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-rw-r--r--Documentation/sound/oss/AWE3276
-rw-r--r--Documentation/sound/oss/CMI833885
-rw-r--r--Documentation/sound/oss/INSTALL.awe134
-rw-r--r--Documentation/sound/oss/MAD1656
-rw-r--r--Documentation/sound/oss/Maestro123
-rw-r--r--Documentation/sound/oss/Maestro392
-rw-r--r--Documentation/sound/oss/NEWS42
-rw-r--r--Documentation/sound/oss/OPL3-SA52
-rw-r--r--Documentation/sound/oss/README.awe218
-rw-r--r--Documentation/sound/oss/Wavefront339
-rw-r--r--Documentation/sound/oss/es137070
-rw-r--r--Documentation/sound/oss/rme96xx767
-rw-r--r--Documentation/sound/oss/solo170
-rw-r--r--Documentation/sound/oss/sonicvibes81
14 files changed, 0 insertions, 2205 deletions
diff --git a/Documentation/sound/oss/AWE32 b/Documentation/sound/oss/AWE32
deleted file mode 100644
index b5908a66ff5..00000000000
--- a/Documentation/sound/oss/AWE32
+++ /dev/null
@@ -1,76 +0,0 @@
- Installing and using Creative AWE midi sound under Linux.
-
-This documentation is devoted to the Creative Sound Blaster AWE32, AWE64 and
-SB32.
-
-1) Make sure you have an ORIGINAL Creative SB32, AWE32 or AWE64 card. This
- is important, because the driver works only with real Creative cards.
-
-2) The first thing you need to do is re-compile your kernel with support for
- your sound card. Run your favourite tool to configure the kernel and when
- you get to the "Sound" menu you should enable support for the following:
-
- Sound card support,
- OSS sound modules,
- 100% Sound Blaster compatibles (SB16/32/64, ESS, Jazz16) support,
- AWE32 synth
-
- If your card is "Plug and Play" you will also need to enable these two
- options, found under the "Plug and Play configuration" menu:
-
- Plug and Play support
- ISA Plug and Play support
-
- Now compile and install the kernel in normal fashion. If you don't know
- how to do this you can find instructions for this in the README file
- located in the root directory of the kernel source.
-
-3) Before you can start playing midi files you will have to load a sound
- bank file. The utility needed for doing this is called "sfxload", and it
- is one of the utilities found in a package called "awesfx". If this
- package is not available in your distribution you can download the AWE
- snapshot from Creative Labs Open Source website:
-
- http://www.opensource.creative.com/snapshot.html
-
- Once you have unpacked the AWE snapshot you will see a "awesfx"
- directory. Follow the instructions in awesfx/docs/INSTALL to install the
- utilities in this package. After doing this, sfxload should be installed
- as:
-
- /usr/local/bin/sfxload
-
- To enable AWE general midi synthesis you should also get the sound bank
- file for general midi from:
-
- http://members.xoom.com/yar/synthgm.sbk.gz
-
- Copy it to a directory of your choice, and unpack it there.
-
-4) Edit /etc/modprobe.conf, and insert the following lines at the end of the
- file:
-
- alias sound-slot-0 sb
- alias sound-service-0-1 awe_wave
- install awe_wave /sbin/modprobe --first-time -i awe_wave && /usr/local/bin/sfxload PATH_TO_SOUND_BANK_FILE
-
- You will of course have to change "PATH_TO_SOUND_BANK_FILE" to the full
- path of the sound bank file. That will enable the Sound Blaster and AWE
- wave synthesis. To play midi files you should get one of these programs if
- you don't already have them:
-
- Playmidi: http://playmidi.openprojects.net
-
- AWEMidi Player (drvmidi) Included in the previously mentioned AWE
- snapshot.
-
- You will probably have to pass the "-e" switch to playmidi to have it use
- your midi device. drvmidi should work without switches.
-
- If something goes wrong please e-mail me. All comments and suggestions are
- welcome.
-
- Yaroslav Rosomakho (alons55@dialup.ptt.ru)
- http://www.yar.opennet.ru
-
-Last Updated: Feb 3 2001
diff --git a/Documentation/sound/oss/CMI8338 b/Documentation/sound/oss/CMI8338
deleted file mode 100644
index 387d058c3f9..00000000000
--- a/Documentation/sound/oss/CMI8338
+++ /dev/null
@@ -1,85 +0,0 @@
-Audio driver for CM8338/CM8738 chips by Chen-Li Tien
-
-
-HARDWARE SUPPORTED
-================================================================================
-C-Media CMI8338
-C-Media CMI8738
-On-board C-Media chips
-
-
-STEPS TO BUILD DRIVER
-================================================================================
-
- 1. Backup the Config.in and Makefile in the sound driver directory
- (/usr/src/linux/driver/sound).
- The Configure.help provide help when you config driver in step
- 4, please backup the original one (/usr/src/linux/Document) and
- copy this file.
- The cmpci is document for the driver in detail, please copy it
- to /usr/src/linux/Document/sound so you can refer it. Backup if
- there is already one.
-
- 2. Extract the tar file by 'tar xvzf cmpci-xx.tar.gz' in the above
- directory.
-
- 3. Change directory to /usr/src/linux
-
- 4. Config cm8338 driver by 'make menuconfig', 'make config' or
- 'make xconfig' command.
-
- 5. Please select Sound Card (CONFIG_SOUND=m) support and CMPCI
- driver (CONFIG_SOUND_CMPCI=m) as modules. Resident mode not tested.
- For driver option, please refer 'DRIVER PARAMETER'
-
- 6. Compile the kernel if necessary.
-
- 7. Compile the modules by 'make modules'.
-
- 8. Install the modules by 'make modules_install'
-
-
-INSTALL DRIVER
-================================================================================
-
- 1. Before first time to run the driver, create module dependency by
- 'depmod -a'
-
- 2. To install the driver manually, enter 'modprobe cmpci'.
-
- 3. Driver installation for various distributions:
-
- a. Slackware 4.0
- Add the 'modprobe cmpci' command in your /etc/rc.d/rc.modules
- file.so you can start the driver automatically each time booting.
-
- b. Caldera OpenLinux 2.2
- Use LISA to load the cmpci module.
-
- c. RedHat 6.0 and S.u.S.E. 6.1
- Add following command in /etc/conf.modules:
-
- alias sound cmpci
-
- also visit http://www.cmedia.com.tw for installation instruction.
-
-DRIVER PARAMETER
-================================================================================
-
- Some functions for the cm8738 can be configured in Kernel Configuration
- or modules parameters. Set these parameters to 1 to enable.
-
- mpuio: I/O ports base for MPU-401, 0 if disabled.
- fmio: I/O ports base for OPL-3, 0 if disabled.
- spdif_inverse:Inverse the S/PDIF-in signal, this depends on your
- CD-ROM or DVD-ROM.
- spdif_loop: Enable S/PDIF loop, this route S/PDIF-in to S/PDIF-out
- directly.
- speakers: Number of speakers used.
- use_line_as_rear:Enable this if you want to use line-in as
- rear-out.
- use_line_as_bass:Enable this if you want to use line-in as
- bass-out.
- joystick: Enable joystick. You will need to install Linux joystick
- driver.
-
diff --git a/Documentation/sound/oss/INSTALL.awe b/Documentation/sound/oss/INSTALL.awe
deleted file mode 100644
index 310f42ca1e8..00000000000
--- a/Documentation/sound/oss/INSTALL.awe
+++ /dev/null
@@ -1,134 +0,0 @@
-================================================================
- INSTALLATION OF AWE32 SOUND DRIVER FOR LINUX
- Takashi Iwai <iwai@ww.uni-erlangen.de>
-================================================================
-
-----------------------------------------------------------------
-* Attention to SB-PnP Card Users
-
-If you're using PnP cards, the initialization of PnP is required
-before loading this driver. You have now three options:
- 1. Use isapnptools.
- 2. Use in-kernel isapnp support.
- 3. Initialize PnP on DOS/Windows, then boot linux by loadlin.
-In this document, only the case 1 case is treated.
-
-----------------------------------------------------------------
-* Installation on Red Hat 5.0 Sound Driver
-
-Please use install-rh.sh under RedHat5.0 directory.
-DO NOT USE install.sh below.
-See INSTALL.RH for more details.
-
-----------------------------------------------------------------
-* Installation/Update by Shell Script
-
- 1. Become root
-
- % su
-
- 2. If you have never configured the kernel tree yet, run make config
- once (to make dependencies and symlinks).
-
- # cd /usr/src/linux
- # make xconfig
-
- 3. Run install.sh script
-
- # sh ./install.sh
-
- 4. Configure your kernel
-
- (for Linux 2.[01].x user)
- # cd /usr/src/linux
- # make xconfig (or make menuconfig)
-
- (for Linux 1.2.x user)
- # cd /usr/src/linux
- # make config
-
- Answer YES to both "lowlevel drivers" and "AWE32 wave synth" items
- in Sound menu. ("lowlevel drivers" will appear only in 2.x
- kernel.)
-
- 5. Make your kernel (and modules), and install them as usual.
-
- 5a. make kernel image
- # make zImage
-
- 5b. make modules and install them
- # make modules && make modules_install
-
- 5c. If you're using lilo, copy the kernel image and run lilo.
- Otherwise, copy the kernel image to suitable directory or
- media for your system.
-
- 6. Reboot the kernel if necessary.
- - If you updated only the modules, you don't have to reboot
- the system. Just remove the old sound modules here.
- in
- # rmmod sound.o (linux-2.0 or OSS/Free)
- # rmmod awe_wave.o (linux-2.1)
-
- 7. If your AWE card is a PnP and not initialized yet, you'll have to
- do it by isapnp tools. Otherwise, skip to 8.
-
- This section described only a brief explanation. For more
- details, please see the AWE64-Mini-HOWTO or isapnp tools FAQ.
-
- 7a. If you have no isapnp.conf file, generate it by pnpdump.
- Otherwise, skip to 7d.
- # pnpdump > /etc/isapnp.conf
-
- 7b. Edit isapnp.conf file. Comment out the appropriate
- lines containing desirable I/O ports, DMA and IRQs.
- Don't forget to enable (ACT Y) line.
-
- 7c. Add two i/o ports (0xA20 and 0xE20) in WaveTable part.
- ex)
- (CONFIGURE CTL0048/58128 (LD 2
- # ANSI string -->WaveTable<--
- (IO 0 (BASE 0x0620))
- (IO 1 (BASE 0x0A20))
- (IO 2 (BASE 0x0E20))
- (ACT Y)
- ))
-
- 7d. Load the config file.
- CAUTION: This will reset all PnP cards!
-
- # isapnp /etc/isapnp.conf
-
- 8. Load the sound module (if you configured it as a module):
-
- for 2.0 kernel or OSS/Free monolithic module:
-
- # modprobe sound.o
-
- for 2.1 kernel:
-
- # modprobe sound
- # insmod uart401
- # insmod sb io=0x220 irq=5 dma=1 dma16=5 mpu_io=0x330
- (These values depend on your settings.)
- # insmod awe_wave
- (Be sure to load awe_wave after sb!)
-
- See Documentation/sound/oss/AWE32 for
- more details.
-
- 9. (only for obsolete systems) If you don't have /dev/sequencer
- device file, make it according to Readme.linux file on
- /usr/src/linux/drivers/sound. (Run a shell script included in
- that file). <-- This file no longer exists in the recent kernels!
-
- 10. OK, load your own soundfont file, and enjoy MIDI!
-
- % sfxload synthgm.sbk
- % drvmidi foo.mid
-
- 11. For more advanced use (eg. dynamic loading, virtual bank and
- etc.), please read the awedrv FAQ or the instructions in awesfx
- and awemidi packages.
-
-Good luck!
diff --git a/Documentation/sound/oss/MAD16 b/Documentation/sound/oss/MAD16
deleted file mode 100644
index 865dbd84874..00000000000
--- a/Documentation/sound/oss/MAD16
+++ /dev/null
@@ -1,56 +0,0 @@
-(This recipe has been edited to update the configuration symbols,
- and change over to modprobe.conf for 2.6)
-
-From: Shaw Carruthers <shaw@shawc.demon.co.uk>
-
-I have been using mad16 sound for some time now with no problems, current
-kernel 2.1.89
-
-lsmod shows:
-
-mad16 5176 0
-sb 22044 0 [mad16]
-uart401 5576 0 [mad16 sb]
-ad1848 14176 1 [mad16]
-sound 61928 0 [mad16 sb uart401 ad1848]
-
-.config has:
-
-CONFIG_SOUND=m
-CONFIG_SOUND_ADLIB=m
-CONFIG_SOUND_MAD16=m
-CONFIG_SOUND_YM3812=m
-
-modprobe.conf has:
-
-alias char-major-14-* mad16
-options sb mad16=1
-options mad16 io=0x530 irq=7 dma=0 dma16=1 && /usr/local/bin/aumix -w 15 -p 20 -m 0 -1 0 -2 0 -3 0 -i 0
-
-
-To get the built in mixer to work this needs to be:
-
-options adlib_card io=0x388 # FM synthesizer
-options sb mad16=1
-options mad16 io=0x530 irq=7 dma=0 dma16=1 mpu_io=816 mpu_irq=5 && /usr/local/bin/aumix -w 15 -p 20 -m 0 -1 0 -2 0 -3 0 -i 0
-
-The addition of the "mpu_io=816 mpu_irq=5" to the mad16 options line is
-
-------------------------------------------------------------------------
-The mad16 module in addition supports the following options:
-
-option: meaning: default:
-joystick=0,1 disabled, enabled disabled
-cdtype=0x00,0x02,0x04, disabled, Sony CDU31A, disabled
- 0x06,0x08,0x0a Mitsumi, Panasonic,
- Secondary IDE, Primary IDE
-cdport=0x340,0x320, 0x340
- 0x330,0x360
-cdirq=0,3,5,7,9,10,11 disabled, IRQ3, ... disabled
-cddma=0,5,6,7 disabled, DMA5, ... DMA5 for Mitsumi or IDE
-cddma=0,1,2,3 disabled, DMA1, ... DMA3 for Sony or Panasonic
-opl4=0,1 OPL3, OPL4 OPL3
-
-for more details see linux/drivers/sound/mad16.c
-
-Rui Sousa
diff --git a/Documentation/sound/oss/Maestro b/Documentation/sound/oss/Maestro
deleted file mode 100644
index 4a80eb3f8e0..00000000000
--- a/Documentation/sound/oss/Maestro
+++ /dev/null
@@ -1,123 +0,0 @@
- An OSS/Lite Driver for the ESS Maestro family of sound cards
-
- Zach Brown, December 1999
-
-Driver Status and Availability
-------------------------------
-
-The most recent version of this driver will hopefully always be available at
- http://www.zabbo.net/maestro/
-
-I will try and maintain the most recent stable version of the driver
-in both the stable and development kernel lines.
-
-ESS Maestro Chip Family
------------------------
-
-There are 3 main variants of the ESS Maestro PCI sound chip. The first
-is the Maestro 1. It was originally produced by Platform Tech as the
-'AGOGO'. It can be recognized by Platform Tech's PCI ID 0x1285 with
-0x0100 as the device ID. It was put on some sound boards and a few laptops.
-ESS bought the design and cleaned it up as the Maestro 2. This starts
-their marking with the ESS vendor ID 0x125D and the 'year' device IDs.
-The Maestro 2 claims 0x1968 while the Maestro 2e has 0x1978.
-
-The various families of Maestro are mostly identical as far as this
-driver is concerned. It doesn't touch the DSP parts that differ (though
-it could for FM synthesis).
-
-Driver OSS Behavior
---------------------
-
-This OSS driver exports /dev/mixer and /dev/dsp to applications, which
-mostly adhere to the OSS spec. This driver doesn't register itself
-with /dev/sndstat, so don't expect information to appear there.
-
-The /dev/dsp device exported behaves almost as expected. Playback is
-supported in all the various lovely formats. 8/16bit stereo/mono from
-8khz to 48khz, and mmap()ing for playback behaves. Capture/recording
-is limited due to oddities with the Maestro hardware. One can only
-record in 16bit stereo. For recording the maestro uses non interleaved
-stereo buffers so that mmap()ing the incoming data does not result in
-a ring buffer of LRLR data. mmap()ing of the read buffers is therefore
-disallowed until this can be cleaned up.
-
-/dev/mixer is an interface to the AC'97 codec on the Maestro. It is
-worth noting that there are a variety of AC'97s that can be wired to
-the Maestro. Which is used is entirely up to the hardware implementor.
-This should only be visible to the user by the presence, or lack, of
-'Bass' and 'Treble' sliders in the mixer. Not all AC'97s have them.
-
-The driver doesn't support MIDI or FM playback at the moment. Typically
-the Maestro is wired to an MPU MIDI chip, but some hardware implementations
-don't. We need to assemble a white list of hardware implementations that
-have MIDI wired properly before we can claim to support it safely.
-
-Compiling and Installing
-------------------------
-
-With the drivers inclusion into the kernel, compiling and installing
-is the same as most OSS/Lite modular sound drivers. Compilation
-of the driver is enabled through the CONFIG_SOUND_MAESTRO variable
-in the config system.
-
-It may be modular or statically linked. If it is modular it should be
-installed with the rest of the modules for the kernel on the system.
-Typically this will be in /lib/modules/ somewhere. 'alias sound maestro'
-should also be added to your module configs (typically /etc/conf.modules)
-if you're using modular OSS/Lite sound and want to default to using a
-maestro chip.
-
-As this is a PCI device, the module does not need to be informed of
-any IO or IRQ resources it should use, it devines these from the
-system. Sometimes, on sucky PCs, the BIOS fails to allocated resources
-for the maestro. This will result in a message like:
- maestro: PCI subsystem reports IRQ 0, this might not be correct.
-from the kernel. Should this happen the sound chip most likely will
-not operate correctly. To solve this one has to dig through their BIOS
-(typically entered by hitting a hot key at boot time) and figure out
-what magic needs to happen so that the BIOS will reward the maestro with
-an IRQ. This operation is incredibly system specific, so you're on your
-own. Sometimes the magic lies in 'PNP Capable Operating System' settings.
-
-There are very few options to the driver. One is 'debug' which will
-tell the driver to print minimal debugging information as it runs. This
-can be collected with 'dmesg' or through the klogd daemon.
-
-The other, more interesting option, is 'dsps_order'. Typically at
-install time the driver will only register one available /dev/dsp device
-for its use. The 'dsps_order' module parameter allows for more devices
-to be allocated, as a power of two. Up to 4 devices can be registered
-( dsps_order=2 ). These devices act as fully distinct units and use
-separate channels in the maestro.
-
-Power Management
-----------------
-
-As of version 0.14, this driver has a minimal understanding of PCI
-Power Management. If it finds a valid power management capability
-on the PCI device it will attempt to use the power management
-functions of the maestro. It will only do this on Maestro 2Es and
-only on machines that are known to function well. You can
-force the use of power management by setting the 'use_pm' module
-option to 1, or can disable it entirely by setting it to 0.
-
-When using power management, the driver does a few things
-differently. It will keep the chip in a lower power mode
-when the module is inserted but /dev/dsp is not open. This
-allows the mixer to function but turns off the clocks
-on other parts of the chip. When /dev/dsp is opened the chip
-is brought into full power mode, and brought back down
-when it is closed. It also powers down the chip entirely
-when the module is removed or the machine is shutdown. This
-can have nonobvious consequences. CD audio may not work
-after a power managing driver is removed. Also, software that
-doesn't understand power management may not be able to talk
-to the powered down chip until the machine goes through a hard
-reboot to bring it back.
-
-.. more details ..
-------------------
-
-drivers/sound/maestro.c contains comments that hopefully explain
-the maestro implementation.
diff --git a/Documentation/sound/oss/Maestro3 b/Documentation/sound/oss/Maestro3
deleted file mode 100644
index a113718e803..00000000000
--- a/Documentation/sound/oss/Maestro3
+++ /dev/null
@@ -1,92 +0,0 @@
- An OSS/Lite Driver for the ESS Maestro3 family of sound chips
-
- Zach Brown, January 2001
-
-Driver Status and Availability
-------------------------------
-
-The most recent version of this driver will hopefully always be available at
- http://www.zabbo.net/maestro3/
-
-I will try and maintain the most recent stable version of the driver
-in both the stable and development kernel lines.
-
-Historically I've sucked pretty hard at actually doing that, however.
-
-ESS Maestro3 Chip Family
------------------------
-
-The 'Maestro3' is much like the Maestro2 chip. The noted improvement
-is the removal of the silicon in the '2' that did PCM mixing. All that
-work is now done through a custom DSP called the ASSP, the Asynchronus
-Specific Signal Processor.
-
-The 'Allegro' is a baby version of the Maestro3. I'm not entirely clear
-on the extent of the differences, but the driver supports them both :)
-
-The 'Allegro' shows up as PCI ID 0x1988 and the Maestro3 as 0x1998,
-both under ESS's vendor ID of 0x125D. The Maestro3 can also show up as
-0x199a when hardware strapping is used.
-
-The chip can also act as a multi function device. The modem IDs follow
-the audio multimedia device IDs. (so the modem part of an Allegro shows
-up as 0x1989)
-
-Driver OSS Behavior
---------------------
-
-This OSS driver exports /dev/mixer and /dev/dsp to applications, which
-mostly adhere to the OSS spec. This driver doesn't register itself
-with /dev/sndstat, so don't expect information to appear there.
-
-The /dev/dsp device exported behaves as expected. Playback is
-supported in all the various lovely formats. 8/16bit stereo/mono from
-8khz to 48khz, with both read()/write(), and mmap().
-
-/dev/mixer is an interface to the AC'97 codec on the Maestro3. It is
-worth noting that there are a variety of AC'97s that can be wired to
-the Maestro3. Which is used is entirely up to the hardware implementor.
-This should only be visible to the user by the presence, or lack, of
-'Bass' and 'Treble' sliders in the mixer. Not all AC'97s have them.
-The Allegro has an onchip AC'97.
-
-The driver doesn't support MIDI or FM playback at the moment.
-
-Compiling and Installing
-------------------------
-
-With the drivers inclusion into the kernel, compiling and installing
-is the same as most OSS/Lite modular sound drivers. Compilation
-of the driver is enabled through the CONFIG_SOUND_MAESTRO3 variable
-in the config system.
-
-It may be modular or statically linked. If it is modular it should be
-installed with the rest of the modules for the kernel on the system.
-Typically this will be in /lib/modules/ somewhere. 'alias sound-slot-0
-maestro3' should also be added to your module configs (typically
-/etc/modprobe.conf) if you're using modular OSS/Lite sound and want to
-default to using a maestro3 chip.
-
-There are very few options to the driver. One is 'debug' which will
-tell the driver to print minimal debugging information as it runs. This
-can be collected with 'dmesg' or through the klogd daemon.
-
-One is 'external_amp', which tells the driver to attempt to enable
-an external amplifier. This defaults to '1', you can tell the driver
-not to bother enabling such an amplifier by setting it to '0'.
-
-And the last is 'gpio_pin', which tells the driver which GPIO pin number
-the external amp uses (0-15), The Allegro uses 8 by default, all others 1.
-If everything loads correctly and seems to be working but you get no sound,
-try tweaking this value.
-
-Systems known to need a different value
- Panasonic ToughBook CF-72: gpio_pin=13
-
-Power Management
-----------------
-
-This driver has a minimal understanding of PCI Power Management. It will
-try and power down the chip when the system is suspended, and power
-it up with it is resumed. It will also try and power down the chip
-when the machine is shut down.
diff --git a/Documentation/sound/oss/NEWS b/Documentation/sound/oss/NEWS
deleted file mode 100644
index a81e0ef72ae..00000000000
--- a/Documentation/sound/oss/NEWS
+++ /dev/null
@@ -1,42 +0,0 @@
-Linux 2.4 Sound Changes
-2000-September-25
-Christoph Hellwig, <hch@infradead.org>
-
-
-
-=== isapnp support
-
-The Linux 2.4 Kernel does have reliable in-kernel isapnp support.
-Some drivers (sb.o, ad1816.o awe_wave.o) do now support automatically
-detecting and configuring isapnp devices.
-If you have a not yet supported isapnp soundcard, mail me the content
-of '/proc/isapnp' on your system and some information about your card
-and its driver(s) so I can try to get isapnp working for it.
-
-
-
-=== soundcard resources on kernel commandline
-
-Before Linux 2.4 you had to specify the resources for sounddrivers
-statically linked into the kernel at compile time
-(in make config/menuconfig/xconfig). In Linux 2.4 the resources are
-now specified at the boot-time kernel commandline (e.g. the lilo
-'append=' line or everything that's after the kernel name in grub).
-Read the Configure.help entry for your card for the parameters.
-
-
-=== softoss is gone
-
-In Linux 2.4 the softoss in-kernel software synthesizer is no more aviable.
-Use a user space software synthesizer like timidity instead.
-
-
-
-=== /dev/sndstat and /proc/sound are gone
-
-In older Linux versions those files exported some information about the
-OSS/Free configuration to userspace. In Linux 2.3 they were removed because
-they did not support the growing number of pci soundcards and there were
-some general problems with this interface.
-
-
diff --git a/Documentation/sound/oss/OPL3-SA b/Documentation/sound/oss/OPL3-SA
deleted file mode 100644
index 66a91835d91..00000000000
--- a/Documentation/sound/oss/OPL3-SA
+++ /dev/null
@@ -1,52 +0,0 @@
-OPL3-SA1 sound driver (opl3sa.o)
-
----
-Note: This howto only describes how to setup the OPL3-SA1 chip; this info
-does not apply to the SA2, SA3, or SA4.
----
-
-The Yamaha OPL3-SA1 sound chip is usually found built into motherboards, and
-it's a decent little chip offering a WSS mode, a SB Pro emulation mode, MPU401
-and OPL3 FM Synth capabilities.
-
-You can enable inclusion of the driver via CONFIG_SOUND_OPL3SA1=m, or
-CONFIG_SOUND_OPL3SA1=y through 'make config/xconfig/menuconfig'.
-
-You'll need to know all of the relevant info (irq, dma, and io port) for the
-chip's WSS mode, since that is the mode the kernel sound driver uses, and of
-course you'll also need to know about where the MPU401 and OPL3 ports and
-IRQs are if you want to use those.
-
-Here's the skinny on how to load it as a module:
-
- modprobe opl3sa io=0x530 irq=11 dma=0 dma2=1 mpu_io=0x330 mpu_irq=5
-
-Module options in detail:
-
- io: This is the WSS's port base.
- irq: This is the WSS's IRQ.
- dma: This is the WSS's DMA line. In my BIOS setup screen this was
- listed as "WSS Play DMA"
- dma2: This is the WSS's secondary DMA line. My BIOS calls it the
- "WSS capture DMA"
-
- mpu_io: This is the MPU401's port base.
- mpu_irq: This is the MPU401's IRQ.
-
-If you'd like to use the OPL3 FM Synthesizer, make sure you enable
-CONFIG_SOUND_YM3812 (in 'make config'). That'll build the opl3.o module.
-
-Then a simple 'insmod opl3 io=0x388', and you now have FM Synth.
-
-You can also use the SoftOSS software synthesizer instead of the builtin OPL3.
-Here's how:
-
-Say 'y' or 'm' to "SoftOSS software wave table engine" in make config.
-
-If you said yes, the software synth is available once you boot your new
-kernel.
-
-If you chose to build it as a module, just insmod the resulting softoss2.o
-
-Questions? Comments?
-<stiker@northlink.com>
diff --git a/Documentation/sound/oss/README.awe b/Documentation/sound/oss/README.awe
deleted file mode 100644
index 80054cd8fcd..00000000000
--- a/Documentation/sound/oss/README.awe
+++ /dev/null
@@ -1,218 +0,0 @@
-================================================================
- AWE32 Sound Driver for Linux / FreeBSD
- version 0.4.3; Nov. 1, 1998
-
- Takashi Iwai <iwai@ww.uni-erlangen.de>
-================================================================
-
-* GENERAL NOTES
-
-This is a sound driver extension for SoundBlaster AWE32 and other
-compatible cards (AWE32-PnP, SB32, SB32-PnP, AWE64 & etc) to enable
-the wave synth operations. The driver is provided for Linux 1.2.x
-and 2.[012].x kernels, as well as FreeBSD, on Intel x86 and DEC
-Alpha systems.
-
-This driver was written by Takashi Iwai <iwai@ww.uni-erlangen.de>,
-and provided "as is". The original source (awedrv-0.4.3.tar.gz) and
-binary packages are available on the following URL:
- http://bahamut.mm.t.u-tokyo.ac.jp/~iwai/awedrv/
-Note that since the author is apart from this web site, the update is
-not frequent now.
-
-
-* NOTE TO LINUX USERS
-
-To enable this driver on linux-2.[01].x kernels, you need turn on
-"AWE32 synth" options in sound menu when configure your linux kernel
-and modules. The precise installation procedure is described in the
-AWE64-Mini-HOWTO and linux-kernel/Documetation/sound/AWE32.
-
-If you're using PnP cards, the card must be initialized before loading
-the sound driver. There're several options to do this:
- - Initialize the card via ISA PnP tools, and load the sound module.
- - Initialize the card on DOS, and load linux by loadlin.exe
- - Use PnP kernel driver (for Linux-2.x.x)
-The detailed instruction for the solution using isapnp tools is found
-in many documents like above. A brief instruction is also included in
-the installation document of this package.
-For PnP driver project, please refer to the following URL:
- http://www-jcr.lmh.ox.ac.uk/~pnp/
-
-
-* USING THE DRIVER
-
-The awedrv has several different playing modes to realize easy channel
-allocation for MIDI songs. To hear the exact sound quality, you need
-to obtain the extended sequencer program, drvmidi or playmidi-2.5.
-
-For playing MIDI files, you *MUST* load the soundfont file on the
-driver previously by sfxload utility. Otherwise you'll here no sounds
-at all! All the utilities and driver source packages are found in the
-above URL. The sfxload program is included in the package
-awesfx-0.4.3.tgz. Binary packages are available there, too. See the
-instruction in each package for installation.
-
-Loading a soundfont file is very simple. Just execute the command
-
- % sfxload synthgm.sbk
-
-Then, sfxload transfers the file "synthgm.sbk" to the driver.
-Both SF1 and SF2 formats are accepted.
-
-Now you can hear midi musics by a midi player.
-
- % drvmidi foo.mid
-
-If you run MIDI player after MOD player, you need to load soundfont
-files again, since MOD player programs clear the previous loaded
-samples by their own data.
-
-If you have only 512kb on the sound card, I recommend to use dynamic
-sample loading via -L option of drvmidi. 2MB GM/GS soundfont file is
-available in most midi files.
-
- % sfxload synthgm
- % drvmidi -L 2mbgmgs foo.mid
-
-This makes a big difference (believe me)! For more details, please
-refer to the FAQ list which is available on the URL above.
-
-The current chorus, reverb and equalizer status can be changed by
-aweset utility program (included in awesfx package). Note that
-some awedrv-native programs (like drvmidi and xmp) will change the
-current settings by themselves. The aweset program is effective
-only for other programs like playmidi.
-
-Enjoy.
-
-
-* COMPILE FLAGS
-
-Compile conditions are defined in awe_config.h.
-
-[Compatibility Conditions]
-The following flags are defined automatically when using installation
-shell script.
-
-- AWE_MODULE_SUPPORT
- indicates your Linux kernel supports module for each sound card
- (in recent 2.1 or 2.2 kernels and unofficial patched 2.0 kernels
- as distributed in the RH5.0 package).
- This flag is automatically set when you're using 2.1.x kernels.
- You can pass the base address and memory size via the following
- module options,
- io = base I/O port address (eg. 0x620)
- memsize = DRAM size in kilobytes (eg. 512)
- As default, AWE driver probes these values automatically.
-
-
-[Hardware Conditions]
-You DON'T have to define the following two values.
-Define them only when the driver couldn't detect the card properly.
-
-- AWE_DEFAULT_BASE_ADDR (default: not defined)
- specifies the base port address of your AWE32 card.
- 0 means to autodetect the address.
-
-- AWE_DEFAULT_MEM_SIZE (default: not defined)
- specifies the memory size of your AWE32 card in kilobytes.
- -1 means to autodetect its size.
-
-
-[Sample Table Size]
-From ver.0.4.0, sample tables are allocated dynamically (except
-Linux-1.2.x system), so you need NOT to touch these parameters.
-Linux-1.2.x users may need to increase these values to appropriate size
-if the sound card is equipped with more DRAM.
-
-- AWE_MAX_SF_LISTS, AWE_MAX_SAMPLES, AWE_MAX_INFOS
-
-
-[Other Conditions]
-
-- AWE_ALWAYS_INIT_FM (default: not defined)
- indicates the AWE driver always initialize FM passthrough even
- without DRAM on board. Emu8000 chip has a restriction for playing
- samples on DRAM that at least two channels must be occupied as
- passthrough channels.
-
-- AWE_DEBUG_ON (default: defined)
- turns on debugging messages if defined.
-
-- AWE_HAS_GUS_COMPATIBILITY (default: defined)
- Enables GUS compatibility mode if defined, reading GUS patches and
- GUS control commands. Define this option to use GMOD or other
- GUS module players.
-
-- CONFIG_AWE32_MIDIEMU (default: defined)
- Adds a MIDI emulation device by Emu8000 wavetable. The emulation
- device can be accessed as an external MIDI, and sends the MIDI
- control codes directly. XG and GS sysex/NRPN are accepted.
- No MIDI input is supported.
-
-- CONFIG_AWE32_MIXER (default: not defined)
- Adds a mixer device for AWE32 bass/treble equalizer control.
- You can access this device using /dev/mixer?? (usually mixer01).
-
-- AWE_USE_NEW_VOLUME_CALC (default: defined)
- Use the new method to calculate the volume change as compatible
- with DOS/Win drivers. This option can be toggled via aweset
- program, or drvmidi player.
-
-- AWE_CHECK_VTARGET (default: defined)
- Check the current volume target value when searching for an
- empty channel to allocate a new voice. This is experimentally
- implemented in this version. (probably, this option doesn't
- affect the sound quality severely...)
-
-- AWE_ALLOW_SAMPLE_SHARING (default: defined)
- Allow sample sharing for differently loaded patches.
- This function is available only together with awesfx-0.4.3p3.
- Note that this is still an experimental option.
-
-- DEF_FM_CHORUS_DEPTH (default: 0x10)
- The default strength to be sent to the chorus effect engine.
- From 0 to 0xff. Larger numbers may often cause weird sounds.
-
-- DEF_FM_REVERB_DEPTH (default: 0x10)
- The default strength to be sent to the reverb effect engine.
- From 0 to 0xff. Larger numbers may often cause weird sounds.
-
-
-* ACKNOWLEDGMENTS
-
-Thanks to Witold Jachimczyk (witek@xfactor.wpi.edu) for much advice
-on programming of AWE32. Much code is brought from his AWE32-native
-MOD player, ALMP.
-The port of awedrv to FreeBSD is done by Randall Hopper
-(rhh@ct.picker.com).
-The new volume calculation routine was derived from Mark Weaver's
-ADIP compatible routines.
-I also thank linux-awe-ml members for their efforts
-to reboot their system many times :-)
-
-
-* TODO'S
-
-- Complete DOS/Win compatibility
-- DSP-like output
-
-
-* COPYRIGHT
-
-Copyright (C) 1996-1998 Takashi Iwai
-
-This program is free software; you can redistribute it and/or modify
-it under the terms of the GNU General Public License as published by
-the Free Software Foundation; either version 2 of the License, or
-(at your option) any later version.
-
-This program is distributed in the hope that it will be useful,
-but WITHOUT ANY WARRANTY; without even the implied warranty of
-MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-GNU General Public License for more details.
-
-You should have received a copy of the GNU General Public License
-along with this program; if not, write to the Free Software
-Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
diff --git a/Documentation/sound/oss/Wavefront b/Documentation/sound/oss/Wavefront
deleted file mode 100644
index 16f57ea4305..00000000000
--- a/Documentation/sound/oss/Wavefront
+++ /dev/null
@@ -1,339 +0,0 @@
- An OSS/Free Driver for WaveFront soundcards
- (Turtle Beach Maui, Tropez, Tropez Plus)
-
- Paul Barton-Davis, July 1998
-
- VERSION 0.2.5
-
-Driver Status
--------------
-
-Requires: Kernel 2.1.106 or later (the driver is included with kernels
-2.1.109 and above)
-
-As of 7/22/1998, this driver is currently in *BETA* state. This means
-that it compiles and runs, and that I use it on my system (Linux
-2.1.106) with some reasonably demanding applications and uses. I
-believe the code is approaching an initial "finished" state that
-provides bug-free support for the Tropez Plus.
-
-Please note that to date, the driver has ONLY been tested on a Tropez
-Plus. I would very much like to hear (and help out) people with Tropez
-and Maui cards, since I think the driver can support those cards as
-well.
-
-Finally, the driver has not been tested (or even compiled) as a static
-(non-modular) part of the kernel. Alan Cox's good work in modularizing
-OSS/Free for Linux makes this rather unnecessary.
-
-Some Questions
---------------
-
-**********************************************************************
-0) What does this driver do that the maui driver did not ?
-**********************************************************************
-
-* can fully initialize a WaveFront card from cold boot - no DOS
- utilities needed
-* working patch/sample/program loading and unloading (the maui
- driver didn't document how to make this work, and assumed
- user-level preparation of the patch data for writing
- to the board. ick.)
-* full user-level access to all WaveFront commands
-* for the Tropez Plus, (primitive) control of the YSS225 FX processor
-* Virtual MIDI mode supported - 2 MIDI devices accessible via the
- WaveFront's MPU401/UART emulation. One
- accesses the WaveFront synth, the other accesses the
- external MIDI connector. Full MIDI read/write semantics
- for both devices.
-* OSS-compliant /dev/sequencer interface for the WaveFront synth,
- including native and GUS-format patch downloading.
-* semi-intelligent patch management (prototypical at this point)
-
-**********************************************************************
-1) What to do about MIDI interfaces ?
-**********************************************************************
-
-The Tropez Plus (and perhaps other WF cards) can in theory support up
-to 2 physical MIDI interfaces. One of these is connected to the
-ICS2115 chip (the WaveFront synth itself) and is controlled by
-MPU/UART-401 emulation code running as part of the WaveFront OS. The
-other is controlled by the CS4232 chip present on the board. However,
-physical access to the CS4232 connector is difficult, and it is
-unlikely (though not impossible) that you will want to use it.
-
-An older version of this driver introduced an additional kernel config
-variable which controlled whether or not the CS4232 MIDI interface was
-configured. Because of Alan Cox's work on modularizing the sound
-drivers, and now backporting them to 2.0.34 kernels, there seems to be
-little reason to support "static" configuration variables, and so this
-has been abandoned in favor of *only* module parameters. Specifying
-"mpuio" and "mpuirq" for the cs4232 parameter will result in the
-CS4232 MIDI interface being configured; leaving them unspecified will
-leave it unconfigured (and thus unusable).
-
-BTW, I have heard from one Tropez+ user that the CS4232 interface is
-more reliable than the ICS2115 one. I have had no problems with the
-latter, and I don't have the right cable to test the former one
-out. Reports welcome.
-
-**********************************************************************
-2) Why does line XXX of the code look like this .... ?
-**********************************************************************
-
-Either because it's not finished yet, or because you're a better coder
-than I am, or because you don't understand some aspect of how the card
-or the code works.
-
-I absolutely welcome comments, criticisms and suggestions about the
-design and implementation of the driver.
-
-**********************************************************************
-3) What files are included ?
-**********************************************************************
-
- drivers/sound/README.wavefront -- this file
-
- drivers/sound/wavefront.patch -- patches for the 2.1.106 sound drivers
- needed to make the rest of this work
- DO NOT USE IF YOU'VE APPLIED THEM
- BEFORE, OR HAVE 2.1.109 OR ABOVE
-
- drivers/sound/wavfront.c -- the driver
- drivers/sound/ys225.h -- data declarations for FX config
- drivers/sound/ys225.c -- data definitions for FX config
- drivers/sound/wf_midi.c -- the "uart401" driver
- to support virtual MIDI mode.
- include/wavefront.h -- the header file
- Documentation/sound/oss/Tropez+ -- short docs on configuration
-
-**********************************************************************
-4) How do I compile/install/use it ?
-**********************************************************************
-
-PART ONE: install the source code into your sound driver directory
-
- cd <top-of-your-2.1.106-code-base-e.g.-/usr/src/linux>
- tar -zxvf <where-you-put/wavefront.tar.gz>
-
-PART TWO: apply the patches
-
- DO THIS ONLY IF YOU HAVE A KERNEL VERSION BELOW 2.1.109
- AND HAVE NOT ALREADY INSTALLED THE PATCH(ES).
-
- cd drivers/sound
- patch < wavefront.patch
-
-PART THREE: configure your kernel
-
- cd <top of your kernel tree>
- make xconfig (or whichever config option you use)
-
- - choose YES for Sound Support
- - choose MODULE (M) for OSS Sound Modules
- - choose MODULE(M) to YM3812/OPL3 support
- - choose MODULE(M) for WaveFront support
- - choose MODULE(M) for CS4232 support
-
- - choose "N" for everything else (unless you have other
- soundcards you want support for)
-
-
- make boot
- .
- .
- .
- <whatever you normally do for a kernel install>
- make modules
- .
- .
- .
- make modules_install
-
-Here's my autoconf.h SOUND section:
-
-/*
- * Sound
- */
-#define CONFIG_SOUND 1
-#undef CONFIG_SOUND_OSS
-#define CONFIG_SOUND_OSS_MODULE 1
-#undef CONFIG_SOUND_PAS
-#undef CONFIG_SOUND_SB
-#undef CONFIG_SOUND_ADLIB
-#undef CONFIG_SOUND_GUS
-#undef CONFIG_SOUND_MPU401
-#undef CONFIG_SOUND_PSS
-#undef CONFIG_SOUND_MSS
-#undef CONFIG_SOUND_SSCAPE
-#undef CONFIG_SOUND_TRIX
-#undef CONFIG_SOUND_MAD16
-#undef CONFIG_SOUND_WAVEFRONT
-#define CONFIG_SOUND_WAVEFRONT_MODULE 1
-#undef CONFIG_SOUND_CS4232
-#define CONFIG_SOUND_CS4232_MODULE 1
-#undef CONFIG_SOUND_MAUI
-#undef CONFIG_SOUND_SGALAXY
-#undef CONFIG_SOUND_OPL3SA1
-#undef CONFIG_SOUND_SOFTOSS
-#undef CONFIG_SOUND_YM3812
-#define CONFIG_SOUND_YM3812_MODULE 1
-#undef CONFIG_SOUND_VMIDI
-#undef CONFIG_SOUND_UART6850
-/*
- * Additional low level sound drivers
- */
-#undef CONFIG_LOWLEVEL_SOUND
-
-************************************************************
-6) How do I configure my card ?
-************************************************************
-
-You need to edit /etc/modprobe.conf. Here's mine (edited to show the
-relevant details):
-
- # Sound system
- alias char-major-14-* wavefront
- alias synth0 wavefront
- alias mixer0 cs4232
- alias audio0 cs4232
- install wavefront /sbin/modprobe cs4232 && /sbin/modprobe -i wavefront && /sbin/modprobe opl3
- options wavefront io=0x200 irq=9
- options cs4232 synthirq=9 synthio=0x200 io=0x530 irq=5 dma=1 dma2=0
- options opl3 io=0x388
-
-Things to note:
-
- the wavefront options "io" and "irq" ***MUST*** match the "synthio"
- and "synthirq" cs4232 options.
-
- you can do without the opl3 module if you don't
- want to use the OPL/[34] FM synth on the soundcard
-
- the opl3 io parameter is conventionally not adjustable.
- In theory, any not-in-use IO port address would work, but
- just use 0x388 and stick with the crowd.
-
-**********************************************************************
-7) What about firmware ?
-**********************************************************************
-
-Turtle Beach have not given me permission to distribute their firmware
-for the ICS2115. However, if you have a WaveFront card, then you
-almost certainly have the firmware, and if not, its freely available
-on their website, at:
-
- http://www.tbeach.com/tbs/downloads/scardsdown.htm#tropezplus
-
-The file is called WFOS2001.MOT (for the Tropez+).
-
-This driver, however, doesn't use the pure firmware as distributed,
-but instead relies on a somewhat processed form of it. You can
-generate this very easily. Following an idea from Andrew Veliath's
-Pinnacle driver, the following flex program will generate the
-processed version:
-
----- cut here -------------------------
-%option main
-%%
-^S[28].*\r$ printf ("%c%.*s", yyleng-1,yyleng-1,yytext);
-<<EOF>> { fputc ('\0', stdout); return; }
-\n {}
-. {}
----- cut here -------------------------
-
-To use it, put the above in file (say, ws.l) compile it like this:
-
- shell> flex -ows.c ws.l
- shell> cc -o ws ws.c
-
-and then use it like this:
-
- ws < my-copy-of-the-oswf.mot-file > /etc/sound/wavefront.os
-
-If you put it somewhere else, you'll always have to use the wf_ospath
-module parameter (see below) or alter the source code.
-
-**********************************************************************
-7) How do I get it working ?
-**********************************************************************
-
-Optionally, you can reboot with the "new" kernel (even though the only
-changes have really been made to a module).
-
-Then, as root do:
-
- modprobe wavefront
-
-You should get something like this in /var/log/messages:
-
- WaveFront: firmware 1.20 already loaded.
-
-or
-
- WaveFront: no response to firmware probe, assume raw.
-
-then:
-
- WaveFront: waiting for memory configuration ...
- WaveFront: hardware version 1.64
- WaveFront: available DRAM 8191k
- WaveFront: 332 samples used (266 real, 13 aliases, 53 multi), 180 empty
- WaveFront: 128 programs slots in use
- WaveFront: 256 patch slots filled, 142 in use
-
-The whole process takes about 16 seconds, the longest waits being
-after reporting the hardware version (during the firmware download),
-and after reporting program status (during patch status inquiry). Its
-shorter (about 10 secs) if the firmware is already loaded (i.e. only
-warm reboots since the last firmware load).
-
-The "available DRAM" line will vary depending on how much added RAM
-your card has. Mine has 8MB.
-
-To check basically functionality, use play(1) or splay(1) to send a
-.WAV or other audio file through the audio portion. Then use playmidi
-to play a General MIDI file. Try the "-D 0" to hear the
-difference between sending MIDI to the WaveFront and using the OPL/3,
-which is the default (I think ...). If you have an external synth(s)
-hooked to the soundcard, you can use "-e" to route to the
-external synth(s) (in theory, -D 1 should work as well, but I think
-there is a bug in playmidi which prevents this from doing what it
-should).
-
-**********************************************************************
-8) What are the module parameters ?
-**********************************************************************
-
-Its best to read wavefront.c for this, but here is a summary:
-
-integers:
- wf_raw - if set, ignore apparent presence of firmware
- loaded onto the ICS2115, reset the whole
- board, and initialize it from scratch. (default = 0)
-
- fx_raw - if set, always initialize the YSS225 processor
- on the Tropez plus. (default = 1)
-
- < The next 4 are basically for kernel hackers to allow
- tweaking the driver for testing purposes. >
-
- wait_usecs - loop timer used when waiting for
- status conditions on the board.
- The default is 150.
-
- debug_default - debugging flags. See sound/wavefront.h
- for WF_DEBUG_* values. Default is zero.
- Setting this allows you to debug the
- driver during module installation.
-strings:
- ospath - path to get to the pre-processed OS firmware.
- (default: /etc/sound/wavefront.os)
-
-**********************************************************************
-9) Who should I contact if I have problems?
-**********************************************************************
-
-Just me: Paul Barton-Davis <pbd@op.net>
-
-
diff --git a/Documentation/sound/oss/es1370 b/Documentation/sound/oss/es1370
deleted file mode 100644
index 7b38b1a096a..00000000000
--- a/Documentation/sound/oss/es1370
+++ /dev/null
@@ -1,70 +0,0 @@
-/proc/sound, /dev/sndstat
--------------------------
-
-/proc/sound and /dev/sndstat is not supported by the
-driver. To find out whether the driver succeeded loading,
-check the kernel log (dmesg).
-
-
-ALaw/uLaw sample formats
-------------------------
-
-This driver does not support the ALaw/uLaw sample formats.
-ALaw is the default mode when opening a sound device
-using OSS/Free. The reason for the lack of support is
-that the hardware does not support these formats, and adding
-conversion routines to the kernel would lead to very ugly
-code in the presence of the mmap interface to the driver.
-And since xquake uses mmap, mmap is considered important :-)
-and no sane application uses ALaw/uLaw these days anyway.
-In short, playing a Sun .au file as follows:
-
-cat my_file.au > /dev/dsp
-
-does not work. Instead, you may use the play script from
-Chris Bagwell's sox-12.14 package (available from the URL
-below) to play many different audio file formats.
-The script automatically determines the audio format
-and does do audio conversions if necessary.
-http://home.sprynet.com/sprynet/cbagwell/projects.html
-
-
-Blocking vs. nonblocking IO
----------------------------
-
-Unlike OSS/Free this driver honours the O_NONBLOCK file flag
-not only during open, but also during read and write.
-This is an effort to make the sound driver interface more
-regular. Timidity has problems with this; a patch
-is available from http://www.ife.ee.ethz.ch/~sailer/linux/pciaudio.html.
-(Timidity patched will also run on OSS/Free).
-
-
-MIDI UART
----------
-
-The driver supports a simple MIDI UART interface, with
-no ioctl's supported.
-
-
-MIDI synthesizer
-----------------
-
-This soundcard does not have any hardware MIDI synthesizer;
-MIDI synthesis has to be done in software. To allow this
-the driver/soundcard supports two PCM (/dev/dsp) interfaces.
-The second one goes to the mixer "synth" setting and supports
-only a limited set of sampling rates (44100, 22050, 11025, 5512).
-By setting lineout to 1 on the driver command line
-(eg. insmod es1370 lineout=1) it is even possible on some
-cards to convert the LINEIN jack into a second LINEOUT jack, thus
-making it possible to output four independent audio channels!
-
-There is a freely available software package that allows
-MIDI file playback on this soundcard called Timidity.
-See http://www.cgs.fi/~tt/timidity/.
-
-
-
-Thomas Sailer
-t.sailer@alumni.ethz.ch
diff --git a/Documentation/sound/oss/rme96xx b/Documentation/sound/oss/rme96xx
deleted file mode 100644
index 87d7b7b65fa..00000000000
--- a/Documentation/sound/oss/rme96xx
+++ /dev/null
@@ -1,767 +0,0 @@
-Beta release of the rme96xx (driver for RME 96XX cards like the
-"Hammerfall" and the "Hammerfall light")
-
-Important: The driver module has to be installed on a freshly rebooted system,
-otherwise the driver might not be able to acquire its buffers.
-
-features:
-
- - OSS programming interface (i.e. runs with standard OSS soundsoftware)
- - OSS/Multichannel interface (OSS multichannel is done by just aquiring
- more than 2 channels). The driver does not use more than one device
- ( yet .. this feature may be implemented later )
- - more than one RME card supported
-
-The driver uses a specific multichannel interface, which I will document
-when the driver gets stable. (take a look at the defines in rme96xx.h,
-which adds blocked multichannel formats i.e instead of
-lrlrlrlr --> llllrrrr etc.
-
-Use the "rmectrl" programm to look at the status of the card ..
-or use xrmectrl, a GUI interface for the ctrl program.
-
-What you can do with the rmectrl program is to set the stereo device for
-OSS emulation (e.g. if you use SPDIF out).
-
-You do:
-
-./ctrl offset 24 24
-
-which makes the stereo device use channels 25 and 26.
-
-Guenter Geiger <geiger@epy.co.at>
-
-copy the first part of the attached source code into rmectrl.c
-and the second part into xrmectrl (or get the program from
-http://gige.xdv.org/pages/soft/pages/rme)
-
-to compile: gcc -o rmectrl rmectrl.c
------------------------------- snip ------------------------------------
-
-#include <stdio.h>
-#include <sys/types.h>
-#include <sys/stat.h>
-#include <sys/ioctl.h>
-#include <fcntl.h>
-#include <linux/soundcard.h>
-#include <math.h>
-#include <unistd.h>
-#include <stdlib.h>
-#include "rme96xx.h"
-
-/*
- remctrl.c
- (C) 2000 Guenter Geiger <geiger@debian.org>
- HP20020201 - Heiko Purnhagen <purnhage@tnt.uni-hannover.de>
-*/
-
-/* # define DEVICE_NAME "/dev/mixer" */
-# define DEVICE_NAME "/dev/mixer1"
-
-
-void usage(void)
-{
- fprintf(stderr,"usage: rmectrl [/dev/mixer<n>] [command [options]]\n\n");
- fprintf(stderr,"where command is one of:\n");
- fprintf(stderr," help show this help\n");
- fprintf(stderr," status show status bits\n");
- fprintf(stderr," control show control bits\n");
- fprintf(stderr," mix show mixer/offset status\n");
- fprintf(stderr," master <n> set sync master\n");
- fprintf(stderr," pro <n> set spdif out pro\n");
- fprintf(stderr," emphasis <n> set spdif out emphasis\n");
- fprintf(stderr," dolby <n> set spdif out no audio\n");
- fprintf(stderr," optout <n> set spdif out optical\n");
- fprintf(stderr," wordclock <n> set sync wordclock\n");
- fprintf(stderr," spdifin <n> set spdif in (0=optical,1=coax,2=intern)\n");
- fprintf(stderr," syncref <n> set sync source (0=ADAT1,1=ADAT2,2=ADAT3,3=SPDIF)\n");
- fprintf(stderr," adat1cd <n> set ADAT1 on internal CD\n");
- fprintf(stderr," offset <devnr> <in> <out> set dev (0..3) offset (0..25)\n");
- exit(-1);
-}
-
-
-int main(int argc, char* argv[])
-{
- int cards;
- int ret;
- int i;
- double ft;
- int fd, fdwr;
- int param,orig;
- rme_status_t stat;
- rme_ctrl_t ctrl;
- char *device;
- int argidx;
-
- if (argc < 2)
- usage();
-
- if (*argv[1]=='/') {
- device = argv[1];
- argidx = 2;
- }
- else {
- device = DEVICE_NAME;
- argidx = 1;
- }
-
- fprintf(stdout,"mixer device %s\n",device);
- if ((fd = open(device,O_RDONLY)) < 0) {
- fprintf(stdout,"opening device failed\n");
- exit(-1);
- }
-
- if ((fdwr = open(device,O_WRONLY)) < 0) {
- fprintf(stdout,"opening device failed\n");
- exit(-1);
- }
-
- if (argc < argidx+1)
- usage();
-
- if (!strcmp(argv[argidx],"help"))
- usage();
- if (!strcmp(argv[argidx],"-h"))
- usage();
- if (!strcmp(argv[argidx],"--help"))
- usage();
-
- if (!strcmp(argv[argidx],"status")) {
- ioctl(fd,SOUND_MIXER_PRIVATE2,&stat);
- fprintf(stdout,"stat.irq %d\n",stat.irq);
- fprintf(stdout,"stat.lockmask %d\n",stat.lockmask);
- fprintf(stdout,"stat.sr48 %d\n",stat.sr48);
- fprintf(stdout,"stat.wclock %d\n",stat.wclock);
- fprintf(stdout,"stat.bufpoint %d\n",stat.bufpoint);
- fprintf(stdout,"stat.syncmask %d\n",stat.syncmask);
- fprintf(stdout,"stat.doublespeed %d\n",stat.doublespeed);
- fprintf(stdout,"stat.tc_busy %d\n",stat.tc_busy);
- fprintf(stdout,"stat.tc_out %d\n",stat.tc_out);
- fprintf(stdout,"stat.crystalrate %d (0=64k 3=96k 4=88.2k 5=48k 6=44.1k 7=32k)\n",stat.crystalrate);
- fprintf(stdout,"stat.spdif_error %d\n",stat.spdif_error);
- fprintf(stdout,"stat.bufid %d\n",stat.bufid);
- fprintf(stdout,"stat.tc_valid %d\n",stat.tc_valid);
- exit (0);
- }
-
- if (!strcmp(argv[argidx],"control")) {
- ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl);
- fprintf(stdout,"ctrl.start %d\n",ctrl.start);
- fprintf(stdout,"ctrl.latency %d (0=64 .. 7=8192)\n",ctrl.latency);
- fprintf(stdout,"ctrl.master %d\n",ctrl.master);
- fprintf(stdout,"ctrl.ie %d\n",ctrl.ie);
- fprintf(stdout,"ctrl.sr48 %d\n",ctrl.sr48);
- fprintf(stdout,"ctrl.spare %d\n",ctrl.spare);
- fprintf(stdout,"ctrl.doublespeed %d\n",ctrl.doublespeed);
- fprintf(stdout,"ctrl.pro %d\n",ctrl.pro);
- fprintf(stdout,"ctrl.emphasis %d\n",ctrl.emphasis);
- fprintf(stdout,"ctrl.dolby %d\n",ctrl.dolby);
- fprintf(stdout,"ctrl.opt_out %d\n",ctrl.opt_out);
- fprintf(stdout,"ctrl.wordclock %d\n",ctrl.wordclock);
- fprintf(stdout,"ctrl.spdif_in %d (0=optical,1=coax,2=intern)\n",ctrl.spdif_in);
- fprintf(stdout,"ctrl.sync_ref %d (0=ADAT1,1=ADAT2,2=ADAT3,3=SPDIF)\n",ctrl.sync_ref);
- fprintf(stdout,"ctrl.spdif_reset %d\n",ctrl.spdif_reset);
- fprintf(stdout,"ctrl.spdif_select %d\n",ctrl.spdif_select);
- fprintf(stdout,"ctrl.spdif_clock %d\n",ctrl.spdif_clock);
- fprintf(stdout,"ctrl.spdif_write %d\n",ctrl.spdif_write);
- fprintf(stdout,"ctrl.adat1_cd %d\n",ctrl.adat1_cd);
- exit (0);
- }
-
- if (!strcmp(argv[argidx],"mix")) {
- rme_mixer mix;
- int i;
-
- for (i=0; i<4; i++) {
- mix.devnr = i;
- ioctl(fd,SOUND_MIXER_PRIVATE1,&mix);
- if (mix.devnr == i) {
- fprintf(stdout,"devnr %d\n",mix.devnr);
- fprintf(stdout,"mix.i_offset %2d (0-25)\n",mix.i_offset);
- fprintf(stdout,"mix.o_offset %2d (0-25)\n",mix.o_offset);
- }
- }
- exit (0);
- }
-
-/* the control flags */
-
- if (argc < argidx+2)
- usage();
-
- if (!strcmp(argv[argidx],"master")) {
- int val = atoi(argv[argidx+1]);
- ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl);
- printf("master = %d\n",val);
- ctrl.master = val;
- ioctl(fdwr,SOUND_MIXER_PRIVATE3,&ctrl);
- exit (0);
- }
-
- if (!strcmp(argv[argidx],"pro")) {
- int val = atoi(argv[argidx+1]);
- ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl);
- printf("pro = %d\n",val);
- ctrl.pro = val;
- ioctl(fdwr,SOUND_MIXER_PRIVATE3,&ctrl);
- exit (0);
- }
-
- if (!strcmp(argv[argidx],"emphasis")) {
- int val = atoi(argv[argidx+1]);
- ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl);
- printf("emphasis = %d\n",val);
- ctrl.emphasis = val;
- ioctl(fdwr,SOUND_MIXER_PRIVATE3,&ctrl);
- exit (0);
- }
-
- if (!strcmp(argv[argidx],"dolby")) {
- int val = atoi(argv[argidx+1]);
- ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl);
- printf("dolby = %d\n",val);
- ctrl.dolby = val;
- ioctl(fdwr,SOUND_MIXER_PRIVATE3,&ctrl);
- exit (0);
- }
-
- if (!strcmp(argv[argidx],"optout")) {
- int val = atoi(argv[argidx+1]);
- ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl);
- printf("optout = %d\n",val);
- ctrl.opt_out = val;
- ioctl(fdwr,SOUND_MIXER_PRIVATE3,&ctrl);
- exit (0);
- }
-
- if (!strcmp(argv[argidx],"wordclock")) {
- int val = atoi(argv[argidx+1]);
- ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl);
- printf("wordclock = %d\n",val);
- ctrl.wordclock = val;
- ioctl(fdwr,SOUND_MIXER_PRIVATE3,&ctrl);
- exit (0);
- }
-
- if (!strcmp(argv[argidx],"spdifin")) {
- int val = atoi(argv[argidx+1]);
- ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl);
- printf("spdifin = %d\n",val);
- ctrl.spdif_in = val;
- ioctl(fdwr,SOUND_MIXER_PRIVATE3,&ctrl);
- exit (0);
- }
-
- if (!strcmp(argv[argidx],"syncref")) {
- int val = atoi(argv[argidx+1]);
- ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl);
- printf("syncref = %d\n",val);
- ctrl.sync_ref = val;
- ioctl(fdwr,SOUND_MIXER_PRIVATE3,&ctrl);
- exit (0);
- }
-
- if (!strcmp(argv[argidx],"adat1cd")) {
- int val = atoi(argv[argidx+1]);
- ioctl(fd,SOUND_MIXER_PRIVATE3,&ctrl);
- printf("adat1cd = %d\n",val);
- ctrl.adat1_cd = val;
- ioctl(fdwr,SOUND_MIXER_PRIVATE3,&ctrl);
- exit (0);
- }
-
-/* setting offset */
-
- if (argc < argidx+4)
- usage();
-
- if (!strcmp(argv[argidx],"offset")) {
- rme_mixer mix;
-
- mix.devnr = atoi(argv[argidx+1]);
-
- mix.i_offset = atoi(argv[argidx+2]);
- mix.o_offset = atoi(argv[argidx+3]);
- ioctl(fdwr,SOUND_MIXER_PRIVATE1,&mix);
- fprintf(stdout,"devnr %d\n",mix.devnr);
- fprintf(stdout,"mix.i_offset to %d\n",mix.i_offset);
- fprintf(stdout,"mix.o_offset to %d\n",mix.o_offset);
- exit (0);
- }
-
- usage();
- exit (0); /* to avoid warning */
-}
-
-
----------------------------- <snip> --------------------------------
-#!/usr/bin/wish
-
-# xrmectrl
-# (C) 2000 Guenter Geiger <geiger@debian.org>
-# HP20020201 - Heiko Purnhagen <purnhage@tnt.uni-hannover.de>
-
-#set defaults "-relief ridged"
-set CTRLPROG "./rmectrl"
-if {$argc} {
- set CTRLPROG "$CTRLPROG $argv"
-}
-puts "CTRLPROG $CTRLPROG"
-
-frame .butts
-button .butts.exit -text "Exit" -command "exit" -relief ridge
-#button .butts.state -text "State" -command "get_all"
-
-pack .butts.exit -side left
-pack .butts -side bottom
-
-
-#
-# STATUS
-#
-
-frame .status
-
-# Sampling Rate
-
-frame .status.sr
-label .status.sr.text -text "Sampling Rate" -justify left
-radiobutton .status.sr.441 -selectcolor red -text "44.1 kHz" -width 10 -anchor nw -variable srate -value 44100 -font times
-radiobutton .status.sr.480 -selectcolor red -text "48 kHz" -width 10 -anchor nw -variable srate -value 48000 -font times
-radiobutton .status.sr.882 -selectcolor red -text "88.2 kHz" -width 10 -anchor nw -variable srate -value 88200 -font times
-radiobutton .status.sr.960 -selectcolor red -text "96 kHz" -width 10 -anchor nw -variable srate -value 96000 -font times
-
-pack .status.sr.text .status.sr.441 .status.sr.480 .status.sr.882 .status.sr.960 -side top -padx 3
-
-# Lock
-
-frame .status.lock
-label .status.lock.text -text "Lock" -justify left
-checkbutton .status.lock.adat1 -selectcolor red -text "ADAT1" -anchor nw -width 10 -variable adatlock1 -font times
-checkbutton .status.lock.adat2 -selectcolor red -text "ADAT2" -anchor nw -width 10 -variable adatlock2 -font times
-checkbutton .status.lock.adat3 -selectcolor red -text "ADAT3" -anchor nw -width 10 -variable adatlock3 -font times
-
-pack .status.lock.text .status.lock.adat1 .status.lock.adat2 .status.lock.adat3 -side top -padx 3
-
-# Sync
-
-frame .status.sync
-label .status.sync.text -text "Sync" -justify left
-checkbutton .status.sync.adat1 -selectcolor red -text "ADAT1" -anchor nw -width 10 -variable adatsync1 -font times
-checkbutton .status.sync.adat2 -selectcolor red -text "ADAT2" -anchor nw -width 10 -variable adatsync2 -font times
-checkbutton .status.sync.adat3 -selectcolor red -text "ADAT3" -anchor nw -width 10 -variable adatsync3 -font times
-
-pack .status.sync.text .status.sync.adat1 .status.sync.adat2 .status.sync.adat3 -side top -padx 3
-
-# Timecode
-
-frame .status.tc
-label .status.tc.text -text "Timecode" -justify left
-checkbutton .status.tc.busy -selectcolor red -text "busy" -anchor nw -width 10 -variable tcbusy -font times
-checkbutton .status.tc.out -selectcolor red -text "out" -anchor nw -width 10 -variable tcout -font times
-checkbutton .status.tc.valid -selectcolor red -text "valid" -anchor nw -width 10 -variable tcvalid -font times
-
-pack .status.tc.text .status.tc.busy .status.tc.out .status.tc.valid -side top -padx 3
-
-# SPDIF In
-
-frame .status.spdif
-label .status.spdif.text -text "SPDIF In" -justify left
-label .status.spdif.sr -text "--.- kHz" -anchor n -width 10 -font times
-checkbutton .status.spdif.error -selectcolor red -text "Input Lock" -anchor nw -width 10 -variable spdiferr -font times
-
-pack .status.spdif.text .status.spdif.sr .status.spdif.error -side top -padx 3
-
-pack .status.sr .status.lock .status.sync .status.tc .status.spdif -side left -fill x -anchor n -expand 1
-
-
-#
-# CONTROL
-#
-
-proc setprof {} {
- global CTRLPROG
- global spprof
- exec $CTRLPROG pro $spprof
-}
-
-proc setemph {} {
- global CTRLPROG
- global spemph
- exec $CTRLPROG emphasis $spemph
-}
-
-proc setnoaud {} {
- global CTRLPROG
- global spnoaud
- exec $CTRLPROG dolby $spnoaud
-}
-
-proc setoptical {} {
- global CTRLPROG
- global spoptical
- exec $CTRLPROG optout $spoptical
-}
-
-proc setspdifin {} {
- global CTRLPROG
- global spdifin
- exec $CTRLPROG spdifin [expr $spdifin - 1]
-}
-
-proc setsyncsource {} {
- global CTRLPROG
- global syncsource
- exec $CTRLPROG syncref [expr $syncsource -1]
-}
-
-
-proc setmaster {} {
- global CTRLPROG
- global master
- exec $CTRLPROG master $master
-}
-
-proc setwordclock {} {
- global CTRLPROG
- global wordclock
- exec $CTRLPROG wordclock $wordclock
-}
-
-proc setadat1cd {} {
- global CTRLPROG
- global adat1cd
- exec $CTRLPROG adat1cd $adat1cd
-}
-
-
-frame .control
-
-# SPDIF In & SPDIF Out
-
-
-frame .control.spdif
-
-frame .control.spdif.in
-label .control.spdif.in.text -text "SPDIF In" -justify left
-radiobutton .control.spdif.in.input1 -text "Optical" -anchor nw -width 13 -variable spdifin -value 1 -command setspdifin -selectcolor blue -font times
-radiobutton .control.spdif.in.input2 -text "Coaxial" -anchor nw -width 13 -variable spdifin -value 2 -command setspdifin -selectcolor blue -font times
-radiobutton .control.spdif.in.input3 -text "Intern " -anchor nw -width 13 -variable spdifin -command setspdifin -value 3 -selectcolor blue -font times
-
-checkbutton .control.spdif.in.adat1cd -text "ADAT1 Intern" -anchor nw -width 13 -variable adat1cd -command setadat1cd -selectcolor blue -font times
-
-pack .control.spdif.in.text .control.spdif.in.input1 .control.spdif.in.input2 .control.spdif.in.input3 .control.spdif.in.adat1cd
-
-label .control.spdif.space
-
-frame .control.spdif.out
-label .control.spdif.out.text -text "SPDIF Out" -justify left
-checkbutton .control.spdif.out.pro -text "Professional" -anchor nw -width 13 -variable spprof -command setprof -selectcolor blue -font times
-checkbutton .control.spdif.out.emphasis -text "Emphasis" -anchor nw -width 13 -variable spemph -command setemph -selectcolor blue -font times
-checkbutton .control.spdif.out.dolby -text "NoAudio" -anchor nw -width 13 -variable spnoaud -command setnoaud -selectcolor blue -font times
-checkbutton .control.spdif.out.optout -text "Optical Out" -anchor nw -width 13 -variable spoptical -command setoptical -selectcolor blue -font times
-
-pack .control.spdif.out.optout .control.spdif.out.dolby .control.spdif.out.emphasis .control.spdif.out.pro .control.spdif.out.text -side bottom
-
-pack .control.spdif.in .control.spdif.space .control.spdif.out -side top -fill y -padx 3 -expand 1
-
-# Sync Mode & Sync Source
-
-frame .control.sync
-frame .control.sync.mode
-label .control.sync.mode.text -text "Sync Mode" -justify left
-checkbutton .control.sync.mode.master -text "Master" -anchor nw -width 13 -variable master -command setmaster -selectcolor blue -font times
-checkbutton .control.sync.mode.wc -text "Wordclock" -anchor nw -width 13 -variable wordclock -command setwordclock -selectcolor blue -font times
-
-pack .control.sync.mode.text .control.sync.mode.master .control.sync.mode.wc
-
-label .control.sync.space
-
-frame .control.sync.src
-label .control.sync.src.text -text "Sync Source" -justify left
-radiobutton .control.sync.src.input1 -text "ADAT1" -anchor nw -width 13 -variable syncsource -value 1 -command setsyncsource -selectcolor blue -font times
-radiobutton .control.sync.src.input2 -text "ADAT2" -anchor nw -width 13 -variable syncsource -value 2 -command setsyncsource -selectcolor blue -font times
-radiobutton .control.sync.src.input3 -text "ADAT3" -anchor nw -width 13 -variable syncsource -command setsyncsource -value 3 -selectcolor blue -font times
-radiobutton .control.sync.src.input4 -text "SPDIF" -anchor nw -width 13 -variable syncsource -command setsyncsource -value 4 -selectcolor blue -font times
-
-pack .control.sync.src.input4 .control.sync.src.input3 .control.sync.src.input2 .control.sync.src.input1 .control.sync.src.text -side bottom
-
-pack .control.sync.mode .control.sync.space .control.sync.src -side top -fill y -padx 3 -expand 1
-
-label .control.space -text "" -width 10
-
-# Buffer Size
-
-frame .control.buf
-label .control.buf.text -text "Buffer Size (Latency)" -justify left
-radiobutton .control.buf.b1 -selectcolor red -text "64 (1.5 ms)" -width 13 -anchor nw -variable ssrate -value 1 -font times
-radiobutton .control.buf.b2 -selectcolor red -text "128 (3 ms)" -width 13 -anchor nw -variable ssrate -value 2 -font times
-radiobutton .control.buf.b3 -selectcolor red -text "256 (6 ms)" -width 13 -anchor nw -variable ssrate -value 3 -font times
-radiobutton .control.buf.b4 -selectcolor red -text "512 (12 ms)" -width 13 -anchor nw -variable ssrate -value 4 -font times
-radiobutton .control.buf.b5 -selectcolor red -text "1024 (23 ms)" -width 13 -anchor nw -variable ssrate -value 5 -font times
-radiobutton .control.buf.b6 -selectcolor red -text "2048 (46 ms)" -width 13 -anchor nw -variable ssrate -value 6 -font times
-radiobutton .control.buf.b7 -selectcolor red -text "4096 (93 ms)" -width 13 -anchor nw -variable ssrate -value 7 -font times
-radiobutton .control.buf.b8 -selectcolor red -text "8192 (186 ms)" -width 13 -anchor nw -variable ssrate -value 8 -font times
-
-pack .control.buf.text .control.buf.b1 .control.buf.b2 .control.buf.b3 .control.buf.b4 .control.buf.b5 .control.buf.b6 .control.buf.b7 .control.buf.b8 -side top -padx 3
-
-# Offset
-
-frame .control.offset
-
-frame .control.offset.in
-label .control.offset.in.text -text "Offset In" -justify left
-label .control.offset.in.off0 -text "dev\#0: -" -anchor nw -width 10 -font times
-label .control.offset.in.off1 -text "dev\#1: -" -anchor nw -width 10 -font times
-label .control.offset.in.off2 -text "dev\#2: -" -anchor nw -width 10 -font times
-label .control.offset.in.off3 -text "dev\#3: -" -anchor nw -width 10 -font times
-
-pack .control.offset.in.text .control.offset.in.off0 .control.offset.in.off1 .control.offset.in.off2 .control.offset.in.off3
-
-label .control.offset.space
-
-frame .control.offset.out
-label .control.offset.out.text -text "Offset Out" -justify left
-label .control.offset.out.off0 -text "dev\#0: -" -anchor nw -width 10 -font times
-label .control.offset.out.off1 -text "dev\#1: -" -anchor nw -width 10 -font times
-label .control.offset.out.off2 -text "dev\#2: -" -anchor nw -width 10 -font times
-label .control.offset.out.off3 -text "dev\#3: -" -anchor nw -width 10 -font times
-
-pack .control.offset.out.off3 .control.offset.out.off2 .control.offset.out.off1 .control.offset.out.off0 .control.offset.out.text -side bottom
-
-pack .control.offset.in .control.offset.space .control.offset.out -side top -fill y -padx 3 -expand 1
-
-
-pack .control.spdif .control.sync .control.space .control.buf .control.offset -side left -fill both -anchor n -expand 1
-
-
-label .statustext -text Status -justify center -relief ridge
-label .controltext -text Control -justify center -relief ridge
-
-label .statusspace
-label .controlspace
-
-pack .statustext .status .statusspace .controltext .control .controlspace -side top -anchor nw -fill both -expand 1
-
-
-proc get_bit {output sstr} {
- set idx1 [string last [concat $sstr 1] $output]
- set idx1 [expr $idx1 != -1]
- return $idx1
-}
-
-proc get_val {output sstr} {
- set val [string wordend $output [string last $sstr $output]]
- set val [string range $output $val [expr $val+1]]
- return $val
-}
-
-proc get_val2 {output sstr} {
- set val [string wordend $output [string first $sstr $output]]
- set val [string range $output $val [expr $val+2]]
- return $val
-}
-
-proc get_control {} {
- global spprof
- global spemph
- global spnoaud
- global spoptical
- global spdifin
- global ssrate
- global master
- global wordclock
- global syncsource
- global CTRLPROG
-
- set f [open "| $CTRLPROG control" r+]
- set ooo [read $f 1000]
- close $f
-# puts $ooo
-
- set spprof [ get_bit $ooo "pro"]
- set spemph [ get_bit $ooo "emphasis"]
- set spnoaud [ get_bit $ooo "dolby"]
- set spoptical [ get_bit $ooo "opt_out"]
- set spdifin [ expr [ get_val $ooo "spdif_in"] + 1]
- set ssrate [ expr [ get_val $ooo "latency"] + 1]
- set master [ expr [ get_val $ooo "master"]]
- set wordclock [ expr [ get_val $ooo "wordclock"]]
- set syncsource [ expr [ get_val $ooo "sync_ref"] + 1]
-}
-
-proc get_status {} {
- global srate
- global ctrlcom
-
- global adatlock1
- global adatlock2
- global adatlock3
-
- global adatsync1
- global adatsync2
- global adatsync3
-
- global tcbusy
- global tcout
- global tcvalid
-
- global spdiferr
- global crystal
- global .status.spdif.text
- global CTRLPROG
-
-
- set f [open "| $CTRLPROG status" r+]
- set ooo [read $f 1000]
- close $f
-# puts $ooo
-
-# samplerate
-
- set idx1 [string last "sr48 1" $ooo]
- set idx2 [string last "doublespeed 1" $ooo]
- if {$idx1 >= 0} {
- set fact1 48000
- } else {
- set fact1 44100
- }
-
- if {$idx2 >= 0} {
- set fact2 2
- } else {
- set fact2 1
- }
- set srate [expr $fact1 * $fact2]
-# ADAT lock
-
- set val [get_val $ooo lockmask]
- set adatlock1 0
- set adatlock2 0
- set adatlock3 0
- if {[expr $val & 1]} {
- set adatlock3 1
- }
- if {[expr $val & 2]} {
- set adatlock2 1
- }
- if {[expr $val & 4]} {
- set adatlock1 1
- }
-
-# ADAT sync
- set val [get_val $ooo syncmask]
- set adatsync1 0
- set adatsync2 0
- set adatsync3 0
-
- if {[expr $val & 1]} {
- set adatsync3 1
- }
- if {[expr $val & 2]} {
- set adatsync2 1
- }
- if {[expr $val & 4]} {
- set adatsync1 1
- }
-
-# TC busy
-
- set tcbusy [get_bit $ooo "busy"]
- set tcout [get_bit $ooo "out"]
- set tcvalid [get_bit $ooo "valid"]
- set spdiferr [expr [get_bit $ooo "spdif_error"] == 0]
-
-# 000=64kHz, 100=88.2kHz, 011=96kHz
-# 111=32kHz, 110=44.1kHz, 101=48kHz
-
- set val [get_val $ooo crystalrate]
-
- set crystal "--.- kHz"
- if {$val == 0} {
- set crystal "64 kHz"
- }
- if {$val == 4} {
- set crystal "88.2 kHz"
- }
- if {$val == 3} {
- set crystal "96 kHz"
- }
- if {$val == 7} {
- set crystal "32 kHz"
- }
- if {$val == 6} {
- set crystal "44.1 kHz"
- }
- if {$val == 5} {
- set crystal "48 kHz"
- }
- .status.spdif.sr configure -text $crystal
-}
-
-proc get_offset {} {
- global inoffset
- global outoffset
- global CTRLPROG
-
- set f [open "| $CTRLPROG mix" r+]
- set ooo [read $f 1000]
- close $f
-# puts $ooo
-
- if { [string match "*devnr*" $ooo] } {
- set ooo [string range $ooo [string wordend $ooo [string first devnr $ooo]] end]
- set val [get_val2 $ooo i_offset]
- .control.offset.in.off0 configure -text "dev\#0: $val"
- set val [get_val2 $ooo o_offset]
- .control.offset.out.off0 configure -text "dev\#0: $val"
- } else {
- .control.offset.in.off0 configure -text "dev\#0: -"
- .control.offset.out.off0 configure -text "dev\#0: -"
- }
- if { [string match "*devnr*" $ooo] } {
- set ooo [string range $ooo [string wordend $ooo [string first devnr $ooo]] end]
- set val [get_val2 $ooo i_offset]
- .control.offset.in.off1 configure -text "dev\#1: $val"
- set val [get_val2 $ooo o_offset]
- .control.offset.out.off1 configure -text "dev\#1: $val"
- } else {
- .control.offset.in.off1 configure -text "dev\#1: -"
- .control.offset.out.off1 configure -text "dev\#1: -"
- }
- if { [string match "*devnr*" $ooo] } {
- set ooo [string range $ooo [string wordend $ooo [string first devnr $ooo]] end]
- set val [get_val2 $ooo i_offset]
- .control.offset.in.off2 configure -text "dev\#2: $val"
- set val [get_val2 $ooo o_offset]
- .control.offset.out.off2 configure -text "dev\#2: $val"
- } else {
- .control.offset.in.off2 configure -text "dev\#2: -"
- .control.offset.out.off2 configure -text "dev\#2: -"
- }
- if { [string match "*devnr*" $ooo] } {
- set ooo [string range $ooo [string wordend $ooo [string first devnr $ooo]] end]
- set val [get_val2 $ooo i_offset]
- .control.offset.in.off3 configure -text "dev\#3: $val"
- set val [get_val2 $ooo o_offset]
- .control.offset.out.off3 configure -text "dev\#3: $val"
- } else {
- .control.offset.in.off3 configure -text "dev\#3: -"
- .control.offset.out.off3 configure -text "dev\#3: -"
- }
-}
-
-
-proc get_all {} {
-get_status
-get_control
-get_offset
-}
-
-# main
-while {1} {
- after 200
- get_all
- update
-}
diff --git a/Documentation/sound/oss/solo1 b/Documentation/sound/oss/solo1
deleted file mode 100644
index 95c4c83422b..00000000000
--- a/Documentation/sound/oss/solo1
+++ /dev/null
@@ -1,70 +0,0 @@
-Recording
----------
-
-Recording does not work on the author's card, but there
-is at least one report of it working on later silicon.
-The chip behaves differently than described in the data sheet,
-likely due to a chip bug. Working around this would require
-the help of ESS (for example by publishing an errata sheet),
-but ESS has not done so far.
-
-Also, the chip only supports 24 bit addresses for recording,
-which means it cannot work on some Alpha mainboards.
-
-
-/proc/sound, /dev/sndstat
--------------------------
-
-/proc/sound and /dev/sndstat is not supported by the
-driver. To find out whether the driver succeeded loading,
-check the kernel log (dmesg).
-
-
-ALaw/uLaw sample formats
-------------------------
-
-This driver does not support the ALaw/uLaw sample formats.
-ALaw is the default mode when opening a sound device
-using OSS/Free. The reason for the lack of support is
-that the hardware does not support these formats, and adding
-conversion routines to the kernel would lead to very ugly
-code in the presence of the mmap interface to the driver.
-And since xquake uses mmap, mmap is considered important :-)
-and no sane application uses ALaw/uLaw these days anyway.
-In short, playing a Sun .au file as follows:
-
-cat my_file.au > /dev/dsp
-
-does not work. Instead, you may use the play script from
-Chris Bagwell's sox-12.14 package (or later, available from the URL
-below) to play many different audio file formats.
-The script automatically determines the audio format
-and does do audio conversions if necessary.
-http://home.sprynet.com/sprynet/cbagwell/projects.html
-
-
-Blocking vs. nonblocking IO
----------------------------
-
-Unlike OSS/Free this driver honours the O_NONBLOCK file flag
-not only during open, but also during read and write.
-This is an effort to make the sound driver interface more
-regular. Timidity has problems with this; a patch
-is available from http://www.ife.ee.ethz.ch/~sailer/linux/pciaudio.html.
-(Timidity patched will also run on OSS/Free).
-
-
-MIDI UART
----------
-
-The driver supports a simple MIDI UART interface, with
-no ioctl's supported.
-
-
-MIDI synthesizer
-----------------
-
-The card has an OPL compatible FM synthesizer.
-
-Thomas Sailer
-t.sailer@alumni.ethz.ch
diff --git a/Documentation/sound/oss/sonicvibes b/Documentation/sound/oss/sonicvibes
deleted file mode 100644
index 84dee2e0b37..00000000000
--- a/Documentation/sound/oss/sonicvibes
+++ /dev/null
@@ -1,81 +0,0 @@
-/proc/sound, /dev/sndstat
--------------------------
-
-/proc/sound and /dev/sndstat is not supported by the
-driver. To find out whether the driver succeeded loading,
-check the kernel log (dmesg).
-
-
-ALaw/uLaw sample formats
-------------------------
-
-This driver does not support the ALaw/uLaw sample formats.
-ALaw is the default mode when opening a sound device
-using OSS/Free. The reason for the lack of support is
-that the hardware does not support these formats, and adding
-conversion routines to the kernel would lead to very ugly
-code in the presence of the mmap interface to the driver.
-And since xquake uses mmap, mmap is considered important :-)
-and no sane application uses ALaw/uLaw these days anyway.
-In short, playing a Sun .au file as follows:
-
-cat my_file.au > /dev/dsp
-
-does not work. Instead, you may use the play script from
-Chris Bagwell's sox-12.14 package (available from the URL
-below) to play many different audio file formats.
-The script automatically determines the audio format
-and does do audio conversions if necessary.
-http://home.sprynet.com/sprynet/cbagwell/projects.html
-
-
-Blocking vs. nonblocking IO
----------------------------
-
-Unlike OSS/Free this driver honours the O_NONBLOCK file flag
-not only during open, but also during read and write.
-This is an effort to make the sound driver interface more
-regular. Timidity has problems with this; a patch
-is available from http://www.ife.ee.ethz.ch/~sailer/linux/pciaudio.html.
-(Timidity patched will also run on OSS/Free).
-
-
-MIDI UART
----------
-
-The driver supports a simple MIDI UART interface, with
-no ioctl's supported.
-
-
-MIDI synthesizer
-----------------
-
-The card both has an OPL compatible FM synthesizer as well as
-a wavetable synthesizer.
-
-I haven't managed so far to get the OPL synth running.
-
-Using the wavetable synthesizer requires allocating
-1-4MB of physically contiguous memory, which isn't possible
-currently on Linux without ugly hacks like the bigphysarea
-patch. Therefore, the driver doesn't support wavetable
-synthesis.
-
-
-No support from S3
-------------------
-
-I do not get any support from S3. Therefore, the driver
-still has many problems. For example, although the manual
-states that the chip should be able to access the sample
-buffer anywhere in 32bit address space, I haven't managed to
-get it working with buffers above 16M. Therefore, the card
-has the same disadvantages as ISA soundcards.
-
-Given that the card is also very noisy, and if you haven't
-already bought it, you should strongly opt for one of the
-comparatively priced Ensoniq products.
-
-
-Thomas Sailer
-t.sailer@alumni.ethz.ch