA
HDA_BOOTVERBOSE(
if (res & (HDAC_SDSTS_DESE | HDAC_SDSTS_FIFOE))
device_printf(sc->dev,
"PCMDIR_%s intr triggered beyond stream boundary:"
"%08x\n",
(ch->dir == PCMDIR_PLAY) ? "PLAY" : "REC", res);
);
#endif
HDAC_WRITE_1(&sc->mem, ch->off + HDAC_SDSTS,
HDAC_SDSTS_DESE | HDAC_SDSTS_FIFOE | HDAC_SDSTS_BCIS );
/* XXX to be removed */
#ifdef HDAC_INTR_EXTRA
if (res & HDAC_SDSTS_BCIS) {
#endif
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
return (1);
/* XXX to be removed */
#ifdef HDAC_INTR_EXTRA
}
#endif
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
return (0);
}
/****************************************************************************
* void hdac_intr_handler(void *)
*
* Interrupt handler. Processes interrupts received from the hdac.
****************************************************************************/
static void
hdac_intr_handler(void *context)
{
struct hdac_softc *sc;
uint32_t intsts;
uint8_t rirbsts;
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
struct hdac_rirb *rirb_base;
uint32_t trigger = 0;
sc = (struct hdac_softc *)context;
hdac_lock(sc);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
if (sc->polling != 0) {
hdac_unlock(sc);
return;
}
/* Do we have anything to do? */
intsts = HDAC_READ_4(&sc->mem, HDAC_INTSTS);
if (!HDA_FLAG_MATCH(intsts, HDAC_INTSTS_GIS)) {
hdac_unlock(sc);
return;
}
/* Was this a controller interrupt? */
if (HDA_FLAG_MATCH(intsts, HDAC_INTSTS_CIS)) {
rirb_base = (struct hdac_rirb *)sc->rirb_dma.dma_vaddr;
rirbsts = HDAC_READ_1(&sc->mem, HDAC_RIRBSTS);
/* Get as many responses that we can */
while (HDA_FLAG_MATCH(rirbsts, HDAC_RIRBSTS_RINTFL)) {
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
HDAC_WRITE_1(&sc->mem,
HDAC_RIRBSTS, HDAC_RIRBSTS_RINTFL);
hdac_rirb_flush(sc);
rirbsts = HDAC_READ_1(&sc->mem, HDAC_RIRBSTS);
}
/* XXX to be removed */
/* Clear interrupt and exit */
#ifdef HDAC_INTR_EXTRA
HDAC_WRITE_4(&sc->mem, HDAC_INTSTS, HDAC_INTSTS_CIS);
#endif
}
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
hdac_unsolq_flush(sc);
if (intsts & HDAC_INTSTS_SIS_MASK) {
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
if ((intsts & (1 << sc->num_iss)) &&
hdac_stream_intr(sc, &sc->play) != 0)
trigger |= 1;
if ((intsts & (1 << 0)) &&
hdac_stream_intr(sc, &sc->rec) != 0)
trigger |= 2;
/* XXX to be removed */
#ifdef HDAC_INTR_EXTRA
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
HDAC_WRITE_4(&sc->mem, HDAC_INTSTS, intsts &
HDAC_INTSTS_SIS_MASK);
#endif
}
hdac_unlock(sc);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
if (trigger & 1)
chn_intr(sc->play.c);
if (trigger & 2)
chn_intr(sc->rec.c);
}
/****************************************************************************
* int hdac_reset(hdac_softc *)
*
* Reset the hdac to a quiescent and known state.
****************************************************************************/
static int
hdac_reset(struct hdac_softc *sc)
{
uint32_t gctl;
int count, i;
/*
* Stop all Streams DMA engine
*/
for (i = 0; i < sc->num_iss; i++)
HDAC_WRITE_4(&sc->mem, HDAC_ISDCTL(sc, i), 0x0);
for (i = 0; i < sc->num_oss; i++)
HDAC_WRITE_4(&sc->mem, HDAC_OSDCTL(sc, i), 0x0);
for (i = 0; i < sc->num_bss; i++)
HDAC_WRITE_4(&sc->mem, HDAC_BSDCTL(sc, i), 0x0);
/*
* Stop Control DMA engines
*/
HDAC_WRITE_1(&sc->mem, HDAC_CORBCTL, 0x0);
HDAC_WRITE_1(&sc->mem, HDAC_RIRBCTL, 0x0);
/*
* Reset the controller. The reset must remain asserted for
* a minimum of 100us.
*/
gctl = HDAC_READ_4(&sc->mem, HDAC_GCTL);
HDAC_WRITE_4(&sc->mem, HDAC_GCTL, gctl & ~HDAC_GCTL_CRST);
count = 10000;
do {
gctl = HDAC_READ_4(&sc->mem, HDAC_GCTL);
if (!(gctl & HDAC_GCTL_CRST))
break;
DELAY(10);
} while (--count);
if (gctl & HDAC_GCTL_CRST) {
device_printf(sc->dev, "Unable to put hdac in reset\n");
return (ENXIO);
}
DELAY(100);
gctl = HDAC_READ_4(&sc->mem, HDAC_GCTL);
HDAC_WRITE_4(&sc->mem, HDAC_GCTL, gctl | HDAC_GCTL_CRST);
count = 10000;
do {
gctl = HDAC_READ_4(&sc->mem, HDAC_GCTL);
if (gctl & HDAC_GCTL_CRST)
break;
DELAY(10);
} while (--count);
if (!(gctl & HDAC_GCTL_CRST)) {
device_printf(sc->dev, "Device stuck in reset\n");
return (ENXIO);
}
/*
* Wait for codecs to finish their own reset sequence. The delay here
* should be of 250us but for some reasons, on it's not enough on my
* computer. Let's use twice as much as necessary to make sure that
* it's reset properly.
*/
DELAY(1000);
return (0);
}
/****************************************************************************
* int hdac_get_capabilities(struct hdac_softc *);
*
* Retreive the general capabilities of the hdac;
* Number of Input Streams
* Number of Output Streams
* Number of bidirectional Streams
* 64bit ready
* CORB and RIRB sizes
****************************************************************************/
static int
hdac_get_capabilities(struct hdac_softc *sc)
{
uint16_t gcap;
uint8_t corbsize, rirbsize;
gcap = HDAC_READ_2(&sc->mem, HDAC_GCAP);
sc->num_iss = HDAC_GCAP_ISS(gcap);
sc->num_oss = HDAC_GCAP_OSS(gcap);
sc->num_bss = HDAC_GCAP_BSS(gcap);
sc->support_64bit = HDA_FLAG_MATCH(gcap, HDAC_GCAP_64OK);
corbsize = HDAC_READ_1(&sc->mem, HDAC_CORBSIZE);
if ((corbsize & HDAC_CORBSIZE_CORBSZCAP_256) ==
HDAC_CORBSIZE_CORBSZCAP_256)
sc->corb_size = 256;
else if ((corbsize & HDAC_CORBSIZE_CORBSZCAP_16) ==
HDAC_CORBSIZE_CORBSZCAP_16)
sc->corb_size = 16;
else if ((corbsize & HDAC_CORBSIZE_CORBSZCAP_2) ==
HDAC_CORBSIZE_CORBSZCAP_2)
sc->corb_size = 2;
else {
device_printf(sc->dev, "%s: Invalid corb size (%x)\n",
__func__, corbsize);
return (ENXIO);
}
rirbsize = HDAC_READ_1(&sc->mem, HDAC_RIRBSIZE);
if ((rirbsize & HDAC_RIRBSIZE_RIRBSZCAP_256) ==
HDAC_RIRBSIZE_RIRBSZCAP_256)
sc->rirb_size = 256;
else if ((rirbsize & HDAC_RIRBSIZE_RIRBSZCAP_16) ==
HDAC_RIRBSIZE_RIRBSZCAP_16)
sc->rirb_size = 16;
else if ((rirbsize & HDAC_RIRBSIZE_RIRBSZCAP_2) ==
HDAC_RIRBSIZE_RIRBSZCAP_2)
sc->rirb_size = 2;
else {
device_printf(sc->dev, "%s: Invalid rirb size (%x)\n",
__func__, rirbsize);
return (ENXIO);
}
return (0);
}
/****************************************************************************
* void hdac_dma_cb
*
* This function is called by bus_dmamap_load when the mapping has been
* established. We just record the physical address of the mapping into
* the struct hdac_dma passed in.
****************************************************************************/
static void
hdac_dma_cb(void *callback_arg, bus_dma_segment_t *segs, int nseg, int error)
{
struct hdac_dma *dma;
if (error == 0) {
dma = (struct hdac_dma *)callback_arg;
dma->dma_paddr = segs[0].ds_addr;
}
}
static void
hdac_dma_nocache(void *ptr)
{
#if defined(__i386__) || defined(__amd64__)
pt_entry_t *pte;
vm_offset_t va;
va = (vm_offset_t)ptr;
pte = vtopte(va);
if (pte) {
*pte |= PG_N;
invltlb();
}
#endif
}
/****************************************************************************
* int hdac_dma_alloc
*
* This function allocate and setup a dma region (struct hdac_dma).
* It must be freed by a corresponding hdac_dma_free.
****************************************************************************/
static int
hdac_dma_alloc(struct hdac_softc *sc, struct hdac_dma *dma, bus_size_t size)
{
int result;
int lowaddr;
lowaddr = (sc->support_64bit) ? BUS_SPACE_MAXADDR :
BUS_SPACE_MAXADDR_32BIT;
bzero(dma, sizeof(*dma));
/*
* Create a DMA tag
*/
result = bus_dma_tag_create(NULL, /* parent */
HDAC_DMA_ALIGNMENT, /* alignment */
0, /* boundary */
lowaddr, /* lowaddr */
BUS_SPACE_MAXADDR, /* highaddr */
NULL, /* filtfunc */
NULL, /* fistfuncarg */
size, /* maxsize */
1, /* nsegments */
size, /* maxsegsz */
0, /* flags */
NULL, /* lockfunc */
NULL, /* lockfuncarg */
&dma->dma_tag); /* dmat */
if (result != 0) {
device_printf(sc->dev, "%s: bus_dma_tag_create failed (%x)\n",
__func__, result);
goto fail;
}
/*
* Allocate DMA memory
*/
result = bus_dmamem_alloc(dma->dma_tag, (void **)&dma->dma_vaddr,
BUS_DMA_NOWAIT | BUS_DMA_COHERENT, &dma->dma_map);
if (result != 0) {
device_printf(sc->dev, "%s: bus_dmamem_alloc failed (%x)\n",
__func__, result);
goto fail;
}
/*
* Map the memory
*/
result = bus_dmamap_load(dma->dma_tag, dma->dma_map,
(void *)dma->dma_vaddr, size, hdac_dma_cb, (void *)dma,
BUS_DMA_NOWAIT);
if (result != 0 || dma->dma_paddr == 0) {
device_printf(sc->dev, "%s: bus_dmamem_load failed (%x)\n",
__func__, result);
goto fail;
}
bzero((void *)dma->dma_vaddr, size);
hdac_dma_nocache(dma->dma_vaddr);
return (0);
fail:
if (dma->dma_map != NULL)
bus_dmamem_free(dma->dma_tag, dma->dma_vaddr, dma->dma_map);
if (dma->dma_tag != NULL)
bus_dma_tag_destroy(dma->dma_tag);
return (result);
}
/****************************************************************************
* void hdac_dma_free(struct hdac_dma *)
*
* Free a struct dhac_dma that has been previously allocated via the
* hdac_dma_alloc function.
****************************************************************************/
static void
hdac_dma_free(struct hdac_dma *dma)
{
if (dma->dma_tag != NULL) {
/* Flush caches */
bus_dmamap_sync(dma->dma_tag, dma->dma_map,
BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE);
bus_dmamap_unload(dma->dma_tag, dma->dma_map);
bus_dmamem_free(dma->dma_tag, dma->dma_vaddr, dma->dma_map);
bus_dma_tag_destroy(dma->dma_tag);
}
}
/****************************************************************************
* int hdac_mem_alloc(struct hdac_softc *)
*
* Allocate all the bus resources necessary to speak with the physical
* controller.
****************************************************************************/
static int
hdac_mem_alloc(struct hdac_softc *sc)
{
struct hdac_mem *mem;
mem = &sc->mem;
mem->mem_rid = PCIR_BAR(0);
mem->mem_res = bus_alloc_resource_any(sc->dev, SYS_RES_MEMORY,
&mem->mem_rid, RF_ACTIVE);
if (mem->mem_res == NULL) {
device_printf(sc->dev,
"%s: Unable to allocate memory resource\n", __func__);
return (ENOMEM);
}
mem->mem_tag = rman_get_bustag(mem->mem_res);
mem->mem_handle = rman_get_bushandle(mem->mem_res);
return (0);
}
/****************************************************************************
* void hdac_mem_free(struct hdac_softc *)
*
* Free up resources previously allocated by hdac_mem_alloc.
****************************************************************************/
static void
hdac_mem_free(struct hdac_softc *sc)
{
struct hdac_mem *mem;
mem = &sc->mem;
if (mem->mem_res != NULL)
bus_release_resource(sc->dev, SYS_RES_MEMORY, mem->mem_rid,
mem->mem_res);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
mem->mem_res = NULL;
}
/****************************************************************************
* int hdac_irq_alloc(struct hdac_softc *)
*
* Allocate and setup the resources necessary for interrupt handling.
****************************************************************************/
static int
hdac_irq_alloc(struct hdac_softc *sc)
{
struct hdac_irq *irq;
int result;
irq = &sc->irq;
irq->irq_rid = 0x0;
irq->irq_res = bus_alloc_resource_any(sc->dev, SYS_RES_IRQ,
&irq->irq_rid, RF_SHAREABLE | RF_ACTIVE);
if (irq->irq_res == NULL) {
device_printf(sc->dev, "%s: Unable to allocate irq\n",
__func__);
goto fail;
}
result = snd_setup_intr(sc->dev, irq->irq_res, INTR_MPSAFE,
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
hdac_intr_handler, sc, &irq->irq_handle);
if (result != 0) {
device_printf(sc->dev,
"%s: Unable to setup interrupt handler (%x)\n",
__func__, result);
goto fail;
}
return (0);
fail:
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
hdac_irq_free(sc);
return (ENXIO);
}
/****************************************************************************
* void hdac_irq_free(struct hdac_softc *)
*
* Free up resources previously allocated by hdac_irq_alloc.
****************************************************************************/
static void
hdac_irq_free(struct hdac_softc *sc)
{
struct hdac_irq *irq;
irq = &sc->irq;
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
if (irq->irq_res != NULL && irq->irq_handle != NULL)
bus_teardown_intr(sc->dev, irq->irq_res, irq->irq_handle);
if (irq->irq_res != NULL)
bus_release_resource(sc->dev, SYS_RES_IRQ, irq->irq_rid,
irq->irq_res);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
irq->irq_handle = NULL;
irq->irq_res = NULL;
}
/****************************************************************************
* void hdac_corb_init(struct hdac_softc *)
*
* Initialize the corb registers for operations but do not start it up yet.
* The CORB engine must not be running when this function is called.
****************************************************************************/
static void
hdac_corb_init(struct hdac_softc *sc)
{
uint8_t corbsize;
uint64_t corbpaddr;
/* Setup the CORB size. */
switch (sc->corb_size) {
case 256:
corbsize = HDAC_CORBSIZE_CORBSIZE(HDAC_CORBSIZE_CORBSIZE_256);
break;
case 16:
corbsize = HDAC_CORBSIZE_CORBSIZE(HDAC_CORBSIZE_CORBSIZE_16);
break;
case 2:
corbsize = HDAC_CORBSIZE_CORBSIZE(HDAC_CORBSIZE_CORBSIZE_2);
break;
default:
panic("%s: Invalid CORB size (%x)\n", __func__, sc->corb_size);
}
HDAC_WRITE_1(&sc->mem, HDAC_CORBSIZE, corbsize);
/* Setup the CORB Address in the hdac */
corbpaddr = (uint64_t)sc->corb_dma.dma_paddr;
HDAC_WRITE_4(&sc->mem, HDAC_CORBLBASE, (uint32_t)corbpaddr);
HDAC_WRITE_4(&sc->mem, HDAC_CORBUBASE, (uint32_t)(corbpaddr >> 32));
/* Set the WP and RP */
sc->corb_wp = 0;
HDAC_WRITE_2(&sc->mem, HDAC_CORBWP, sc->corb_wp);
HDAC_WRITE_2(&sc->mem, HDAC_CORBRP, HDAC_CORBRP_CORBRPRST);
/*
* The HDA specification indicates that the CORBRPRST bit will always
* read as zero. Unfortunately, it seems that at least the 82801G
* doesn't reset the bit to zero, which stalls the corb engine.
* manually reset the bit to zero before continuing.
*/
HDAC_WRITE_2(&sc->mem, HDAC_CORBRP, 0x0);
/* Enable CORB error reporting */
#if 0
HDAC_WRITE_1(&sc->mem, HDAC_CORBCTL, HDAC_CORBCTL_CMEIE);
#endif
}
/****************************************************************************
* void hdac_rirb_init(struct hdac_softc *)
*
* Initialize the rirb registers for operations but do not start it up yet.
* The RIRB engine must not be running when this function is called.
****************************************************************************/
static void
hdac_rirb_init(struct hdac_softc *sc)
{
uint8_t rirbsize;
uint64_t rirbpaddr;
/* Setup the RIRB size. */
switch (sc->rirb_size) {
case 256:
rirbsize = HDAC_RIRBSIZE_RIRBSIZE(HDAC_RIRBSIZE_RIRBSIZE_256);
break;
case 16:
rirbsize = HDAC_RIRBSIZE_RIRBSIZE(HDAC_RIRBSIZE_RIRBSIZE_16);
break;
case 2:
rirbsize = HDAC_RIRBSIZE_RIRBSIZE(HDAC_RIRBSIZE_RIRBSIZE_2);
break;
default:
panic("%s: Invalid RIRB size (%x)\n", __func__, sc->rirb_size);
}
HDAC_WRITE_1(&sc->mem, HDAC_RIRBSIZE, rirbsize);
/* Setup the RIRB Address in the hdac */
rirbpaddr = (uint64_t)sc->rirb_dma.dma_paddr;
HDAC_WRITE_4(&sc->mem, HDAC_RIRBLBASE, (uint32_t)rirbpaddr);
HDAC_WRITE_4(&sc->mem, HDAC_RIRBUBASE, (uint32_t)(rirbpaddr >> 32));
/* Setup the WP and RP */
sc->rirb_rp = 0;
HDAC_WRITE_2(&sc->mem, HDAC_RIRBWP, HDAC_RIRBWP_RIRBWPRST);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
if (sc->polling == 0) {
/* Setup the interrupt threshold */
HDAC_WRITE_2(&sc->mem, HDAC_RINTCNT, sc->rirb_size / 2);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
/* Enable Overrun and response received reporting */
#if 0
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
HDAC_WRITE_1(&sc->mem, HDAC_RIRBCTL,
HDAC_RIRBCTL_RIRBOIC | HDAC_RIRBCTL_RINTCTL);
#else
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
HDAC_WRITE_1(&sc->mem, HDAC_RIRBCTL, HDAC_RIRBCTL_RINTCTL);
#endif
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
}
/*
* Make sure that the Host CPU cache doesn't contain any dirty
* cache lines that falls in the rirb. If I understood correctly, it
* should be sufficient to do this only once as the rirb is purely
* read-only from now on.
*/
bus_dmamap_sync(sc->rirb_dma.dma_tag, sc->rirb_dma.dma_map,
BUS_DMASYNC_PREREAD);
}
/****************************************************************************
* void hdac_corb_start(hdac_softc *)
*
* Startup the corb DMA engine
****************************************************************************/
static void
hdac_corb_start(struct hdac_softc *sc)
{
uint32_t corbctl;
corbctl = HDAC_READ_1(&sc->mem, HDAC_CORBCTL);
corbctl |= HDAC_CORBCTL_CORBRUN;
HDAC_WRITE_1(&sc->mem, HDAC_CORBCTL, corbctl);
}
/****************************************************************************
* void hdac_rirb_start(hdac_softc *)
*
* Startup the rirb DMA engine
****************************************************************************/
static void
hdac_rirb_start(struct hdac_softc *sc)
{
uint32_t rirbctl;
rirbctl = HDAC_READ_1(&sc->mem, HDAC_RIRBCTL);
rirbctl |= HDAC_RIRBCTL_RIRBDMAEN;
HDAC_WRITE_1(&sc->mem, HDAC_RIRBCTL, rirbctl);
}
/****************************************************************************
* void hdac_scan_codecs(struct hdac_softc *)
*
* Scan the bus for available codecs.
****************************************************************************/
static void
hdac_scan_codecs(struct hdac_softc *sc)
{
struct hdac_codec *codec;
int i;
uint16_t statests;
statests = HDAC_READ_2(&sc->mem, HDAC_STATESTS);
for (i = 0; i < HDAC_CODEC_MAX; i++) {
if (HDAC_STATESTS_SDIWAKE(statests, i)) {
/* We have found a codec. */
hdac_unlock(sc);
codec = (struct hdac_codec *)malloc(sizeof(*codec),
M_HDAC, M_ZERO | M_NOWAIT);
hdac_lock(sc);
if (codec == NULL) {
device_printf(sc->dev,
"Unable to allocate memory for codec\n");
continue;
}
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
codec->commands = NULL;
codec->responses_received = 0;
codec->verbs_sent = 0;
codec->sc = sc;
codec->cad = i;
sc->codecs[i] = codec;
if (hdac_probe_codec(codec) != 0)
break;
}
}
/* All codecs have been probed, now try to attach drivers to them */
/* bus_generic_attach(sc->dev); */
}
/****************************************************************************
* void hdac_probe_codec(struct hdac_softc *, int)
*
* Probe a the given codec_id for available function groups.
****************************************************************************/
static int
hdac_probe_codec(struct hdac_codec *codec)
{
struct hdac_softc *sc = codec->sc;
struct hdac_devinfo *devinfo;
uint32_t vendorid, revisionid, subnode;
int startnode;
int endnode;
int i;
nid_t cad = codec->cad;
HDA_BOOTVERBOSE(
device_printf(sc->dev, "HDA_DEBUG: Probing codec: %d\n", cad);
);
vendorid = hdac_command(sc,
HDA_CMD_GET_PARAMETER(cad, 0x0, HDA_PARAM_VENDOR_ID),
cad);
revisionid = hdac_command(sc,
HDA_CMD_GET_PARAMETER(cad, 0x0, HDA_PARAM_REVISION_ID),
cad);
subnode = hdac_command(sc,
HDA_CMD_GET_PARAMETER(cad, 0x0, HDA_PARAM_SUB_NODE_COUNT),
cad);
startnode = HDA_PARAM_SUB_NODE_COUNT_START(subnode);
endnode = startnode + HDA_PARAM_SUB_NODE_COUNT_TOTAL(subnode);
HDA_BOOTVERBOSE(
device_printf(sc->dev, "HDA_DEBUG: \tstartnode=%d endnode=%d\n",
startnode, endnode);
);
for (i = startnode; i < endnode; i++) {
devinfo = hdac_probe_function(codec, i);
if (devinfo != NULL) {
/* XXX Ignore other FG. */
devinfo->vendor_id =
HDA_PARAM_VENDOR_ID_VENDOR_ID(vendorid);
devinfo->device_id =
HDA_PARAM_VENDOR_ID_DEVICE_ID(vendorid);
devinfo->revision_id =
HDA_PARAM_REVISION_ID_REVISION_ID(revisionid);
devinfo->stepping_id =
HDA_PARAM_REVISION_ID_STEPPING_ID(revisionid);
HDA_BOOTVERBOSE(
device_printf(sc->dev,
"HDA_DEBUG: \tFound AFG nid=%d "
"[startnode=%d endnode=%d]\n",
devinfo->nid, startnode, endnode);
);
return (1);
}
}
HDA_BOOTVERBOSE(
device_printf(sc->dev, "HDA_DEBUG: \tAFG not found\n");
);
return (0);
}
static struct hdac_devinfo *
hdac_probe_function(struct hdac_codec *codec, nid_t nid)
{
struct hdac_softc *sc = codec->sc;
struct hdac_devinfo *devinfo;
uint32_t fctgrptype;
nid_t cad = codec->cad;
fctgrptype = HDA_PARAM_FCT_GRP_TYPE_NODE_TYPE(hdac_command(sc,
HDA_CMD_GET_PARAMETER(cad, nid, HDA_PARAM_FCT_GRP_TYPE), cad));
/* XXX For now, ignore other FG. */
if (fctgrptype != HDA_PARAM_FCT_GRP_TYPE_NODE_TYPE_AUDIO)
return (NULL);
hdac_unlock(sc);
devinfo = (struct hdac_devinfo *)malloc(sizeof(*devinfo), M_HDAC,
M_NOWAIT | M_ZERO);
hdac_lock(sc);
if (devinfo == NULL) {
device_printf(sc->dev, "%s: Unable to allocate ivar\n",
__func__);
return (NULL);
}
devinfo->nid = nid;
devinfo->node_type = fctgrptype;
devinfo->codec = codec;
hdac_add_child(sc, devinfo);
return (devinfo);
}
static void
hdac_add_child(struct hdac_softc *sc, struct hdac_devinfo *devinfo)
{
devinfo->dev = device_add_child(sc->dev, NULL, -1);
device_set_ivars(devinfo->dev, (void *)devinfo);
/* XXX - Print more information when booting verbose??? */
}
static void
hdac_widget_connection_parse(struct hdac_widget *w)
{
struct hdac_softc *sc = w->devinfo->codec->sc;
uint32_t res;
int i, j, max, found, entnum, cnid;
nid_t cad = w->devinfo->codec->cad;
nid_t nid = w->nid;
res = hdac_command(sc,
HDA_CMD_GET_PARAMETER(cad, nid, HDA_PARAM_CONN_LIST_LENGTH), cad);
w->nconns = HDA_PARAM_CONN_LIST_LENGTH_LIST_LENGTH(res);
if (w->nconns < 1)
return;
entnum = HDA_PARAM_CONN_LIST_LENGTH_LONG_FORM(res) ? 2 : 4;
res = 0;
i = 0;
found = 0;
max = (sizeof(w->conns) / sizeof(w->conns[0])) - 1;
while (i < w->nconns) {
res = hdac_command(sc,
HDA_CMD_GET_CONN_LIST_ENTRY(cad, nid, i), cad);
for (j = 0; j < entnum; j++) {
cnid = res;
cnid >>= (32 / entnum) * j;
cnid &= (1 << (32 / entnum)) - 1;
if (cnid == 0)
continue;
if (found > max) {
device_printf(sc->dev,
"node %d: Adding %d: "
"Max connection reached!\n",
nid, cnid);
continue;
}
w->conns[found++] = cnid;
}
i += entnum;
}
HDA_BOOTVERBOSE(
if (w->nconns != found) {
device_printf(sc->dev,
"HDA_DEBUG: nid=%d WARNING!!! Connection "
"length=%d != found=%d\n",
nid, w->nconns, found);
}
);
}
static uint32_t
hdac_widget_pin_getconfig(struct hdac_widget *w)
{
struct hdac_softc *sc;
uint32_t config, id;
nid_t cad, nid;
sc = w->devinfo->codec->sc;
cad = w->devinfo->codec->cad;
nid = w->nid;
id = hdac_codec_id(w->devinfo);
config = hdac_command(sc,
HDA_CMD_GET_CONFIGURATION_DEFAULT(cad, nid),
cad);
/*
* XXX REWRITE!!!! Don't argue!
*/
if (id == HDA_CODEC_ALC880 &&
(sc->pci_subvendor == CLEVO_D900T_SUBVENDOR ||
sc->pci_subvendor == ASUS_M5200_SUBVENDOR)) {
/*
* Super broken BIOS
*/
switch (nid) {
case 20:
break;
case 21:
break;
case 22:
break;
case 23:
break;
case 24: /* MIC1 */
config &= ~HDA_CONFIG_DEFAULTCONF_DEVICE_MASK;
config |= HDA_CONFIG_DEFAULTCONF_DEVICE_MIC_IN;
break;
case 25: /* XXX MIC2 */
config &= ~HDA_CONFIG_DEFAULTCONF_DEVICE_MASK;
config |= HDA_CONFIG_DEFAULTCONF_DEVICE_MIC_IN;
break;
case 26: /* LINE1 */
config &= ~HDA_CONFIG_DEFAULTCONF_DEVICE_MASK;
config |= HDA_CONFIG_DEFAULTCONF_DEVICE_LINE_IN;
break;
case 27: /* XXX LINE2 */
config &= ~HDA_CONFIG_DEFAULTCONF_DEVICE_MASK;
config |= HDA_CONFIG_DEFAULTCONF_DEVICE_LINE_IN;
break;
case 28: /* CD */
config &= ~HDA_CONFIG_DEFAULTCONF_DEVICE_MASK;
config |= HDA_CONFIG_DEFAULTCONF_DEVICE_CD;
break;
case 30:
break;
case 31:
break;
default:
break;
}
}
return (config);
}
static void
hdac_widget_pin_parse(struct hdac_widget *w)
{
struct hdac_softc *sc = w->devinfo->codec->sc;
uint32_t config, pincap;
char *devstr, *connstr;
nid_t cad = w->devinfo->codec->cad;
nid_t nid = w->nid;
config = hdac_widget_pin_getconfig(w);
w->wclass.pin.config = config;
pincap = hdac_command(sc,
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
HDA_CMD_GET_PARAMETER(cad, nid, HDA_PARAM_PIN_CAP), cad);
w->wclass.pin.cap = pincap;
w->wclass.pin.ctrl = hdac_command(sc,
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
HDA_CMD_GET_PIN_WIDGET_CTRL(cad, nid), cad) &
~(HDA_CMD_SET_PIN_WIDGET_CTRL_HPHN_ENABLE |
HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE |
HDA_CMD_SET_PIN_WIDGET_CTRL_IN_ENABLE);
if (HDA_PARAM_PIN_CAP_HEADPHONE_CAP(pincap))
w->wclass.pin.ctrl |= HDA_CMD_SET_PIN_WIDGET_CTRL_HPHN_ENABLE;
if (HDA_PARAM_PIN_CAP_OUTPUT_CAP(pincap))
w->wclass.pin.ctrl |= HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE;
if (HDA_PARAM_PIN_CAP_INPUT_CAP(pincap))
w->wclass.pin.ctrl |= HDA_CMD_SET_PIN_WIDGET_CTRL_IN_ENABLE;
if (HDA_PARAM_PIN_CAP_EAPD_CAP(pincap)) {
w->param.eapdbtl = hdac_command(sc,
HDA_CMD_GET_EAPD_BTL_ENABLE(cad, nid), cad);
w->param.eapdbtl &= 0x7;
w->param.eapdbtl |= HDA_CMD_SET_EAPD_BTL_ENABLE_EAPD;
} else
w->param.eapdbtl = HDAC_INVALID;
switch (config & HDA_CONFIG_DEFAULTCONF_DEVICE_MASK) {
case HDA_CONFIG_DEFAULTCONF_DEVICE_LINE_OUT:
devstr = "line out";
break;
case HDA_CONFIG_DEFAULTCONF_DEVICE_SPEAKER:
devstr = "speaker";
break;
case HDA_CONFIG_DEFAULTCONF_DEVICE_HP_OUT:
devstr = "headphones out";
break;
case HDA_CONFIG_DEFAULTCONF_DEVICE_CD:
devstr = "CD";
break;
case HDA_CONFIG_DEFAULTCONF_DEVICE_SPDIF_OUT:
devstr = "SPDIF out";
break;
case HDA_CONFIG_DEFAULTCONF_DEVICE_DIGITAL_OTHER_OUT:
devstr = "digital (other) out";
break;
case HDA_CONFIG_DEFAULTCONF_DEVICE_MODEM_LINE:
devstr = "modem, line side";
break;
case HDA_CONFIG_DEFAULTCONF_DEVICE_MODEM_HANDSET:
devstr = "modem, handset side";
break;
case HDA_CONFIG_DEFAULTCONF_DEVICE_LINE_IN:
devstr = "line in";
break;
case HDA_CONFIG_DEFAULTCONF_DEVICE_AUX:
devstr = "AUX";
break;
case HDA_CONFIG_DEFAULTCONF_DEVICE_MIC_IN:
devstr = "Mic in";
break;
case HDA_CONFIG_DEFAULTCONF_DEVICE_TELEPHONY:
devstr = "telephony";
break;
case HDA_CONFIG_DEFAULTCONF_DEVICE_SPDIF_IN:
devstr = "SPDIF in";
break;
case HDA_CONFIG_DEFAULTCONF_DEVICE_DIGITAL_OTHER_IN:
devstr = "digital (other) in";
break;
case HDA_CONFIG_DEFAULTCONF_DEVICE_OTHER:
devstr = "other";
break;
default:
devstr = "unknown";
break;
}
switch (config & HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_MASK) {
case HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_JACK:
connstr = "jack";
break;
case HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_NONE:
connstr = "none";
break;
case HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_FIXED:
connstr = "fixed";
break;
case HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_BOTH:
connstr = "jack / fixed";
break;
default:
connstr = "unknown";
break;
}
strlcat(w->name, ": ", sizeof(w->name));
strlcat(w->name, devstr, sizeof(w->name));
strlcat(w->name, " (", sizeof(w->name));
strlcat(w->name, connstr, sizeof(w->name));
strlcat(w->name, ")", sizeof(w->name));
}
static void
hdac_widget_parse(struct hdac_widget *w)
{
struct hdac_softc *sc = w->devinfo->codec->sc;
uint32_t wcap, cap;
char *typestr;
nid_t cad = w->devinfo->codec->cad;
nid_t nid = w->nid;
wcap = hdac_command(sc,
HDA_CMD_GET_PARAMETER(cad, nid, HDA_PARAM_AUDIO_WIDGET_CAP),
cad);
w->param.widget_cap = wcap;
w->type = HDA_PARAM_AUDIO_WIDGET_CAP_TYPE(wcap);
switch (w->type) {
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_OUTPUT:
typestr = "audio output";
break;
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT:
typestr = "audio input";
break;
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER:
typestr = "audio mixer";
break;
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR:
typestr = "audio selector";
break;
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX:
typestr = "pin";
break;
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_POWER_WIDGET:
typestr = "power widget";
break;
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_VOLUME_WIDGET:
typestr = "volume widget";
break;
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_BEEP_WIDGET:
typestr = "beep widget";
break;
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_VENDOR_WIDGET:
typestr = "vendor widget";
break;
default:
typestr = "unknown type";
break;
}
strlcpy(w->name, typestr, sizeof(w->name));
if (HDA_PARAM_AUDIO_WIDGET_CAP_POWER_CTRL(wcap)) {
hdac_command(sc,
HDA_CMD_SET_POWER_STATE(cad, nid, HDA_CMD_POWER_STATE_D0),
cad);
DELAY(1000);
}
hdac_widget_connection_parse(w);
if (HDA_PARAM_AUDIO_WIDGET_CAP_OUT_AMP(wcap)) {
if (HDA_PARAM_AUDIO_WIDGET_CAP_AMP_OVR(wcap))
w->param.outamp_cap =
hdac_command(sc,
HDA_CMD_GET_PARAMETER(cad, nid,
HDA_PARAM_OUTPUT_AMP_CAP), cad);
else
w->param.outamp_cap =
w->devinfo->function.audio.outamp_cap;
} else
w->param.outamp_cap = 0;
if (HDA_PARAM_AUDIO_WIDGET_CAP_IN_AMP(wcap)) {
if (HDA_PARAM_AUDIO_WIDGET_CAP_AMP_OVR(wcap))
w->param.inamp_cap =
hdac_command(sc,
HDA_CMD_GET_PARAMETER(cad, nid,
HDA_PARAM_INPUT_AMP_CAP), cad);
else
w->param.inamp_cap =
w->devinfo->function.audio.inamp_cap;
} else
w->param.inamp_cap = 0;
if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_OUTPUT ||
w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT) {
if (HDA_PARAM_AUDIO_WIDGET_CAP_FORMAT_OVR(wcap)) {
cap = hdac_command(sc,
HDA_CMD_GET_PARAMETER(cad, nid,
HDA_PARAM_SUPP_STREAM_FORMATS), cad);
w->param.supp_stream_formats = (cap != 0) ? cap :
w->devinfo->function.audio.supp_stream_formats;
cap = hdac_command(sc,
HDA_CMD_GET_PARAMETER(cad, nid,
HDA_PARAM_SUPP_PCM_SIZE_RATE), cad);
w->param.supp_pcm_size_rate = (cap != 0) ? cap :
w->devinfo->function.audio.supp_pcm_size_rate;
} else {
w->param.supp_stream_formats =
w->devinfo->function.audio.supp_stream_formats;
w->param.supp_pcm_size_rate =
w->devinfo->function.audio.supp_pcm_size_rate;
}
} else {
w->param.supp_stream_formats = 0;
w->param.supp_pcm_size_rate = 0;
}
if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX)
hdac_widget_pin_parse(w);
}
static struct hdac_widget *
hdac_widget_get(struct hdac_devinfo *devinfo, nid_t nid)
{
if (devinfo == NULL || devinfo->widget == NULL ||
nid < devinfo->startnode || nid >= devinfo->endnode)
return (NULL);
return (&devinfo->widget[nid - devinfo->startnode]);
}
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
static __inline int
hda_poll_channel(struct hdac_chan *ch)
{
uint32_t sz, delta;
volatile uint32_t ptr;
if (ch->active == 0)
return (0);
sz = ch->blksz * ch->blkcnt;
ptr = HDAC_READ_4(&ch->devinfo->codec->sc->mem, ch->off + HDAC_SDLPIB);
ch->ptr = ptr;
ptr %= sz;
ptr &= ~(ch->blksz - 1);
delta = (sz + ptr - ch->prevptr) % sz;
if (delta < ch->blksz)
return (0);
ch->prevptr = ptr;
return (1);
}
#define hda_chan_active(sc) ((sc)->play.active + (sc)->rec.active)
static void
hda_poll_callback(void *arg)
{
struct hdac_softc *sc = arg;
uint32_t trigger = 0;
if (sc == NULL)
return;
hdac_lock(sc);
if (sc->polling == 0 || hda_chan_active(sc) == 0) {
hdac_unlock(sc);
return;
}
trigger |= (hda_poll_channel(&sc->play) != 0) ? 1 : 0;
trigger |= (hda_poll_channel(&sc->rec) != 0) ? 2 : 0;
/* XXX */
callout_reset(&sc->poll_hda, 1/*sc->poll_ticks*/,
hda_poll_callback, sc);
hdac_unlock(sc);
if (trigger & 1)
chn_intr(sc->play.c);
if (trigger & 2)
chn_intr(sc->rec.c);
}
static int
hdac_rirb_flush(struct hdac_softc *sc)
{
struct hdac_rirb *rirb_base, *rirb;
struct hdac_codec *codec;
struct hdac_command_list *commands;
nid_t cad;
uint32_t resp;
uint8_t rirbwp;
int ret = 0;
rirb_base = (struct hdac_rirb *)sc->rirb_dma.dma_vaddr;
rirbwp = HDAC_READ_1(&sc->mem, HDAC_RIRBWP);
bus_dmamap_sync(sc->rirb_dma.dma_tag, sc->rirb_dma.dma_map,
BUS_DMASYNC_POSTREAD);
while (sc->rirb_rp != rirbwp) {
sc->rirb_rp++;
sc->rirb_rp %= sc->rirb_size;
rirb = &rirb_base[sc->rirb_rp];
cad = HDAC_RIRB_RESPONSE_EX_SDATA_IN(rirb->response_ex);
if (cad < 0 || cad >= HDAC_CODEC_MAX ||
sc->codecs[cad] == NULL)
continue;
resp = rirb->response;
codec = sc->codecs[cad];
commands = codec->commands;
if (rirb->response_ex & HDAC_RIRB_RESPONSE_EX_UNSOLICITED) {
sc->unsolq[sc->unsolq_wp++] = (cad << 16) |
((resp >> 26) & 0xffff);
sc->unsolq_wp %= HDAC_UNSOLQ_MAX;
} else if (commands != NULL && commands->num_commands > 0 &&
codec->responses_received < commands->num_commands)
commands->responses[codec->responses_received++] =
resp;
ret++;
}
return (ret);
}
static int
hdac_unsolq_flush(struct hdac_softc *sc)
{
nid_t cad;
uint32_t tag;
int ret = 0;
if (sc->unsolq_st == HDAC_UNSOLQ_READY) {
sc->unsolq_st = HDAC_UNSOLQ_BUSY;
while (sc->unsolq_rp != sc->unsolq_wp) {
cad = sc->unsolq[sc->unsolq_rp] >> 16;
tag = sc->unsolq[sc->unsolq_rp++] & 0xffff;
sc->unsolq_rp %= HDAC_UNSOLQ_MAX;
hdac_unsolicited_handler(sc->codecs[cad], tag);
ret++;
}
sc->unsolq_st = HDAC_UNSOLQ_READY;
}
return (ret);
}
static void
hdac_poll_callback(void *arg)
{
struct hdac_softc *sc = arg;
if (sc == NULL)
return;
hdac_lock(sc);
if (sc->polling == 0) {
hdac_unlock(sc);
return;
}
hdac_rirb_flush(sc);
hdac_unsolq_flush(sc);
callout_reset(&sc->poll_hdac, max(hz >> 2, 1),
hdac_poll_callback, sc);
hdac_unlock(sc);
}
static void
hdac_stream_stop(struct hdac_chan *ch)
{
struct hdac_softc *sc = ch->devinfo->codec->sc;
uint32_t ctl;
ctl = HDAC_READ_1(&sc->mem, ch->off + HDAC_SDCTL0);
ctl &= ~(HDAC_SDCTL_IOCE | HDAC_SDCTL_FEIE | HDAC_SDCTL_DEIE |
HDAC_SDCTL_RUN);
HDAC_WRITE_1(&sc->mem, ch->off + HDAC_SDCTL0, ctl);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
ch->active = 0;
if (sc->polling != 0) {
int pollticks;
if (hda_chan_active(sc) == 0) {
callout_stop(&sc->poll_hda);
sc->poll_ticks = 1;
} else {
if (sc->play.active != 0)
ch = &sc->play;
else
ch = &sc->rec;
pollticks = ((uint64_t)hz * ch->blksz) /
((uint64_t)sndbuf_getbps(ch->b) *
sndbuf_getspd(ch->b));
pollticks >>= 2;
if (pollticks > hz)
pollticks = hz;
if (pollticks < 1) {
HDA_BOOTVERBOSE(
device_printf(sc->dev,
"%s: pollticks=%d < 1 !\n",
__func__, pollticks);
);
pollticks = 1;
}
if (pollticks > sc->poll_ticks) {
HDA_BOOTVERBOSE(
device_printf(sc->dev,
"%s: pollticks %d -> %d\n",
__func__, sc->poll_ticks,
pollticks);
);
sc->poll_ticks = pollticks;
callout_reset(&sc->poll_hda, 1,
hda_poll_callback, sc);
}
}
} else {
ctl = HDAC_READ_4(&sc->mem, HDAC_INTCTL);
ctl &= ~(1 << (ch->off >> 5));
HDAC_WRITE_4(&sc->mem, HDAC_INTCTL, ctl);
}
}
static void
hdac_stream_start(struct hdac_chan *ch)
{
struct hdac_softc *sc = ch->devinfo->codec->sc;
uint32_t ctl;
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
if (sc->polling != 0) {
int pollticks;
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
pollticks = ((uint64_t)hz * ch->blksz) /
((uint64_t)sndbuf_getbps(ch->b) * sndbuf_getspd(ch->b));
pollticks >>= 2;
if (pollticks > hz)
pollticks = hz;
if (pollticks < 1) {
HDA_BOOTVERBOSE(
device_printf(sc->dev,
"%s: pollticks=%d < 1 !\n",
__func__, pollticks);
);
pollticks = 1;
}
if (hda_chan_active(sc) == 0 || pollticks < sc->poll_ticks) {
HDA_BOOTVERBOSE(
if (hda_chan_active(sc) == 0) {
device_printf(sc->dev,
"%s: pollticks=%d\n",
__func__, pollticks);
} else {
device_printf(sc->dev,
"%s: pollticks %d -> %d\n",
__func__, sc->poll_ticks,
pollticks);
}
);
sc->poll_ticks = pollticks;
callout_reset(&sc->poll_hda, 1, hda_poll_callback,
sc);
}
ctl = HDAC_READ_1(&sc->mem, ch->off + HDAC_SDCTL0);
ctl |= HDAC_SDCTL_RUN;
} else {
ctl = HDAC_READ_4(&sc->mem, HDAC_INTCTL);
ctl |= 1 << (ch->off >> 5);
HDAC_WRITE_4(&sc->mem, HDAC_INTCTL, ctl);
ctl = HDAC_READ_1(&sc->mem, ch->off + HDAC_SDCTL0);
ctl |= HDAC_SDCTL_IOCE | HDAC_SDCTL_FEIE | HDAC_SDCTL_DEIE |
HDAC_SDCTL_RUN;
}
HDAC_WRITE_1(&sc->mem, ch->off + HDAC_SDCTL0, ctl);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
ch->active = 1;
}
static void
hdac_stream_reset(struct hdac_chan *ch)
{
struct hdac_softc *sc = ch->devinfo->codec->sc;
int timeout = 1000;
int to = timeout;
uint32_t ctl;
ctl = HDAC_READ_1(&sc->mem, ch->off + HDAC_SDCTL0);
ctl |= HDAC_SDCTL_SRST;
HDAC_WRITE_1(&sc->mem, ch->off + HDAC_SDCTL0, ctl);
do {
ctl = HDAC_READ_1(&sc->mem, ch->off + HDAC_SDCTL0);
if (ctl & HDAC_SDCTL_SRST)
break;
DELAY(10);
} while (--to);
if (!(ctl & HDAC_SDCTL_SRST)) {
device_printf(sc->dev, "timeout in reset\n");
}
ctl &= ~HDAC_SDCTL_SRST;
HDAC_WRITE_1(&sc->mem, ch->off + HDAC_SDCTL0, ctl);
to = timeout;
do {
ctl = HDAC_READ_1(&sc->mem, ch->off + HDAC_SDCTL0);
if (!(ctl & HDAC_SDCTL_SRST))
break;
DELAY(10);
} while (--to);
if (ctl & HDAC_SDCTL_SRST)
device_printf(sc->dev, "can't reset!\n");
}
static void
hdac_stream_setid(struct hdac_chan *ch)
{
struct hdac_softc *sc = ch->devinfo->codec->sc;
uint32_t ctl;
ctl = HDAC_READ_1(&sc->mem, ch->off + HDAC_SDCTL2);
ctl &= ~HDAC_SDCTL2_STRM_MASK;
ctl |= ch->sid << HDAC_SDCTL2_STRM_SHIFT;
HDAC_WRITE_1(&sc->mem, ch->off + HDAC_SDCTL2, ctl);
}
static void
hdac_bdl_setup(struct hdac_chan *ch)
{
struct hdac_softc *sc = ch->devinfo->codec->sc;
struct hdac_bdle *bdle;
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
uint64_t addr;
uint32_t blksz, blkcnt;
int i;
addr = (uint64_t)sndbuf_getbufaddr(ch->b);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
bdle = (struct hdac_bdle *)ch->bdl_dma.dma_vaddr;
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
if (sc->polling != 0) {
blksz = ch->blksz * ch->blkcnt;
blkcnt = 1;
} else {
blksz = ch->blksz;
blkcnt = ch->blkcnt;
}
for (i = 0; i < blkcnt; i++, bdle++) {
bdle->addrl = (uint32_t)addr;
bdle->addrh = (uint32_t)(addr >> 32);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
bdle->len = blksz;
bdle->ioc = 1 ^ sc->polling;
addr += blksz;
}
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
HDAC_WRITE_4(&sc->mem, ch->off + HDAC_SDCBL, blksz * blkcnt);
HDAC_WRITE_2(&sc->mem, ch->off + HDAC_SDLVI, blkcnt - 1);
addr = ch->bdl_dma.dma_paddr;
HDAC_WRITE_4(&sc->mem, ch->off + HDAC_SDBDPL, (uint32_t)addr);
HDAC_WRITE_4(&sc->mem, ch->off + HDAC_SDBDPU, (uint32_t)(addr >> 32));
}
static int
hdac_bdl_alloc(struct hdac_chan *ch)
{
struct hdac_softc *sc = ch->devinfo->codec->sc;
int rc;
rc = hdac_dma_alloc(sc, &ch->bdl_dma,
sizeof(struct hdac_bdle) * HDA_BDL_MAX);
if (rc) {
device_printf(sc->dev, "can't alloc bdl\n");
return (rc);
}
hdac_dma_nocache(ch->bdl_dma.dma_vaddr);
return (0);
}
static void
hdac_audio_ctl_amp_set_internal(struct hdac_softc *sc, nid_t cad, nid_t nid,
int index, int lmute, int rmute,
int left, int right, int dir)
{
uint16_t v = 0;
if (sc == NULL)
return;
if (left != right || lmute != rmute) {
v = (1 << (15 - dir)) | (1 << 13) | (index << 8) |
(lmute << 7) | left;
hdac_command(sc,
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
HDA_CMD_SET_AMP_GAIN_MUTE(cad, nid, v), cad);
v = (1 << (15 - dir)) | (1 << 12) | (index << 8) |
(rmute << 7) | right;
} else
v = (1 << (15 - dir)) | (3 << 12) | (index << 8) |
(lmute << 7) | left;
hdac_command(sc,
HDA_CMD_SET_AMP_GAIN_MUTE(cad, nid, v), cad);
}
static void
hdac_audio_ctl_amp_set(struct hdac_audio_ctl *ctl, uint32_t mute,
int left, int right)
{
struct hdac_softc *sc;
nid_t nid, cad;
int lmute, rmute;
if (ctl == NULL || ctl->widget == NULL ||
ctl->widget->devinfo == NULL ||
ctl->widget->devinfo->codec == NULL ||
ctl->widget->devinfo->codec->sc == NULL)
return;
sc = ctl->widget->devinfo->codec->sc;
cad = ctl->widget->devinfo->codec->cad;
nid = ctl->widget->nid;
if (mute == HDA_AMP_MUTE_DEFAULT) {
lmute = HDA_AMP_LEFT_MUTED(ctl->muted);
rmute = HDA_AMP_RIGHT_MUTED(ctl->muted);
} else {
lmute = HDA_AMP_LEFT_MUTED(mute);
rmute = HDA_AMP_RIGHT_MUTED(mute);
}
if (ctl->dir & HDA_CTL_OUT)
hdac_audio_ctl_amp_set_internal(sc, cad, nid, ctl->index,
lmute, rmute, left, right, 0);
if (ctl->dir & HDA_CTL_IN)
hdac_audio_ctl_amp_set_internal(sc, cad, nid, ctl->index,
lmute, rmute, left, right, 1);
ctl->left = left;
ctl->right = right;
}
static void
hdac_widget_connection_select(struct hdac_widget *w, uint8_t index)
{
if (w == NULL || w->nconns < 1 || index > (w->nconns - 1))
return;
hdac_command(w->devinfo->codec->sc,
HDA_CMD_SET_CONNECTION_SELECT_CONTROL(w->devinfo->codec->cad,
w->nid, index), w->devinfo->codec->cad);
w->selconn = index;
}
/****************************************************************************
* uint32_t hdac_command_sendone_internal
*
* Wrapper function that sends only one command to a given codec
****************************************************************************/
static uint32_t
hdac_command_sendone_internal(struct hdac_softc *sc, uint32_t verb, nid_t cad)
{
struct hdac_command_list cl;
uint32_t response = HDAC_INVALID;
if (!hdac_lockowned(sc))
device_printf(sc->dev, "WARNING!!!! mtx not owned!!!!\n");
cl.num_commands = 1;
cl.verbs = &verb;
cl.responses = &response;
hdac_command_send_internal(sc, &cl, cad);
return (response);
}
/****************************************************************************
* hdac_command_send_internal
*
* Send a command list to the codec via the corb. We queue as much verbs as
* we can and msleep on the codec. When the interrupt get the responses
* back from the rirb, it will wake us up so we can queue the remaining verbs
* if any.
****************************************************************************/
static void
hdac_command_send_internal(struct hdac_softc *sc,
struct hdac_command_list *commands, nid_t cad)
{
struct hdac_codec *codec;
int corbrp;
uint32_t *corb;
int timeout;
int retry = 10;
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
struct hdac_rirb *rirb_base;
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
if (sc == NULL || sc->codecs[cad] == NULL || commands == NULL ||
commands->num_commands < 1)
return;
codec = sc->codecs[cad];
codec->commands = commands;
codec->responses_received = 0;
codec->verbs_sent = 0;
corb = (uint32_t *)sc->corb_dma.dma_vaddr;
rirb_base = (struct hdac_rirb *)sc->rirb_dma.dma_vaddr;
do {
if (codec->verbs_sent != commands->num_commands) {
/* Queue as many verbs as possible */
corbrp = HDAC_READ_2(&sc->mem, HDAC_CORBRP);
bus_dmamap_sync(sc->corb_dma.dma_tag,
sc->corb_dma.dma_map, BUS_DMASYNC_PREWRITE);
while (codec->verbs_sent != commands->num_commands &&
((sc->corb_wp + 1) % sc->corb_size) != corbrp) {
sc->corb_wp++;
sc->corb_wp %= sc->corb_size;
corb[sc->corb_wp] =
commands->verbs[codec->verbs_sent++];
}
/* Send the verbs to the codecs */
bus_dmamap_sync(sc->corb_dma.dma_tag,
sc->corb_dma.dma_map, BUS_DMASYNC_POSTWRITE);
HDAC_WRITE_2(&sc->mem, HDAC_CORBWP, sc->corb_wp);
}
timeout = 1000;
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
while (hdac_rirb_flush(sc) == 0 && --timeout)
DELAY(10);
} while ((codec->verbs_sent != commands->num_commands ||
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
codec->responses_received != commands->num_commands) && --retry);
if (retry == 0)
device_printf(sc->dev,
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
"%s: TIMEOUT numcmd=%d, sent=%d, received=%d\n",
__func__, commands->num_commands, codec->verbs_sent,
codec->responses_received);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
codec->commands = NULL;
codec->responses_received = 0;
codec->verbs_sent = 0;
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
hdac_unsolq_flush(sc);
}
/****************************************************************************
* Device Methods
****************************************************************************/
/****************************************************************************
* int hdac_probe(device_t)
*
* Probe for the presence of an hdac. If none is found, check for a generic
* match using the subclass of the device.
****************************************************************************/
static int
hdac_probe(device_t dev)
{
int i, result;
uint32_t model;
uint16_t class, subclass;
char desc[64];
model = (uint32_t)pci_get_device(dev) << 16;
model |= (uint32_t)pci_get_vendor(dev) & 0x0000ffff;
class = pci_get_class(dev);
subclass = pci_get_subclass(dev);
bzero(desc, sizeof(desc));
result = ENXIO;
for (i = 0; i < HDAC_DEVICES_LEN; i++) {
if (hdac_devices[i].model == model) {
strlcpy(desc, hdac_devices[i].desc, sizeof(desc));
result = BUS_PROBE_DEFAULT;
break;
}
if (HDA_DEV_MATCH(hdac_devices[i].model, model) &&
class == PCIC_MULTIMEDIA &&
subclass == PCIS_MULTIMEDIA_HDA) {
strlcpy(desc, hdac_devices[i].desc, sizeof(desc));
result = BUS_PROBE_GENERIC;
break;
}
}
if (result == ENXIO && class == PCIC_MULTIMEDIA &&
subclass == PCIS_MULTIMEDIA_HDA) {
strlcpy(desc, "Generic", sizeof(desc));
result = BUS_PROBE_GENERIC;
}
if (result != ENXIO) {
strlcat(desc, " High Definition Audio Controller",
sizeof(desc));
device_set_desc_copy(dev, desc);
}
return (result);
}
static void *
hdac_channel_init(kobj_t obj, void *data, struct snd_dbuf *b,
struct pcm_channel *c, int dir)
{
struct hdac_devinfo *devinfo = data;
struct hdac_softc *sc = devinfo->codec->sc;
struct hdac_chan *ch;
hdac_lock(sc);
if (dir == PCMDIR_PLAY) {
ch = &sc->play;
ch->off = (sc->num_iss + devinfo->function.audio.playcnt) << 5;
ch->dir = PCMDIR_PLAY;
ch->sid = ++sc->streamcnt;
devinfo->function.audio.playcnt++;
} else {
ch = &sc->rec;
ch->off = devinfo->function.audio.reccnt << 5;
ch->dir = PCMDIR_REC;
ch->sid = ++sc->streamcnt;
devinfo->function.audio.reccnt++;
}
if (devinfo->function.audio.quirks & HDA_QUIRK_FIXEDRATE) {
ch->caps.minspeed = ch->caps.maxspeed = 48000;
ch->pcmrates[0] = 48000;
ch->pcmrates[1] = 0;
}
ch->b = b;
ch->c = c;
ch->devinfo = devinfo;
ch->blksz = sc->chan_size / sc->chan_blkcnt;
ch->blkcnt = sc->chan_blkcnt;
hdac_unlock(sc);
if (hdac_bdl_alloc(ch) != 0) {
ch->blkcnt = 0;
return (NULL);
}
if (sndbuf_alloc(ch->b, sc->chan_dmat, sc->chan_size) != 0)
return (NULL);
hdac_dma_nocache(ch->b->buf);
return (ch);
}
static int
hdac_channel_setformat(kobj_t obj, void *data, uint32_t format)
{
struct hdac_chan *ch = data;
int i;
for (i = 0; ch->caps.fmtlist[i] != 0; i++) {
if (format == ch->caps.fmtlist[i]) {
ch->fmt = format;
return (0);
}
}
return (EINVAL);
}
static int
hdac_channel_setspeed(kobj_t obj, void *data, uint32_t speed)
{
struct hdac_chan *ch = data;
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
uint32_t spd = 0, threshold;
int i;
for (i = 0; ch->pcmrates[i] != 0; i++) {
spd = ch->pcmrates[i];
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
threshold = spd + ((ch->pcmrates[i + 1] != 0) ?
((ch->pcmrates[i + 1] - spd) >> 1) : 0);
if (speed < threshold)
break;
}
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
if (spd == 0) /* impossible */
ch->spd = 48000;
else
ch->spd = spd;
return (ch->spd);
}
static void
hdac_stream_setup(struct hdac_chan *ch)
{
struct hdac_softc *sc = ch->devinfo->codec->sc;
int i;
nid_t cad = ch->devinfo->codec->cad;
uint16_t fmt;
fmt = 0;
if (ch->fmt & AFMT_S16_LE)
fmt |= ch->bit16 << 4;
else if (ch->fmt & AFMT_S32_LE)
fmt |= ch->bit32 << 4;
else
fmt |= 1 << 4;
for (i = 0; i < HDA_RATE_TAB_LEN; i++) {
if (hda_rate_tab[i].valid && ch->spd == hda_rate_tab[i].rate) {
fmt |= hda_rate_tab[i].base;
fmt |= hda_rate_tab[i].mul;
fmt |= hda_rate_tab[i].div;
break;
}
}
if (ch->fmt & AFMT_STEREO)
fmt |= 1;
HDAC_WRITE_2(&sc->mem, ch->off + HDAC_SDFMT, fmt);
for (i = 0; ch->io[i] != -1; i++) {
HDA_BOOTVERBOSE(
device_printf(sc->dev,
"HDA_DEBUG: PCMDIR_%s: Stream setup nid=%d "
"fmt=0x%08x\n",
(ch->dir == PCMDIR_PLAY) ? "PLAY" : "REC",
ch->io[i], fmt);
);
hdac_command(sc,
HDA_CMD_SET_CONV_FMT(cad, ch->io[i], fmt), cad);
hdac_command(sc,
HDA_CMD_SET_CONV_STREAM_CHAN(cad, ch->io[i],
ch->sid << 4), cad);
}
}
static int
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
hdac_channel_setblocksize(kobj_t obj, void *data, uint32_t blksz)
{
struct hdac_chan *ch = data;
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
struct hdac_softc *sc = ch->devinfo->codec->sc;
blksz &= ~0x7f;
if (blksz < 0x80)
blksz = 0x80;
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
if ((blksz * ch->blkcnt) > sndbuf_getmaxsize(ch->b))
blksz = sndbuf_getmaxsize(ch->b) / ch->blkcnt;
if ((sndbuf_getblksz(ch->b) != blksz ||
sndbuf_getblkcnt(ch->b) != ch->blkcnt) &&
sndbuf_resize(ch->b, ch->blkcnt, blksz) != 0)
device_printf(sc->dev, "%s: failed blksz=%u blkcnt=%u\n",
__func__, blksz, ch->blkcnt);
ch->blksz = sndbuf_getblksz(ch->b);
return (ch->blksz);
}
static void
hdac_channel_stop(struct hdac_softc *sc, struct hdac_chan *ch)
{
struct hdac_devinfo *devinfo = ch->devinfo;
nid_t cad = devinfo->codec->cad;
int i;
hdac_stream_stop(ch);
for (i = 0; ch->io[i] != -1; i++) {
hdac_command(sc,
HDA_CMD_SET_CONV_STREAM_CHAN(cad, ch->io[i],
0), cad);
}
}
static void
hdac_channel_start(struct hdac_softc *sc, struct hdac_chan *ch)
{
ch->ptr = 0;
ch->prevptr = 0;
hdac_stream_stop(ch);
hdac_stream_reset(ch);
hdac_bdl_setup(ch);
hdac_stream_setid(ch);
hdac_stream_setup(ch);
hdac_stream_start(ch);
}
static int
hdac_channel_trigger(kobj_t obj, void *data, int go)
{
struct hdac_chan *ch = data;
struct hdac_softc *sc = ch->devinfo->codec->sc;
hdac_lock(sc);
switch (go) {
case PCMTRIG_START:
hdac_channel_start(sc, ch);
break;
case PCMTRIG_STOP:
case PCMTRIG_ABORT:
hdac_channel_stop(sc, ch);
break;
}
hdac_unlock(sc);
return (0);
}
static int
hdac_channel_getptr(kobj_t obj, void *data)
{
struct hdac_chan *ch = data;
struct hdac_softc *sc = ch->devinfo->codec->sc;
uint32_t ptr;
hdac_lock(sc);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
if (sc->polling != 0)
ptr = ch->ptr;
else
ptr = HDAC_READ_4(&sc->mem, ch->off + HDAC_SDLPIB);
hdac_unlock(sc);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
/*
* Round to available space and force 128 bytes aligment.
*/
ptr %= ch->blksz * ch->blkcnt;
ptr &= ~0x7f;
return (ptr);
}
static struct pcmchan_caps *
hdac_channel_getcaps(kobj_t obj, void *data)
{
return (&((struct hdac_chan *)data)->caps);
}
static kobj_method_t hdac_channel_methods[] = {
KOBJMETHOD(channel_init, hdac_channel_init),
KOBJMETHOD(channel_setformat, hdac_channel_setformat),
KOBJMETHOD(channel_setspeed, hdac_channel_setspeed),
KOBJMETHOD(channel_setblocksize, hdac_channel_setblocksize),
KOBJMETHOD(channel_trigger, hdac_channel_trigger),
KOBJMETHOD(channel_getptr, hdac_channel_getptr),
KOBJMETHOD(channel_getcaps, hdac_channel_getcaps),
{ 0, 0 }
};
CHANNEL_DECLARE(hdac_channel);
static int
hdac_audio_ctl_ossmixer_init(struct snd_mixer *m)
{
struct hdac_devinfo *devinfo = mix_getdevinfo(m);
struct hdac_softc *sc = devinfo->codec->sc;
struct hdac_widget *w, *cw;
struct hdac_audio_ctl *ctl;
uint32_t mask, recmask, id;
int i, j, softpcmvol;
nid_t cad;
hdac_lock(sc);
mask = 0;
recmask = 0;
id = hdac_codec_id(devinfo);
cad = devinfo->codec->cad;
for (i = 0; i < HDAC_HP_SWITCH_LEN; i++) {
if (!(HDA_DEV_MATCH(hdac_hp_switch[i].model,
sc->pci_subvendor) &&
hdac_hp_switch[i].id == id))
continue;
w = hdac_widget_get(devinfo, hdac_hp_switch[i].hpnid);
if (w != NULL && w->enable != 0
&& w->type ==
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX &&
HDA_PARAM_AUDIO_WIDGET_CAP_UNSOL_CAP(w->param.widget_cap)) {
hdac_command(sc,
HDA_CMD_SET_UNSOLICITED_RESPONSE(cad,
w->nid,
HDA_CMD_SET_UNSOLICITED_RESPONSE_ENABLE|
HDAC_UNSOLTAG_EVENT_HP), cad);
hdac_hp_switch_handler(devinfo);
HDA_BOOTVERBOSE(
device_printf(sc->dev,
"HDA_DEBUG: Enabling headphone/speaker "
"audio routing switching:\n");
device_printf(sc->dev,
"HDA_DEBUG: \tindex=%d nid=%d "
"pci_subvendor=0x%08x "
"codec=0x%08x\n",
i, w->nid, sc->pci_subvendor, id);
);
}
break;
}
for (i = 0; i < HDAC_EAPD_SWITCH_LEN; i++) {
if (!(HDA_DEV_MATCH(hdac_eapd_switch[i].model,
sc->pci_subvendor) &&
hdac_eapd_switch[i].id == id))
continue;
w = hdac_widget_get(devinfo, hdac_eapd_switch[i].eapdnid);
if (w == NULL || w->enable == 0)
break;
if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX ||
w->param.eapdbtl == HDAC_INVALID)
break;
mask |= SOUND_MASK_OGAIN;
break;
}
for (i = devinfo->startnode; i < devinfo->endnode; i++) {
w = hdac_widget_get(devinfo, i);
if (w == NULL || w->enable == 0)
continue;
mask |= w->ctlflags;
if (!(w->pflags & HDA_ADC_RECSEL))
continue;
for (j = 0; j < w->nconns; j++) {
cw = hdac_widget_get(devinfo, w->conns[j]);
if (cw == NULL || cw->enable == 0)
continue;
recmask |= cw->ctlflags;
}
}
if (!(mask & SOUND_MASK_PCM)) {
softpcmvol = 1;
mask |= SOUND_MASK_PCM;
} else
softpcmvol = (devinfo->function.audio.quirks &
HDA_QUIRK_SOFTPCMVOL) ? 1 : 0;
i = 0;
ctl = NULL;
while ((ctl = hdac_audio_ctl_each(devinfo, &i)) != NULL) {
if (ctl->widget == NULL || ctl->enable == 0)
continue;
if (!(ctl->ossmask & SOUND_MASK_PCM))
continue;
if (ctl->step > 0)
break;
}
if (softpcmvol == 1 || ctl == NULL) {
struct snddev_info *d = NULL;
d = device_get_softc(sc->dev);
if (d != NULL) {
d->flags |= SD_F_SOFTPCMVOL;
HDA_BOOTVERBOSE(
device_printf(sc->dev,
"HDA_DEBUG: %s Soft PCM volume\n",
(softpcmvol == 1) ?
"Forcing" : "Enabling");
);
}
i = 0;
/*
* XXX Temporary quirk for STAC9220, until the parser
* become smarter.
*/
if (id == HDA_CODEC_STAC9220) {
mask |= SOUND_MASK_VOLUME;
while ((ctl = hdac_audio_ctl_each(devinfo, &i)) !=
NULL) {
if (ctl->widget == NULL || ctl->enable == 0)
continue;
if (ctl->widget->nid == 11 && ctl->index == 0) {
ctl->ossmask = SOUND_MASK_VOLUME;
ctl->ossval = 100 | (100 << 8);
} else
ctl->ossmask &= ~SOUND_MASK_VOLUME;
}
} else {
mix_setparentchild(m, SOUND_MIXER_VOLUME,
SOUND_MASK_PCM);
if (!(mask & SOUND_MASK_VOLUME))
mix_setrealdev(m, SOUND_MIXER_VOLUME,
SOUND_MIXER_NONE);
while ((ctl = hdac_audio_ctl_each(devinfo, &i)) !=
NULL) {
if (ctl->widget == NULL || ctl->enable == 0)
continue;
if (!HDA_FLAG_MATCH(ctl->ossmask,
SOUND_MASK_VOLUME | SOUND_MASK_PCM))
continue;
if (!(ctl->mute == 1 && ctl->step == 0))
ctl->enable = 0;
}
}
}
recmask &= ~(SOUND_MASK_PCM | SOUND_MASK_RECLEV | SOUND_MASK_SPEAKER);
mix_setrecdevs(m, recmask);
mix_setdevs(m, mask);
hdac_unlock(sc);
return (0);
}
static int
hdac_audio_ctl_ossmixer_set(struct snd_mixer *m, unsigned dev,
unsigned left, unsigned right)
{
struct hdac_devinfo *devinfo = mix_getdevinfo(m);
struct hdac_softc *sc = devinfo->codec->sc;
struct hdac_widget *w;
struct hdac_audio_ctl *ctl;
uint32_t id, mute;
int lvol, rvol, mlvol, mrvol;
int i = 0;
hdac_lock(sc);
if (dev == SOUND_MIXER_OGAIN) {
uint32_t orig;
/*if (left != right || !(left == 0 || left == 1)) {
hdac_unlock(sc);
return (-1);
}*/
id = hdac_codec_id(devinfo);
for (i = 0; i < HDAC_EAPD_SWITCH_LEN; i++) {
if (HDA_DEV_MATCH(hdac_eapd_switch[i].model,
sc->pci_subvendor) &&
hdac_eapd_switch[i].id == id)
break;
}
if (i >= HDAC_EAPD_SWITCH_LEN) {
hdac_unlock(sc);
return (-1);
}
w = hdac_widget_get(devinfo, hdac_eapd_switch[i].eapdnid);
if (w == NULL ||
w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX ||
w->param.eapdbtl == HDAC_INVALID) {
hdac_unlock(sc);
return (-1);
}
orig = w->param.eapdbtl;
if (left == 0)
w->param.eapdbtl &= ~HDA_CMD_SET_EAPD_BTL_ENABLE_EAPD;
else
w->param.eapdbtl |= HDA_CMD_SET_EAPD_BTL_ENABLE_EAPD;
if (orig != w->param.eapdbtl) {
uint32_t val;
if (hdac_eapd_switch[i].hp_switch != 0)
hdac_hp_switch_handler(devinfo);
val = w->param.eapdbtl;
if (devinfo->function.audio.quirks & HDA_QUIRK_EAPDINV)
val ^= HDA_CMD_SET_EAPD_BTL_ENABLE_EAPD;
hdac_command(sc,
HDA_CMD_SET_EAPD_BTL_ENABLE(devinfo->codec->cad,
w->nid, val), devinfo->codec->cad);
}
hdac_unlock(sc);
return (left | (left << 8));
}
if (dev == SOUND_MIXER_VOLUME)
devinfo->function.audio.mvol = left | (right << 8);
mlvol = devinfo->function.audio.mvol & 0x7f;
mrvol = (devinfo->function.audio.mvol >> 8) & 0x7f;
lvol = 0;
rvol = 0;
i = 0;
while ((ctl = hdac_audio_ctl_each(devinfo, &i)) != NULL) {
if (ctl->widget == NULL || ctl->enable == 0 ||
!(ctl->ossmask & (1 << dev)))
continue;
switch (dev) {
case SOUND_MIXER_VOLUME:
lvol = ((ctl->ossval & 0x7f) * left) / 100;
lvol = (lvol * ctl->step) / 100;
rvol = (((ctl->ossval >> 8) & 0x7f) * right) / 100;
rvol = (rvol * ctl->step) / 100;
break;
default:
if (ctl->ossmask & SOUND_MASK_VOLUME) {
lvol = (left * mlvol) / 100;
lvol = (lvol * ctl->step) / 100;
rvol = (right * mrvol) / 100;
rvol = (rvol * ctl->step) / 100;
} else {
lvol = (left * ctl->step) / 100;
rvol = (right * ctl->step) / 100;
}
ctl->ossval = left | (right << 8);
break;
}
mute = 0;
if (ctl->step < 1) {
mute |= (left == 0) ? HDA_AMP_MUTE_LEFT :
(ctl->muted & HDA_AMP_MUTE_LEFT);
mute |= (right == 0) ? HDA_AMP_MUTE_RIGHT :
(ctl->muted & HDA_AMP_MUTE_RIGHT);
} else {
mute |= (lvol == 0) ? HDA_AMP_MUTE_LEFT :
(ctl->muted & HDA_AMP_MUTE_LEFT);
mute |= (rvol == 0) ? HDA_AMP_MUTE_RIGHT :
(ctl->muted & HDA_AMP_MUTE_RIGHT);
}
hdac_audio_ctl_amp_set(ctl, mute, lvol, rvol);
}
hdac_unlock(sc);
return (left | (right << 8));
}
static int
hdac_audio_ctl_ossmixer_setrecsrc(struct snd_mixer *m, uint32_t src)
{
struct hdac_devinfo *devinfo = mix_getdevinfo(m);
struct hdac_widget *w, *cw;
struct hdac_softc *sc = devinfo->codec->sc;
uint32_t ret = src, target;
int i, j;
target = 0;
for (i = 0; i < SOUND_MIXER_NRDEVICES; i++) {
if (src & (1 << i)) {
target = 1 << i;
break;
}
}
hdac_lock(sc);
for (i = devinfo->startnode; i < devinfo->endnode; i++) {
w = hdac_widget_get(devinfo, i);
if (w == NULL || w->enable == 0)
continue;
if (!(w->pflags & HDA_ADC_RECSEL))
continue;
for (j = 0; j < w->nconns; j++) {
cw = hdac_widget_get(devinfo, w->conns[j]);
if (cw == NULL || cw->enable == 0)
continue;
if ((target == SOUND_MASK_VOLUME &&
cw->type !=
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER) ||
(target != SOUND_MASK_VOLUME &&
cw->type ==
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER))
continue;
if (cw->ctlflags & target) {
hdac_widget_connection_select(w, j);
ret = target;
j += w->nconns;
}
}
}
hdac_unlock(sc);
return (ret);
}
static kobj_method_t hdac_audio_ctl_ossmixer_methods[] = {
KOBJMETHOD(mixer_init, hdac_audio_ctl_ossmixer_init),
KOBJMETHOD(mixer_set, hdac_audio_ctl_ossmixer_set),
KOBJMETHOD(mixer_setrecsrc, hdac_audio_ctl_ossmixer_setrecsrc),
{ 0, 0 }
};
MIXER_DECLARE(hdac_audio_ctl_ossmixer);
/****************************************************************************
* int hdac_attach(device_t)
*
* Attach the device into the kernel. Interrupts usually won't be enabled
* when this function is called. Setup everything that doesn't require
* interrupts and defer probing of codecs until interrupts are enabled.
****************************************************************************/
static int
hdac_attach(device_t dev)
{
struct hdac_softc *sc;
int result;
int i = 0;
sc = malloc(sizeof(*sc), M_DEVBUF, M_NOWAIT | M_ZERO);
if (sc == NULL) {
device_printf(dev, "cannot allocate softc\n");
return (ENOMEM);
}
sc->lock = snd_mtxcreate(device_get_nameunit(dev), HDAC_MTX_NAME);
if (sc->lock == NULL) {
device_printf(dev, "mutex creation failed\n");
free(sc, M_DEVBUF);
return (ENOMEM);
}
sc->dev = dev;
sc->pci_subvendor = (uint32_t)pci_get_subdevice(sc->dev) << 16;
sc->pci_subvendor |= (uint32_t)pci_get_subvendor(sc->dev) & 0x0000ffff;
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
callout_init(&sc->poll_hda, CALLOUT_MPSAFE);
callout_init(&sc->poll_hdac, CALLOUT_MPSAFE);
sc->poll_ticks = 1;
if (resource_int_value(device_get_name(sc->dev),
device_get_unit(sc->dev), "polling", &i) == 0 && i != 0)
sc->polling = 1;
else
sc->polling = 0;
sc->chan_size = pcm_getbuffersize(dev,
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
HDA_BUFSZ_MIN, HDA_BUFSZ_DEFAULT, HDA_BUFSZ_MAX);
if (resource_int_value(device_get_name(sc->dev),
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
device_get_unit(sc->dev), "blocksize", &i) == 0 && i > 0) {
i &= ~0x7f;
if (i < 0x80)
i = 0x80;
sc->chan_blkcnt = sc->chan_size / i;
i = 0;
while (sc->chan_blkcnt >> i)
i++;
sc->chan_blkcnt = 1 << (i - 1);
if (sc->chan_blkcnt < HDA_BDL_MIN)
sc->chan_blkcnt = HDA_BDL_MIN;
else if (sc->chan_blkcnt > HDA_BDL_MAX)
sc->chan_blkcnt = HDA_BDL_MAX;
} else
sc->chan_blkcnt = HDA_BDL_DEFAULT;
result = bus_dma_tag_create(NULL, /* parent */
HDAC_DMA_ALIGNMENT, /* alignment */
0, /* boundary */
BUS_SPACE_MAXADDR_32BIT, /* lowaddr */
BUS_SPACE_MAXADDR, /* highaddr */
NULL, /* filtfunc */
NULL, /* fistfuncarg */
sc->chan_size, /* maxsize */
1, /* nsegments */
sc->chan_size, /* maxsegsz */
0, /* flags */
NULL, /* lockfunc */
NULL, /* lockfuncarg */
&sc->chan_dmat); /* dmat */
if (result != 0) {
device_printf(sc->dev, "%s: bus_dma_tag_create failed (%x)\n",
__func__, result);
snd_mtxfree(sc->lock);
free(sc, M_DEVBUF);
return (ENXIO);
}
sc->hdabus = NULL;
for (i = 0; i < HDAC_CODEC_MAX; i++)
sc->codecs[i] = NULL;
pci_enable_busmaster(dev);
/* Allocate resources */
result = hdac_mem_alloc(sc);
if (result != 0)
goto hdac_attach_fail;
result = hdac_irq_alloc(sc);
if (result != 0)
goto hdac_attach_fail;
/* Get Capabilities */
result = hdac_get_capabilities(sc);
if (result != 0)
goto hdac_attach_fail;
/* Allocate CORB and RIRB dma memory */
result = hdac_dma_alloc(sc, &sc->corb_dma,
sc->corb_size * sizeof(uint32_t));
if (result != 0)
goto hdac_attach_fail;
result = hdac_dma_alloc(sc, &sc->rirb_dma,
sc->rirb_size * sizeof(struct hdac_rirb));
if (result != 0)
goto hdac_attach_fail;
/* Quiesce everything */
hdac_reset(sc);
/* Disable PCI-Express QOS */
pci_write_config(sc->dev, 0x44,
pci_read_config(sc->dev, 0x44, 1) & 0xf8, 1);
/* Initialize the CORB and RIRB */
hdac_corb_init(sc);
hdac_rirb_init(sc);
/* Defer remaining of initialization until interrupts are enabled */
sc->intrhook.ich_func = hdac_attach2;
sc->intrhook.ich_arg = (void *)sc;
if (cold == 0 || config_intrhook_establish(&sc->intrhook) != 0) {
sc->intrhook.ich_func = NULL;
hdac_attach2((void *)sc);
}
return (0);
hdac_attach_fail:
hdac_dma_free(&sc->rirb_dma);
hdac_dma_free(&sc->corb_dma);
hdac_irq_free(sc);
hdac_mem_free(sc);
snd_mtxfree(sc->lock);
free(sc, M_DEVBUF);
return (ENXIO);
}
static void
hdac_audio_parse(struct hdac_devinfo *devinfo)
{
struct hdac_softc *sc = devinfo->codec->sc;
struct hdac_widget *w;
uint32_t res;
int i;
nid_t cad, nid;
cad = devinfo->codec->cad;
nid = devinfo->nid;
hdac_command(sc,
HDA_CMD_SET_POWER_STATE(cad, nid, HDA_CMD_POWER_STATE_D0), cad);
DELAY(100);
res = hdac_command(sc,
HDA_CMD_GET_PARAMETER(cad , nid, HDA_PARAM_SUB_NODE_COUNT), cad);
devinfo->nodecnt = HDA_PARAM_SUB_NODE_COUNT_TOTAL(res);
devinfo->startnode = HDA_PARAM_SUB_NODE_COUNT_START(res);
devinfo->endnode = devinfo->startnode + devinfo->nodecnt;
HDA_BOOTVERBOSE(
device_printf(sc->dev, " Vendor: 0x%08x\n",
devinfo->vendor_id);
device_printf(sc->dev, " Device: 0x%08x\n",
devinfo->device_id);
device_printf(sc->dev, " Revision: 0x%08x\n",
devinfo->revision_id);
device_printf(sc->dev, " Stepping: 0x%08x\n",
devinfo->stepping_id);
device_printf(sc->dev, "PCI Subvendor: 0x%08x\n",
sc->pci_subvendor);
device_printf(sc->dev, " Nodes: start=%d "
"endnode=%d total=%d\n",
devinfo->startnode, devinfo->endnode, devinfo->nodecnt);
);
res = hdac_command(sc,
HDA_CMD_GET_PARAMETER(cad, nid, HDA_PARAM_SUPP_STREAM_FORMATS),
cad);
devinfo->function.audio.supp_stream_formats = res;
res = hdac_command(sc,
HDA_CMD_GET_PARAMETER(cad, nid, HDA_PARAM_SUPP_PCM_SIZE_RATE),
cad);
devinfo->function.audio.supp_pcm_size_rate = res;
res = hdac_command(sc,
HDA_CMD_GET_PARAMETER(cad, nid, HDA_PARAM_OUTPUT_AMP_CAP),
cad);
devinfo->function.audio.outamp_cap = res;
res = hdac_command(sc,
HDA_CMD_GET_PARAMETER(cad, nid, HDA_PARAM_INPUT_AMP_CAP),
cad);
devinfo->function.audio.inamp_cap = res;
if (devinfo->nodecnt > 0) {
hdac_unlock(sc);
devinfo->widget = (struct hdac_widget *)malloc(
sizeof(*(devinfo->widget)) * devinfo->nodecnt, M_HDAC,
M_NOWAIT | M_ZERO);
hdac_lock(sc);
} else
devinfo->widget = NULL;
if (devinfo->widget == NULL) {
device_printf(sc->dev, "unable to allocate widgets!\n");
devinfo->endnode = devinfo->startnode;
devinfo->nodecnt = 0;
return;
}
for (i = devinfo->startnode; i < devinfo->endnode; i++) {
w = hdac_widget_get(devinfo, i);
if (w == NULL)
device_printf(sc->dev, "Ghost widget! nid=%d!\n", i);
else {
w->devinfo = devinfo;
w->nid = i;
w->enable = 1;
w->selconn = -1;
w->pflags = 0;
w->ctlflags = 0;
w->param.eapdbtl = HDAC_INVALID;
hdac_widget_parse(w);
}
}
}
static void
hdac_audio_ctl_parse(struct hdac_devinfo *devinfo)
{
struct hdac_softc *sc = devinfo->codec->sc;
struct hdac_audio_ctl *ctls;
struct hdac_widget *w, *cw;
int i, j, cnt, max, ocap, icap;
int mute, offset, step, size;
/* XXX This is redundant */
max = 0;
for (i = devinfo->startnode; i < devinfo->endnode; i++) {
w = hdac_widget_get(devinfo, i);
if (w == NULL || w->enable == 0)
continue;
if (w->param.outamp_cap != 0)
max++;
if (w->param.inamp_cap != 0) {
switch (w->type) {
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR:
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER:
for (j = 0; j < w->nconns; j++) {
cw = hdac_widget_get(devinfo,
w->conns[j]);
if (cw == NULL || cw->enable == 0)
continue;
max++;
}
break;
default:
max++;
break;
}
}
}
devinfo->function.audio.ctlcnt = max;
if (max < 1)
return;
hdac_unlock(sc);
ctls = (struct hdac_audio_ctl *)malloc(
sizeof(*ctls) * max, M_HDAC, M_ZERO | M_NOWAIT);
hdac_lock(sc);
if (ctls == NULL) {
/* Blekh! */
device_printf(sc->dev, "unable to allocate ctls!\n");
devinfo->function.audio.ctlcnt = 0;
return;
}
cnt = 0;
for (i = devinfo->startnode; cnt < max && i < devinfo->endnode; i++) {
if (cnt >= max) {
device_printf(sc->dev, "%s: Ctl overflow!\n",
__func__);
break;
}
w = hdac_widget_get(devinfo, i);
if (w == NULL || w->enable == 0)
continue;
ocap = w->param.outamp_cap;
icap = w->param.inamp_cap;
if (ocap != 0) {
mute = HDA_PARAM_OUTPUT_AMP_CAP_MUTE_CAP(ocap);
step = HDA_PARAM_OUTPUT_AMP_CAP_NUMSTEPS(ocap);
size = HDA_PARAM_OUTPUT_AMP_CAP_STEPSIZE(ocap);
offset = HDA_PARAM_OUTPUT_AMP_CAP_OFFSET(ocap);
/*if (offset > step) {
HDA_BOOTVERBOSE(
device_printf(sc->dev,
"HDA_DEBUG: BUGGY outamp: nid=%d "
"[offset=%d > step=%d]\n",
w->nid, offset, step);
);
offset = step;
}*/
ctls[cnt].enable = 1;
ctls[cnt].widget = w;
ctls[cnt].mute = mute;
ctls[cnt].step = step;
ctls[cnt].size = size;
ctls[cnt].offset = offset;
ctls[cnt].left = offset;
ctls[cnt].right = offset;
ctls[cnt++].dir = HDA_CTL_OUT;
}
if (icap != 0) {
mute = HDA_PARAM_OUTPUT_AMP_CAP_MUTE_CAP(icap);
step = HDA_PARAM_OUTPUT_AMP_CAP_NUMSTEPS(icap);
size = HDA_PARAM_OUTPUT_AMP_CAP_STEPSIZE(icap);
offset = HDA_PARAM_OUTPUT_AMP_CAP_OFFSET(icap);
/*if (offset > step) {
HDA_BOOTVERBOSE(
device_printf(sc->dev,
"HDA_DEBUG: BUGGY inamp: nid=%d "
"[offset=%d > step=%d]\n",
w->nid, offset, step);
);
offset = step;
}*/
switch (w->type) {
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR:
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER:
for (j = 0; j < w->nconns; j++) {
if (cnt >= max) {
device_printf(sc->dev,
"%s: Ctl overflow!\n",
__func__);
break;
}
cw = hdac_widget_get(devinfo,
w->conns[j]);
if (cw == NULL || cw->enable == 0)
continue;
ctls[cnt].enable = 1;
ctls[cnt].widget = w;
ctls[cnt].childwidget = cw;
ctls[cnt].index = j;
ctls[cnt].mute = mute;
ctls[cnt].step = step;
ctls[cnt].size = size;
ctls[cnt].offset = offset;
ctls[cnt].left = offset;
ctls[cnt].right = offset;
ctls[cnt++].dir = HDA_CTL_IN;
}
break;
default:
if (cnt >= max) {
device_printf(sc->dev,
"%s: Ctl overflow!\n",
__func__);
break;
}
ctls[cnt].enable = 1;
ctls[cnt].widget = w;
ctls[cnt].mute = mute;
ctls[cnt].step = step;
ctls[cnt].size = size;
ctls[cnt].offset = offset;
ctls[cnt].left = offset;
ctls[cnt].right = offset;
ctls[cnt++].dir = HDA_CTL_IN;
break;
}
}
}
devinfo->function.audio.ctl = ctls;
}
static const struct {
uint32_t model;
uint32_t id;
uint32_t set, unset;
} hdac_quirks[] = {
/*
* XXX Force stereo quirk. Monoural recording / playback
* on few codecs (especially ALC880) seems broken or
* perhaps unsupported.
*/
{ HDA_MATCH_ALL, HDA_MATCH_ALL,
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
HDA_QUIRK_FORCESTEREO, 0 },
{ ACER_ALL_SUBVENDOR, HDA_MATCH_ALL,
HDA_QUIRK_GPIO1, 0 },
{ ASUS_M5200_SUBVENDOR, HDA_CODEC_ALC880,
HDA_QUIRK_GPIO1, 0 },
{ MEDION_MD95257_SUBVENDOR, HDA_CODEC_ALC880,
HDA_QUIRK_GPIO2, 0 },
{ ASUS_U5F_SUBVENDOR, HDA_CODEC_AD1986A,
HDA_QUIRK_EAPDINV, 0 },
{ ASUS_A8JC_SUBVENDOR, HDA_CODEC_AD1986A,
HDA_QUIRK_EAPDINV, 0 },
{ LENOVO_3KN100_SUBVENDOR, HDA_CODEC_AD1986A,
HDA_QUIRK_EAPDINV, 0 },
{ SAMSUNG_Q1_SUBVENDOR, HDA_CODEC_AD1986A,
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
HDA_QUIRK_EAPDINV, 0 },
{ HDA_MATCH_ALL, HDA_CODEC_CXVENICE,
0, HDA_QUIRK_FORCESTEREO },
{ HDA_MATCH_ALL, HDA_CODEC_STACXXXX,
HDA_QUIRK_SOFTPCMVOL, 0 }
};
#define HDAC_QUIRKS_LEN (sizeof(hdac_quirks) / sizeof(hdac_quirks[0]))
static void
hdac_vendor_patch_parse(struct hdac_devinfo *devinfo)
{
struct hdac_widget *w;
uint32_t id, subvendor;
int i;
id = hdac_codec_id(devinfo);
subvendor = devinfo->codec->sc->pci_subvendor;
/*
* Quirks
*/
for (i = 0; i < HDAC_QUIRKS_LEN; i++) {
if (!(HDA_DEV_MATCH(hdac_quirks[i].model, subvendor) &&
HDA_DEV_MATCH(hdac_quirks[i].id, id)))
continue;
if (hdac_quirks[i].set != 0)
devinfo->function.audio.quirks |=
hdac_quirks[i].set;
if (hdac_quirks[i].unset != 0)
devinfo->function.audio.quirks &=
~(hdac_quirks[i].unset);
}
switch (id) {
case HDA_CODEC_ALC260:
for (i = devinfo->startnode; i < devinfo->endnode; i++) {
w = hdac_widget_get(devinfo, i);
if (w == NULL || w->enable == 0)
continue;
if (w->type !=
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT)
continue;
if (w->nid != 5)
w->enable = 0;
}
break;
case HDA_CODEC_ALC880:
for (i = devinfo->startnode; i < devinfo->endnode; i++) {
w = hdac_widget_get(devinfo, i);
if (w == NULL || w->enable == 0)
continue;
if (w->type ==
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT &&
w->nid != 9 && w->nid != 29) {
w->enable = 0;
} else if (w->type !=
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_BEEP_WIDGET &&
w->nid == 29) {
w->type =
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_BEEP_WIDGET;
w->param.widget_cap &=
~HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_MASK;
w->param.widget_cap |=
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_BEEP_WIDGET <<
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_SHIFT;
strlcpy(w->name, "beep widget", sizeof(w->name));
}
}
break;
case HDA_CODEC_AD1981HD:
w = hdac_widget_get(devinfo, 11);
if (w != NULL && w->enable != 0 && w->nconns > 3)
w->selconn = 3;
if (subvendor == IBM_M52_SUBVENDOR) {
struct hdac_audio_ctl *ctl;
ctl = hdac_audio_ctl_amp_get(devinfo, 7, 0, 1);
if (ctl != NULL)
ctl->ossmask = SOUND_MASK_SPEAKER;
}
break;
case HDA_CODEC_AD1986A:
for (i = devinfo->startnode; i < devinfo->endnode; i++) {
w = hdac_widget_get(devinfo, i);
if (w == NULL || w->enable == 0)
continue;
if (w->type !=
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_OUTPUT)
continue;
if (w->nid != 3)
w->enable = 0;
}
break;
case HDA_CODEC_STAC9221:
for (i = devinfo->startnode; i < devinfo->endnode; i++) {
w = hdac_widget_get(devinfo, i);
if (w == NULL || w->enable == 0)
continue;
if (w->type !=
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_OUTPUT)
continue;
if (w->nid != 2)
w->enable = 0;
}
break;
case HDA_CODEC_STAC9221D:
for (i = devinfo->startnode; i < devinfo->endnode; i++) {
w = hdac_widget_get(devinfo, i);
if (w == NULL || w->enable == 0)
continue;
if (w->type ==
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT &&
w->nid != 6)
w->enable = 0;
}
break;
default:
break;
}
}
static int
hdac_audio_ctl_ossmixer_getnextdev(struct hdac_devinfo *devinfo)
{
int *dev = &devinfo->function.audio.ossidx;
while (*dev < SOUND_MIXER_NRDEVICES) {
switch (*dev) {
case SOUND_MIXER_VOLUME:
case SOUND_MIXER_BASS:
case SOUND_MIXER_TREBLE:
case SOUND_MIXER_PCM:
case SOUND_MIXER_SPEAKER:
case SOUND_MIXER_LINE:
case SOUND_MIXER_MIC:
case SOUND_MIXER_CD:
case SOUND_MIXER_RECLEV:
case SOUND_MIXER_OGAIN: /* reserved for EAPD switch */
(*dev)++;
break;
default:
return (*dev)++;
break;
}
}
return (-1);
}
static int
hdac_widget_find_dac_path(struct hdac_devinfo *devinfo, nid_t nid, int depth)
{
struct hdac_widget *w;
int i, ret = 0;
if (depth > HDA_PARSE_MAXDEPTH)
return (0);
w = hdac_widget_get(devinfo, nid);
if (w == NULL || w->enable == 0)
return (0);
switch (w->type) {
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_OUTPUT:
w->pflags |= HDA_DAC_PATH;
ret = 1;
break;
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER:
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR:
for (i = 0; i < w->nconns; i++) {
if (hdac_widget_find_dac_path(devinfo,
w->conns[i], depth + 1) != 0) {
if (w->selconn == -1)
w->selconn = i;
ret = 1;
w->pflags |= HDA_DAC_PATH;
}
}
break;
default:
break;
}
return (ret);
}
static int
hdac_widget_find_adc_path(struct hdac_devinfo *devinfo, nid_t nid, int depth)
{
struct hdac_widget *w;
int i, conndev, ret = 0;
if (depth > HDA_PARSE_MAXDEPTH)
return (0);
w = hdac_widget_get(devinfo, nid);
if (w == NULL || w->enable == 0)
return (0);
switch (w->type) {
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT:
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR:
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER:
for (i = 0; i < w->nconns; i++) {
if (hdac_widget_find_adc_path(devinfo, w->conns[i],
depth + 1) != 0) {
if (w->selconn == -1)
w->selconn = i;
w->pflags |= HDA_ADC_PATH;
ret = 1;
}
}
break;
case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX:
conndev = w->wclass.pin.config &
HDA_CONFIG_DEFAULTCONF_DEVICE_MASK;
if (HDA_PARAM_PIN_CAP_INPUT_CAP(w->wclass.pin.cap) &&
(conndev == HDA_CONFIG_DEFAULTCONF_DEVICE_CD ||
conndev == HDA_CONFIG_DEFAULTCONF_DEVICE_LINE_IN ||
conndev == HDA_CONFIG_DEFAULTCONF_DEVICE_MIC_IN)) {
w->pflags |= HDA_ADC_PATH;
ret = 1;
}
break;
/*case HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER:
if (w->pflags & HDA_DAC_PATH) {
w->pflags |= HDA_ADC_PATH;
ret = 1;
}
break;*/
default:
break;
}
return (ret);
}
static uint32_t
hdac_audio_ctl_outamp_build(struct hdac_devinfo *devinfo,
nid_t nid, nid_t pnid, int index, int depth)
{
struct hdac_widget *w, *pw;
struct hdac_audio_ctl *ctl;
uint32_t fl = 0;
int i, ossdev, conndev, strategy;
if (depth > HDA_PARSE_MAXDEPTH)
return (0);
w = hdac_widget_get(devinfo, nid);
if (w == NULL || w->enable == 0)
return (0);
pw = hdac_widget_get(devinfo, pnid);
strategy = devinfo->function.audio.parsing_strategy;
if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER
|| w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR) {
for (i = 0; i < w->nconns; i++) {
fl |= hdac_audio_ctl_outamp_build(devinfo, w->conns[i],
w->nid, i, depth + 1);
}
w->ctlflags |= fl;
return (fl);
} else if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_OUTPUT &&
(w->pflags & HDA_DAC_PATH)) {
i = 0;
while ((ctl = hdac_audio_ctl_each(devinfo, &i)) != NULL) {
if (ctl->enable == 0 || ctl->widget == NULL)
continue;
/* XXX This should be compressed! */
if ((ctl->widget->nid == w->nid) ||
(ctl->widget->nid == pnid && ctl->index == index &&
(ctl->dir & HDA_CTL_IN)) ||
(ctl->widget->nid == pnid && pw != NULL &&
pw->type ==
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR &&
(pw->nconns < 2 || pw->selconn == index ||
pw->selconn == -1) &&
(ctl->dir & HDA_CTL_OUT)) ||
(strategy == HDA_PARSE_DIRECT &&
ctl->widget->nid == w->nid)) {
/*if (pw != NULL && pw->selconn == -1)
pw->selconn = index;
fl |= SOUND_MASK_VOLUME;
fl |= SOUND_MASK_PCM;
ctl->ossmask |= SOUND_MASK_VOLUME;
ctl->ossmask |= SOUND_MASK_PCM;
ctl->ossdev = SOUND_MIXER_PCM;*/
if (!(w->ctlflags & SOUND_MASK_PCM) ||
(pw != NULL &&
!(pw->ctlflags & SOUND_MASK_PCM))) {
fl |= SOUND_MASK_VOLUME;
fl |= SOUND_MASK_PCM;
ctl->ossmask |= SOUND_MASK_VOLUME;
ctl->ossmask |= SOUND_MASK_PCM;
ctl->ossdev = SOUND_MIXER_PCM;
w->ctlflags |= SOUND_MASK_VOLUME;
w->ctlflags |= SOUND_MASK_PCM;
if (pw != NULL) {
if (pw->selconn == -1)
pw->selconn = index;
pw->ctlflags |=
SOUND_MASK_VOLUME;
pw->ctlflags |=
SOUND_MASK_PCM;
}
}
}
}
w->ctlflags |= fl;
return (fl);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
} else if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX &&
HDA_PARAM_PIN_CAP_INPUT_CAP(w->wclass.pin.cap) &&
(w->pflags & HDA_ADC_PATH)) {
conndev = w->wclass.pin.config &
HDA_CONFIG_DEFAULTCONF_DEVICE_MASK;
i = 0;
while ((ctl = hdac_audio_ctl_each(devinfo, &i)) != NULL) {
if (ctl->enable == 0 || ctl->widget == NULL)
continue;
/* XXX This should be compressed! */
if (((ctl->widget->nid == pnid && ctl->index == index &&
(ctl->dir & HDA_CTL_IN)) ||
(ctl->widget->nid == pnid && pw != NULL &&
pw->type ==
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR &&
(pw->nconns < 2 || pw->selconn == index ||
pw->selconn == -1) &&
(ctl->dir & HDA_CTL_OUT)) ||
(strategy == HDA_PARSE_DIRECT &&
ctl->widget->nid == w->nid)) &&
!(ctl->ossmask & ~SOUND_MASK_VOLUME)) {
if (pw != NULL && pw->selconn == -1)
pw->selconn = index;
ossdev = 0;
switch (conndev) {
case HDA_CONFIG_DEFAULTCONF_DEVICE_MIC_IN:
ossdev = SOUND_MIXER_MIC;
break;
case HDA_CONFIG_DEFAULTCONF_DEVICE_LINE_IN:
ossdev = SOUND_MIXER_LINE;
break;
case HDA_CONFIG_DEFAULTCONF_DEVICE_CD:
ossdev = SOUND_MIXER_CD;
break;
default:
ossdev =
hdac_audio_ctl_ossmixer_getnextdev(
devinfo);
if (ossdev < 0)
ossdev = 0;
break;
}
if (strategy == HDA_PARSE_MIXER) {
fl |= SOUND_MASK_VOLUME;
ctl->ossmask |= SOUND_MASK_VOLUME;
}
fl |= 1 << ossdev;
ctl->ossmask |= 1 << ossdev;
ctl->ossdev = ossdev;
}
}
w->ctlflags |= fl;
return (fl);
} else if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_BEEP_WIDGET) {
i = 0;
while ((ctl = hdac_audio_ctl_each(devinfo, &i)) != NULL) {
if (ctl->enable == 0 || ctl->widget == NULL)
continue;
/* XXX This should be compressed! */
if (((ctl->widget->nid == pnid && ctl->index == index &&
(ctl->dir & HDA_CTL_IN)) ||
(ctl->widget->nid == pnid && pw != NULL &&
pw->type ==
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR &&
(pw->nconns < 2 || pw->selconn == index ||
pw->selconn == -1) &&
(ctl->dir & HDA_CTL_OUT)) ||
(strategy == HDA_PARSE_DIRECT &&
ctl->widget->nid == w->nid)) &&
!(ctl->ossmask & ~SOUND_MASK_VOLUME)) {
if (pw != NULL && pw->selconn == -1)
pw->selconn = index;
fl |= SOUND_MASK_VOLUME;
fl |= SOUND_MASK_SPEAKER;
ctl->ossmask |= SOUND_MASK_VOLUME;
ctl->ossmask |= SOUND_MASK_SPEAKER;
ctl->ossdev = SOUND_MIXER_SPEAKER;
}
}
w->ctlflags |= fl;
return (fl);
}
return (0);
}
static uint32_t
hdac_audio_ctl_inamp_build(struct hdac_devinfo *devinfo, nid_t nid, int depth)
{
struct hdac_widget *w, *cw;
struct hdac_audio_ctl *ctl;
uint32_t fl;
int i;
if (depth > HDA_PARSE_MAXDEPTH)
return (0);
w = hdac_widget_get(devinfo, nid);
if (w == NULL || w->enable == 0)
return (0);
/*if (!(w->pflags & HDA_ADC_PATH))
return (0);
if (!(w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT ||
w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR))
return (0);*/
i = 0;
while ((ctl = hdac_audio_ctl_each(devinfo, &i)) != NULL) {
if (ctl->enable == 0 || ctl->widget == NULL)
continue;
if (ctl->widget->nid == nid) {
ctl->ossmask |= SOUND_MASK_RECLEV;
w->ctlflags |= SOUND_MASK_RECLEV;
return (SOUND_MASK_RECLEV);
}
}
for (i = 0; i < w->nconns; i++) {
cw = hdac_widget_get(devinfo, w->conns[i]);
if (cw == NULL || cw->enable == 0)
continue;
if (cw->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR)
continue;
fl = hdac_audio_ctl_inamp_build(devinfo, cw->nid, depth + 1);
if (fl != 0) {
cw->ctlflags |= fl;
w->ctlflags |= fl;
return (fl);
}
}
return (0);
}
static int
hdac_audio_ctl_recsel_build(struct hdac_devinfo *devinfo, nid_t nid, int depth)
{
struct hdac_widget *w, *cw;
int i, child = 0;
if (depth > HDA_PARSE_MAXDEPTH)
return (0);
w = hdac_widget_get(devinfo, nid);
if (w == NULL || w->enable == 0)
return (0);
/*if (!(w->pflags & HDA_ADC_PATH))
return (0);
if (!(w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT ||
w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR))
return (0);*/
/* XXX weak! */
for (i = 0; i < w->nconns; i++) {
cw = hdac_widget_get(devinfo, w->conns[i]);
if (cw == NULL)
continue;
if (++child > 1) {
w->pflags |= HDA_ADC_RECSEL;
return (1);
}
}
for (i = 0; i < w->nconns; i++) {
if (hdac_audio_ctl_recsel_build(devinfo,
w->conns[i], depth + 1) != 0)
return (1);
}
return (0);
}
static int
hdac_audio_build_tree_strategy(struct hdac_devinfo *devinfo)
{
struct hdac_widget *w, *cw;
int i, j, conndev, found_dac = 0;
int strategy;
strategy = devinfo->function.audio.parsing_strategy;
for (i = devinfo->startnode; i < devinfo->endnode; i++) {
w = hdac_widget_get(devinfo, i);
if (w == NULL || w->enable == 0)
continue;
if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX)
continue;
if (!HDA_PARAM_PIN_CAP_OUTPUT_CAP(w->wclass.pin.cap))
continue;
conndev = w->wclass.pin.config &
HDA_CONFIG_DEFAULTCONF_DEVICE_MASK;
if (!(conndev == HDA_CONFIG_DEFAULTCONF_DEVICE_HP_OUT ||
conndev == HDA_CONFIG_DEFAULTCONF_DEVICE_SPEAKER ||
conndev == HDA_CONFIG_DEFAULTCONF_DEVICE_LINE_OUT))
continue;
for (j = 0; j < w->nconns; j++) {
cw = hdac_widget_get(devinfo, w->conns[j]);
if (cw == NULL || cw->enable == 0)
continue;
if (strategy == HDA_PARSE_MIXER && !(cw->type ==
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER ||
cw->type ==
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR))
continue;
if (hdac_widget_find_dac_path(devinfo, cw->nid, 0)
!= 0) {
if (w->selconn == -1)
w->selconn = j;
w->pflags |= HDA_DAC_PATH;
found_dac++;
}
}
}
return (found_dac);
}
static void
hdac_audio_build_tree(struct hdac_devinfo *devinfo)
{
struct hdac_widget *w;
struct hdac_audio_ctl *ctl;
int i, j, dacs, strategy;
/* Construct DAC path */
strategy = HDA_PARSE_MIXER;
devinfo->function.audio.parsing_strategy = strategy;
HDA_BOOTVERBOSE(
device_printf(devinfo->codec->sc->dev,
"HDA_DEBUG: HWiP: HDA Widget Parser - Revision %d\n",
HDA_WIDGET_PARSER_REV);
);
dacs = hdac_audio_build_tree_strategy(devinfo);
if (dacs == 0) {
HDA_BOOTVERBOSE(
device_printf(devinfo->codec->sc->dev,
"HDA_DEBUG: HWiP: 0 DAC path found! "
"Retrying parser "
"using HDA_PARSE_DIRECT strategy.\n");
);
strategy = HDA_PARSE_DIRECT;
devinfo->function.audio.parsing_strategy = strategy;
dacs = hdac_audio_build_tree_strategy(devinfo);
}
HDA_BOOTVERBOSE(
device_printf(devinfo->codec->sc->dev,
"HDA_DEBUG: HWiP: Found %d DAC path using HDA_PARSE_%s "
"strategy.\n",
dacs, (strategy == HDA_PARSE_MIXER) ? "MIXER" : "DIRECT");
);
/* Construct ADC path */
for (i = devinfo->startnode; i < devinfo->endnode; i++) {
w = hdac_widget_get(devinfo, i);
if (w == NULL || w->enable == 0)
continue;
if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT)
continue;
(void)hdac_widget_find_adc_path(devinfo, w->nid, 0);
}
/* Output mixers */
for (i = devinfo->startnode; i < devinfo->endnode; i++) {
w = hdac_widget_get(devinfo, i);
if (w == NULL || w->enable == 0)
continue;
if ((strategy == HDA_PARSE_MIXER &&
(w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER ||
w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR)
&& (w->pflags & HDA_DAC_PATH)) ||
(strategy == HDA_PARSE_DIRECT && (w->pflags &
(HDA_DAC_PATH | HDA_ADC_PATH)))) {
w->ctlflags |= hdac_audio_ctl_outamp_build(devinfo,
w->nid, devinfo->startnode - 1, 0, 0);
} else if (w->type ==
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_BEEP_WIDGET) {
j = 0;
while ((ctl = hdac_audio_ctl_each(devinfo, &j)) !=
NULL) {
if (ctl->enable == 0 || ctl->widget == NULL)
continue;
if (ctl->widget->nid != w->nid)
continue;
ctl->ossmask |= SOUND_MASK_VOLUME;
ctl->ossmask |= SOUND_MASK_SPEAKER;
ctl->ossdev = SOUND_MIXER_SPEAKER;
w->ctlflags |= SOUND_MASK_VOLUME;
w->ctlflags |= SOUND_MASK_SPEAKER;
}
}
}
/* Input mixers (rec) */
for (i = devinfo->startnode; i < devinfo->endnode; i++) {
w = hdac_widget_get(devinfo, i);
if (w == NULL || w->enable == 0)
continue;
if (!(w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT &&
w->pflags & HDA_ADC_PATH))
continue;
hdac_audio_ctl_inamp_build(devinfo, w->nid, 0);
hdac_audio_ctl_recsel_build(devinfo, w->nid, 0);
}
}
#define HDA_COMMIT_CONN (1 << 0)
#define HDA_COMMIT_CTRL (1 << 1)
#define HDA_COMMIT_EAPD (1 << 2)
#define HDA_COMMIT_GPIO (1 << 3)
#define HDA_COMMIT_ALL (HDA_COMMIT_CONN | HDA_COMMIT_CTRL | \
HDA_COMMIT_EAPD | HDA_COMMIT_GPIO)
static void
hdac_audio_commit(struct hdac_devinfo *devinfo, uint32_t cfl)
{
struct hdac_softc *sc = devinfo->codec->sc;
struct hdac_widget *w;
nid_t cad;
int i;
if (!(cfl & HDA_COMMIT_ALL))
return;
cad = devinfo->codec->cad;
if (cfl & HDA_COMMIT_GPIO) {
if (sc->pci_subvendor == APPLE_INTEL_MAC) {
uint32_t gdata, gmask, gdir;
gdata = hdac_command(sc,
HDA_CMD_GET_GPIO_DATA(cad, devinfo->nid),
cad);
gmask = hdac_command(sc,
HDA_CMD_GET_GPIO_ENABLE_MASK(cad, devinfo->nid),
cad);
gdir = hdac_command(sc,
HDA_CMD_GET_GPIO_DIRECTION(cad, devinfo->nid),
cad);
gdata |= 0x03;
gmask |= 0x03;
gdir |= 0x03;
hdac_command(sc, HDA_CMD_12BIT(cad, devinfo->nid,
0x7e7, 0), cad);
hdac_command(sc,
HDA_CMD_SET_GPIO_ENABLE_MASK(cad, devinfo->nid,
gmask), cad);
hdac_command(sc,
HDA_CMD_SET_GPIO_DIRECTION(cad, devinfo->nid,
gdir), cad);
hdac_command(sc,
HDA_CMD_SET_GPIO_DATA(cad, devinfo->nid,
gdata), cad);
} else {
for (i = 0; i < HDA_GPIO_MAX; i++) {
if (!(devinfo->function.audio.quirks &
(1 << i)))
continue;
hdac_command(sc,
HDA_CMD_SET_GPIO_ENABLE_MASK(cad,
devinfo->nid, i), cad);
hdac_command(sc,
HDA_CMD_SET_GPIO_DIRECTION(cad,
devinfo->nid, i), cad);
hdac_command(sc,
HDA_CMD_SET_GPIO_DATA(cad, devinfo->nid,
i), cad);
}
}
}
for (i = 0; i < devinfo->nodecnt; i++) {
w = &devinfo->widget[i];
if (w == NULL || w->enable == 0)
continue;
if (cfl & HDA_COMMIT_CONN) {
if (w->selconn == -1)
w->selconn = 0;
if (w->nconns > 0)
hdac_widget_connection_select(w, w->selconn);
}
if ((cfl & HDA_COMMIT_CTRL) &&
w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) {
if ((w->pflags & (HDA_DAC_PATH | HDA_ADC_PATH)) ==
(HDA_DAC_PATH | HDA_ADC_PATH))
device_printf(sc->dev, "WARNING: node %d "
"participate both for DAC/ADC!\n", w->nid);
if (w->pflags & HDA_DAC_PATH) {
w->wclass.pin.ctrl &=
~HDA_CMD_SET_PIN_WIDGET_CTRL_IN_ENABLE;
if ((w->wclass.pin.config &
HDA_CONFIG_DEFAULTCONF_DEVICE_MASK) !=
HDA_CONFIG_DEFAULTCONF_DEVICE_HP_OUT)
w->wclass.pin.ctrl &=
~HDA_CMD_SET_PIN_WIDGET_CTRL_HPHN_ENABLE;
} else if (w->pflags & HDA_ADC_PATH) {
w->wclass.pin.ctrl &=
~(HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE |
HDA_CMD_SET_PIN_WIDGET_CTRL_HPHN_ENABLE);
} else
w->wclass.pin.ctrl &= ~(
HDA_CMD_SET_PIN_WIDGET_CTRL_HPHN_ENABLE |
HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE |
HDA_CMD_SET_PIN_WIDGET_CTRL_IN_ENABLE);
hdac_command(sc,
HDA_CMD_SET_PIN_WIDGET_CTRL(cad, w->nid,
w->wclass.pin.ctrl), cad);
}
if ((cfl & HDA_COMMIT_EAPD) &&
w->param.eapdbtl != HDAC_INVALID) {
uint32_t val;
val = w->param.eapdbtl;
if (devinfo->function.audio.quirks &
HDA_QUIRK_EAPDINV)
val ^= HDA_CMD_SET_EAPD_BTL_ENABLE_EAPD;
hdac_command(sc,
HDA_CMD_SET_EAPD_BTL_ENABLE(cad, w->nid,
val), cad);
}
DELAY(1000);
}
}
static void
hdac_audio_ctl_commit(struct hdac_devinfo *devinfo)
{
struct hdac_softc *sc = devinfo->codec->sc;
struct hdac_audio_ctl *ctl;
int i;
devinfo->function.audio.mvol = 100 | (100 << 8);
i = 0;
while ((ctl = hdac_audio_ctl_each(devinfo, &i)) != NULL) {
if (ctl->enable == 0 || ctl->widget == NULL) {
HDA_BOOTVERBOSE(
device_printf(sc->dev, "[%2d] Ctl nid=%d",
i, (ctl->widget != NULL) ?
ctl->widget->nid : -1);
if (ctl->childwidget != NULL)
printf(" childnid=%d",
ctl->childwidget->nid);
if (ctl->widget == NULL)
printf(" NULL WIDGET!");
printf(" DISABLED\n");
);
continue;
}
HDA_BOOTVERBOSE(
if (ctl->ossmask == 0) {
device_printf(sc->dev, "[%2d] Ctl nid=%d",
i, ctl->widget->nid);
if (ctl->childwidget != NULL)
printf(" childnid=%d",
ctl->childwidget->nid);
printf(" Bind to NONE\n");
}
);
if (ctl->step > 0) {
ctl->ossval = (ctl->left * 100) / ctl->step;
ctl->ossval |= ((ctl->right * 100) / ctl->step) << 8;
} else
ctl->ossval = 0;
hdac_audio_ctl_amp_set(ctl, HDA_AMP_MUTE_DEFAULT,
ctl->left, ctl->right);
}
}
static int
hdac_pcmchannel_setup(struct hdac_devinfo *devinfo, int dir)
{
struct hdac_chan *ch;
struct hdac_widget *w;
uint32_t cap, fmtcap, pcmcap, path;
int i, type, ret, max;
if (dir == PCMDIR_PLAY) {
type = HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_OUTPUT;
ch = &devinfo->codec->sc->play;
path = HDA_DAC_PATH;
} else {
type = HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT;
ch = &devinfo->codec->sc->rec;
path = HDA_ADC_PATH;
}
ch->caps = hdac_caps;
ch->caps.fmtlist = ch->fmtlist;
ch->bit16 = 1;
ch->bit32 = 0;
ch->pcmrates[0] = 48000;
ch->pcmrates[1] = 0;
ret = 0;
fmtcap = devinfo->function.audio.supp_stream_formats;
pcmcap = devinfo->function.audio.supp_pcm_size_rate;
max = (sizeof(ch->io) / sizeof(ch->io[0])) - 1;
for (i = devinfo->startnode; i < devinfo->endnode && ret < max; i++) {
w = hdac_widget_get(devinfo, i);
if (w == NULL || w->enable == 0 || w->type != type ||
!(w->pflags & path))
continue;
cap = w->param.widget_cap;
/*if (HDA_PARAM_AUDIO_WIDGET_CAP_DIGITAL(cap))
continue;*/
if (!HDA_PARAM_AUDIO_WIDGET_CAP_STEREO(cap))
continue;
cap = w->param.supp_stream_formats;
/*if (HDA_PARAM_SUPP_STREAM_FORMATS_AC3(cap)) {
}
if (HDA_PARAM_SUPP_STREAM_FORMATS_FLOAT32(cap)) {
}*/
if (!HDA_PARAM_SUPP_STREAM_FORMATS_PCM(cap))
continue;
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
if (ret == 0) {
fmtcap = w->param.supp_stream_formats;
pcmcap = w->param.supp_pcm_size_rate;
} else {
fmtcap &= w->param.supp_stream_formats;
pcmcap &= w->param.supp_pcm_size_rate;
}
ch->io[ret++] = i;
}
ch->io[ret] = -1;
ch->supp_stream_formats = fmtcap;
ch->supp_pcm_size_rate = pcmcap;
/*
* 8bit = 0
* 16bit = 1
* 20bit = 2
* 24bit = 3
* 32bit = 4
*/
if (ret > 0) {
cap = pcmcap;
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_16BIT(cap))
ch->bit16 = 1;
else if (HDA_PARAM_SUPP_PCM_SIZE_RATE_8BIT(cap))
ch->bit16 = 0;
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_32BIT(cap))
ch->bit32 = 4;
else if (HDA_PARAM_SUPP_PCM_SIZE_RATE_24BIT(cap))
ch->bit32 = 3;
else if (HDA_PARAM_SUPP_PCM_SIZE_RATE_20BIT(cap))
ch->bit32 = 2;
i = 0;
if (!(devinfo->function.audio.quirks & HDA_QUIRK_FORCESTEREO))
ch->fmtlist[i++] = AFMT_S16_LE;
ch->fmtlist[i++] = AFMT_S16_LE | AFMT_STEREO;
if (ch->bit32 > 0) {
if (!(devinfo->function.audio.quirks &
HDA_QUIRK_FORCESTEREO))
ch->fmtlist[i++] = AFMT_S32_LE;
ch->fmtlist[i++] = AFMT_S32_LE | AFMT_STEREO;
}
ch->fmtlist[i] = 0;
i = 0;
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_8KHZ(cap))
ch->pcmrates[i++] = 8000;
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_11KHZ(cap))
ch->pcmrates[i++] = 11025;
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_16KHZ(cap))
ch->pcmrates[i++] = 16000;
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_22KHZ(cap))
ch->pcmrates[i++] = 22050;
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_32KHZ(cap))
ch->pcmrates[i++] = 32000;
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_44KHZ(cap))
ch->pcmrates[i++] = 44100;
/* if (HDA_PARAM_SUPP_PCM_SIZE_RATE_48KHZ(cap)) */
ch->pcmrates[i++] = 48000;
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_88KHZ(cap))
ch->pcmrates[i++] = 88200;
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_96KHZ(cap))
ch->pcmrates[i++] = 96000;
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_176KHZ(cap))
ch->pcmrates[i++] = 176400;
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_192KHZ(cap))
ch->pcmrates[i++] = 192000;
/* if (HDA_PARAM_SUPP_PCM_SIZE_RATE_384KHZ(cap)) */
ch->pcmrates[i] = 0;
if (i > 0) {
ch->caps.minspeed = ch->pcmrates[0];
ch->caps.maxspeed = ch->pcmrates[i - 1];
}
}
return (ret);
}
static void
hdac_dump_ctls(struct hdac_devinfo *devinfo, const char *banner, uint32_t flag)
{
struct hdac_audio_ctl *ctl;
struct hdac_softc *sc = devinfo->codec->sc;
int i;
uint32_t fl = 0;
if (flag == 0) {
fl = SOUND_MASK_VOLUME | SOUND_MASK_PCM |
SOUND_MASK_CD | SOUND_MASK_LINE | SOUND_MASK_RECLEV |
SOUND_MASK_MIC | SOUND_MASK_SPEAKER | SOUND_MASK_OGAIN;
}
i = 0;
while ((ctl = hdac_audio_ctl_each(devinfo, &i)) != NULL) {
if (ctl->enable == 0 || ctl->widget == NULL ||
ctl->widget->enable == 0)
continue;
if ((flag == 0 && (ctl->ossmask & ~fl)) ||
(flag != 0 && (ctl->ossmask & flag))) {
if (banner != NULL) {
device_printf(sc->dev, "\n");
device_printf(sc->dev, "%s\n", banner);
}
goto hdac_ctl_dump_it_all;
}
}
return;
hdac_ctl_dump_it_all:
i = 0;
while ((ctl = hdac_audio_ctl_each(devinfo, &i)) != NULL) {
if (ctl->enable == 0 || ctl->widget == NULL ||
ctl->widget->enable == 0)
continue;
if (!((flag == 0 && (ctl->ossmask & ~fl)) ||
(flag != 0 && (ctl->ossmask & flag))))
continue;
if (flag == 0) {
device_printf(sc->dev, "\n");
device_printf(sc->dev, "Unknown Ctl (OSS: %s)\n",
hdac_audio_ctl_ossmixer_mask2name(ctl->ossmask));
}
device_printf(sc->dev, " |\n");
device_printf(sc->dev, " +- nid: %2d index: %2d ",
ctl->widget->nid, ctl->index);
if (ctl->childwidget != NULL)
printf("(nid: %2d) ", ctl->childwidget->nid);
else
printf(" ");
printf("mute: %d step: %3d size: %3d off: %3d dir=0x%x ossmask=0x%08x\n",
ctl->mute, ctl->step, ctl->size, ctl->offset, ctl->dir,
ctl->ossmask);
}
}
static void
hdac_dump_audio_formats(struct hdac_softc *sc, uint32_t fcap, uint32_t pcmcap)
{
uint32_t cap;
cap = fcap;
if (cap != 0) {
device_printf(sc->dev, " Stream cap: 0x%08x\n", cap);
device_printf(sc->dev, " Format:");
if (HDA_PARAM_SUPP_STREAM_FORMATS_AC3(cap))
printf(" AC3");
if (HDA_PARAM_SUPP_STREAM_FORMATS_FLOAT32(cap))
printf(" FLOAT32");
if (HDA_PARAM_SUPP_STREAM_FORMATS_PCM(cap))
printf(" PCM");
printf("\n");
}
cap = pcmcap;
if (cap != 0) {
device_printf(sc->dev, " PCM cap: 0x%08x\n", cap);
device_printf(sc->dev, " PCM size:");
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_8BIT(cap))
printf(" 8");
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_16BIT(cap))
printf(" 16");
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_20BIT(cap))
printf(" 20");
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_24BIT(cap))
printf(" 24");
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_32BIT(cap))
printf(" 32");
printf("\n");
device_printf(sc->dev, " PCM rate:");
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_8KHZ(cap))
printf(" 8");
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_11KHZ(cap))
printf(" 11");
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_16KHZ(cap))
printf(" 16");
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_22KHZ(cap))
printf(" 22");
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_32KHZ(cap))
printf(" 32");
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_44KHZ(cap))
printf(" 44");
printf(" 48");
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_88KHZ(cap))
printf(" 88");
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_96KHZ(cap))
printf(" 96");
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_176KHZ(cap))
printf(" 176");
if (HDA_PARAM_SUPP_PCM_SIZE_RATE_192KHZ(cap))
printf(" 192");
printf("\n");
}
}
static void
hdac_dump_pin(struct hdac_softc *sc, struct hdac_widget *w)
{
uint32_t pincap, wcap;
pincap = w->wclass.pin.cap;
wcap = w->param.widget_cap;
device_printf(sc->dev, " Pin cap: 0x%08x\n", pincap);
device_printf(sc->dev, " ");
if (HDA_PARAM_PIN_CAP_IMP_SENSE_CAP(pincap))
printf(" ISC");
if (HDA_PARAM_PIN_CAP_TRIGGER_REQD(pincap))
printf(" TRQD");
if (HDA_PARAM_PIN_CAP_PRESENCE_DETECT_CAP(pincap))
printf(" PDC");
if (HDA_PARAM_PIN_CAP_HEADPHONE_CAP(pincap))
printf(" HP");
if (HDA_PARAM_PIN_CAP_OUTPUT_CAP(pincap))
printf(" OUT");
if (HDA_PARAM_PIN_CAP_INPUT_CAP(pincap))
printf(" IN");
if (HDA_PARAM_PIN_CAP_BALANCED_IO_PINS(pincap))
printf(" BAL");
if (HDA_PARAM_PIN_CAP_EAPD_CAP(pincap))
printf(" EAPD");
if (HDA_PARAM_AUDIO_WIDGET_CAP_UNSOL_CAP(wcap))
printf(" : UNSOL");
printf("\n");
device_printf(sc->dev, " Pin config: 0x%08x\n",
w->wclass.pin.config);
device_printf(sc->dev, " Pin control: 0x%08x", w->wclass.pin.ctrl);
if (w->wclass.pin.ctrl & HDA_CMD_SET_PIN_WIDGET_CTRL_HPHN_ENABLE)
printf(" HP");
if (w->wclass.pin.ctrl & HDA_CMD_SET_PIN_WIDGET_CTRL_IN_ENABLE)
printf(" IN");
if (w->wclass.pin.ctrl & HDA_CMD_SET_PIN_WIDGET_CTRL_OUT_ENABLE)
printf(" OUT");
printf("\n");
}
static void
hdac_dump_amp(struct hdac_softc *sc, uint32_t cap, char *banner)
{
device_printf(sc->dev, " %s amp: 0x%08x\n", banner, cap);
device_printf(sc->dev, " "
"mute=%d step=%d size=%d offset=%d\n",
HDA_PARAM_OUTPUT_AMP_CAP_MUTE_CAP(cap),
HDA_PARAM_OUTPUT_AMP_CAP_NUMSTEPS(cap),
HDA_PARAM_OUTPUT_AMP_CAP_STEPSIZE(cap),
HDA_PARAM_OUTPUT_AMP_CAP_OFFSET(cap));
}
static void
hdac_dump_nodes(struct hdac_devinfo *devinfo)
{
struct hdac_softc *sc = devinfo->codec->sc;
struct hdac_widget *w, *cw;
int i, j;
device_printf(sc->dev, "\n");
device_printf(sc->dev, "Default Parameter\n");
device_printf(sc->dev, "-----------------\n");
hdac_dump_audio_formats(sc,
devinfo->function.audio.supp_stream_formats,
devinfo->function.audio.supp_pcm_size_rate);
device_printf(sc->dev, " IN amp: 0x%08x\n",
devinfo->function.audio.inamp_cap);
device_printf(sc->dev, " OUT amp: 0x%08x\n",
devinfo->function.audio.outamp_cap);
for (i = devinfo->startnode; i < devinfo->endnode; i++) {
w = hdac_widget_get(devinfo, i);
if (w == NULL) {
device_printf(sc->dev, "Ghost widget nid=%d\n", i);
continue;
}
device_printf(sc->dev, "\n");
device_printf(sc->dev, " nid: %d [%s]%s\n", w->nid,
HDA_PARAM_AUDIO_WIDGET_CAP_DIGITAL(w->param.widget_cap) ?
"DIGITAL" : "ANALOG",
(w->enable == 0) ? " [DISABLED]" : "");
device_printf(sc->dev, " name: %s\n", w->name);
device_printf(sc->dev, " widget_cap: 0x%08x\n",
w->param.widget_cap);
device_printf(sc->dev, " Parse flags: 0x%08x\n",
w->pflags);
device_printf(sc->dev, " Ctl flags: 0x%08x\n",
w->ctlflags);
if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_OUTPUT ||
w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_INPUT) {
hdac_dump_audio_formats(sc,
w->param.supp_stream_formats,
w->param.supp_pcm_size_rate);
} else if (w->type ==
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX)
hdac_dump_pin(sc, w);
if (w->param.eapdbtl != HDAC_INVALID)
device_printf(sc->dev, " EAPD: 0x%08x\n",
w->param.eapdbtl);
if (HDA_PARAM_AUDIO_WIDGET_CAP_OUT_AMP(w->param.widget_cap) &&
w->param.outamp_cap != 0)
hdac_dump_amp(sc, w->param.outamp_cap, "Output");
if (HDA_PARAM_AUDIO_WIDGET_CAP_IN_AMP(w->param.widget_cap) &&
w->param.inamp_cap != 0)
hdac_dump_amp(sc, w->param.inamp_cap, " Input");
device_printf(sc->dev, " connections: %d\n", w->nconns);
for (j = 0; j < w->nconns; j++) {
cw = hdac_widget_get(devinfo, w->conns[j]);
device_printf(sc->dev, " |\n");
device_printf(sc->dev, " + <- nid=%d [%s]",
w->conns[j], (cw == NULL) ? "GHOST!" : cw->name);
if (cw == NULL)
printf(" [UNKNOWN]");
else if (cw->enable == 0)
printf(" [DISABLED]");
if (w->nconns > 1 && w->selconn == j && w->type !=
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER)
printf(" (selected)");
printf("\n");
}
}
}
static int
hdac_dump_dac_internal(struct hdac_devinfo *devinfo, nid_t nid, int depth)
{
struct hdac_widget *w, *cw;
struct hdac_softc *sc = devinfo->codec->sc;
int i;
if (depth > HDA_PARSE_MAXDEPTH)
return (0);
w = hdac_widget_get(devinfo, nid);
if (w == NULL || w->enable == 0 || !(w->pflags & HDA_DAC_PATH))
return (0);
if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) {
device_printf(sc->dev, "\n");
device_printf(sc->dev, " nid=%d [%s]\n", w->nid, w->name);
device_printf(sc->dev, " ^\n");
device_printf(sc->dev, " |\n");
device_printf(sc->dev, " +-----<------+\n");
} else {
device_printf(sc->dev, " ^\n");
device_printf(sc->dev, " |\n");
device_printf(sc->dev, " ");
printf(" nid=%d [%s]\n", w->nid, w->name);
}
if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_OUTPUT) {
return (1);
} else if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_MIXER) {
for (i = 0; i < w->nconns; i++) {
cw = hdac_widget_get(devinfo, w->conns[i]);
if (cw == NULL || cw->enable == 0 || cw->type ==
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX)
continue;
if (hdac_dump_dac_internal(devinfo, cw->nid,
depth + 1) != 0)
return (1);
}
} else if ((w->type ==
HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_AUDIO_SELECTOR ||
w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX) &&
w->selconn > -1 && w->selconn < w->nconns) {
if (hdac_dump_dac_internal(devinfo, w->conns[w->selconn],
depth + 1) != 0)
return (1);
}
return (0);
}
static void
hdac_dump_dac(struct hdac_devinfo *devinfo)
{
struct hdac_widget *w;
struct hdac_softc *sc = devinfo->codec->sc;
int i, printed = 0;
for (i = devinfo->startnode; i < devinfo->endnode; i++) {
w = hdac_widget_get(devinfo, i);
if (w == NULL || w->enable == 0)
continue;
if (w->type != HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX ||
!(w->pflags & HDA_DAC_PATH))
continue;
if (printed == 0) {
printed = 1;
device_printf(sc->dev, "\n");
device_printf(sc->dev, "Playback path:\n");
}
hdac_dump_dac_internal(devinfo, w->nid, 0);
}
}
static void
hdac_dump_adc(struct hdac_devinfo *devinfo)
{
struct hdac_widget *w, *cw;
struct hdac_softc *sc = devinfo->codec->sc;
int i, j;
int printed = 0;
char ossdevs[256];
for (i = devinfo->startnode; i < devinfo->endnode; i++) {
w = hdac_widget_get(devinfo, i);
if (w == NULL || w->enable == 0)
continue;
if (!(w->pflags & HDA_ADC_RECSEL))
continue;
if (printed == 0) {
printed = 1;
device_printf(sc->dev, "\n");
device_printf(sc->dev, "Recording sources:\n");
}
device_printf(sc->dev, "\n");
device_printf(sc->dev, " nid=%d [%s]\n", w->nid, w->name);
for (j = 0; j < w->nconns; j++) {
cw = hdac_widget_get(devinfo, w->conns[j]);
if (cw == NULL || cw->enable == 0)
continue;
hdac_audio_ctl_ossmixer_mask2allname(cw->ctlflags,
ossdevs, sizeof(ossdevs));
device_printf(sc->dev, " |\n");
device_printf(sc->dev, " + <- nid=%d [%s]",
cw->nid, cw->name);
if (strlen(ossdevs) > 0) {
printf(" [recsrc: %s]", ossdevs);
}
printf("\n");
}
}
}
static void
hdac_dump_pcmchannels(struct hdac_softc *sc, int pcnt, int rcnt)
{
nid_t *nids;
if (pcnt > 0) {
device_printf(sc->dev, "\n");
device_printf(sc->dev, " PCM Playback: %d\n", pcnt);
hdac_dump_audio_formats(sc, sc->play.supp_stream_formats,
sc->play.supp_pcm_size_rate);
device_printf(sc->dev, " DAC:");
for (nids = sc->play.io; *nids != -1; nids++)
printf(" %d", *nids);
printf("\n");
}
if (rcnt > 0) {
device_printf(sc->dev, "\n");
device_printf(sc->dev, " PCM Record: %d\n", rcnt);
hdac_dump_audio_formats(sc, sc->play.supp_stream_formats,
sc->rec.supp_pcm_size_rate);
device_printf(sc->dev, " ADC:");
for (nids = sc->rec.io; *nids != -1; nids++)
printf(" %d", *nids);
printf("\n");
}
}
static void
hdac_release_resources(struct hdac_softc *sc)
{
struct hdac_devinfo *devinfo = NULL;
device_t *devlist = NULL;
int i, devcount;
if (sc == NULL)
return;
hdac_lock(sc);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
if (sc->polling != 0)
callout_stop(&sc->poll_hdac);
hdac_reset(sc);
hdac_unlock(sc);
snd_mtxfree(sc->lock);
device_get_children(sc->dev, &devlist, &devcount);
for (i = 0; devlist != NULL && i < devcount; i++) {
devinfo = (struct hdac_devinfo *)device_get_ivars(devlist[i]);
if (devinfo == NULL)
continue;
if (devinfo->widget != NULL)
free(devinfo->widget, M_HDAC);
if (devinfo->node_type ==
HDA_PARAM_FCT_GRP_TYPE_NODE_TYPE_AUDIO &&
devinfo->function.audio.ctl != NULL)
free(devinfo->function.audio.ctl, M_HDAC);
free(devinfo, M_HDAC);
device_delete_child(sc->dev, devlist[i]);
}
if (devlist != NULL)
free(devlist, M_TEMP);
for (i = 0; i < HDAC_CODEC_MAX; i++) {
if (sc->codecs[i] != NULL)
free(sc->codecs[i], M_HDAC);
sc->codecs[i] = NULL;
}
hdac_dma_free(&sc->rirb_dma);
hdac_dma_free(&sc->corb_dma);
if (sc->play.blkcnt > 0)
hdac_dma_free(&sc->play.bdl_dma);
if (sc->rec.blkcnt > 0)
hdac_dma_free(&sc->rec.bdl_dma);
hdac_irq_free(sc);
hdac_mem_free(sc);
free(sc, M_DEVBUF);
}
/* This function surely going to make its way into upper level someday. */
static void
hdac_config_fetch(struct hdac_softc *sc, uint32_t *on, uint32_t *off)
{
const char *res = NULL;
int i = 0, j, k, len, inv;
if (on != NULL)
*on = 0;
if (off != NULL)
*off = 0;
if (sc == NULL)
return;
if (resource_string_value(device_get_name(sc->dev),
device_get_unit(sc->dev), "config", &res) != 0)
return;
if (!(res != NULL && strlen(res) > 0))
return;
HDA_BOOTVERBOSE(
device_printf(sc->dev, "HDA_DEBUG: HDA Config:");
);
for (;;) {
while (res[i] != '\0' &&
(res[i] == ',' || isspace(res[i]) != 0))
i++;
if (res[i] == '\0') {
HDA_BOOTVERBOSE(
printf("\n");
);
return;
}
j = i;
while (res[j] != '\0' &&
!(res[j] == ',' || isspace(res[j]) != 0))
j++;
len = j - i;
if (len > 2 && strncmp(res + i, "no", 2) == 0)
inv = 2;
else
inv = 0;
for (k = 0; len > inv && k < HDAC_QUIRKS_TAB_LEN; k++) {
if (strncmp(res + i + inv,
hdac_quirks_tab[k].key, len - inv) != 0)
continue;
if (len - inv != strlen(hdac_quirks_tab[k].key))
break;
HDA_BOOTVERBOSE(
printf(" %s%s", (inv != 0) ? "no" : "",
hdac_quirks_tab[k].key);
);
if (inv == 0 && on != NULL)
*on |= hdac_quirks_tab[k].value;
else if (inv != 0 && off != NULL)
*off |= hdac_quirks_tab[k].value;
break;
}
i = j;
}
}
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
#ifdef SND_DYNSYSCTL
static int
sysctl_hdac_polling(SYSCTL_HANDLER_ARGS)
{
struct hdac_softc *sc;
struct hdac_devinfo *devinfo;
device_t dev;
uint32_t ctl;
int err, val;
dev = oidp->oid_arg1;
devinfo = pcm_getdevinfo(dev);
if (devinfo == NULL || devinfo->codec == NULL ||
devinfo->codec->sc == NULL)
return (EINVAL);
sc = devinfo->codec->sc;
hdac_lock(sc);
val = sc->polling;
hdac_unlock(sc);
err = sysctl_handle_int(oidp, &val, sizeof(val), req);
if (err || req->newptr == NULL)
return (err);
if (val < 0 || val > 1)
return (EINVAL);
hdac_lock(sc);
if (val != sc->polling) {
if (hda_chan_active(sc) != 0)
err = EBUSY;
else if (val == 0) {
callout_stop(&sc->poll_hdac);
HDAC_WRITE_2(&sc->mem, HDAC_RINTCNT,
sc->rirb_size / 2);
ctl = HDAC_READ_1(&sc->mem, HDAC_RIRBCTL);
ctl |= HDAC_RIRBCTL_RINTCTL;
HDAC_WRITE_1(&sc->mem, HDAC_RIRBCTL, ctl);
HDAC_WRITE_4(&sc->mem, HDAC_INTCTL,
HDAC_INTCTL_CIE | HDAC_INTCTL_GIE);
sc->polling = 0;
DELAY(1000);
} else {
HDAC_WRITE_4(&sc->mem, HDAC_INTCTL, 0);
HDAC_WRITE_2(&sc->mem, HDAC_RINTCNT, 0);
ctl = HDAC_READ_1(&sc->mem, HDAC_RIRBCTL);
ctl &= ~HDAC_RIRBCTL_RINTCTL;
HDAC_WRITE_1(&sc->mem, HDAC_RIRBCTL, ctl);
callout_reset(&sc->poll_hdac, 1, hdac_poll_callback,
sc);
sc->polling = 1;
DELAY(1000);
}
}
hdac_unlock(sc);
return (err);
}
#endif
static void
hdac_attach2(void *arg)
{
struct hdac_softc *sc;
struct hdac_widget *w;
struct hdac_audio_ctl *ctl;
uint32_t quirks_on, quirks_off;
int pcnt, rcnt;
int i;
char status[SND_STATUSLEN];
device_t *devlist = NULL;
int devcount;
struct hdac_devinfo *devinfo = NULL;
sc = (struct hdac_softc *)arg;
hdac_config_fetch(sc, &quirks_on, &quirks_off);
HDA_BOOTVERBOSE(
device_printf(sc->dev, "HDA_DEBUG: HDA Config: on=0x%08x off=0x%08x\n",
quirks_on, quirks_off);
);
hdac_lock(sc);
/* Remove ourselves from the config hooks */
if (sc->intrhook.ich_func != NULL) {
config_intrhook_disestablish(&sc->intrhook);
sc->intrhook.ich_func = NULL;
}
/* Start the corb and rirb engines */
HDA_BOOTVERBOSE(
device_printf(sc->dev, "HDA_DEBUG: Starting CORB Engine...\n");
);
hdac_corb_start(sc);
HDA_BOOTVERBOSE(
device_printf(sc->dev, "HDA_DEBUG: Starting RIRB Engine...\n");
);
hdac_rirb_start(sc);
HDA_BOOTVERBOSE(
device_printf(sc->dev,
"HDA_DEBUG: Enabling controller interrupt...\n");
);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
if (sc->polling == 0)
HDAC_WRITE_4(&sc->mem, HDAC_INTCTL,
HDAC_INTCTL_CIE | HDAC_INTCTL_GIE);
HDAC_WRITE_4(&sc->mem, HDAC_GCTL, HDAC_READ_4(&sc->mem, HDAC_GCTL) |
HDAC_GCTL_UNSOL);
DELAY(1000);
HDA_BOOTVERBOSE(
device_printf(sc->dev, "HDA_DEBUG: Scanning HDA codecs...\n");
);
hdac_scan_codecs(sc);
device_get_children(sc->dev, &devlist, &devcount);
for (i = 0; devlist != NULL && i < devcount; i++) {
devinfo = (struct hdac_devinfo *)device_get_ivars(devlist[i]);
if (devinfo != NULL && devinfo->node_type ==
HDA_PARAM_FCT_GRP_TYPE_NODE_TYPE_AUDIO) {
break;
} else
devinfo = NULL;
}
if (devlist != NULL)
free(devlist, M_TEMP);
if (devinfo == NULL) {
hdac_unlock(sc);
device_printf(sc->dev, "Audio Function Group not found!\n");
hdac_release_resources(sc);
return;
}
HDA_BOOTVERBOSE(
device_printf(sc->dev,
"HDA_DEBUG: Parsing AFG nid=%d cad=%d\n",
devinfo->nid, devinfo->codec->cad);
);
hdac_audio_parse(devinfo);
HDA_BOOTVERBOSE(
device_printf(sc->dev, "HDA_DEBUG: Parsing Ctls...\n");
);
hdac_audio_ctl_parse(devinfo);
HDA_BOOTVERBOSE(
device_printf(sc->dev, "HDA_DEBUG: Parsing vendor patch...\n");
);
hdac_vendor_patch_parse(devinfo);
if (quirks_on != 0)
devinfo->function.audio.quirks |= quirks_on;
if (quirks_off != 0)
devinfo->function.audio.quirks &= ~quirks_off;
/* XXX Disable all DIGITAL path. */
for (i = devinfo->startnode; i < devinfo->endnode; i++) {
w = hdac_widget_get(devinfo, i);
if (w == NULL)
continue;
if (HDA_PARAM_AUDIO_WIDGET_CAP_DIGITAL(w->param.widget_cap)) {
w->enable = 0;
continue;
}
/* XXX Disable useless pin ? */
if (w->type == HDA_PARAM_AUDIO_WIDGET_CAP_TYPE_PIN_COMPLEX &&
(w->wclass.pin.config &
HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_MASK) ==
HDA_CONFIG_DEFAULTCONF_CONNECTIVITY_NONE)
w->enable = 0;
}
i = 0;
while ((ctl = hdac_audio_ctl_each(devinfo, &i)) != NULL) {
if (ctl->widget == NULL)
continue;
w = ctl->widget;
if (w->enable == 0)
ctl->enable = 0;
if (HDA_PARAM_AUDIO_WIDGET_CAP_DIGITAL(w->param.widget_cap))
ctl->enable = 0;
w = ctl->childwidget;
if (w == NULL)
continue;
if (w->enable == 0 ||
HDA_PARAM_AUDIO_WIDGET_CAP_DIGITAL(w->param.widget_cap))
ctl->enable = 0;
}
HDA_BOOTVERBOSE(
device_printf(sc->dev, "HDA_DEBUG: Building AFG tree...\n");
);
hdac_audio_build_tree(devinfo);
HDA_BOOTVERBOSE(
device_printf(sc->dev, "HDA_DEBUG: AFG commit...\n");
);
hdac_audio_commit(devinfo, HDA_COMMIT_ALL);
HDA_BOOTVERBOSE(
device_printf(sc->dev, "HDA_DEBUG: Ctls commit...\n");
);
hdac_audio_ctl_commit(devinfo);
HDA_BOOTVERBOSE(
device_printf(sc->dev, "HDA_DEBUG: PCMDIR_PLAY setup...\n");
);
pcnt = hdac_pcmchannel_setup(devinfo, PCMDIR_PLAY);
HDA_BOOTVERBOSE(
device_printf(sc->dev, "HDA_DEBUG: PCMDIR_REC setup...\n");
);
rcnt = hdac_pcmchannel_setup(devinfo, PCMDIR_REC);
hdac_unlock(sc);
HDA_BOOTVERBOSE(
device_printf(sc->dev,
"HDA_DEBUG: OSS mixer initialization...\n");
);
/*
* There is no point of return after this. If the driver failed,
* so be it. Let the detach procedure do all the cleanup.
*/
if (mixer_init(sc->dev, &hdac_audio_ctl_ossmixer_class, devinfo) != 0)
device_printf(sc->dev, "Can't register mixer\n");
if (pcnt > 0)
pcnt = 1;
if (rcnt > 0)
rcnt = 1;
HDA_BOOTVERBOSE(
device_printf(sc->dev,
"HDA_DEBUG: Registering PCM channels...\n");
);
if (pcm_register(sc->dev, devinfo, pcnt, rcnt) != 0)
device_printf(sc->dev, "Can't register PCM\n");
sc->registered++;
for (i = 0; i < pcnt; i++)
pcm_addchan(sc->dev, PCMDIR_PLAY, &hdac_channel_class, devinfo);
for (i = 0; i < rcnt; i++)
pcm_addchan(sc->dev, PCMDIR_REC, &hdac_channel_class, devinfo);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
#ifdef SND_DYNSYSCTL
SYSCTL_ADD_PROC(device_get_sysctl_ctx(sc->dev),
SYSCTL_CHILDREN(device_get_sysctl_tree(sc->dev)), OID_AUTO,
"polling", CTLTYPE_INT | CTLFLAG_RW, sc->dev, sizeof(sc->dev),
sysctl_hdac_polling, "I", "Enable polling mode");
#endif
snprintf(status, SND_STATUSLEN, "at memory 0x%lx irq %ld %s [%s]",
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
rman_get_start(sc->mem.mem_res), rman_get_start(sc->irq.irq_res),
PCM_KLDSTRING(snd_hda), HDA_DRV_TEST_REV);
pcm_setstatus(sc->dev, status);
device_printf(sc->dev, "<HDA Codec: %s>\n", hdac_codec_name(devinfo));
HDA_BOOTVERBOSE(
device_printf(sc->dev, "<HDA Codec ID: 0x%08x>\n",
hdac_codec_id(devinfo));
);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
device_printf(sc->dev, "<HDA Driver Revision: %s>\n",
HDA_DRV_TEST_REV);
HDA_BOOTVERBOSE(
if (devinfo->function.audio.quirks != 0) {
device_printf(sc->dev, "\n");
device_printf(sc->dev, "HDA config/quirks:");
for (i = 0; i < HDAC_QUIRKS_TAB_LEN; i++) {
if (devinfo->function.audio.quirks &
hdac_quirks_tab[i].value)
printf(" %s", hdac_quirks_tab[i].key);
}
printf("\n");
}
device_printf(sc->dev, "\n");
device_printf(sc->dev, "+-------------------+\n");
device_printf(sc->dev, "| DUMPING HDA NODES |\n");
device_printf(sc->dev, "+-------------------+\n");
hdac_dump_nodes(devinfo);
device_printf(sc->dev, "\n");
device_printf(sc->dev, "+------------------------+\n");
device_printf(sc->dev, "| DUMPING HDA AMPLIFIERS |\n");
device_printf(sc->dev, "+------------------------+\n");
device_printf(sc->dev, "\n");
i = 0;
while ((ctl = hdac_audio_ctl_each(devinfo, &i)) != NULL) {
device_printf(sc->dev, "%3d: nid=%d", i,
(ctl->widget != NULL) ? ctl->widget->nid : -1);
if (ctl->childwidget != NULL)
printf(" cnid=%d", ctl->childwidget->nid);
printf(" dir=0x%x index=%d "
"ossmask=0x%08x ossdev=%d%s\n",
ctl->dir, ctl->index,
ctl->ossmask, ctl->ossdev,
(ctl->enable == 0) ? " [DISABLED]" : "");
}
device_printf(sc->dev, "\n");
device_printf(sc->dev, "+-----------------------------------+\n");
device_printf(sc->dev, "| DUMPING HDA AUDIO/VOLUME CONTROLS |\n");
device_printf(sc->dev, "+-----------------------------------+\n");
hdac_dump_ctls(devinfo, "Master Volume (OSS: vol)", SOUND_MASK_VOLUME);
hdac_dump_ctls(devinfo, "PCM Volume (OSS: pcm)", SOUND_MASK_PCM);
hdac_dump_ctls(devinfo, "CD Volume (OSS: cd)", SOUND_MASK_CD);
hdac_dump_ctls(devinfo, "Microphone Volume (OSS: mic)", SOUND_MASK_MIC);
hdac_dump_ctls(devinfo, "Line-in Volume (OSS: line)", SOUND_MASK_LINE);
hdac_dump_ctls(devinfo, "Recording Level (OSS: rec)", SOUND_MASK_RECLEV);
hdac_dump_ctls(devinfo, "Speaker/Beep (OSS: speaker)", SOUND_MASK_SPEAKER);
hdac_dump_ctls(devinfo, NULL, 0);
hdac_dump_dac(devinfo);
hdac_dump_adc(devinfo);
device_printf(sc->dev, "\n");
device_printf(sc->dev, "+--------------------------------------+\n");
device_printf(sc->dev, "| DUMPING PCM Playback/Record Channels |\n");
device_printf(sc->dev, "+--------------------------------------+\n");
hdac_dump_pcmchannels(sc, pcnt, rcnt);
);
Welcome to Once-a-year Sound Mega-Commit. Enjoy numerous updates and fixes in every sense. General ------- - Multichannel safe, endian safe, format safe * Large part of critical pcm filters such as vchan.c, feeder_rate.c, feeder_volume.c, feeder_fmt.c and feeder.c has been rewritten so that using them does not cause the pcm data to be converted to 16bit little endian. * Macrosses for accessing pcm data safely are defined within sound.h in the form of PCM_READ_* / PCM_WRITE_* * Currently, most of them are probably limited for mono/stereo handling, but the future addition of true multichannel will be much easier. - Low latency operation * Well, this require lot more works to do not just within sound driver, but we're heading towards right direction. Buffer/block sizing within channel.c is rewritten to calculate precise allocation for various combination of sample/data/rate size. As a result, applying correct SNDCTL_DSP_POLICY value will achive expected latency behaviour simmilar to what commercial 4front driver do. * Signal handling fix. ctrl+c of "cat /dev/zero > /dev/dsp" does not result long delay. * Eliminate sound truncation if the sound data is too small. DIY: 1) Download / extract http://people.freebsd.org/~ariff/lowlatency/shortfiles.tar.gz 2) Do a comparison between "cat state*.au > /dev/dsp" and "for x in state*.au ; do cat $x > /dev/dsp ; done" - there should be no "perceivable" differences. Double close for PR kern/31445. CAVEAT: Low latency come with (unbearable) price especially for poorly written applications. Applications that trying to act smarter by requesting (wrong) blocksize/blockcount will suffer the most. Fixup samples/patches can be found at: http://people.freebsd.org/~ariff/ports/ - Switch minimum/maximum sampling rate limit to "1" and "2016000" (48k * 42) due to closer compatibility with 4front driver. Discussed with: marcus@ (long time ago?) - All driver specific sysctls in the form of "hw.snd.pcm%d.*" have been moved to their own dev sysctl nodes, notably: hw.snd.pcm%d.vchans -> dev.pcm.%d.vchans Bump __FreeBSD_version. Driver specific --------------- - Ditto for sysctls. - snd_atiixp, snd_es137x, snd_via8233, snd_hda * Numerous cleanups and fixes. * _EXPERIMENTAL_ polling mode support using simple callout_* mechanisme. This was intended for pure debugging and latency measurement, but proven good enough in few unexpected and rare cases (such as problematic shared IRQ with GIANT devices - USB). Polling can be enabled/disabled through dev.pcm.0.polling. Disabled by default. - snd_ich * Fix possible overflow during speed calibration. Delay final initialization (pcm_setstatus) after calibration finished. PR: kern/100169 Tested by: Kevin Overman <oberman@es.net> * Inverted EAPD for few Nec VersaPro. PR: kern/104715 Submitted by: KAWATA Masahiko <kawata@mta.biglobe.ne.jp> Thanks to various people, notably Joel Dahl, Yuriy Tsibizov, Kevin Oberman, those at #freebsd-azalia @ freenode and others for testing. Joel Dahl will do the manpage update.
2006-11-26 12:24:06 +00:00
if (sc->polling != 0) {
hdac_lock(sc);
callout_reset(&sc->poll_hdac, 1, hdac_poll_callback, sc);
hdac_unlock(sc);
}
}
/****************************************************************************
* int hdac_detach(device_t)
*
* Detach and free up resources utilized by the hdac device.
****************************************************************************/
static int
hdac_detach(device_t dev)
{
struct hdac_softc *sc = NULL;
struct hdac_devinfo *devinfo = NULL;
int err;
devinfo = (struct hdac_devinfo *)pcm_getdevinfo(dev);
if (devinfo != NULL && devinfo->codec != NULL)
sc = devinfo->codec->sc;
if (sc == NULL)
return (0);
if (sc->registered > 0) {
err = pcm_unregister(dev);
if (err != 0)
return (err);
}
hdac_release_resources(sc);
return (0);
}
static device_method_t hdac_methods[] = {
/* device interface */
DEVMETHOD(device_probe, hdac_probe),
DEVMETHOD(device_attach, hdac_attach),
DEVMETHOD(device_detach, hdac_detach),
{ 0, 0 }
};
static driver_t hdac_driver = {
"pcm",
hdac_methods,
PCM_SOFTC_SIZE,
};
DRIVER_MODULE(snd_hda, pci, hdac_driver, pcm_devclass, 0, 0);
MODULE_DEPEND(snd_hda, sound, SOUND_MINVER, SOUND_PREFVER, SOUND_MAXVER);
MODULE_VERSION(snd_hda, 1);