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#ifndef __wavefront_h__
#define __wavefront_h__
/* WaveFront header file.
*
* Copyright (C) by Paul Barton-Davis 1998
*
* This program is distributed under the GNU GENERAL PUBLIC LICENSE (GPL)
* Version 2 (June 1991). See the "COPYING" file distributed with this software
* for more info.
*/
#if (!defined(__GNUC__) && !defined(__GNUG__))
You will not be able to compile this file correctly without gcc, because
it is necessary to pack the "wavefront_alias" structure to a size
of 22 bytes, corresponding to 16-bit alignment (as would have been
the case on the original platform, MS-DOS). If this is not done,
then WavePatch-format files cannot be read/written correctly.
The method used to do this here ("__attribute__((packed)") is
completely compiler dependent.
All other wavefront_* types end up aligned to 32 bit values and
still have the same (correct) size.
#else
/* However, note that as of G++ 2.7.3.2, g++ was unable to
correctly parse *type* __attribute__ tags. It will do the
right thing if we use the "packed" attribute on each struct
member, which has the same semantics anyway.
*/
#endif /* __GNUC__ */
/***************************** WARNING ********************************
PLEASE DO NOT MODIFY THIS FILE IN ANY WAY THAT AFFECTS ITS ABILITY TO
BE USED WITH EITHER C *OR* C++.
**********************************************************************/
#ifndef NUM_MIDIKEYS
#define NUM_MIDIKEYS 128
#endif /* NUM_MIDIKEYS */
#ifndef NUM_MIDICHANNELS
#define NUM_MIDICHANNELS 16
#endif /* NUM_MIDICHANNELS */
/* These are very useful/important. the original wavefront interface
was developed on a 16 bit system, where sizeof(int) = 2
bytes. Defining things like this makes the code much more portable, and
easier to understand without having to toggle back and forth
between a 16-bit view of the world and a 32-bit one.
*/
typedef short INT16;
typedef unsigned short UINT16;
typedef int INT32;
typedef unsigned int UINT32;
typedef char CHAR8;
typedef unsigned char UCHAR8;
/* Pseudo-commands not part of the WaveFront command set.
These are used for various driver controls and direct
hardware control.
*/
#define WFC_DEBUG_DRIVER 0
#define WFC_FX_IOCTL 1
#define WFC_PATCH_STATUS 2
#define WFC_PROGRAM_STATUS 3
#define WFC_SAMPLE_STATUS 4
#define WFC_DISABLE_INTERRUPTS 5
#define WFC_ENABLE_INTERRUPTS 6
#define WFC_INTERRUPT_STATUS 7
#define WFC_ROMSAMPLES_RDONLY 8
#define WFC_IDENTIFY_SLOT_TYPE 9
/* Wavefront synth commands
*/
#define WFC_DOWNLOAD_SAMPLE 0x80
#define WFC_DOWNLOAD_BLOCK 0x81
#define WFC_DOWNLOAD_MULTISAMPLE 0x82
#define WFC_DOWNLOAD_SAMPLE_ALIAS 0x83
#define WFC_DELETE_SAMPLE 0x84
#define WFC_REPORT_FREE_MEMORY 0x85
#define WFC_DOWNLOAD_PATCH 0x86
#define WFC_DOWNLOAD_PROGRAM 0x87
#define WFC_SET_SYNTHVOL 0x89
#define WFC_SET_NVOICES 0x8B
#define WFC_DOWNLOAD_DRUM 0x90
#define WFC_GET_SYNTHVOL 0x92
#define WFC_GET_NVOICES 0x94
#define WFC_DISABLE_CHANNEL 0x9A
#define WFC_ENABLE_CHANNEL 0x9B
#define WFC_MISYNTH_OFF 0x9D
#define WFC_MISYNTH_ON 0x9E
#define WFC_FIRMWARE_VERSION 0x9F
#define WFC_GET_NSAMPLES 0xA0
#define WFC_DISABLE_DRUM_PROGRAM 0xA2
#define WFC_UPLOAD_PATCH 0xA3
#define WFC_UPLOAD_PROGRAM 0xA4
#define WFC_SET_TUNING 0xA6
#define WFC_GET_TUNING 0xA7
#define WFC_VMIDI_ON 0xA8
#define WFC_VMIDI_OFF 0xA9
#define WFC_MIDI_STATUS 0xAA
#define WFC_GET_CHANNEL_STATUS 0xAB
#define WFC_DOWNLOAD_SAMPLE_HEADER 0xAC
#define WFC_UPLOAD_SAMPLE_HEADER 0xAD
#define WFC_UPLOAD_MULTISAMPLE 0xAE
#define WFC_UPLOAD_SAMPLE_ALIAS 0xAF
#define WFC_IDENTIFY_SAMPLE_TYPE 0xB0
#define WFC_DOWNLOAD_EDRUM_PROGRAM 0xB1
#define WFC_UPLOAD_EDRUM_PROGRAM 0xB2
#define WFC_SET_EDRUM_CHANNEL 0xB3
#define WFC_INSTOUT_LEVELS 0xB4
#define WFC_PEAKOUT_LEVELS 0xB5
#define WFC_REPORT_CHANNEL_PROGRAMS 0xB6
#define WFC_HARDWARE_VERSION 0xCF
#define WFC_UPLOAD_SAMPLE_PARAMS 0xD7
#define WFC_DOWNLOAD_OS 0xF1
#define WFC_NOOP 0xFF
#define WF_MAX_SAMPLE 512
#define WF_MAX_PATCH 256
#define WF_MAX_PROGRAM 128
#define WF_SECTION_MAX 44 /* longest OS section length */
/* # of bytes we send to the board when sending it various kinds of
substantive data, such as samples, patches and programs.
*/
#define WF_PROGRAM_BYTES 32
#define WF_PATCH_BYTES 132
#define WF_SAMPLE_BYTES 27
#define WF_SAMPLE_HDR_BYTES 25
#define WF_ALIAS_BYTES 25
#define WF_DRUM_BYTES 9
#define WF_MSAMPLE_BYTES 259 /* (MIDI_KEYS * 2) + 3 */
#define WF_ACK 0x80
#define WF_DMA_ACK 0x81
/* OR-values for MIDI status bits */
#define WF_MIDI_VIRTUAL_ENABLED 0x1
#define WF_MIDI_VIRTUAL_IS_EXTERNAL 0x2
#define WF_MIDI_IN_TO_SYNTH_DISABLED 0x4
/* slot indexes for struct address_info: makes code a little more mnemonic */
#define WF_SYNTH_SLOT 0
#define WF_INTERNAL_MIDI_SLOT 1
#define WF_EXTERNAL_MIDI_SLOT 2
/* Magic MIDI bytes used to switch I/O streams on the ICS2115 MPU401
emulation. Note these NEVER show up in output from the device and
should NEVER be used in input unless Virtual MIDI mode has been
disabled. If they do show up as input, the results are unpredictable.
*/
#define WF_EXTERNAL_SWITCH 0xFD
#define WF_INTERNAL_SWITCH 0xF9
/* Debugging flags */
#define WF_DEBUG_CMD 0x1
#define WF_DEBUG_DATA 0x2
#define WF_DEBUG_LOAD_PATCH 0x4
#define WF_DEBUG_IO 0x8
/* WavePatch file format stuff */
#define WF_WAVEPATCH_VERSION 120; /* Current version number (1.2) */
#define WF_MAX_COMMENT 64 /* Comment length */
#define WF_NUM_LAYERS 4
#define WF_NAME_LENGTH 32
#define WF_SOURCE_LENGTH 260
#define BankFileID "Bank"
#define DrumkitFileID "DrumKit"
#define ProgramFileID "Program"
struct wf_envelope
{
UCHAR8 attack_time:7;
UCHAR8 Unused1:1;
UCHAR8 decay1_time:7;
UCHAR8 Unused2:1;
UCHAR8 decay2_time:7;
UCHAR8 Unused3:1;
UCHAR8 sustain_time:7;
UCHAR8 Unused4:1;
UCHAR8 release_time:7;
UCHAR8 Unused5:1;
UCHAR8 release2_time:7;
UCHAR8 Unused6:1;
CHAR8 attack_level;
CHAR8 decay1_level;
CHAR8 decay2_level;
CHAR8 sustain_level;
CHAR8 release_level;
UCHAR8 attack_velocity:7;
UCHAR8 Unused7:1;
UCHAR8 volume_velocity:7;
UCHAR8 Unused8:1;
UCHAR8 keyboard_scaling:7;
UCHAR8 Unused9:1;
};
typedef struct wf_envelope wavefront_envelope;
struct wf_lfo
{
UCHAR8 sample_number;
UCHAR8 frequency:7;
UCHAR8 Unused1:1;
UCHAR8 am_src:4;
UCHAR8 fm_src:4;
CHAR8 fm_amount;
CHAR8 am_amount;
CHAR8 start_level;
CHAR8 end_level;
UCHAR8 ramp_delay:7;
UCHAR8 wave_restart:1; /* for LFO2 only */
UCHAR8 ramp_time:7;
UCHAR8 Unused2:1;
};
typedef struct wf_lfo wavefront_lfo;
struct wf_patch
{
INT16 frequency_bias; /* ** THIS IS IN MOTOROLA FORMAT!! ** */
UCHAR8 amplitude_bias:7;
UCHAR8 Unused1:1;
UCHAR8 portamento:7;
UCHAR8 Unused2:1;
UCHAR8 sample_number;
UCHAR8 pitch_bend:4;
UCHAR8 sample_msb:1;
UCHAR8 Unused3:3;
UCHAR8 mono:1;
UCHAR8 retrigger:1;
UCHAR8 nohold:1;
UCHAR8 restart:1;
UCHAR8 filterconfig:2; /* SDK says "not used" */
UCHAR8 reuse:1;
UCHAR8 reset_lfo:1;
UCHAR8 fm_src2:4;
UCHAR8 fm_src1:4;
CHAR8 fm_amount1;
CHAR8 fm_amount2;
UCHAR8 am_src:4;
UCHAR8 Unused4:4;
CHAR8 am_amount;
UCHAR8 fc1_mode:4;
UCHAR8 fc2_mode:4;
CHAR8 fc1_mod_amount;
CHAR8 fc1_keyboard_scaling;
CHAR8 fc1_bias;
CHAR8 fc2_mod_amount;
CHAR8 fc2_keyboard_scaling;
CHAR8 fc2_bias;
UCHAR8 randomizer:7;
UCHAR8 Unused5:1;
struct wf_envelope envelope1;
struct wf_envelope envelope2;
struct wf_lfo lfo1;
struct wf_lfo lfo2;
};
typedef struct wf_patch wavefront_patch;
struct wf_layer
{
UCHAR8 patch_number;
UCHAR8 mix_level:7;
UCHAR8 mute:1;
UCHAR8 split_point:7;
UCHAR8 play_below:1;
UCHAR8 pan_mod_src:2;
UCHAR8 pan_or_mod:1;
UCHAR8 pan:4;
UCHAR8 split_type:1;
};
typedef struct wf_layer wavefront_layer;
struct wf_program
{
struct wf_layer layer[WF_NUM_LAYERS];
};
typedef struct wf_program wavefront_program;
struct wf_sample_offset
{
INT32 Fraction:4;
INT32 Integer:20;
INT32 Unused:8;
};
typedef struct wf_sample_offset wavefront_sample_offset;
/* Sample slot types */
#define WF_ST_SAMPLE 0
#define WF_ST_MULTISAMPLE 1
#define WF_ST_ALIAS 2
#define WF_ST_EMPTY 3
/* pseudo's */
#define WF_ST_DRUM 4
#define WF_ST_PROGRAM 5
#define WF_ST_PATCH 6
#define WF_ST_SAMPLEHDR 7
#define WF_ST_MASK 0xf
/* Flags for slot status. These occupy the upper bits of the same byte
as a sample type.
*/
#define WF_SLOT_USED 0x80 /* XXX don't rely on this being accurate */
#define WF_SLOT_FILLED 0x40
#define WF_SLOT_ROM 0x20
#define WF_SLOT_MASK 0xf0
/* channel constants */
#define WF_CH_MONO 0
#define WF_CH_LEFT 1
#define WF_CH_RIGHT 2
/* Sample formats */
#define LINEAR_16BIT 0
#define WHITE_NOISE 1
#define LINEAR_8BIT 2
#define MULAW_8BIT 3
#define WF_SAMPLE_IS_8BIT(smpl) ((smpl)->SampleResolution&2)
/*
Because most/all of the sample data we pass in via pointers has
never been copied (just mmap-ed into user space straight from the
disk), it would be nice to allow handling of multi-channel sample
data without forcing user-level extraction of the relevant bytes.
So, we need a way of specifying which channel to use (the WaveFront
only handles mono samples in a given slot), and the only way to do
this without using some struct other than wavefront_sample as the
interface is the awful hack of using the unused bits in a
wavefront_sample:
Val Meaning
--- -------
0 no channel selection (use channel 1, sample is MONO)
1 use first channel, and skip one
2 use second channel, and skip one
3 use third channel, and skip two
4 use fourth channel, skip three
5 use fifth channel, skip four
6 use six channel, skip five
This can handle up to 4 channels, and anyone downloading >4 channels
of sample data just to select one of them needs to find some tools
like sox ...
NOTE: values 0, 1 and 2 correspond to WF_CH_* above. This is
important.
*/
#define WF_SET_CHANNEL(samp,chn) \
(samp)->Unused1 = chn & 0x1; \
(samp)->Unused2 = chn & 0x2; \
(samp)->Unused3 = chn & 0x4
#define WF_GET_CHANNEL(samp) \
(((samp)->Unused3 << 2)|((samp)->Unused2<<1)|(samp)->Unused1)
typedef struct wf_sample {
struct wf_sample_offset sampleStartOffset;
struct wf_sample_offset loopStartOffset;
struct wf_sample_offset loopEndOffset;
struct wf_sample_offset sampleEndOffset;
INT16 FrequencyBias;
UCHAR8 SampleResolution:2; /* sample_format */
UCHAR8 Unused1:1;
UCHAR8 Loop:1;
UCHAR8 Bidirectional:1;
UCHAR8 Unused2:1;
UCHAR8 Reverse:1;
UCHAR8 Unused3:1;
} wavefront_sample;
typedef struct wf_multisample {
INT16 NumberOfSamples; /* log2 of the number of samples */
INT16 SampleNumber[NUM_MIDIKEYS];
} wavefront_multisample;
typedef struct wf_alias {
INT16 OriginalSample __attribute__ ((packed));
struct wf_sample_offset sampleStartOffset __attribute__ ((packed));
struct wf_sample_offset loopStartOffset __attribute__ ((packed));
struct wf_sample_offset sampleEndOffset __attribute__ ((packed));
struct wf_sample_offset loopEndOffset __attribute__ ((packed));
INT16 FrequencyBias __attribute__ ((packed));
UCHAR8 SampleResolution:2 __attribute__ ((packed));
UCHAR8 Unused1:1 __attribute__ ((packed));
UCHAR8 Loop:1 __attribute__ ((packed));
UCHAR8 Bidirectional:1 __attribute__ ((packed));
UCHAR8 Unused2:1 __attribute__ ((packed));
UCHAR8 Reverse:1 __attribute__ ((packed));
UCHAR8 Unused3:1 __attribute__ ((packed));
/* This structure is meant to be padded only to 16 bits on their
original. Of course, whoever wrote their documentation didn't
realize that sizeof(struct) can be >=
sum(sizeof(struct-fields)) and so thought that giving a C level
description of the structs used in WavePatch files was
sufficient. I suppose it was, as long as you remember the
standard 16->32 bit issues.
*/
UCHAR8 sixteen_bit_padding __attribute__ ((packed));
} wavefront_alias;
typedef struct wf_drum {
UCHAR8 PatchNumber;
UCHAR8 MixLevel:7;
UCHAR8 Unmute:1;
UCHAR8 Group:4;
UCHAR8 Unused1:4;
UCHAR8 PanModSource:2;
UCHAR8 PanModulated:1;
UCHAR8 PanAmount:4;
UCHAR8 Unused2:1;
} wavefront_drum;
typedef struct wf_drumkit {
struct wf_drum drum[NUM_MIDIKEYS];
} wavefront_drumkit;
typedef struct wf_channel_programs {
UCHAR8 Program[NUM_MIDICHANNELS];
} wavefront_channel_programs;
/* How to get MIDI channel status from the data returned by
a WFC_GET_CHANNEL_STATUS command (a struct wf_channel_programs)
*/
#define WF_CHANNEL_STATUS(ch,wcp) (wcp)[(ch/7)] & (1<<((ch)%7))
typedef union wf_any {
wavefront_sample s;
wavefront_multisample ms;
wavefront_alias a;
wavefront_program pr;
wavefront_patch p;
wavefront_drum d;
} wavefront_any;
/* Hannu Solvainen hoped that his "patch_info" struct in soundcard.h
might work for other wave-table based patch loading situations.
Alas, his fears were correct. The WaveFront doesn't even come with
just "patches", but several different kind of structures that
control the sound generation process.
*/
typedef struct wf_patch_info {
/* the first two fields are used by the OSS "patch loading" interface
only, and are unused by the current user-level library.
*/
INT16 key; /* Use WAVEFRONT_PATCH here */
UINT16 devno; /* fill in when sending */
UCHAR8 subkey; /* WF_ST_{SAMPLE,ALIAS,etc.} */
#define WAVEFRONT_FIND_FREE_SAMPLE_SLOT 999
UINT16 number; /* patch/sample/prog number */
UINT32 size; /* size of any data included in
one of the fields in `hdrptr', or
as `dataptr'.
NOTE: for actual samples, this is
the size of the *SELECTED CHANNEL*
even if more data is actually available.
So, a stereo sample (2 channels) of
6000 bytes total has `size' = 3000.
See the macros and comments for
WF_{GET,SET}_CHANNEL above.
*/
wavefront_any *hdrptr; /* user-space ptr to hdr bytes */
UINT16 *dataptr; /* actual sample data */
wavefront_any hdr; /* kernel-space copy of hdr bytes */
} wavefront_patch_info;
/* The maximum number of bytes we will ever move to or from user space
in response to a WFC_* command. This obviously doesn't cover
actual sample data.
*/
#define WF_MAX_READ sizeof(wavefront_multisample)
#define WF_MAX_WRITE sizeof(wavefront_multisample)
/*
This allows us to execute any WF command except the download/upload
ones, which are handled differently due to copyin/copyout issues as
well as data-nybbling to/from the card.
*/
typedef struct wavefront_control {
int cmd; /* WFC_* */
char status; /* return status to user-space */
unsigned char rbuf[WF_MAX_READ]; /* bytes read from card */
unsigned char wbuf[WF_MAX_WRITE]; /* bytes written to card */
} wavefront_control;
#define WFCTL_WFCMD 0x1
#define WFCTL_LOAD_SPP 0x2
/* Modulator table */
#define WF_MOD_LFO1 0
#define WF_MOD_LFO2 1
#define WF_MOD_ENV1 2
#define WF_MOD_ENV2 3
#define WF_MOD_KEYBOARD 4
#define WF_MOD_LOGKEY 5
#define WF_MOD_VELOCITY 6
#define WF_MOD_LOGVEL 7
#define WF_MOD_RANDOM 8
#define WF_MOD_PRESSURE 9
#define WF_MOD_MOD_WHEEL 10
#define WF_MOD_1 WF_MOD_MOD_WHEEL
#define WF_MOD_BREATH 11
#define WF_MOD_2 WF_MOD_BREATH
#define WF_MOD_FOOT 12
#define WF_MOD_4 WF_MOD_FOOT
#define WF_MOD_VOLUME 13
#define WF_MOD_7 WF_MOD_VOLUME
#define WF_MOD_PAN 14
#define WF_MOD_10 WF_MOD_PAN
#define WF_MOD_EXPR 15
#define WF_MOD_11 WF_MOD_EXPR
/* FX-related material */
typedef struct wf_fx_info {
int request; /* see list below */
int data[4]; /* we don't need much */
} wavefront_fx_info;
/* support for each of these will be forthcoming once I or someone
else has figured out which of the addresses on page 6 and page 7 of
the YSS225 control each parameter. Incidentally, these come from
the Windows driver interface, but again, Turtle Beach didn't
document the API to use them.
*/
#define WFFX_SETOUTGAIN 0
#define WFFX_SETSTEREOOUTGAIN 1
#define WFFX_SETREVERBIN1GAIN 2
#define WFFX_SETREVERBIN2GAIN 3
#define WFFX_SETREVERBIN3GAIN 4
#define WFFX_SETCHORUSINPORT 5
#define WFFX_SETREVERBIN1PORT 6
#define WFFX_SETREVERBIN2PORT 7
#define WFFX_SETREVERBIN3PORT 8
#define WFFX_SETEFFECTPORT 9
#define WFFX_SETAUXPORT 10
#define WFFX_SETREVERBTYPE 11
#define WFFX_SETREVERBDELAY 12
#define WFFX_SETCHORUSLFO 13
#define WFFX_SETCHORUSPMD 14
#define WFFX_SETCHORUSAMD 15
#define WFFX_SETEFFECT 16
#define WFFX_SETBASEALL 17
#define WFFX_SETREVERBALL 18
#define WFFX_SETCHORUSALL 20
#define WFFX_SETREVERBDEF 22
#define WFFX_SETCHORUSDEF 23
#define WFFX_DELAYSETINGAIN 24
#define WFFX_DELAYSETFBGAIN 25
#define WFFX_DELAYSETFBLPF 26
#define WFFX_DELAYSETGAIN 27
#define WFFX_DELAYSETTIME 28
#define WFFX_DELAYSETFBTIME 29
#define WFFX_DELAYSETALL 30
#define WFFX_DELAYSETDEF 32
#define WFFX_SDELAYSETINGAIN 33
#define WFFX_SDELAYSETFBGAIN 34
#define WFFX_SDELAYSETFBLPF 35
#define WFFX_SDELAYSETGAIN 36
#define WFFX_SDELAYSETTIME 37
#define WFFX_SDELAYSETFBTIME 38
#define WFFX_SDELAYSETALL 39
#define WFFX_SDELAYSETDEF 41
#define WFFX_DEQSETINGAIN 42
#define WFFX_DEQSETFILTER 43
#define WFFX_DEQSETALL 44
#define WFFX_DEQSETDEF 46
#define WFFX_MUTE 47
#define WFFX_FLANGESETBALANCE 48
#define WFFX_FLANGESETDELAY 49
#define WFFX_FLANGESETDWFFX_TH 50
#define WFFX_FLANGESETFBGAIN 51
#define WFFX_FLANGESETINGAIN 52
#define WFFX_FLANGESETLFO 53
#define WFFX_FLANGESETALL 54
#define WFFX_FLANGESETDEF 56
#define WFFX_PITCHSETSHIFT 57
#define WFFX_PITCHSETBALANCE 58
#define WFFX_PITCHSETALL 59
#define WFFX_PITCHSETDEF 61
#define WFFX_SRSSETINGAIN 62
#define WFFX_SRSSETSPACE 63
#define WFFX_SRSSETCENTER 64
#define WFFX_SRSSETGAIN 65
#define WFFX_SRSSETMODE 66
#define WFFX_SRSSETDEF 68
/* Allow direct user-space control over FX memory/coefficient data.
In theory this could be used to download the FX microprogram,
but it would be a little slower, and involve some weird code.
*/
#define WFFX_MEMSET 69
#endif /* __wavefront_h__ */