Sound Blaster 16 emulation
About SB16 emulation for bochs
This is Sound Blaster 16 emulation for bochs, written and donated by
Josef Drexler.
You can see also check out his related web page
here.
The entire set of his SB16 patches have been integrated into
bochs, so you will not need to do so.
It has been tested with several soundcards and versions of Linux.
Please give
Josef
feedback on whether is does or doesn't work
on your combination of software and hardware.
How much does work?
Right now, MPU401 emulation is next to perfect. It supports UART
and SBMIDI
mode, because the SB16's MPU401 ports can't do anything else as well.
The digital audio basically works, the emulation is too slow for fluent
output unless the application doesn't do much in the background (or the
foreground, really). The sound tends to looping or crackle on slower
computer, but the emulation appears to be correct. Even a MOD
player works, although only for lower sampling speeds.
Also, the MIDI data running through the MPU401 ports can be written
into a SMF, that is the standard midi file. The wave output
can be written into a VOC file, which has a format defined by
Creative Labs. This file format can be converted to WAV by
sox for example.
Output to a sound card
Output is supported on Linux and Windows 95 at the moment.
On Linux, the output goes to any file or device. If you have a
wavetable synthesizer, midi can go to /dev/midi00, otherwise you may need
a midi interpreter. For example, the midid program from the
DosEmu project would work. Wave output should go to /dev/dsp.
These devices are assumed to be OSS devices, if they're not
some of the ioctl's might fail.
On Windows, midi and output goes to the midi mapper and the wave mapper,
respectively. A future version might have selectable output devices.
Installation on Linux
Prerequisites
A wavetable synthesizer on /dev/midi00 and a working /dev/dsp if you want real time music and sound, otherwise output to midi and wave files is also possible.
Optionally, you can use a software midi interpreter, such as the midid program from the DosEmu project instead of /dev/midi00.
Configuring bochs
There are a few values in config.h that are relevant to the sound functions.
Edit config.h after running configure, but before compiling.
BX_USE_SB16_SMF should be 1 unless you intend to have several sound cards
running at the same time.
BX_USE_SOUND_VIRTUAL can be 0 or 1, and determines whether the output class
uses virtual functions or not. The former is more versatile and allows to
select the class at runtime (not supported at the moment), while the latter
is slightly faster.
BX_SOUND_OUTPUT_C is the name of the class used for output. The default is
to have no output functions, so you need to change this if you want any sound.
The following are supported at the moment:
bx_sound_linux_c for output to /dev/dsp and /dev/midi00 on Linux
(and maybe other OSes that use the OSS driver)
bx_sound_windows_c for output to the midi and wave mapper of
Windows 3.1 and higher.
bx_sound_output_c for no output at all.
Setup the SB16 emulation in your .bochsrc, according to instructions
in that file.
Runtime configuration
The source for the SB16CTRL program that is used to modify
the runtime behaviour of the SB16 emulator is included in
misc/sb16. You can compile it or download the
executable.
misc/sb16/ contains a C program that can be run inside the emulator, and the
executable for DOS. It currently supports the following commands:
-i : shows the selected emulator info string,
e.g. sb16ctrl -i 3 to show how many patch translations are active
-t : loads a translation into the translation table. The
numbers are:
OldBankMSB,OldBankLSB,OldProgram,NewBankMSB,NewBankLSB,NewProgram
All values can be 0..127 or 255. 255 for Old values means "match
any" and for New values means "don't change",
e.g. sb16ctrl -t 255,255,0,255,255,32
to change patch 0 (Piano) to patch 32 (Acoustic Bass)
-r: Reset the patch translation table
e.g. sb16ctrl -r
-m : Upload the given numbers to the midi output device. Note
that it should be a complete midi message, and also that it is
subject to patch translation.
e.g. sb16ctrl -m 0x80,64,0
to send a note-off message to channel 0.
-f : Reads in a file and executes the commands in it. These have
the same format as the above commands, except that they don't have
the dash "-" in front of them.
Comment lines are supported and start with a hash sign "#".
-h: Show a brief summary of the commands.
All numbers can be valid parameters to the strtol() function, so hex and
octal notation is fine. They have to be delimited by either commas "," or
slashes "/", spaces are not allowed.
The command line can have any number of commands. However, if none are given,
"-f -" is assumed, which means commands are taken from stdin.
Features planned for the future
- Ports to more OS's, but I can't do this myself
- Finishing the OPL3 FM emulation by translating the music to midi data
Description of the sound output classes
This file is intended for programmers who would like to port the sound
output routines to their platform. It gives a short outline what services
have to be provided.
You should also have a look at the exisiting files, SOUNDLNX.CC
for Linux and SOUNDWIN.CC for Windows and their respective
header files to get an idea about how these things really work.
Overview
Files
The main include file is "bochs.h". It has all definitions
for the system-independent functions that the SB16 emulation uses, which
are defined in "sb16.h".
Additionally, every output driver will have an include file, which
should be included at the end of sb16.h to allow the emulator
to use that driver.
To actually make the emulator use any specific driver,
BX_SOUND_OUTPUT_C has to be set to the name of the respective
output class.
Note that if your class contains any system-specific statements,
include-files and so on, you should enclose both the include-file and
the CC-file in an #if defined(OS-define) construct.
Also don't forget to add your file to the object list in
iodev/Makefile and iodev/Makefile.in.
Classes
The following classes are involved with the SB16 emulation:
- bx_sb16_c is the class containing the emulator itself, that
is the part acting on port accesses by the application, handling the
DMA transfers and so on. It also prepares the data for the output
classes.
- bx_sound_output_c is the base output class. It has all
the methods used by the emulator, but only as stubs and does not
actually produce any output. These methods are then called by
the emulator whenever output is necessary.
- bx_sound_OS_c is derived from
bx_sound_output_c. It contains the code to generate
output for the OS operating system.
It is necessary to override all
the methods defined in the base class, unless virtual functions
are used. Note that this should remain an option, so try to
override all methods, even if only as stubs. They should be
declared virtual if and only if BX_USE_SOUND_VIRTUAL
is defined, just as in the examples.
The constructor should call the inherited constructor
as usual, even though the current constructor does not do
anything yet.
Methods
The following are the methods that the output class has to override.
All but constructor and destructor have to return either
BX_SOUND_OUTPUT_OK (0) if the function was successful,
or BX_SOUND_OUTPUT_ERR (1) if not. If any of the initialization
functions fail, output to that device is disabled until the emulator
is restarted.
Constructor and destructor:
Midi functions:
Wave functions:
Details
Methods
bx_sound_OS_c(bx_sb16_c
*sb16)
The emulator instantiates the class at the initialization of Bochs.
Description of the parameter:
- sb16 is a pointer to the emulator class.
This pointer can then be used
to access for example the writelog function to generate
sound-related log messages. Apart from that, no access to the emulator
should be necessary.
The constructor should not allocate the output devices.
This shouldn't be done until the actual output
occurs; in either initmidioutput() or initwaveoutput().
Otherwise it would be impossible to have two copies of Bochs running
concurrently (if anybody ever wants to do this).
~bx_sound_OS_c()
The instance is destroyed just before Bochs ends.
int openmidioutput(char *device)
openmidioutput() is called when the first midi output starts.
It is only called if the midi output mode is 1 (midimode 1). It should
-
prepare the given MIDI hardware for receiving midi commands.
openmidioutput() will always be called before openwaveoutput(),
and closemidioutput()will always be called before closewaveoutput(),
but not in all cases will both functions be called.
Description of the parameters:
-
device is a system-dependent variable.
It contains the value of the MIDI=device configuration option.
Note that only one midi output device will be used at any one time.
device
may not have the same value throughout one session, but it will be closed
before it is changed.
int midiready()
midiready() is called whenever the applications asks if the
midi queue can accept more data.
Return values:
-
BX_SOUND_OUTPUT_OK if the midi output device is ready
-
BX_SOUND_OUTPUT_ERR if it isn't ready
Note: midiready() will be called a few times
before the device is opened. If this is the case, it should
always report that it is ready, otherwise the application (not Bochs)
will hang.
int sendmidicommand(int delta,
int command, int length,
Bit8u data[])
sendmidicommand()is called whenever a complete midi command has
been written to the emulator. It should then
-
send the given midi command to the midi hardware.
It will only be called after the midi output has been opened. Note that
if at all possible it should not wait for the completion of the command
and instead indicate that the device is not ready during the execution
of the command. This is to avoid delays in the program while it is
generating midi output.
Description of the parameters:
-
delta is the number of delta ticks that
have passed since the last command has been issued. It is always zero for
the first command. There are 24 delta ticks per quarter, and 120 quarters
per minute, thus 48 delta ticks per second.
-
command is the midi command byte (sometimes
called status byte), in the usual range of 0x80..0xff. For more information
please see the midi standard specification.
-
length is the number of data bytes that
are contained in the data structure. This does not include the status
byte which is not replicated in the data array. It can only be greater
than 3 for SysEx messages (commands 0xF0 and 0xF7)
-
data[] is the array of these data bytes,
in the order they have in the standard MIDI specification.
Note, it might be NULL if length==0.
int closemidioutput()
closemidioutput() is called before shutting down Bochs or
when the
emulator gets the stop_output command through the emulator port.
After this, no more output will be necessary until openmidioutput()
is called again, but midiready() might still be called. It should
-
Wait for all remaining messages to be completed
-
Reset and close the midi output device
int openwaveoutput(char *device)
openwaveoutput() is called when the first wave output occurs,
and only if the selected wavemode is 1. It should
-
Open the given device, and prepare it for wave output
or
-
Store the device name so that the device can be opened in startplayback().
openmidioutput() will always be called before openwaveoutput(),
and closemidioutput()will always be called before closewaveoutput(),
but not in all cases will both functions be called.
openwaveoutput() will typically be called once, whereas
startplayback()
is called for every new DMA transfer to the SB16 emulation. If feasible,
it could be useful to open and/or lock the output device in
startplayback() as opposed to openwaveoutput()
to ensure that it can be used by other applications while Bochs doesn't
need it.
However, many older applications don't use the auto-init DMA
mode, which means that they start a new DMA transfer for every single
block of output, which means usually for every 2048 bytes or so.
Unfortunately there is no way of knowing whether the application will
restart an expired DMA transfer soon, so that in these cases the
startwaveplayback function will be called very often, and it
isn't a good idea to have it reopen the device every time.
The buffer when writing to the device should not be overly large.
Usually about four buffers of 4096 bytes produce best results. Smaller
buffers could mean too much overhead, while larger buffers contribute
to the fact that the actual output will always be late when the application
tries to synchronize it with for example graphics.
The parameters are
-
device is the wave device selected by
the user. It is strictly system-dependent. The value is that of the
WAVE=device
configuration option.
Note that only one wave output device will be used at any one time.
device
may not have the same value throughout one session, but it will be closed
before it is changed.
This function is called whenever the application starts a new DMA transfer.
It should
-
Open the wave output device, unless openwaveoutput() did that
already
-
Prepare the device for data and set the device parameters to those given
in the function call
The parameters are:
-
frequency is the desired frequency of the
output. Because of the capabities of the SB16, it can have any value between
5000 and 44,100.
-
bits is either 8 or 16, denoting the resolution
of one sample.
-
stereo is either 1 for stereo output,
or 0 for mono output.
-
format is a bit-coded value (see below).
The bits in format are
Bit number |
Meaning |
0 (LSB) |
0: unsigned data
1: signed data |
1..6 |
Type of codec |
7 |
0: no reference byte
1: with reference byte |
8..x |
reserved (0) |
|
|
The codec can be one of the following:
Value |
Meaning |
0 |
PCM (raw data) |
1 |
reserved |
2 |
2-bit ADPCM
(Creative Labs format) |
3 |
2.4-bit (3-bit) ADPCM
(Creative Labs format) |
4 |
4-bit ADPCM
(Creative Labs format) |
Other codecs are not supported by the SB hardware. In fact, most applications
will translate their data into raw data, so that in most cases the codec
will be zero. |
The number of bytes per sample can be calculated from this as
(bits / 8) * (stereo + 1).
int waveready()
This is called whenever the emulator has another output buffer ready
and would like to pass it to the output class. This happens every
BX_SOUND_OUTPUT_WAVEPACKETSIZE bytes, or whenever a DMA transfer
is done or aborted.
It should return whether the output device is ready for another buffer
of BX_SOUND_OUTPUT_WAVEPACKETSIZE bytes.
If BX_SOUND_OUTPUT_ERR
is returned, the emulator waits about 1/(frequency * bytes per sample) seconds
and then asks again. The DMA transfer is stalled during that time, but
the application keeps running, until the output device becomes ready.
As opposed to midiready(), waveready() will not be
called unless the device is open.
int sendwavepacket(int length,
Bit8u data[])
This function is called whenever a data packet of at most BX_SB16_WAVEPACKETSIZE
is ready at the SB16 emulator. It should then
-
Send this wave packet to the wave hardware
This function has to be synchronous, meaning that it has
to return immediately, and not wait until the output is done. Also,
this function might be called before the previous output is done. If your
hardware can't append the new output to the old one, you will have to implement
this yourself, or the output will be very chunky, with as much silence
between the blocks as the blocks take to play. This is not what you want.
Instead, waveready() should return BX_SOUND_OUTPUT_ERR
until the device accepts another block of data.
Parameters:
-
length is the number of data bytes in
the data stream. It will never be larger than BX_SB16_WAVEPACKETSIZE.
-
data is the array of data bytes.
The order of bytes in the data stream is the same as that in the
Wave file format:
Output type |
Sequence of data bytes |
8 bit mono |
Sample 1; Sample 2; Sample 3; etc. |
8 bit stereo |
Sample 1, Channel 0; Sample 1, Channel 1; Sample 2, Channel 0; Sample
2, Channel 1; etc. |
16 bit mono |
Sample 1, LSB; Sample 1, MSB; Sample 2, LSB; Sample 2, MSB; etc. |
16 bit stereo |
Sample 1, LSB, Channel 0; Sample 1, MSB, Channel 0; Sample 1, LSB,
Channel 1; Sample 1, MSB, Channel 1; etc. |
Typically 8 bit data will be unsigned with values from 0 to 255, and
16 bit data will be signed with values from -32768 to 32767, although the
SB16 is not limited to this. For further information on the codecs and
the use of reference bytes please refer to the Creative Labs Sound Blaster
Programmer's Manual, which can be downloaded from the Creative Labs web
site.
int stopwaveplayback()
This function is called at the end of a DMA transfer. It should
-
Close the output device if it was opened by startwaveplayback().
and it's not going to be opened soon. Which is almost impossible to tell.
int closewaveoutput()
This function is called just before Bochs exits. It should
-
Close the output device, if this hasn't been done by stopwaveplayback().
Typically, stopwaveplayback() will be called several times, whenever
a DMA transfer is done, where closewaveoutput() will only be called
once. However, in the future it might be possible that openwaveoutput()
is called again, for example if the user chose to switch devices while
Bochs was running. This is not supported at the moment, but might be in
the future.