/* SPDX-License-Identifier: GPL-2.0-or-later */
/*
* Copyright (c) by Jaroslav Kysela <[email protected]>,
* Creative Labs, Inc.
* Definitions for EMU10K1 (SB Live!) chips
*/
#ifndef __SOUND_EMU10K1_H
#define __SOUND_EMU10K1_H
#include <sound/pcm.h>
#include <sound/rawmidi.h>
#include <sound/hwdep.h>
#include <sound/ac97_codec.h>
#include <sound/util_mem.h>
#include <sound/pcm-indirect.h>
#include <sound/timer.h>
#include <linux/interrupt.h>
#include <linux/mutex.h>
#include <linux/firmware.h>
#include <linux/io.h>
#include <uapi/sound/emu10k1.h>
/* ------------------- DEFINES -------------------- */
#define EMUPAGESIZE 4096
#define MAXPAGES0 4096 /* 32 bit mode */
#define MAXPAGES1 8192 /* 31 bit mode */
#define NUM_G 64 /* use all channels */
#define NUM_EFX_PLAYBACK 16
/* FIXME? - according to the OSS driver the EMU10K1 needs a 29 bit DMA mask */
#define EMU10K1_DMA_MASK 0x7fffffffUL /* 31bit */
#define AUDIGY_DMA_MASK 0xffffffffUL /* 32bit mode */
#define TMEMSIZE 256*1024
#define IP_TO_CP(ip) ((ip == 0) ? 0 : (((0x00001000uL | (ip & 0x00000FFFL)) << (((ip >> 12) & 0x000FL) + 4)) & 0xFFFF0000uL))
// This is used to define hardware bit-fields (sub-registers) by combining
// the bit shift and count with the actual register address. The passed
// mask must represent a single run of adjacent bits.
// The non-concatenating (_NC) variant should be used directly only for
// sub-registers that do not follow the <register>_<field> naming pattern.
#define SUB_REG_NC(reg, field, mask) \
enum { \
field ## _MASK = mask, \
field = reg | \
(__builtin_ctz(mask) << 16) | \
(__builtin_popcount(mask) << 24), \
};
#define SUB_REG(reg, field, mask) SUB_REG_NC(reg, reg ## _ ## field, mask)
// Macros for manipulating values of bit-fields declared using the above macros.
// Best used with constant register addresses, as otherwise quite some code is
// generated. The actual register read/write functions handle combined addresses
// automatically, so use of these macros conveys no advantage when accessing a
// single sub-register at a time.
#define REG_SHIFT(r) (((r) >> 16) & 0x1f)
#define REG_SIZE(r) (((r) >> 24) & 0x1f)
#define REG_MASK0(r) ((1U << REG_SIZE(r)) - 1U)
#define REG_MASK(r) (REG_MASK0(r) << REG_SHIFT(r))
#define REG_VAL_GET(r, v) ((v & REG_MASK(r)) >> REG_SHIFT(r))
#define REG_VAL_PUT(r, v) ((v) << REG_SHIFT(r))
// List terminator for snd_emu10k1_ptr_write_multiple()
#define REGLIST_END ~0
// Audigy specify registers are prefixed with 'A_'
/************************************************************************************************/
/* PCI function 0 registers, address = <val> + PCIBASE0 */
/************************************************************************************************/
#define PTR 0x00 /* Indexed register set pointer register */
/* NOTE: The CHANNELNUM and ADDRESS words can */
/* be modified independently of each other. */
#define PTR_CHANNELNUM_MASK 0x0000003f /* For each per-channel register, indicates the */
/* channel number of the register to be */
/* accessed. For non per-channel registers the */
/* value should be set to zero. */
#define PTR_ADDRESS_MASK 0x07ff0000 /* Register index */
#define A_PTR_ADDRESS_MASK 0x0fff0000
#define DATA 0x04 /* Indexed register set data register */
#define IPR 0x08 /* Global interrupt pending register */
/* Clear pending interrupts by writing a 1 to */
/* the relevant bits and zero to the other bits */
#define IPR_P16V 0x80000000 /* Bit set when the CA0151 P16V chip wishes
to interrupt */
#define IPR_WATERMARK_REACHED 0x40000000
#define IPR_A_GPIO 0x20000000 /* GPIO input pin change */
/* The next two interrupts are for the midi port on the Audigy Drive (A_MPU1) */
#define IPR_A_MIDITRANSBUFEMPTY2 0x10000000 /* MIDI UART transmit buffer empty */
#define IPR_A_MIDIRECVBUFEMPTY2 0x08000000 /* MIDI UART receive buffer empty */
#define IPR_SPDIFBUFFULL 0x04000000 /* SPDIF capture related, 10k2 only? (RE) */
#define IPR_SPDIFBUFHALFFULL 0x02000000 /* SPDIF capture related? (RE) */
#define IPR_SAMPLERATETRACKER 0x01000000 /* Sample rate tracker lock status change */
#define IPR_FXDSP 0x00800000 /* Enable FX DSP interrupts */
#define IPR_FORCEINT 0x00400000 /* Force Sound Blaster interrupt */
#define IPR_PCIERROR 0x00200000 /* PCI bus error */
#define IPR_VOLINCR 0x00100000 /* Volume increment button pressed */
#define IPR_VOLDECR 0x00080000 /* Volume decrement button pressed */
#define IPR_MUTE 0x00040000 /* Mute button pressed */
#define IPR_MICBUFFULL 0x00020000 /* Microphone buffer full */
#define IPR_MICBUFHALFFULL 0x00010000 /* Microphone buffer half full */
#define IPR_ADCBUFFULL 0x00008000 /* ADC buffer full */
#define IPR_ADCBUFHALFFULL 0x00004000 /* ADC buffer half full */
#define IPR_EFXBUFFULL 0x00002000 /* Effects buffer full */
#define IPR_EFXBUFHALFFULL 0x00001000 /* Effects buffer half full */
#define IPR_GPSPDIFSTATUSCHANGE 0x00000800 /* GPSPDIF channel status change */
#define IPR_CDROMSTATUSCHANGE 0x00000400 /* CD-ROM channel status change */
#define IPR_INTERVALTIMER 0x00000200 /* Interval timer terminal count */
#define IPR_MIDITRANSBUFEMPTY 0x00000100 /* MIDI UART transmit buffer empty */
#define IPR_MIDIRECVBUFEMPTY 0x00000080 /* MIDI UART receive buffer empty */
#define IPR_CHANNELLOOP 0x00000040 /* Channel (half) loop interrupt(s) pending */
/* The interrupt is triggered shortly after */
/* CCR_READADDRESS has crossed the boundary; */
/* due to the cache, this runs ahead of the */
/* actual playback position. */
#define IPR_CHANNELNUMBERMASK 0x0000003f /* When IPR_CHANNELLOOP is set, indicates the */
/* highest set channel in CLIPL, CLIPH, HLIPL, */
/* or HLIPH. When IPR is written with CL set, */
/* the bit in H/CLIPL or H/CLIPH corresponding */
/* to the CN value written will be cleared. */
#define INTE 0x0c /* Interrupt enable register */
#define INTE_VIRTUALSB_MASK 0xc0000000 /* Virtual Soundblaster I/O port capture */
#define INTE_VIRTUALSB_220 0x00000000 /* Capture at I/O base address 0x220-0x22f */
#define INTE_VIRTUALSB_240 0x40000000 /* Capture at I/O base address 0x240 */
#define INTE_VIRTUALSB_260 0x80000000 /* Capture at I/O base address 0x260 */
#define INTE_VIRTUALSB_280 0xc0000000 /* Capture at I/O base address 0x280 */
#define INTE_VIRTUALMPU_MASK 0x30000000 /* Virtual MPU I/O port capture */
#define INTE_VIRTUALMPU_300 0x00000000 /* Capture at I/O base address 0x300-0x301 */
#define INTE_VIRTUALMPU_310 0x10000000 /* Capture at I/O base address 0x310 */
#define INTE_VIRTUALMPU_320 0x20000000 /* Capture at I/O base address 0x320 */
#define INTE_VIRTUALMPU_330 0x30000000 /* Capture at I/O base address 0x330 */
#define INTE_MASTERDMAENABLE 0x08000000 /* Master DMA emulation at 0x000-0x00f */
#define INTE_SLAVEDMAENABLE 0x04000000 /* Slave DMA emulation at 0x0c0-0x0df */
#define INTE_MASTERPICENABLE 0x02000000 /* Master PIC emulation at 0x020-0x021 */
#define INTE_SLAVEPICENABLE 0x01000000 /* Slave PIC emulation at 0x0a0-0x0a1 */
#define INTE_VSBENABLE 0x00800000 /* Enable virtual Soundblaster */
#define INTE_ADLIBENABLE 0x00400000 /* Enable AdLib emulation at 0x388-0x38b */
#define INTE_MPUENABLE 0x00200000 /* Enable virtual MPU */
#define INTE_FORCEINT 0x00100000 /* Continuously assert INTAN */
#define INTE_MRHANDENABLE 0x00080000 /* Enable the "Mr. Hand" logic */
/* NOTE: There is no reason to use this under */
/* Linux, and it will cause odd hardware */
/* behavior and possibly random segfaults and */
/* lockups if enabled. */
#define INTE_A_GPIOENABLE 0x00040000 /* Enable GPIO input change interrupts */
/* The next two interrupts are for the midi port on the Audigy Drive (A_MPU1) */
#define INTE_A_MIDITXENABLE2 0x00020000 /* Enable MIDI transmit-buffer-empty interrupts */
#define INTE_A_MIDIRXENABLE2 0x00010000 /* Enable MIDI receive-buffer-empty interrupts */
#define INTE_A_SPDIF_BUFFULL_ENABLE 0x00008000
#define INTE_A_SPDIF_HALFBUFFULL_ENABLE 0x00004000
#define INTE_SAMPLERATETRACKER 0x00002000 /* Enable sample rate tracker interrupts */
/* NOTE: This bit must always be enabled */
#define INTE_FXDSPENABLE 0x00001000 /* Enable FX DSP interrupts */
#define INTE_PCIERRORENABLE 0x00000800 /* Enable PCI bus error interrupts */
#define INTE_VOLINCRENABLE 0x00000400 /* Enable volume increment button interrupts */
#define INTE_VOLDECRENABLE 0x00000200 /* Enable volume decrement button interrupts */
#define INTE_MUTEENABLE 0x00000100 /* Enable mute button interrupts */
#define INTE_MICBUFENABLE 0x00000080 /* Enable microphone buffer interrupts */
#define INTE_ADCBUFENABLE 0x00000040 /* Enable ADC buffer interrupts */
#define INTE_EFXBUFENABLE 0x00000020 /* Enable Effects buffer interrupts */
#define INTE_GPSPDIFENABLE 0x00000010 /* Enable GPSPDIF status interrupts */
#define INTE_CDSPDIFENABLE 0x00000008 /* Enable CDSPDIF status interrupts */
#define INTE_INTERVALTIMERENB 0x00000004 /* Enable interval timer interrupts */
#define INTE_MIDITXENABLE 0x00000002 /* Enable MIDI transmit-buffer-empty interrupts */
#define INTE_MIDIRXENABLE 0x00000001 /* Enable MIDI receive-buffer-empty interrupts */
#define WC 0x10 /* Wall Clock register */
SUB_REG(WC, SAMPLECOUNTER, 0x03FFFFC0) /* Sample periods elapsed since reset */
SUB_REG(WC, CURRENTCHANNEL, 0x0000003F) /* Channel [0..63] currently being serviced */
/* NOTE: Each channel takes 1/64th of a sample */
/* period to be serviced. */
#define HCFG 0x14 /* Hardware config register */
/* NOTE: There is no reason to use the legacy */
/* SoundBlaster emulation stuff described below */
/* under Linux, and all kinds of weird hardware */
/* behavior can result if you try. Don't. */
#define HCFG_LEGACYFUNC_MASK 0xe0000000 /* Legacy function number */
#define HCFG_LEGACYFUNC_MPU 0x00000000 /* Legacy MPU */
#define HCFG_LEGACYFUNC_SB 0x40000000 /* Legacy SB */
#define HCFG_LEGACYFUNC_AD 0x60000000 /* Legacy AD */
#define HCFG_LEGACYFUNC_MPIC 0x80000000 /* Legacy MPIC */
#define HCFG_LEGACYFUNC_MDMA 0xa0000000 /* Legacy MDMA */
#define HCFG_LEGACYFUNC_SPCI 0xc0000000 /* Legacy SPCI */
#define HCFG_LEGACYFUNC_SDMA 0xe0000000 /* Legacy SDMA */
#define HCFG_IOCAPTUREADDR 0x1f000000 /* The 4 LSBs of the captured I/O address. */
#define HCFG_LEGACYWRITE 0x00800000 /* 1 = write, 0 = read */
#define HCFG_LEGACYWORD 0x00400000 /* 1 = word, 0 = byte */
#define HCFG_LEGACYINT 0x00200000 /* 1 = legacy event captured. Write 1 to clear. */
/* NOTE: The rest of the bits in this register */
/* _are_ relevant under Linux. */
#define HCFG_PUSH_BUTTON_ENABLE 0x00100000 /* Enables Volume Inc/Dec and Mute functions */
#define HCFG_BAUD_RATE 0x00080000 /* 0 = 48kHz, 1 = 44.1kHz */
#define HCFG_EXPANDED_MEM 0x00040000 /* 1 = any 16M of 4G addr, 0 = 32M of 2G addr */
#define HCFG_CODECFORMAT_MASK 0x00030000 /* CODEC format */
/* Specific to Alice2, CA0102 */
#define HCFG_CODECFORMAT_AC97_1 0x00000000 /* AC97 CODEC format -- Ver 1.03 */
#define HCFG_CODECFORMAT_AC97_2 0x00010000 /* AC97 CODEC format -- Ver 2.1 */
#define HCFG_AUTOMUTE_ASYNC 0x00008000 /* When set, the async sample rate convertors */
/* will automatically mute their output when */
/* they are not rate-locked to the external */
/* async audio source */
#define HCFG_AUTOMUTE_SPDIF 0x00004000 /* When set, the async sample rate convertors */
/* will automatically mute their output when */
/* the SPDIF V-bit indicates invalid audio */
#define HCFG_EMU32_SLAVE 0x00002000 /* 0 = Master, 1 = Slave. Slave for EMU1010 */
#define HCFG_SLOW_RAMP 0x00001000 /* Increases Send Smoothing time constant */
/* 0x00000800 not used on Alice2 */
#define HCFG_PHASE_TRACK_MASK 0x00000700 /* When set, forces corresponding input to */
/* phase track the previous input. */
/* I2S0 can phase track the last S/PDIF input */
#define HCFG_I2S_ASRC_ENABLE 0x00000070 /* When set, enables asynchronous sample rate */
/* conversion for the corresponding */
/* I2S format input */
/* Rest of HCFG 0x0000000f same as below. LOCKSOUNDCACHE etc. */
/* Older chips */
#define HCFG_CODECFORMAT_AC97 0x00000000 /* AC97 CODEC format -- Primary Output */
#define HCFG_CODECFORMAT_I2S 0x00010000 /* I2S CODEC format -- Secondary (Rear) Output */
#define HCFG_GPINPUT0 0x00004000 /* External pin112 */
#define HCFG_GPINPUT1 0x00002000 /* External pin110 */
#define HCFG_GPOUTPUT_MASK 0x00001c00 /* External pins which may be controlled */
#define HCFG_GPOUT0 0x00001000 /* External pin? (spdif enable on 5.1) */
#define HCFG_GPOUT1 0x00000800 /* External pin? (IR) */
#define HCFG_GPOUT2 0x00000400 /* External pin? (IR) */
#define HCFG_JOYENABLE 0x00000200 /* Internal joystick enable */
#define HCFG_PHASETRACKENABLE 0x00000100 /* Phase tracking enable */
/* 1 = Force all 3 async digital inputs to use */
/* the same async sample rate tracker (ZVIDEO) */
#define HCFG_AC3ENABLE_MASK 0x000000e0 /* AC3 async input control - Not implemented */
#define HCFG_AC3ENABLE_ZVIDEO 0x00000080 /* Channels 0 and 1 replace ZVIDEO */
#define HCFG_AC3ENABLE_CDSPDIF 0x00000040 /* Channels 0 and 1 replace CDSPDIF */
#define HCFG_AC3ENABLE_GPSPDIF 0x00000020 /* Channels 0 and 1 replace GPSPDIF */
#define HCFG_AUTOMUTE 0x00000010 /* When set, the async sample rate convertors */
/* will automatically mute their output when */
/* they are not rate-locked to the external */
/* async audio source */
#define HCFG_LOCKSOUNDCACHE 0x00000008 /* 1 = Cancel bustmaster accesses to soundcache */
/* NOTE: This should generally never be used. */
SUB_REG(HCFG, LOCKTANKCACHE, 0x00000004) /* 1 = Cancel bustmaster accesses to tankcache */
/* NOTE: This should generally never be used. */
#define HCFG_MUTEBUTTONENABLE 0x00000002 /* 1 = Master mute button sets AUDIOENABLE = 0. */
/* NOTE: This is a 'cheap' way to implement a */
/* master mute function on the mute button, and */
/* in general should not be used unless a more */
/* sophisticated master mute function has not */
/* been written. */
#define HCFG_AUDIOENABLE 0x00000001 /* 0 = CODECs transmit zero-valued samples */
/* Should be set to 1 when the EMU10K1 is */
/* completely initialized. */
// On Audigy, the MPU port moved to the 0x70-0x74 ptr registers
#define MUDATA 0x18 /* MPU401 data register (8 bits) */
#define MUCMD 0x19 /* MPU401 command register (8 bits) */
#define MUCMD_RESET 0xff /* RESET command */
#define MUCMD_ENTERUARTMODE 0x3f /* Enter_UART_mode command */
/* NOTE: All other commands are ignored */
#define MUSTAT MUCMD /* MPU401 status register (8 bits) */
#define MUSTAT_IRDYN 0x80 /* 0 = MIDI data or command ACK */
#define MUSTAT_ORDYN 0x40 /* 0 = MUDATA can accept a command or data */
#define A_GPIO 0x18 /* GPIO on Audigy card (16bits) */
#define A_GPINPUT_MASK 0xff00 /* Alice/2 has 8 input pins */
#define A3_GPINPUT_MASK 0x3f00 /* ... while Tina/2 has only 6 */
#define A_GPOUTPUT_MASK 0x00ff
// The GPIO port is used for I/O config on Sound Blasters;
// card-specific info can be found in the emu_chip_details table.
// On E-MU cards the port is used as the interface to the FPGA.
// Audigy output/GPIO stuff taken from the kX drivers
#define A_IOCFG A_GPIO
#define A_IOCFG_GPOUT0 0x0044 /* analog/digital */
#define A_IOCFG_DISABLE_ANALOG 0x0040 /* = 'enable' for Audigy2 (chiprev=4) */
#define A_IOCFG_ENABLE_DIGITAL 0x0004
#define A_IOCFG_ENABLE_DIGITAL_AUDIGY4 0x0080
#define A_IOCFG_UNKNOWN_20 0x0020
#define A_IOCFG_DISABLE_AC97_FRONT 0x0080 /* turn off ac97 front -> front (10k2.1) */
#define A_IOCFG_GPOUT1 0x0002 /* IR? drive's internal bypass (?) */
#define A_IOCFG_GPOUT2 0x0001 /* IR */
#define A_IOCFG_MULTIPURPOSE_JACK 0x2000 /* center+lfe+rear_center (a2/a2ex) */
/* + digital for generic 10k2 */
#define A_IOCFG_DIGITAL_JACK 0x1000 /* digital for a2 platinum */
#define A_IOCFG_FRONT_JACK 0x4000
#define A_IOCFG_REAR_JACK 0x8000
#define A_IOCFG_PHONES_JACK 0x0100 /* LiveDrive */
#define TIMER 0x1a /* Timer terminal count register */
/* NOTE: After the rate is changed, a maximum */
/* of 1024 sample periods should be allowed */
/* before the new rate is guaranteed accurate. */
#define TIMER_RATE_MASK 0x03ff /* Timer interrupt rate in sample periods */
/* 0 == 1024 periods, [1..4] are not useful */
#define AC97DATA 0x1c /* AC97 register set data register (16 bit) */
#define AC97ADDRESS 0x1e /* AC97 register set address register (8 bit) */
#define AC97ADDRESS_READY 0x80 /* Read-only bit, reflects CODEC READY signal */
#define AC97ADDRESS_ADDRESS 0x7f /* Address of indexed AC97 register */
/* Available on the Audigy 2 and Audigy 4 only. This is the P16V chip. */
#define PTR2 0x20 /* Indexed register set pointer register */
#define DATA2 0x24 /* Indexed register set data register */
#define IPR2 0x28 /* P16V interrupt pending register */
#define IPR2_PLAYBACK_CH_0_LOOP 0x00001000 /* Playback Channel 0 loop */
#define IPR2_PLAYBACK_CH_0_HALF_LOOP 0x00000100 /* Playback Channel 0 half loop */
#define IPR2_CAPTURE_CH_0_LOOP 0x00100000 /* Capture Channel 0 loop */
#define IPR2_CAPTURE_CH_0_HALF_LOOP 0x00010000 /* Capture Channel 0 half loop */
/* 0x00000100 Playback. Only in once per period.
* 0x00110000 Capture. Int on half buffer.
*/
#define INTE2 0x2c /* P16V Interrupt enable register. */
#define INTE2_PLAYBACK_CH_0_LOOP 0x00001000 /* Playback Channel 0 loop */
#define INTE2_PLAYBACK_CH_0_HALF_LOOP 0x00000100 /* Playback Channel 0 half loop */
#define INTE2_PLAYBACK_CH_1_LOOP 0x00002000 /* Playback Channel 1 loop */
#define INTE2_PLAYBACK_CH_1_HALF_LOOP 0x00000200 /* Playback Channel 1 half loop */
#define INTE2_PLAYBACK_CH_2_LOOP 0x00004000 /* Playback Channel 2 loop */
#define INTE2_PLAYBACK_CH_2_HALF_LOOP 0x00000400 /* Playback Channel 2 half loop */
#define INTE2_PLAYBACK_CH_3_LOOP 0x00008000 /* Playback Channel 3 loop */
#define INTE2_PLAYBACK_CH_3_HALF_LOOP 0x00000800 /* Playback Channel 3 half loop */
#define INTE2_CAPTURE_CH_0_LOOP 0x00100000 /* Capture Channel 0 loop */
#define INTE2_CAPTURE_CH_0_HALF_LOOP 0x00010000 /* Caputre Channel 0 half loop */
#define HCFG2 0x34 /* Defaults: 0, win2000 sets it to 00004201 */
/* 0x00000000 2-channel output. */
/* 0x00000200 8-channel output. */
/* 0x00000004 pauses stream/irq fail. */
/* Rest of bits do nothing to sound output */
/* bit 0: Enable P16V audio.
* bit 1: Lock P16V record memory cache.
* bit 2: Lock P16V playback memory cache.
* bit 3: Dummy record insert zero samples.
* bit 8: Record 8-channel in phase.
* bit 9: Playback 8-channel in phase.
* bit 11-12: Playback mixer attenuation: 0=0dB, 1=-6dB, 2=-12dB, 3=Mute.
* bit 13: Playback mixer enable.
* bit 14: Route SRC48 mixer output to fx engine.
* bit 15: Enable IEEE 1394 chip.
*/
#define IPR3 0x38 /* Cdif interrupt pending register */
#define INTE3 0x3c /* Cdif interrupt enable register. */
/************************************************************************************************/
/* PCI function 1 registers, address = <val> + PCIBASE1 */
/************************************************************************************************/
#define JOYSTICK1 0x00 /* Analog joystick port register */
#define JOYSTICK2 0x01 /* Analog joystick port register */
#define JOYSTICK3 0x02 /* Analog joystick port register */
#define JOYSTICK4 0x03 /* Analog joystick port register */
#define JOYSTICK5 0x04 /* Analog joystick port register */
#define JOYSTICK6 0x05 /* Analog joystick port register */
#define JOYSTICK7 0x06 /* Analog joystick port register */
#define JOYSTICK8 0x07 /* Analog joystick port register */
/* When writing, any write causes JOYSTICK_COMPARATOR output enable to be pulsed on write. */
/* When reading, use these bitfields: */
#define JOYSTICK_BUTTONS 0x0f /* Joystick button data */
#define JOYSTICK_COMPARATOR 0xf0 /* Joystick comparator data */
/********************************************************************************************************/
/* Emu10k1 pointer-offset register set, accessed through the PTR and DATA registers */
/********************************************************************************************************/
// No official documentation was released for EMU10K1, but some info
// about playback can be extrapolated from the EMU8K documents:
// "AWE32/EMU8000 Programmer’s Guide" (emu8kpgm.pdf) - registers
// "AWE32 Developer's Information Pack" (adip301.pdf) - high-level view
// The short version:
// - The engine has 64 playback channels, also called voices. The channels
// operate independently, except when paired for stereo (see below).
// - PCM samples are fetched into the cache; see description of CD0 below.
// - Samples are consumed at the rate CPF_CURRENTPITCH.
// - 8-bit samples are transformed upon use: cooked = (raw ^ 0x80) << 8
// - 8 samples are read at CCR_READADDRESS:CPF_FRACADDRESS and interpolated
// according to CCCA_INTERPROM_*. With CCCA_INTERPROM_0 selected and a zero
// CPF_FRACADDRESS, this results in CCR_READADDRESS[3] being used verbatim.
// - The value is multiplied by CVCF_CURRENTVOL.
// - The value goes through a filter with cutoff CVCF_CURRENTFILTER;
// delay stages Z1 and Z2.
// - The value is added by so-called `sends` to 4 (EMU10K1) / 8 (EMU10K2)
// of the 16 (EMU10K1) / 64 (EMU10K2) FX bus accumulators via FXRT*,
// multiplied by a per-send amount (*_FXSENDAMOUNT_*).
// The scaling of the send amounts is exponential-ish.
// - The DSP has a go at FXBUS* and outputs the values to EXTOUT* or EMU32OUT*.
// - The pitch, volume, and filter cutoff can be modulated by two envelope
// engines and two low frequency oscillators.
// - To avoid abrupt changes to the parameters (which may cause audible
// distortion), the modulation engine sets the target registers, towards
// which the current registers "swerve" gradually.
// For the odd channel in a stereo pair, these registers are meaningless:
// CPF_STEREO, CPF_CURRENTPITCH, PTRX_PITCHTARGET, CCR_CACHEINVALIDSIZE,
// PSST_LOOPSTARTADDR, DSL_LOOPENDADDR, CCCA_CURRADDR
// The somewhat non-obviously still meaningful ones are:
// CPF_STOP, CPF_FRACADDRESS, CCR_READADDRESS (!),
// CCCA_INTERPROM, CCCA_8BITSELECT (!)
// (The envelope engine is ignored here, as stereo matters only for verbatim playback.)
#define CPF 0x00 /* Current pitch and fraction register */
SUB_REG(CPF, CURRENTPITCH, 0xffff0000) /* Current pitch (linear, 0x4000 == unity pitch shift) */
#define CPF_STEREO_MASK 0x00008000 /* 1 = Even channel interleave, odd channel locked */
SUB_REG(CPF, STOP, 0x00004000) /* 1 = Current pitch forced to 0 */
/* Can be set only while matching bit in SOLEx is 1 */
#define CPF_FRACADDRESS_MASK 0x00003fff /* Linear fractional address of the current channel */
#define PTRX 0x01 /* Pitch target and send A/B amounts register */
SUB_REG(PTRX, PITCHTARGET, 0xffff0000) /* Pitch target of specified channel */
SUB_REG(PTRX, FXSENDAMOUNT_A, 0x0000ff00) /* Linear level of channel output sent to FX send bus A */
SUB_REG(PTRX, FXSENDAMOUNT_B, 0x000000ff) /* Linear level of channel output sent to FX send bus B */
// Note: the volumes are raw multpliers, so real 100% is impossible.
#define CVCF 0x02 /* Current volume and filter cutoff register */
SUB_REG(CVCF, CURRENTVOL, 0xffff0000) /* Current linear volume of specified channel */
SUB_REG(CVCF, CURRENTFILTER, 0x0000ffff) /* Current filter cutoff frequency of specified channel */
#define VTFT 0x03 /* Volume target and filter cutoff target register */
SUB_REG(VTFT, VOLUMETARGET, 0xffff0000) /* Volume target of specified channel */
SUB_REG(VTFT, FILTERTARGET, 0x0000ffff) /* Filter cutoff target of specified channel */
#define Z1 0x05 /* Filter delay memory 1 register */
#define Z2 0x04 /* Filter delay memory 2 register */
#define PSST 0x06 /* Send C amount and loop start address register */
SUB_REG(PSST, FXSENDAMOUNT_C, 0xff000000) /* Linear level of channel output sent to FX send bus C */
SUB_REG(PSST, LOOPSTARTADDR, 0x00ffffff) /* Loop start address of the specified channel */
#define DSL 0x07 /* Send D amount and loop end address register */
SUB_REG(DSL, FXSENDAMOUNT_D, 0xff000000) /* Linear level of channel output sent to FX send bus D */
SUB_REG(DSL, LOOPENDADDR, 0x00ffffff) /* Loop end address of the specified channel */
#define CCCA 0x08 /* Filter Q, interp. ROM, byte size, cur. addr register */
SUB_REG(CCCA, RESONANCE, 0xf0000000) /* Lowpass filter resonance (Q) height */
#define CCCA_INTERPROM_MASK 0x0e000000 /* Selects passband of interpolation ROM */
/* 1 == full band, 7 == lowpass */
/* ROM 0 is used when pitch shifting downward or less */
/* then 3 semitones upward. Increasingly higher ROM */
/* numbers are used, typically in steps of 3 semitones, */
/* as upward pitch shifting is performed. */
#define CCCA_INTERPROM_0 0x00000000 /* Select interpolation ROM 0 */
#define CCCA_INTERPROM_1 0x02000000 /* Select interpolation ROM 1 */
#define CCCA_INTERPROM_2 0x04000000 /* Select interpolation ROM 2 */
#define CCCA_INTERPROM_3 0x06000000 /* Select interpolation ROM 3 */
#define CCCA_INTERPROM_4 0x08000000 /* Select interpolation ROM 4 */
#define CCCA_INTERPROM_5 0x0a000000 /* Select interpolation ROM 5 */
#define CCCA_INTERPROM_6 0x0c000000 /* Select interpolation ROM 6 */
#define CCCA_INTERPROM_7 0x0e000000 /* Select interpolation ROM 7 */
#define CCCA_8BITSELECT 0x01000000 /* 1 = Sound memory for this channel uses 8-bit samples */
/* 8-bit samples are unsigned, 16-bit ones signed */
SUB_REG(CCCA, CURRADDR, 0x00ffffff) /* Current address of the selected channel */
#define CCR 0x09 /* Cache control register */
SUB_REG(CCR, CACHEINVALIDSIZE, 0xfe000000) /* Number of invalid samples before the read address */
#define CCR_CACHELOOPFLAG 0x01000000 /* 1 = Cache has a loop service pending */
#define CCR_INTERLEAVEDSAMPLES 0x00800000 /* 1 = A cache service will fetch interleaved samples */
/* Auto-set from CPF_STEREO_MASK */
#define CCR_WORDSIZEDSAMPLES 0x00400000 /* 1 = A cache service will fetch word sized samples */
/* Auto-set from CCCA_8BITSELECT */
SUB_REG(CCR, READADDRESS, 0x003f0000) /* Next cached sample to play */
SUB_REG(CCR, LOOPINVALSIZE, 0x0000fe00) /* Number of invalid samples in cache prior to loop */
/* NOTE: This is valid only if CACHELOOPFLAG is set */
#define CCR_LOOPFLAG 0x00000100 /* Set for a single sample period when a loop occurs */
SUB_REG(CCR, CACHELOOPADDRHI, 0x000000ff) /* CLP_LOOPSTARTADDR's hi byte if CACHELOOPFLAG is set */
#define CLP 0x0a /* Cache loop register (valid if CCR_CACHELOOPFLAG = 1) */
/* NOTE: This register is normally not used */
SUB_REG(CLP, CACHELOOPADDR, 0x0000ffff) /* Cache loop address low word */
#define FXRT 0x0b /* Effects send routing register */
/* NOTE: It is illegal to assign the same routing to */
/* two effects sends. */
#define FXRT_CHANNELA 0x000f0000 /* Effects send bus number for channel's effects send A */
#define FXRT_CHANNELB 0x00f00000 /* Effects send bus number for channel's effects send B */
#define FXRT_CHANNELC 0x0f000000 /* Effects send bus number for channel's effects send C */
#define FXRT_CHANNELD 0xf0000000 /* Effects send bus number for channel's effects send D */
#define MAPA 0x0c /* Cache map A */
#define MAPB 0x0d /* Cache map B */
#define MAP_PTE_MASK0 0xfffff000 /* The 20 MSBs of the PTE indexed by the PTI */
#define MAP_PTI_MASK0 0x00000fff /* The 12 bit index to one of the 4096 PTE dwords */
#define MAP_PTE_MASK1 0xffffe000 /* The 19 MSBs of the PTE indexed by the PTI */
#define MAP_PTI_MASK1 0x00001fff /* The 13 bit index to one of the 8192 PTE dwords */
/* 0x0e, 0x0f: Internal state, at least on Audigy */
#define ENVVOL 0x10 /* Volume envelope register */
#define ENVVOL_MASK 0x0000ffff /* Current value of volume envelope state variable */
/* 0x8000-n == 666*n usec delay */
#define ATKHLDV 0x11 /* Volume envelope hold and attack register */
#define ATKHLDV_PHASE0_MASK 0x00008000 /* 0 = Begin attack phase */
#define ATKHLDV_HOLDTIME_MASK 0x00007f00 /* Envelope hold time (127-n == n*88.2msec) */
#define ATKHLDV_ATTACKTIME_MASK 0x0000007f /* Envelope attack time, log encoded */
/* 0 = infinite, 1 = 10.9msec, ... 0x7f = 5.5msec */
#define DCYSUSV 0x12 /* Volume envelope sustain and decay register */
#define DCYSUSV_PHASE1_MASK 0x00008000 /* 0 = Begin decay phase, 1 = begin release phase */
#define DCYSUSV_SUSTAINLEVEL_MASK 0x00007f00 /* 127 = full, 0 = off, 0.75dB increments */
#define DCYSUSV_CHANNELENABLE_MASK 0x00000080 /* 0 = Inhibit envelope engine from writing values in */
/* this channel and from writing to pitch, filter and */
/* volume targets. */
#define DCYSUSV_DECAYTIME_MASK 0x0000007f /* Volume envelope decay time, log encoded */
/* 0 = 43.7msec, 1 = 21.8msec, 0x7f = 22msec */
#define LFOVAL1 0x13 /* Modulation LFO value */
#define LFOVAL_MASK 0x0000ffff /* Current value of modulation LFO state variable */
/* 0x8000-n == 666*n usec delay */
#define ENVVAL 0x14 /* Modulation envelope register */
#define ENVVAL_MASK 0x0000ffff /* Current value of modulation envelope state variable */
/* 0x8000-n == 666*n usec delay */
#define ATKHLDM 0x15 /* Modulation envelope hold and attack register */
#define ATKHLDM_PHASE0_MASK 0x00008000 /* 0 = Begin attack phase */
#define ATKHLDM_HOLDTIME 0x00007f00 /* Envelope hold time (127-n == n*42msec) */
#define ATKHLDM_ATTACKTIME 0x0000007f /* Envelope attack time, log encoded */
/* 0 = infinite, 1 = 11msec, ... 0x7f = 5.5msec */
#define DCYSUSM 0x16 /* Modulation envelope decay and sustain register */
#define DCYSUSM_PHASE1_MASK 0x00008000 /* 0 = Begin decay phase, 1 = begin release phase */
#define DCYSUSM_SUSTAINLEVEL_MASK 0x00007f00 /* 127 = full, 0 = off, 0.75dB increments */
#define DCYSUSM_DECAYTIME_MASK 0x0000007f /* Envelope decay time, log encoded */
/* 0 = 43.7msec, 1 = 21.8msec, 0x7f = 22msec */
#define LFOVAL2 0x17 /* Vibrato LFO register */
#define LFOVAL2_MASK 0x0000ffff /* Current value of vibrato LFO state variable */
/* 0x8000-n == 666*n usec delay */
#define IP 0x18 /* Initial pitch register */
#define IP_MASK 0x0000ffff /* Exponential initial pitch shift */
/* 4 bits of octave, 12 bits of fractional octave */
#define IP_UNITY 0x0000e000 /* Unity pitch shift */
#define IFATN 0x19 /* Initial filter cutoff and attenuation register */
SUB_REG(IFATN, FILTERCUTOFF, 0x0000ff00) /* Initial filter cutoff frequency in exponential units */
/* 6 most significant bits are semitones */
/* 2 least significant bits are fractions */
SUB_REG(IFATN, ATTENUATION, 0x000000ff) /* Initial attenuation in 0.375dB steps */
#define PEFE 0x1a /* Pitch envelope and filter envelope amount register */
SUB_REG(PEFE, PITCHAMOUNT, 0x0000ff00) /* Pitch envlope amount */
/* Signed 2's complement, +/- one octave peak extremes */
SUB_REG(PEFE, FILTERAMOUNT, 0x000000ff) /* Filter envlope amount */
/* Signed 2's complement, +/- six octaves peak extremes */
#define FMMOD 0x1b /* Vibrato/filter modulation from LFO register */
#define FMMOD_MODVIBRATO 0x0000ff00 /* Vibrato LFO modulation depth */
/* Signed 2's complement, +/- one octave extremes */
#define FMMOD_MOFILTER 0x000000ff /* Filter LFO modulation depth */
/* Signed 2's complement, +/- three octave extremes */
#define TREMFRQ 0x1c /* Tremolo amount and modulation LFO frequency register */
#define TREMFRQ_DEPTH 0x0000ff00 /* Tremolo depth */
/* Signed 2's complement, with +/- 12dB extremes */
#define TREMFRQ_FREQUENCY 0x000000ff /* Tremolo LFO frequency */
/* ??Hz steps, maximum of ?? Hz. */
#define FM2FRQ2 0x1d /* Vibrato amount and vibrato LFO frequency register */
#define FM2FRQ2_DEPTH 0x0000ff00 /* Vibrato LFO vibrato depth */
/* Signed 2's complement, +/- one octave extremes */
#define FM2FRQ2_FREQUENCY 0x000000ff /* Vibrato LFO frequency */
/* 0.039Hz steps, maximum of 9.85 Hz. */
#define TEMPENV 0x1e /* Tempory envelope register */
#define TEMPENV_MASK 0x0000ffff /* 16-bit value */
/* NOTE: All channels contain internal variables; do */
/* not write to these locations. */
/* 0x1f: not used */
// 32 cache registers (== 128 bytes) per channel follow.
// In stereo mode, the two channels' caches are concatenated into one,
// and hold the interleaved frames.
// The cache holds 64 frames, so the upper half is not used in 8-bit mode.
// All registers mentioned below count in frames. Shortcuts:
// CA = CCCA_CURRADDR, CRA = CCR_READADDRESS,
// CLA = CCR_CACHELOOPADDRHI:CLP_CACHELOOPADDR,
// CIS = CCR_CACHEINVALIDSIZE, LIS = CCR_LOOPINVALSIZE,
// CLF = CCR_CACHELOOPFLAG, LF = CCR_LOOPFLAG
// The cache is a ring buffer; CRA operates modulo 64.
// The cache is filled from (CA - CIS) into (CRA - CIS).
// The engine has a fetch threshold of 32 bytes, so it tries to keep
// CIS below 8 (16-bit stereo), 16 (16-bit mono, 8-bit stereo), or
// 32 (8-bit mono). The actual transfers are pretty unpredictable,
// especially if several voices are running.
// Frames are consumed at CRA, which is incremented afterwards,
// along with CA and CIS. This implies that the actual playback
// position always lags CA by exactly 64 frames.
// When CA reaches DSL_LOOPENDADDR, LF is set for one frame's time.
// LF's rising edge causes the current values of CA and CIS to be
// copied into CLA and LIS, resp., and CLF to be set.
// If CLF is set, the first LIS of the CIS frames are instead
// filled from (CLA - LIS), and CLF is subsequently reset.
#define CD0 0x20 /* Cache data registers 0 .. 0x1f */
#define PTB 0x40 /* Page table base register */
#define PTB_MASK 0xfffff000 /* Physical address of the page table in host memory */
#define TCB 0x41 /* Tank cache base register */
#define TCB_MASK 0xfffff000 /* Physical address of the bottom of host based TRAM */
#define ADCCR 0x42 /* ADC sample rate/stereo control register */
#define ADCCR_RCHANENABLE 0x00000010 /* Enables right channel for writing to the host */
#define ADCCR_LCHANENABLE 0x00000008 /* Enables left channel for writing to the host */
/* NOTE: To guarantee phase coherency, both channels */
/* must be disabled prior to enabling both channels. */
#define A_ADCCR_RCHANENABLE 0x00000020
#define A_ADCCR_LCHANENABLE 0x00000010
#define A_ADCCR_SAMPLERATE_MASK 0x0000000F /* Audigy sample rate convertor output rate */
#define ADCCR_SAMPLERATE_MASK 0x00000007 /* Sample rate convertor output rate */
#define ADCCR_SAMPLERATE_48 0x00000000 /* 48kHz sample rate */
#define ADCCR_SAMPLERATE_44 0x00000001 /* 44.1kHz sample rate */
#define ADCCR_SAMPLERATE_32 0x00000002 /* 32kHz sample rate */
#define ADCCR_SAMPLERATE_24 0x00000003 /* 24kHz sample rate */
#define ADCCR_SAMPLERATE_22 0x00000004 /* 22.05kHz sample rate */
#define ADCCR_SAMPLERATE_16 0x00000005 /* 16kHz sample rate */
#define ADCCR_SAMPLERATE_11 0x00000006 /* 11.025kHz sample rate */
#define ADCCR_SAMPLERATE_8 0x00000007 /* 8kHz sample rate */
#define A_ADCCR_SAMPLERATE_12 0x00000006 /* 12kHz sample rate */
#define A_ADCCR_SAMPLERATE_11 0x00000007 /* 11.025kHz sample rate */
#define A_ADCCR_SAMPLERATE_8 0x00000008 /* 8kHz sample rate */
#define FXWC 0x43 /* FX output write channels register */
/* When set, each bit enables the writing of the */
/* corresponding FX output channel (internal registers */
/* 0x20-0x3f) to host memory. This mode of recording */
/* is 16bit, 48KHz only. All 32 channels can be enabled */
/* simultaneously. */
#define A_TBLSZ 0x43 /* Effects Tank Internal Table Size. Only low byte or register used */
#define TCBS 0x44 /* Tank cache buffer size register */
#define TCBS_MASK 0x00000007 /* Tank cache buffer size field */
#define TCBS_BUFFSIZE_16K 0x00000000
#define TCBS_BUFFSIZE_32K 0x00000001
#define TCBS_BUFFSIZE_64K 0x00000002
#define TCBS_BUFFSIZE_128K 0x00000003
#define TCBS_BUFFSIZE_256K 0x00000004
#define TCBS_BUFFSIZE_512K 0x00000005
#define TCBS_BUFFSIZE_1024K 0x00000006
#define TCBS_BUFFSIZE_2048K 0x00000007
#define MICBA 0x45 /* AC97 microphone buffer address register */
#define MICBA_MASK 0xfffff000 /* 20 bit base address */
#define ADCBA 0x46 /* ADC buffer address register */
#define ADCBA_MASK 0xfffff000 /* 20 bit base address */
#define FXBA 0x47 /* FX Buffer Address */
#define FXBA_MASK 0xfffff000 /* 20 bit base address */
#define A_HWM 0x48 /* High PCI Water Mark - word access, defaults to 3f */
#define MICBS 0x49 /* Microphone buffer size register */
#define ADCBS 0x4a /* ADC buffer size register */
#define FXBS 0x4b /* FX buffer size register */
/* The following mask values define the size of the ADC, MIC and FX buffers in bytes */
#define ADCBS_BUFSIZE_NONE 0x00000000
#define ADCBS_BUFSIZE_384 0x00000001
#define ADCBS_BUFSIZE_448 0x00000002
#define ADCBS_BUFSIZE_512 0x00000003
#define ADCBS_BUFSIZE_640 0x00000004
#define ADCBS_BUFSIZE_768 0x00000005
#define ADCBS_BUFSIZE_896 0x00000006
#define ADCBS_BUFSIZE_1024 0x00000007
#define ADCBS_BUFSIZE_1280 0x00000008
#define ADCBS_BUFSIZE_1536 0x00000009
#define ADCBS_BUFSIZE_1792 0x0000000a
#define ADCBS_BUFSIZE_2048 0x0000000b
#define ADCBS_BUFSIZE_2560 0x0000000c
#define ADCBS_BUFSIZE_3072 0x0000000d
#define ADCBS_BUFSIZE_3584 0x0000000e
#define ADCBS_BUFSIZE_4096 0x0000000f
#define ADCBS_BUFSIZE_5120 0x00000010
#define ADCBS_BUFSIZE_6144 0x00000011
#define ADCBS_BUFSIZE_7168 0x00000012
#define ADCBS_BUFSIZE_8192 0x00000013
#define ADCBS_BUFSIZE_10240 0x00000014
#define ADCBS_BUFSIZE_12288 0x00000015
#define ADCBS_BUFSIZE_14366 0x00000016
#define ADCBS_BUFSIZE_16384 0x00000017
#define ADCBS_BUFSIZE_20480 0x00000018
#define ADCBS_BUFSIZE_24576 0x00000019
#define ADCBS_BUFSIZE_28672 0x0000001a
#define ADCBS_BUFSIZE_32768 0x0000001b
#define ADCBS_BUFSIZE_40960 0x0000001c
#define ADCBS_BUFSIZE_49152 0x0000001d
#define ADCBS_BUFSIZE_57344 0x0000001e
#define ADCBS_BUFSIZE_65536 0x0000001f
// On Audigy, the FX send amounts are not applied instantly, but determine
// targets towards which the following registers swerve gradually.
#define A_CSBA 0x4c /* FX send B & A current amounts */
#define A_CSDC 0x4d /* FX send D & C current amounts */
#define A_CSFE 0x4e /* FX send F & E current amounts */
#define A_CSHG 0x4f /* FX send H & G current amounts */
// NOTE: 0x50,51,52: 64-bit (split over voices 0 & 1)
#define CDCS 0x50 /* CD-ROM digital channel status register */
#define GPSCS 0x51 /* General Purpose SPDIF channel status register */
// Corresponding EMU10K1_DBG_* constants are in the public header
#define DBG 0x52
#define A_SPSC 0x52 /* S/PDIF Input C Channel Status */
#define REG53 0x53 /* DO NOT PROGRAM THIS REGISTER!!! MAY DESTROY CHIP */
// Corresponding A_DBG_* constants are in the public header
#define A_DBG 0x53
// NOTE: 0x54,55,56: 64-bit (split over voices 0 & 1)
#define SPCS0 0x54 /* SPDIF output Channel Status 0 register */
#define SPCS1 0x55 /* SPDIF output Channel Status 1 register */
#define SPCS2 0x56 /* SPDIF output Channel Status 2 register */
#define SPCS_CLKACCYMASK 0x30000000 /* Clock accuracy */
#define SPCS_CLKACCY_1000PPM 0x00000000 /* 1000 parts per million */
#define SPCS_CLKACCY_50PPM 0x10000000 /* 50 parts per million */
#define SPCS_CLKACCY_VARIABLE 0x20000000 /* Variable accuracy */
#define SPCS_SAMPLERATEMASK 0x0f000000 /* Sample rate */
#define SPCS_SAMPLERATE_44 0x00000000 /* 44.1kHz sample rate */
#define SPCS_SAMPLERATE_48 0x02000000 /* 48kHz sample rate */
#define SPCS_SAMPLERATE_32 0x03000000 /* 32kHz sample rate */
#define SPCS_CHANNELNUMMASK 0x00f00000 /* Channel number */
#define SPCS_CHANNELNUM_UNSPEC 0x00000000 /* Unspecified channel number */
#define SPCS_CHANNELNUM_LEFT 0x00100000 /* Left channel */
#define SPCS_CHANNELNUM_RIGHT 0x00200000 /* Right channel */
#define SPCS_SOURCENUMMASK 0x000f0000 /* Source number */
#define SPCS_SOURCENUM_UNSPEC 0x00000000 /* Unspecified source number */
#define SPCS_GENERATIONSTATUS 0x00008000 /* Originality flag (see IEC-958 spec) */
#define SPCS_CATEGORYCODEMASK 0x00007f00 /* Category code (see IEC-958 spec) */
#define SPCS_MODEMASK 0x000000c0 /* Mode (see IEC-958 spec) */
#define SPCS_EMPHASISMASK 0x00000038 /* Emphasis */
#define SPCS_EMPHASIS_NONE 0x00000000 /* No emphasis */
#define SPCS_EMPHASIS_50_15 0x00000008 /* 50/15 usec 2 channel */
#define SPCS_COPYRIGHT 0x00000004 /* Copyright asserted flag -- do not modify */
#define SPCS_NOTAUDIODATA 0x00000002 /* 0 = Digital audio, 1 = not audio */
#define SPCS_PROFESSIONAL 0x00000001 /* 0 = Consumer (IEC-958), 1 = pro (AES3-1992) */
/* 0x57: Not used */
/* The 32-bit CLIx and SOLEx registers all have one bit per channel control/status */
#define CLIEL 0x58 /* Channel loop interrupt enable low register */
#define CLIEH 0x59 /* Channel loop interrupt enable high register */
#define CLIPL 0x5a /* Channel loop interrupt pending low register */
#define CLIPH 0x5b /* Channel loop interrupt pending high register */
// These cause CPF_STOP_MASK to be set shortly after CCCA_CURRADDR passes DSL_LOOPENDADDR.
// Subsequent changes to the address registers don't resume; clearing the bit here or in CPF does.
// The registers are NOT synchronized; the next serviced channel picks up immediately.
#define SOLEL 0x5c /* Stop on loop enable low register */
#define SOLEH 0x5d /* Stop on loop enable high register */
#define SPBYPASS 0x5e /* SPDIF BYPASS mode register */
#define SPBYPASS_SPDIF0_MASK 0x00000003 /* SPDIF 0 bypass mode */
#define SPBYPASS_SPDIF1_MASK 0x0000000c /* SPDIF 1 bypass mode */
/* bypass mode: 0 - DSP; 1 - SPDIF A, 2 - SPDIF B, 3 - SPDIF C */
#define SPBYPASS_FORMAT 0x00000f00 /* If 1, SPDIF XX uses 24 bit, if 0 - 20 bit */
#define AC97SLOT 0x5f /* additional AC97 slots enable bits */
#define AC97SLOT_REAR_RIGHT 0x01 /* Rear left */
#define AC97SLOT_REAR_LEFT 0x02 /* Rear right */
#define AC97SLOT_CNTR 0x10 /* Center enable */
#define AC97SLOT_LFE 0x20 /* LFE enable */
#define A_PCB 0x5f /* PCB Revision */
// NOTE: 0x60,61,62: 64-bit
#define CDSRCS 0x60 /* CD-ROM Sample Rate Converter status register */
#define GPSRCS 0x61 /* General Purpose SPDIF sample rate cvt status */
#define ZVSRCS 0x62 /* ZVideo sample rate converter status */
/* NOTE: This one has no SPDIFLOCKED field */
/* Assumes sample lock */
/* These three bitfields apply to CDSRCS, GPSRCS, and (except as noted) ZVSRCS. */
#define SRCS_SPDIFVALID 0x04000000 /* SPDIF stream valid */
#define SRCS_SPDIFLOCKED 0x02000000 /* SPDIF stream locked */
#define SRCS_RATELOCKED 0x01000000 /* Sample rate locked */
#define SRCS_ESTSAMPLERATE 0x0007ffff /* Do not modify this field. */
/* Note that these values can vary +/- by a small amount */
#define SRCS_SPDIFRATE_44 0x0003acd9
#define SRCS_SPDIFRATE_48 0x00040000
#define SRCS_SPDIFRATE_96 0x00080000
#define MICIDX 0x63 /* Microphone recording buffer index register */
SUB_REG(MICIDX, IDX, 0x0000ffff)
#define ADCIDX 0x64 /* ADC recording buffer index register */
SUB_REG(ADCIDX, IDX, 0x0000ffff)
#define A_ADCIDX 0x63
SUB_REG(A_ADCIDX, IDX, 0x0000ffff)
#define A_MICIDX 0x64
SUB_REG(A_MICIDX, IDX, 0x0000ffff)
#define FXIDX 0x65 /* FX recording buffer index register */
SUB_REG(FXIDX, IDX, 0x0000ffff)
/* The 32-bit HLIEx and HLIPx registers all have one bit per channel control/status */
#define HLIEL 0x66 /* Channel half loop interrupt enable low register */
#define HLIEH 0x67 /* Channel half loop interrupt enable high register */
#define HLIPL 0x68 /* Channel half loop interrupt pending low register */
#define HLIPH 0x69 /* Channel half loop interrupt pending high register */
#define A_SPRI 0x6a /* S/PDIF Host Record Index (bypasses SRC) */
#define A_SPRA 0x6b /* S/PDIF Host Record Address */
#define A_SPRC 0x6c /* S/PDIF Host Record Control */
#define A_DICE 0x6d /* Delayed Interrupt Counter & Enable */
#define A_TTB 0x6e /* Tank Table Base */
#define A_TDOF 0x6f /* Tank Delay Offset */
/* This is the MPU port on the card (via the game port) */
#define A_MUDATA1 0x70
#define A_MUCMD1 0x71
#define A_MUSTAT1 A_MUCMD1
/* This is the MPU port on the Audigy Drive */
#define A_MUDATA2 0x72
#define A_MUCMD2 0x73
#define A_MUSTAT2 A_MUCMD2
/* The next two are the Audigy equivalent of FXWC */
/* the Audigy can record any output (16bit, 48kHz, up to 64 channels simultaneously) */
/* Each bit selects a channel for recording */
#define A_FXWC1 0x74 /* Selects 0x7f-0x60 for FX recording */
#define A_FXWC2 0x75 /* Selects 0x9f-0x80 for FX recording */
#define A_EHC 0x76 /* Extended Hardware Control */
#define A_SPDIF_SAMPLERATE A_EHC /* Set the sample rate of SPDIF output */
#define A_SPDIF_RATE_MASK 0x000000e0 /* Any other values for rates, just use 48000 */
#define A_SPDIF_48000 0x00000000 /* kX calls this BYPASS */
#define A_SPDIF_192000 0x00000020
#define A_SPDIF_96000 0x00000040
#define A_SPDIF_44100 0x00000080
#define A_SPDIF_MUTED 0x000000c0
SUB_REG_NC(A_EHC, A_I2S_CAPTURE_RATE, 0x00000e00) /* This sets the capture PCM rate, but it is */
/* unclear if this sets the ADC rate as well. */
#define A_I2S_CAPTURE_48000 0x0
#define A_I2S_CAPTURE_192000 0x1
#define A_I2S_CAPTURE_96000 0x2
#define A_I2S_CAPTURE_44100 0x4
#define A_EHC_SRC48_MASK 0x0000e000 /* This sets the playback PCM rate on the P16V */
#define A_EHC_SRC48_BYPASS 0x00000000
#define A_EHC_SRC48_192 0x00002000
#define A_EHC_SRC48_96 0x00004000
#define A_EHC_SRC48_44 0x00008000
#define A_EHC_SRC48_MUTED 0x0000c000
#define A_EHC_P17V_TVM 0x00000001 /* Tank virtual memory mode */
#define A_EHC_P17V_SEL0_MASK 0x00030000 /* Aka A_EHC_P16V_PB_RATE; 00: 48, 01: 44.1, 10: 96, 11: 192 */
#define A_EHC_P17V_SEL1_MASK 0x000c0000
#define A_EHC_P17V_SEL2_MASK 0x00300000
#define A_EHC_P17V_SEL3_MASK 0x00c00000
#define A_EHC_ASYNC_BYPASS 0x80000000
#define A_SRT3 0x77 /* I2S0 Sample Rate Tracker Status */
#define A_SRT4 0x78 /* I2S1 Sample Rate Tracker Status */
#define A_SRT5 0x79 /* I2S2 Sample Rate Tracker Status */
/* - default to 0x01080000 on my audigy 2 ZS --rlrevell */
#define A_SRT_ESTSAMPLERATE 0x001fffff
#define A_SRT_RATELOCKED 0x01000000
#define A_TTDA 0x7a /* Tank Table DMA Address */
#define A_TTDD 0x7b /* Tank Table DMA Data */
// In A_FXRT1 & A_FXRT2, the 0x80 bit of each byte completely disables the
// filter (CVCF_CURRENTFILTER) for the corresponding channel. There is no
// effect on the volume (CVCF_CURRENTVOLUME) or the interpolator's filter
// (CCCA_INTERPROM_MASK).
#define A_FXRT2 0x7c
#define A_FXRT_CHANNELE 0x0000003f /* Effects send bus number for channel's effects send E */
#define A_FXRT_CHANNELF 0x00003f00 /* Effects send bus number for channel's effects send F */
#define A_FXRT_CHANNELG 0x003f0000 /* Effects send bus number for channel's effects send G */
#define A_FXRT_CHANNELH 0x3f000000 /* Effects send bus number for channel's effects send H */
#define A_SENDAMOUNTS 0x7d
#define A_FXSENDAMOUNT_E_MASK 0xFF000000
#define A_FXSENDAMOUNT_F_MASK 0x00FF0000
#define A_FXSENDAMOUNT_G_MASK 0x0000FF00
#define A_FXSENDAMOUNT_H_MASK 0x000000FF
/* The send amounts for this one are the same as used with the emu10k1 */
#define A_FXRT1 0x7e
#define A_FXRT_CHANNELA 0x0000003f
#define A_FXRT_CHANNELB 0x00003f00
#define A_FXRT_CHANNELC 0x003f0000
#define A_FXRT_CHANNELD 0x3f000000
/* 0x7f: Not used */
/* The public header defines the GPR and TRAM base addresses that
* are valid for _both_ CPU and DSP addressing. */
/* Each DSP microcode instruction is mapped into 2 doublewords */
/* NOTE: When writing, always write the LO doubleword first. Reads can be in either order. */
#define MICROCODEBASE 0x400 /* Microcode data base address */
#define A_MICROCODEBASE 0x600
/************************************************************************************************/
/* E-MU Digital Audio System overview */
/************************************************************************************************/
// - These cards use a regular PCI-attached Audigy chip (Alice2/Tina/Tina2);
// the PCIe variants simply put the Audigy chip behind a PCI bridge.
// - All physical PCM I/O is routed through an additional FPGA; the regular
// EXTIN/EXTOUT ports are unconnected.
// - The FPGA has a signal routing matrix, to connect each destination (output
// socket or capture channel) to a source (input socket or playback channel).
// - The FPGA is controlled via Audigy's GPIO port, while sample data is
// transmitted via proprietary EMU32 serial links. On first-generation
// E-MU 1010 cards, Audigy's I2S inputs are also used for sample data.
// - The Audio/Micro Dock is attached to Hana via EDI, a "network" link.
// - The Audigy chip operates in slave mode; the clock is supplied by the FPGA.
// Gen1 E-MU 1010 cards have two crystals (for 44.1 kHz and 48 kHz multiples),
// while the later cards use a single crystal and a PLL chip.
// - The whole card is switched to 2x/4x mode to achieve 88.2/96/176.4/192 kHz
// sample rates. Alice2/Tina keeps running at 44.1/48 kHz, but multiple channels
// are bundled.
// - The number of available EMU32/EDI channels is hit in 2x/4x mode, so the total
// number of usable inputs/outputs is limited, esp. with ADAT in use.
// - S/PDIF is unavailable in 4x mode (only over TOSLINK on newer 1010 cards) due
// to being unspecified at 176.4/192 kHz. Therefore, the Dock's S/PDIF channels
// can overlap with the Dock's ADC/DAC's high channels.
// - The code names are mentioned below and in the emu_chip_details table.
/************************************************************************************************/
/* EMU1010 FPGA registers */
/************************************************************************************************/
#define EMU_HANA_DESTHI 0x00 /* 0000xxx 3 bits Link Destination */
#define EMU_HANA_DESTLO 0x01 /* 00xxxxx 5 bits */
#define EMU_HANA_SRCHI 0x02 /* 0000xxx 3 bits Link Source */
#define EMU_HANA_SRCLO 0x03 /* 00xxxxx 5 bits */
#define EMU_HANA_DOCK_PWR 0x04 /* 000000x 1 bits Audio Dock power */
#define EMU_HANA_DOCK_PWR_ON 0x01 /* Audio Dock power on */
#define EMU_HANA_WCLOCK 0x05 /* 0000xxx 3 bits Word Clock source select */
/* Must be written after power on to reset DLL */
/* One is unable to detect the Audio dock without this */
#define EMU_HANA_WCLOCK_SRC_MASK 0x07
#define EMU_HANA_WCLOCK_INT_48K 0x00
#define EMU_HANA_WCLOCK_INT_44_1K 0x01
#define EMU_HANA_WCLOCK_HANA_SPDIF_IN 0x02
#define EMU_HANA_WCLOCK_HANA_ADAT_IN 0x03
#define EMU_HANA_WCLOCK_SYNC_BNC 0x04
#define EMU_HANA_WCLOCK_2ND_HANA 0x05
#define EMU_HANA_WCLOCK_SRC_RESERVED 0x06
#define EMU_HANA_WCLOCK_OFF 0x07 /* For testing, forces fallback to DEFCLOCK */
#define EMU_HANA_WCLOCK_MULT_MASK 0x18
#define EMU_HANA_WCLOCK_1X 0x00
#define EMU_HANA_WCLOCK_2X 0x08
#define EMU_HANA_WCLOCK_4X 0x10
#define EMU_HANA_WCLOCK_MULT_RESERVED 0x18
// If the selected external clock source is/becomes invalid or incompatible
// with the clock multiplier, the clock source is reset to this value, and
// a WCLK_CHANGED interrupt is raised.
#define EMU_HANA_DEFCLOCK 0x06 /* 000000x 1 bits Default Word Clock */
#define EMU_HANA_DEFCLOCK_48K 0x00
#define EMU_HANA_DEFCLOCK_44_1K 0x01
#define EMU_HANA_UNMUTE 0x07 /* 000000x 1 bits Mute all audio outputs */
#define EMU_MUTE 0x00
#define EMU_UNMUTE 0x01
#define EMU_HANA_FPGA_CONFIG 0x08 /* 00000xx 2 bits Config control of FPGAs */
#define EMU_HANA_FPGA_CONFIG_AUDIODOCK 0x01 /* Set in order to program FPGA on Audio Dock */
#define EMU_HANA_FPGA_CONFIG_HANA 0x02 /* Set in order to program FPGA on Hana */
#define EMU_HANA_IRQ_ENABLE 0x09 /* 000xxxx 4 bits IRQ Enable */
#define EMU_HANA_IRQ_WCLK_CHANGED 0x01
#define EMU_HANA_IRQ_ADAT 0x02
#define EMU_HANA_IRQ_DOCK 0x04
#define EMU_HANA_IRQ_DOCK_LOST 0x08
#define EMU_HANA_SPDIF_MODE 0x0a /* 00xxxxx 5 bits SPDIF MODE */
#define EMU_HANA_SPDIF_MODE_TX_CONSUMER 0x00
#define EMU_HANA_SPDIF_MODE_TX_PRO 0x01
#define EMU_HANA_SPDIF_MODE_TX_NOCOPY 0x02
#define EMU_HANA_SPDIF_MODE_RX_CONSUMER 0x00
#define EMU_HANA_SPDIF_MODE_RX_PRO 0x04
#define EMU_HANA_SPDIF_MODE_RX_NOCOPY 0x08
#define EMU_HANA_SPDIF_MODE_RX_INVALID 0x10
#define EMU_HANA_OPTICAL_TYPE 0x0b /* 00000xx 2 bits ADAT or SPDIF in/out */
#define EMU_HANA_OPTICAL_IN_SPDIF 0x00
#define EMU_HANA_OPTICAL_IN_ADAT 0x01
#define EMU_HANA_OPTICAL_OUT_SPDIF 0x00
#define EMU_HANA_OPTICAL_OUT_ADAT 0x02
#define EMU_HANA_MIDI_IN 0x0c /* 000000x 1 bit Control MIDI */
#define EMU_HANA_MIDI_INA_FROM_HAMOA 0x01 /* HAMOA MIDI in to Alice 2 MIDI A */
#define EMU_HANA_MIDI_INA_FROM_DOCK1 0x02 /* Audio Dock-1 MIDI in to Alice 2 MIDI A */
#define EMU_HANA_MIDI_INA_FROM_DOCK2 0x03 /* Audio Dock-2 MIDI in to Alice 2 MIDI A */
#define EMU_HANA_MIDI_INB_FROM_HAMOA 0x08 /* HAMOA MIDI in to Alice 2 MIDI B */
#define EMU_HANA_MIDI_INB_FROM_DOCK1 0x10 /* Audio Dock-1 MIDI in to Alice 2 MIDI B */
#define EMU_HANA_MIDI_INB_FROM_DOCK2 0x18 /* Audio Dock-2 MIDI in to Alice 2 MIDI B */
#define EMU_HANA_DOCK_LEDS_1 0x0d /* 000xxxx 4 bit Audio Dock LEDs */
#define EMU_HANA_DOCK_LEDS_1_MIDI1 0x01 /* MIDI 1 LED on */
#define EMU_HANA_DOCK_LEDS_1_MIDI2 0x02 /* MIDI 2 LED on */
#define EMU_HANA_DOCK_LEDS_1_SMPTE_IN 0x04 /* SMPTE IN LED on */
#define EMU_HANA_DOCK_LEDS_1_SMPTE_OUT 0x08 /* SMPTE OUT LED on */
#define EMU_HANA_DOCK_LEDS_2 0x0e /* 0xxxxxx 6 bit Audio Dock LEDs */
#define EMU_HANA_DOCK_LEDS_2_44K 0x01 /* 44.1 kHz LED on */
#define EMU_HANA_DOCK_LEDS_2_48K 0x02 /* 48 kHz LED on */
#define EMU_HANA_DOCK_LEDS_2_96K 0x04 /* 96 kHz LED on */
#define EMU_HANA_DOCK_LEDS_2_192K 0x08 /* 192 kHz LED on */
#define EMU_HANA_DOCK_LEDS_2_LOCK 0x10 /* LOCK LED on */
#define EMU_HANA_DOCK_LEDS_2_EXT 0x20 /* EXT LED on */
#define EMU_HANA_DOCK_LEDS_3 0x0f /* 0xxxxxx 6 bit Audio Dock LEDs */
#define EMU_HANA_DOCK_LEDS_3_CLIP_A 0x01 /* Mic A Clip LED on */
#define EMU_HANA_DOCK_LEDS_3_CLIP_B 0x02 /* Mic B Clip LED on */
#define EMU_HANA_DOCK_LEDS_3_SIGNAL_A 0x04 /* Signal A Clip LED on */
#define EMU_HANA_DOCK_LEDS_3_SIGNAL_B 0x08 /* Signal B Clip LED on */
#define EMU_HANA_DOCK_LEDS_3_MANUAL_CLIP 0x10 /* Manual Clip detection */
#define EMU_HANA_DOCK_LEDS_3_MANUAL_SIGNAL 0x20 /* Manual Signal detection */
#define EMU_HANA_ADC_PADS 0x10 /* 0000xxx 3 bit Audio Dock ADC 14dB pads */
#define EMU_HANA_DOCK_ADC_PAD1 0x01 /* 14dB Attenuation on Audio Dock ADC 1 */
#define EMU_HANA_DOCK_ADC_PAD2 0x02 /* 14dB Attenuation on Audio Dock ADC 2 */
#define EMU_HANA_DOCK_ADC_PAD3 0x04 /* 14dB Attenuation on Audio Dock ADC 3 */
#define EMU_HANA_0202_ADC_PAD1 0x08 /* 14dB Attenuation on 0202 ADC 1 */
#define EMU_HANA_DOCK_MISC 0x11 /* 0xxxxxx 6 bit Audio Dock misc bits */
#define EMU_HANA_DOCK_DAC1_MUTE 0x01 /* DAC 1 Mute */
#define EMU_HANA_DOCK_DAC2_MUTE 0x02 /* DAC 2 Mute */
#define EMU_HANA_DOCK_DAC3_MUTE 0x04 /* DAC 3 Mute */
#define EMU_HANA_DOCK_DAC4_MUTE 0x08 /* DAC 4 Mute */
#define EMU_HANA_DOCK_PHONES_192_DAC1 0x00 /* DAC 1 Headphones source at 192kHz */
#define EMU_HANA_DOCK_PHONES_192_DAC2 0x10 /* DAC 2 Headphones source at 192kHz */
#define EMU_HANA_DOCK_PHONES_192_DAC3 0x20 /* DAC 3 Headphones source at 192kHz */
#define EMU_HANA_DOCK_PHONES_192_DAC4 0x30 /* DAC 4 Headphones source at 192kHz */
#define EMU_HANA_MIDI_OUT 0x12 /* 00xxxxx 5 bit Source for each MIDI out port */
#define EMU_HANA_MIDI_OUT_0202 0x01 /* 0202 MIDI from Alice 2. 0 = A, 1 = B */
#define EMU_HANA_MIDI_OUT_DOCK1 0x02 /* Audio Dock MIDI1 front, from Alice 2. 0 = A, 1 = B */
#define EMU_HANA_MIDI_OUT_DOCK2 0x04 /* Audio Dock MIDI2 rear, from Alice 2. 0 = A, 1 = B */
#define EMU_HANA_MIDI_OUT_SYNC2 0x08 /* Sync card. Not the actual MIDI out jack. 0 = A, 1 = B */
#define EMU_HANA_MIDI_OUT_LOOP 0x10 /* 0 = bits (3:0) normal. 1 = MIDI loopback enabled. */
#define EMU_HANA_DAC_PADS 0x13 /* 00xxxxx 5 bit DAC 14dB attenuation pads */
#define EMU_HANA_DOCK_DAC_PAD1 0x01 /* 14dB Attenuation on AudioDock DAC 1. Left and Right */
#define EMU_HANA_DOCK_DAC_PAD2 0x02 /* 14dB Attenuation on AudioDock DAC 2. Left and Right */
#define EMU_HANA_DOCK_DAC_PAD3 0x04 /* 14dB Attenuation on AudioDock DAC 3. Left and Right */
#define EMU_HANA_DOCK_DAC_PAD4 0x08 /* 14dB Attenuation on AudioDock DAC 4. Left and Right */
#define EMU_HANA_0202_DAC_PAD1 0x10 /* 14dB Attenuation on 0202 DAC 1. Left and Right */
/* 0x14 - 0x1f Unused R/W registers */
#define EMU_HANA_IRQ_STATUS 0x20 /* 00xxxxx 5 bits IRQ Status */
/* Same bits as for EMU_HANA_IRQ_ENABLE */
/* Reading the register resets it. */
#define EMU_HANA_OPTION_CARDS 0x21 /* 000xxxx 4 bits Presence of option cards */
#define EMU_HANA_OPTION_HAMOA 0x01 /* Hamoa (analog I/O) card present */
#define EMU_HANA_OPTION_SYNC 0x02 /* Sync card present */
#define EMU_HANA_OPTION_DOCK_ONLINE 0x04 /* Audio/Micro dock present and FPGA configured */
#define EMU_HANA_OPTION_DOCK_OFFLINE 0x08 /* Audio/Micro dock present and FPGA not configured */
#define EMU_HANA_ID 0x22 /* 1010101 7 bits ID byte & 0x7f = 0x55 with Alice2 */
/* 0010101 5 bits ID byte & 0x1f = 0x15 with Tina/2 */
#define EMU_HANA_MAJOR_REV 0x23 /* 0000xxx 3 bit Hana FPGA Major rev */
#define EMU_HANA_MINOR_REV 0x24 /* 0000xxx 3 bit Hana FPGA Minor rev */
#define EMU_DOCK_MAJOR_REV 0x25 /* 0000xxx 3 bit Audio Dock FPGA Major rev */
#define EMU_DOCK_MINOR_REV 0x26 /* 0000xxx 3 bit Audio Dock FPGA Minor rev */
#define EMU_DOCK_BOARD_ID 0x27 /* 00000xx 2 bits Audio Dock ID pins */
#define EMU_DOCK_BOARD_ID0 0x00 /* ID bit 0 */
#define EMU_DOCK_BOARD_ID1 0x03 /* ID bit 1 */
// The actual code disagrees about the bit width of the registers -
// the formula used is freq = 0x1770000 / (((X_HI << 5) | X_LO) + 1)
#define EMU_HANA_WC_SPDIF_HI 0x28 /* 0xxxxxx 6 bit SPDIF IN Word clock, upper 6 bits */
#define EMU_HANA_WC_SPDIF_LO 0x29 /* 0xxxxxx 6 bit SPDIF IN Word clock, lower 6 bits */
#define EMU_HANA_WC_ADAT_HI 0x2a /* 0xxxxxx 6 bit ADAT IN Word clock, upper 6 bits */
#define EMU_HANA_WC_ADAT_LO 0x2b /* 0xxxxxx 6 bit ADAT IN Word clock, lower 6 bits */
#define EMU_HANA_WC_BNC_LO 0x2c /* 0xxxxxx 6 bit BNC IN Word clock, lower 6 bits */
#define EMU_HANA_WC_BNC_HI 0x2d /* 0xxxxxx 6 bit BNC IN Word clock, upper 6 bits */
#define EMU_HANA2_WC_SPDIF_HI 0x2e /* 0xxxxxx 6 bit HANA2 SPDIF IN Word clock, upper 6 bits */
#define EMU_HANA2_WC_SPDIF_LO 0x2f /* 0xxxxxx 6 bit HANA2 SPDIF IN Word clock, lower 6 bits */
/* 0x30 - 0x3f Unused Read only registers */
// The meaning of this is not clear; kX-project just calls it "lock" in some info-only code.
#define EMU_HANA_LOCK_STS_LO 0x38 /* 0xxxxxx lower 6 bits */
#define EMU_HANA_LOCK_STS_HI 0x39 /* 0xxxxxx upper 6 bits */
/************************************************************************************************/
/* EMU1010 Audio Destinations */
/************************************************************************************************/
/* Hana, original 1010,1212m,1820[m] using Alice2
* 0x00, 0x00-0x0f: 16 EMU32 channels to Alice2
* 0x01, 0x00-0x1f: 32 EDI channels to Audio Dock
* 0x00: Dock DAC 1 Left
* 0x04: Dock DAC 1 Right
* 0x08: Dock DAC 2 Left
* 0x0c: Dock DAC 2 Right
* 0x10: Dock DAC 3 Left
* 0x12: PHONES Left (n/a in 2x/4x mode; output mirrors DAC4 Left)
* 0x14: Dock DAC 3 Right
* 0x16: PHONES Right (n/a in 2x/4x mode; output mirrors DAC4 Right)
* 0x18: Dock DAC 4 Left
* 0x1a: S/PDIF Left
* 0x1c: Dock DAC 4 Right
* 0x1e: S/PDIF Right
* 0x02, 0x00: Hana S/PDIF Left
* 0x02, 0x01: Hana S/PDIF Right
* 0x03, 0x00: Hamoa DAC Left
* 0x03, 0x01: Hamoa DAC Right
* 0x04, 0x00-0x07: Hana ADAT
* 0x05, 0x00: I2S0 Left to Alice2
* 0x05, 0x01: I2S0 Right to Alice2
* 0x06, 0x00: I2S0 Left to Alice2
* 0x06, 0x01: I2S0 Right to Alice2
* 0x07, 0x00: I2S0 Left to Alice2
* 0x07, 0x01: I2S0 Right to Alice2
*
* Hana2 never released, but used Tina
* Not needed.
*
* Hana3, rev2 1010,1212m,1616[m] using Tina
* 0x00, 0x00-0x0f: 16 EMU32A channels to Tina
* 0x01, 0x00-0x1f: 32 EDI channels to Micro Dock
* 0x00: Dock DAC 1 Left
* 0x04: Dock DAC 1 Right
* 0x08: Dock DAC 2 Left
* 0x0c: Dock DAC 2 Right
* 0x10: Dock DAC 3 Left
* 0x12: Dock S/PDIF Left
* 0x14: Dock DAC 3 Right
* 0x16: Dock S/PDIF Right
* 0x18-0x1f: Dock ADAT 0-7
* 0x02, 0x00: Hana3 S/PDIF Left
* 0x02, 0x01: Hana3 S/PDIF Right
* 0x03, 0x00: Hamoa DAC Left
* 0x03, 0x01: Hamoa DAC Right
* 0x04, 0x00-0x07: Hana3 ADAT 0-7
* 0x05, 0x00-0x0f: 16 EMU32B channels to Tina
* 0x06-0x07: Not used
*
* HanaLite, rev1 0404 using Alice2
* HanaLiteLite, rev2 0404 using Tina
* 0x00, 0x00-0x0f: 16 EMU32 channels to Alice2/Tina
* 0x01: Not used
* 0x02, 0x00: S/PDIF Left
* 0x02, 0x01: S/PDIF Right
* 0x03, 0x00: DAC Left
* 0x03, 0x01: DAC Right
* 0x04-0x07: Not used
*
* Mana, Cardbus 1616 using Tina2
* 0x00, 0x00-0x0f: 16 EMU32A channels to Tina2
* 0x01, 0x00-0x1f: 32 EDI channels to Micro Dock
* (same as rev2 1010)
* 0x02: Not used
* 0x03, 0x00: Mana DAC Left
* 0x03, 0x01: Mana DAC Right
* 0x04, 0x00-0x0f: 16 EMU32B channels to Tina2
* 0x05-0x07: Not used
*/
/* 32-bit destinations of signal in the Hana FPGA. Destinations are either
* physical outputs of Hana, or outputs going to Alice2/Tina for capture -
* 16 x EMU_DST_ALICE2_EMU32_X (2x on rev2 boards). Which data is fed into
* a channel depends on the mixer control setting for each destination - see
* the register arrays in emumixer.c.
*/
#define EMU_DST_ALICE2_EMU32_0 0x000f /* 16 EMU32 channels to Alice2 +0 to +0xf */
/* This channel is delayed by one sample. */
#define EMU_DST_ALICE2_EMU32_1 0x0000 /* 16 EMU32 channels to Alice2 +0 to +0xf */
#define EMU_DST_ALICE2_EMU32_2 0x0001 /* 16 EMU32 channels to Alice2 +0 to +0xf */
#define EMU_DST_ALICE2_EMU32_3 0x0002 /* 16 EMU32 channels to Alice2 +0 to +0xf */
#define EMU_DST_ALICE2_EMU32_4 0x0003 /* 16 EMU32 channels to Alice2 +0 to +0xf */
#define EMU_DST_ALICE2_EMU32_5 0x0004 /* 16 EMU32 channels to Alice2 +0 to +0xf */
#define EMU_DST_ALICE2_EMU32_6 0x0005 /* 16 EMU32 channels to Alice2 +0 to +0xf */
#define EMU_DST_ALICE2_EMU32_7 0x0006 /* 16 EMU32 channels to Alice2 +0 to +0xf */
#define EMU_DST_ALICE2_EMU32_8 0x0007 /* 16 EMU32 channels to Alice2 +0 to +0xf */
#define EMU_DST_ALICE2_EMU32_9 0x0008 /* 16 EMU32 channels to Alice2 +0 to +0xf */
#define EMU_DST_ALICE2_EMU32_A 0x0009 /* 16 EMU32 channels to Alice2 +0 to +0xf */
#define EMU_DST_ALICE2_EMU32_B 0x000a /* 16 EMU32 channels to Alice2 +0 to +0xf */
#define EMU_DST_ALICE2_EMU32_C 0x000b /* 16 EMU32 channels to Alice2 +0 to +0xf */
#define EMU_DST_ALICE2_EMU32_D 0x000c /* 16 EMU32 channels to Alice2 +0 to +0xf */
#define EMU_DST_ALICE2_EMU32_E 0x000d /* 16 EMU32 channels to Alice2 +0 to +0xf */
#define EMU_DST_ALICE2_EMU32_F 0x000e /* 16 EMU32 channels to Alice2 +0 to +0xf */
#define EMU_DST_DOCK_DAC1_LEFT1 0x0100 /* Audio Dock DAC1 Left, 1st or 48kHz only */
#define EMU_DST_DOCK_DAC1_LEFT2 0x0101 /* Audio Dock DAC1 Left, 2nd or 96kHz */
#define EMU_DST_DOCK_DAC1_LEFT3 0x0102 /* Audio Dock DAC1 Left, 3rd or 192kHz */
#define EMU_DST_DOCK_DAC1_LEFT4 0x0103 /* Audio Dock DAC1 Left, 4th or 192kHz */
#define EMU_DST_DOCK_DAC1_RIGHT1 0x0104 /* Audio Dock DAC1 Right, 1st or 48kHz only */
#define EMU_DST_DOCK_DAC1_RIGHT2 0x0105 /* Audio Dock DAC1 Right, 2nd or 96kHz */
#define EMU_DST_DOCK_DAC1_RIGHT3 0x0106 /* Audio Dock DAC1 Right, 3rd or 192kHz */
#define EMU_DST_DOCK_DAC1_RIGHT4 0x0107 /* Audio Dock DAC1 Right, 4th or 192kHz */
#define EMU_DST_DOCK_DAC2_LEFT1 0x0108 /* Audio Dock DAC2 Left, 1st or 48kHz only */
#define EMU_DST_DOCK_DAC2_LEFT2 0x0109 /* Audio Dock DAC2 Left, 2nd or 96kHz */
#define EMU_DST_DOCK_DAC2_LEFT3 0x010a /* Audio Dock DAC2 Left, 3rd or 192kHz */
#define EMU_DST_DOCK_DAC2_LEFT4 0x010b /* Audio Dock DAC2 Left, 4th or 192kHz */
#define EMU_DST_DOCK_DAC2_RIGHT1 0x010c /* Audio Dock DAC2 Right, 1st or 48kHz only */
#define EMU_DST_DOCK_DAC2_RIGHT2 0x010d /* Audio Dock DAC2 Right, 2nd or 96kHz */
#define EMU_DST_DOCK_DAC2_RIGHT3 0x010e /* Audio Dock DAC2 Right, 3rd or 192kHz */
#define EMU_DST_DOCK_DAC2_RIGHT4 0x010f /* Audio Dock DAC2 Right, 4th or 192kHz */
#define EMU_DST_DOCK_DAC3_LEFT1 0x0110 /* Audio Dock DAC1 Left, 1st or 48kHz only */
#define EMU_DST_DOCK_DAC3_LEFT2 0x0111 /* Audio Dock DAC1 Left, 2nd or 96kHz */
#define EMU_DST_DOCK_DAC3_LEFT3 0x0112 /* Audio Dock DAC1 Left, 3rd or 192kHz */
#define EMU_DST_DOCK_DAC3_LEFT4 0x0113 /* Audio Dock DAC1 Left, 4th or 192kHz */
#define EMU_DST_DOCK_PHONES_LEFT1 0x0112 /* Audio Dock PHONES Left, 1st or 48kHz only */
#define EMU_DST_DOCK_PHONES_LEFT2 0x0113 /* Audio Dock PHONES Left, 2nd or 96kHz */
#define EMU_DST_DOCK_DAC3_RIGHT1 0x0114 /* Audio Dock DAC1 Right, 1st or 48kHz only */
#define EMU_DST_DOCK_DAC3_RIGHT2 0x0115 /* Audio Dock DAC1 Right, 2nd or 96kHz */
#define EMU_DST_DOCK_DAC3_RIGHT3 0x0116 /* Audio Dock DAC1 Right, 3rd or 192kHz */
#define EMU_DST_DOCK_DAC3_RIGHT4 0x0117 /* Audio Dock DAC1 Right, 4th or 192kHz */
#define EMU_DST_DOCK_PHONES_RIGHT1 0x0116 /* Audio Dock PHONES Right, 1st or 48kHz only */
#define EMU_DST_DOCK_PHONES_RIGHT2 0x0117 /* Audio Dock PHONES Right, 2nd or 96kHz */
#define EMU_DST_DOCK_DAC4_LEFT1 0x0118 /* Audio Dock DAC2 Left, 1st or 48kHz only */
#define EMU_DST_DOCK_DAC4_LEFT2 0x0119 /* Audio Dock DAC2 Left, 2nd or 96kHz */
#define EMU_DST_DOCK_DAC4_LEFT3 0x011a /* Audio Dock DAC2 Left, 3rd or 192kHz */
#define EMU_DST_DOCK_DAC4_LEFT4 0x011b /* Audio Dock DAC2 Left, 4th or 192kHz */
#define EMU_DST_DOCK_SPDIF_LEFT1 0x011a /* Audio Dock SPDIF Left, 1st or 48kHz only */
#define EMU_DST_DOCK_SPDIF_LEFT2 0x011b /* Audio Dock SPDIF Left, 2nd or 96kHz */
#define EMU_DST_DOCK_DAC4_RIGHT1 0x011c /* Audio Dock DAC2 Right, 1st or 48kHz only */
#define EMU_DST_DOCK_DAC4_RIGHT2 0x011d /* Audio Dock DAC2 Right, 2nd or 96kHz */
#define EMU_DST_DOCK_DAC4_RIGHT3 0x011e /* Audio Dock DAC2 Right, 3rd or 192kHz */
#define EMU_DST_DOCK_DAC4_RIGHT4 0x011f /* Audio Dock DAC2 Right, 4th or 192kHz */
#define EMU_DST_DOCK_SPDIF_RIGHT1 0x011e /* Audio Dock SPDIF Right, 1st or 48kHz only */
#define EMU_DST_DOCK_SPDIF_RIGHT2 0x011f /* Audio Dock SPDIF Right, 2nd or 96kHz */
#define EMU_DST_HANA_SPDIF_LEFT1 0x0200 /* Hana SPDIF Left, 1st or 48kHz only */
#define EMU_DST_HANA_SPDIF_LEFT2 0x0202 /* Hana SPDIF Left, 2nd or 96kHz */
#define EMU_DST_HANA_SPDIF_LEFT3 0x0204 /* Hana SPDIF Left, 3rd or 192kHz */
#define EMU_DST_HANA_SPDIF_LEFT4 0x0206 /* Hana SPDIF Left, 4th or 192kHz */
#define EMU_DST_HANA_SPDIF_RIGHT1 0x0201 /* Hana SPDIF Right, 1st or 48kHz only */
#define EMU_DST_HANA_SPDIF_RIGHT2 0x0203 /* Hana SPDIF Right, 2nd or 96kHz */
#define EMU_DST_HANA_SPDIF_RIGHT3 0x0205 /* Hana SPDIF Right, 3rd or 192kHz */
#define EMU_DST_HANA_SPDIF_RIGHT4 0x0207 /* Hana SPDIF Right, 4th or 192kHz */
#define EMU_DST_HAMOA_DAC_LEFT1 0x0300 /* Hamoa DAC Left, 1st or 48kHz only */
#define EMU_DST_HAMOA_DAC_LEFT2 0x0302 /* Hamoa DAC Left, 2nd or 96kHz */
#define EMU_DST_HAMOA_DAC_LEFT3 0x0304 /* Hamoa DAC Left, 3rd or 192kHz */
#define EMU_DST_HAMOA_DAC_LEFT4 0x0306 /* Hamoa DAC Left, 4th or 192kHz */
#define EMU_DST_HAMOA_DAC_RIGHT1 0x0301 /* Hamoa DAC Right, 1st or 48kHz only */
#define EMU_DST_HAMOA_DAC_RIGHT2 0x0303 /* Hamoa DAC Right, 2nd or 96kHz */
#define EMU_DST_HAMOA_DAC_RIGHT3 0x0305 /* Hamoa DAC Right, 3rd or 192kHz */
#define EMU_DST_HAMOA_DAC_RIGHT4 0x0307 /* Hamoa DAC Right, 4th or 192kHz */
// In S/MUX mode, the samples of one channel are adjacent.
#define EMU_DST_HANA_ADAT 0x0400 /* Hana ADAT 8 channel out +0 to +7 */
#define EMU_DST_ALICE_I2S0_LEFT 0x0500 /* Alice2 I2S0 Left */
#define EMU_DST_ALICE_I2S0_RIGHT 0x0501 /* Alice2 I2S0 Right */
#define EMU_DST_ALICE_I2S1_LEFT 0x0600 /* Alice2 I2S1 Left */
#define EMU_DST_ALICE_I2S1_RIGHT 0x0601 /* Alice2 I2S1 Right */
#define EMU_DST_ALICE_I2S2_LEFT 0x0700 /* Alice2 I2S2 Left */
#define EMU_DST_ALICE_I2S2_RIGHT 0x0701 /* Alice2 I2S2 Right */
/* Additional destinations for 1616(M)/Microdock */
#define EMU_DST_MDOCK_SPDIF_LEFT1 0x0112 /* Microdock S/PDIF OUT Left, 1st or 48kHz only */
#define EMU_DST_MDOCK_SPDIF_LEFT2 0x0113 /* Microdock S/PDIF OUT Left, 2nd or 96kHz */
#define EMU_DST_MDOCK_SPDIF_RIGHT1 0x0116 /* Microdock S/PDIF OUT Right, 1st or 48kHz only */
#define EMU_DST_MDOCK_SPDIF_RIGHT2 0x0117 /* Microdock S/PDIF OUT Right, 2nd or 96kHz */
#define EMU_DST_MDOCK_ADAT 0x0118 /* Microdock S/PDIF ADAT 8 channel out +8 to +f */
#define EMU_DST_MANA_DAC_LEFT 0x0300 /* Headphone jack on 1010 cardbus? 44.1/48kHz only? */
#define EMU_DST_MANA_DAC_RIGHT 0x0301 /* Headphone jack on 1010 cardbus? 44.1/48kHz only? */
/************************************************************************************************/
/* EMU1010 Audio Sources */
/************************************************************************************************/
/* Hana, original 1010,1212m,1820[m] using Alice2
* 0x00, 0x00-0x1f: Silence
* 0x01, 0x00-0x1f: 32 EDI channels from Audio Dock
* 0x00: Dock Mic A
* 0x04: Dock Mic B
* 0x08: Dock ADC 1 Left
* 0x0c: Dock ADC 1 Right
* 0x10: Dock ADC 2 Left
* 0x14: Dock ADC 2 Right
* 0x18: Dock ADC 3 Left
* 0x1c: Dock ADC 3 Right
* 0x02, 0x00: Hamoa ADC Left
* 0x02, 0x01: Hamoa ADC Right
* 0x03, 0x00-0x0f: 16 inputs from Alice2 Emu32A output
* 0x03, 0x10-0x1f: 16 inputs from Alice2 Emu32B output
* 0x04, 0x00-0x07: Hana ADAT
* 0x05, 0x00: Hana S/PDIF Left
* 0x05, 0x01: Hana S/PDIF Right
* 0x06-0x07: Not used
*
* Hana2 never released, but used Tina
* Not needed.
*
* Hana3, rev2 1010,1212m,1616[m] using Tina
* 0x00, 0x00-0x1f: Silence
* 0x01, 0x00-0x1f: 32 EDI channels from Micro Dock
* 0x00: Dock Mic A
* 0x04: Dock Mic B
* 0x08: Dock ADC 1 Left
* 0x0c: Dock ADC 1 Right
* 0x10: Dock ADC 2 Left
* 0x12: Dock S/PDIF Left
* 0x14: Dock ADC 2 Right
* 0x16: Dock S/PDIF Right
* 0x18-0x1f: Dock ADAT 0-7
* 0x02, 0x00: Hamoa ADC Left
* 0x02, 0x01: Hamoa ADC Right
* 0x03, 0x00-0x0f: 16 inputs from Tina Emu32A output
* 0x03, 0x10-0x1f: 16 inputs from Tina Emu32B output
* 0x04, 0x00-0x07: Hana3 ADAT
* 0x05, 0x00: Hana3 S/PDIF Left
* 0x05, 0x01: Hana3 S/PDIF Right
* 0x06-0x07: Not used
*
* HanaLite, rev1 0404 using Alice2
* HanaLiteLite, rev2 0404 using Tina
* 0x00, 0x00-0x1f: Silence
* 0x01: Not used
* 0x02, 0x00: ADC Left
* 0x02, 0x01: ADC Right
* 0x03, 0x00-0x0f: 16 inputs from Alice2/Tina Emu32A output
* 0x03, 0x10-0x1f: 16 inputs from Alice2/Tina Emu32B output
* 0x04: Not used
* 0x05, 0x00: S/PDIF Left
* 0x05, 0x01: S/PDIF Right
* 0x06-0x07: Not used
*
* Mana, Cardbus 1616 using Tina2
* 0x00, 0x00-0x1f: Silence
* 0x01, 0x00-0x1f: 32 EDI channels from Micro Dock
* (same as rev2 1010)
* 0x02: Not used
* 0x03, 0x00-0x0f: 16 inputs from Tina2 Emu32A output
* 0x03, 0x10-0x1f: 16 inputs from Tina2 Emu32B output
* 0x04-0x07: Not used
*/
/* 32-bit sources of signal in the Hana FPGA. The sources are routed to
* destinations using a mixer control for each destination - see emumixer.c.
* Sources are either physical inputs of Hana, or inputs from Alice2/Tina -
* 16 x EMU_SRC_ALICE_EMU32A + 16 x EMU_SRC_ALICE_EMU32B.
*/
#define EMU_SRC_SILENCE 0x0000 /* Silence */
#define EMU_SRC_DOCK_MIC_A1 0x0100 /* Audio Dock Mic A, 1st or 48kHz only */
#define EMU_SRC_DOCK_MIC_A2 0x0101 /* Audio Dock Mic A, 2nd or 96kHz */
#define EMU_SRC_DOCK_MIC_A3 0x0102 /* Audio Dock Mic A, 3rd or 192kHz */
#define EMU_SRC_DOCK_MIC_A4 0x0103 /* Audio Dock Mic A, 4th or 192kHz */
#define EMU_SRC_DOCK_MIC_B1 0x0104 /* Audio Dock Mic B, 1st or 48kHz only */
#define EMU_SRC_DOCK_MIC_B2 0x0105 /* Audio Dock Mic B, 2nd or 96kHz */
#define EMU_SRC_DOCK_MIC_B3 0x0106 /* Audio Dock Mic B, 3rd or 192kHz */
#define EMU_SRC_DOCK_MIC_B4 0x0107 /* Audio Dock Mic B, 4th or 192kHz */
#define EMU_SRC_DOCK_ADC1_LEFT1 0x0108 /* Audio Dock ADC1 Left, 1st or 48kHz only */
#define EMU_SRC_DOCK_ADC1_LEFT2 0x0109 /* Audio Dock ADC1 Left, 2nd or 96kHz */
#define EMU_SRC_DOCK_ADC1_LEFT3 0x010a /* Audio Dock ADC1 Left, 3rd or 192kHz */
#define EMU_SRC_DOCK_ADC1_LEFT4 0x010b /* Audio Dock ADC1 Left, 4th or 192kHz */
#define EMU_SRC_DOCK_ADC1_RIGHT1 0x010c /* Audio Dock ADC1 Right, 1st or 48kHz only */
#define EMU_SRC_DOCK_ADC1_RIGHT2 0x010d /* Audio Dock ADC1 Right, 2nd or 96kHz */
#define EMU_SRC_DOCK_ADC1_RIGHT3 0x010e /* Audio Dock ADC1 Right, 3rd or 192kHz */
#define EMU_SRC_DOCK_ADC1_RIGHT4 0x010f /* Audio Dock ADC1 Right, 4th or 192kHz */
#define EMU_SRC_DOCK_ADC2_LEFT1 0x0110 /* Audio Dock ADC2 Left, 1st or 48kHz only */
#define EMU_SRC_DOCK_ADC2_LEFT2 0x0111 /* Audio Dock ADC2 Left, 2nd or 96kHz */
#define EMU_SRC_DOCK_ADC2_LEFT3 0x0112 /* Audio Dock ADC2 Left, 3rd or 192kHz */
#define EMU_SRC_DOCK_ADC2_LEFT4 0x0113 /* Audio Dock ADC2 Left, 4th or 192kHz */
#define EMU_SRC_DOCK_ADC2_RIGHT1 0x0114 /* Audio Dock ADC2 Right, 1st or 48kHz only */
#define EMU_SRC_DOCK_ADC2_RIGHT2 0x0115 /* Audio Dock ADC2 Right, 2nd or 96kHz */
#define EMU_SRC_DOCK_ADC2_RIGHT3 0x0116 /* Audio Dock ADC2 Right, 3rd or 192kHz */
#define EMU_SRC_DOCK_ADC2_RIGHT4 0x0117 /* Audio Dock ADC2 Right, 4th or 192kHz */
#define EMU_SRC_DOCK_ADC3_LEFT1 0x0118 /* Audio Dock ADC3 Left, 1st or 48kHz only */
#define EMU_SRC_DOCK_ADC3_LEFT2 0x0119 /* Audio Dock ADC3 Left, 2nd or 96kHz */
#define EMU_SRC_DOCK_ADC3_LEFT3 0x011a /* Audio Dock ADC3 Left, 3rd or 192kHz */
#define EMU_SRC_DOCK_ADC3_LEFT4 0x011b /* Audio Dock ADC3 Left, 4th or 192kHz */
#define EMU_SRC_DOCK_ADC3_RIGHT1 0x011c /* Audio Dock ADC3 Right, 1st or 48kHz only */
#define EMU_SRC_DOCK_ADC3_RIGHT2 0x011d /* Audio Dock ADC3 Right, 2nd or 96kHz */
#define EMU_SRC_DOCK_ADC3_RIGHT3 0x011e /* Audio Dock ADC3 Right, 3rd or 192kHz */
#define EMU_SRC_DOCK_ADC3_RIGHT4 0x011f /* Audio Dock ADC3 Right, 4th or 192kHz */
#define EMU_SRC_HAMOA_ADC_LEFT1 0x0200 /* Hamoa ADC Left, 1st or 48kHz only */
#define EMU_SRC_HAMOA_ADC_LEFT2 0x0202 /* Hamoa ADC Left, 2nd or 96kHz */
#define EMU_SRC_HAMOA_ADC_LEFT3 0x0204 /* Hamoa ADC Left, 3rd or 192kHz */
#define EMU_SRC_HAMOA_ADC_LEFT4 0x0206 /* Hamoa ADC Left, 4th or 192kHz */
#define EMU_SRC_HAMOA_ADC_RIGHT1 0x0201 /* Hamoa ADC Right, 1st or 48kHz only */
#define EMU_SRC_HAMOA_ADC_RIGHT2 0x0203 /* Hamoa ADC Right, 2nd or 96kHz */
#define EMU_SRC_HAMOA_ADC_RIGHT3 0x0205 /* Hamoa ADC Right, 3rd or 192kHz */
#define EMU_SRC_HAMOA_ADC_RIGHT4 0x0207 /* Hamoa ADC Right, 4th or 192kHz */
#define EMU_SRC_ALICE_EMU32A 0x0300 /* Alice2 EMU32a 16 outputs. +0 to +0xf */
#define EMU_SRC_ALICE_EMU32B 0x0310 /* Alice2 EMU32b 16 outputs. +0 to +0xf */
// In S/MUX mode, the samples of one channel are adjacent.
#define EMU_SRC_HANA_ADAT 0x0400 /* Hana ADAT 8 channel in +0 to +7 */
#define EMU_SRC_HANA_SPDIF_LEFT1 0x0500 /* Hana SPDIF Left, 1st or 48kHz only */
#define EMU_SRC_HANA_SPDIF_LEFT2 0x0502 /* Hana SPDIF Left, 2nd or 96kHz */
#define EMU_SRC_HANA_SPDIF_LEFT3 0x0504 /* Hana SPDIF Left, 3rd or 192kHz */
#define EMU_SRC_HANA_SPDIF_LEFT4 0x0506 /* Hana SPDIF Left, 4th or 192kHz */
#define EMU_SRC_HANA_SPDIF_RIGHT1 0x0501 /* Hana SPDIF Right, 1st or 48kHz only */
#define EMU_SRC_HANA_SPDIF_RIGHT2 0x0503 /* Hana SPDIF Right, 2nd or 96kHz */
#define EMU_SRC_HANA_SPDIF_RIGHT3 0x0505 /* Hana SPDIF Right, 3rd or 192kHz */
#define EMU_SRC_HANA_SPDIF_RIGHT4 0x0507 /* Hana SPDIF Right, 4th or 192kHz */
/* Additional inputs for 1616(M)/Microdock */
#define EMU_SRC_MDOCK_SPDIF_LEFT1 0x0112 /* Microdock S/PDIF Left, 1st or 48kHz only */
#define EMU_SRC_MDOCK_SPDIF_LEFT2 0x0113 /* Microdock S/PDIF Left, 2nd or 96kHz */
#define EMU_SRC_MDOCK_SPDIF_RIGHT1 0x0116 /* Microdock S/PDIF Right, 1st or 48kHz only */
#define EMU_SRC_MDOCK_SPDIF_RIGHT2 0x0117 /* Microdock S/PDIF Right, 2nd or 96kHz */
#define EMU_SRC_MDOCK_ADAT 0x0118 /* Microdock ADAT 8 channel in +8 to +f */
/* 0x600 and 0x700 no used */
/* ------------------- CONSTANTS -------------------- */
extern const char * const snd_emu10k1_fxbus[32];
extern const char * const snd_emu10k1_sblive_ins[16];
extern const char * const snd_emu10k1_audigy_ins[16];
extern const char * const snd_emu10k1_sblive_outs[32];
extern const char * const snd_emu10k1_audigy_outs[32];
extern const s8 snd_emu10k1_sblive51_fxbus2_map[16];
/* ------------------- STRUCTURES -------------------- */
enum {
EMU10K1_UNUSED, // This must be zero
EMU10K1_EFX,
EMU10K1_EFX_IRQ,
EMU10K1_PCM,
EMU10K1_PCM_IRQ,
EMU10K1_SYNTH,
EMU10K1_NUM_TYPES
};
struct snd_emu10k1;
struct snd_emu10k1_voice {
unsigned char number;
unsigned char use;
unsigned char dirty;
unsigned char last;
void (*interrupt)(struct snd_emu10k1 *emu, struct snd_emu10k1_voice *pvoice);
struct snd_emu10k1_pcm *epcm;
};
enum {
PLAYBACK_EMUVOICE,
PLAYBACK_EFX,
CAPTURE_AC97ADC,
CAPTURE_AC97MIC,
CAPTURE_EFX
};
struct snd_emu10k1_pcm {
struct snd_emu10k1 *emu;
int type;
struct snd_pcm_substream *substream;
struct snd_emu10k1_voice *voices[NUM_EFX_PLAYBACK];
struct snd_emu10k1_voice *extra;
unsigned short running;
unsigned short first_ptr;
snd_pcm_uframes_t resume_pos;
struct snd_util_memblk *memblk;
unsigned int pitch_target;
unsigned int start_addr;
unsigned int ccca_start_addr;
unsigned int capture_ipr; /* interrupt acknowledge mask */
unsigned int capture_inte; /* interrupt enable mask */
unsigned int capture_ba_reg; /* buffer address register */
unsigned int capture_bs_reg; /* buffer size register */
unsigned int capture_idx_reg; /* buffer index register */
unsigned int capture_cr_val; /* control value */
unsigned int capture_cr_val2; /* control value2 (for audigy) */
unsigned int capture_bs_val; /* buffer size value */
unsigned int capture_bufsize; /* buffer size in bytes */
};
struct snd_emu10k1_pcm_mixer {
/* mono, left, right x 8 sends (4 on emu10k1) */
unsigned char send_routing[3][8];
unsigned char send_volume[3][8];
// 0x8000 is neutral. The mixer code rescales it to 0xffff to maintain
// backwards compatibility with user space.
unsigned short attn[3];
struct snd_emu10k1_pcm *epcm;
};
#define snd_emu10k1_compose_send_routing(route) \
((route[0] | (route[1] << 4) | (route[2] << 8) | (route[3] << 12)) << 16)
#define snd_emu10k1_compose_audigy_fxrt1(route) \
((unsigned int)route[0] | ((unsigned int)route[1] << 8) | ((unsigned int)route[2] << 16) | ((unsigned int)route[3] << 24) | 0x80808080)
#define snd_emu10k1_compose_audigy_fxrt2(route) \
((unsigned int)route[4] | ((unsigned int)route[5] << 8) | ((unsigned int)route[6] << 16) | ((unsigned int)route[7] << 24) | 0x80808080)
#define snd_emu10k1_compose_audigy_sendamounts(vol) \
(((unsigned int)vol[4] << 24) | ((unsigned int)vol[5] << 16) | ((unsigned int)vol[6] << 8) | (unsigned int)vol[7])
struct snd_emu10k1_memblk {
struct snd_util_memblk mem;
/* private part */
int first_page, last_page, pages, mapped_page;
unsigned int map_locked;
struct list_head mapped_link;
struct list_head mapped_order_link;
};
#define snd_emu10k1_memblk_offset(blk) (((blk)->mapped_page << PAGE_SHIFT) | ((blk)->mem.offset & (PAGE_SIZE - 1)))
#define EMU10K1_MAX_TRAM_BLOCKS_PER_CODE 16
struct snd_emu10k1_fx8010_ctl {
struct list_head list; /* list link container */
unsigned int vcount;
unsigned int count; /* count of GPR (1..16) */
unsigned short gpr[32]; /* GPR number(s) */
int value[32];
int min; /* minimum range */
int max; /* maximum range */
unsigned int translation; /* translation type (EMU10K1_GPR_TRANSLATION*) */
struct snd_kcontrol *kcontrol;
};
typedef void (snd_fx8010_irq_handler_t)(struct snd_emu10k1 *emu, void *private_data);
struct snd_emu10k1_fx8010_irq {
struct snd_emu10k1_fx8010_irq *next;
snd_fx8010_irq_handler_t *handler;
unsigned short gpr_running;
void *private_data;
};
struct snd_emu10k1_fx8010_pcm {
unsigned int valid: 1,
opened: 1,
active: 1;
unsigned int channels; /* 16-bit channels count */
unsigned int tram_start; /* initial ring buffer position in TRAM (in samples) */
unsigned int buffer_size; /* count of buffered samples */
unsigned short gpr_size; /* GPR containing size of ring buffer in samples (host) */
unsigned short gpr_ptr; /* GPR containing current pointer in the ring buffer (host = reset, FX8010) */
unsigned short gpr_count; /* GPR containing count of samples between two interrupts (host) */
unsigned short gpr_tmpcount; /* GPR containing current count of samples to interrupt (host = set, FX8010) */
unsigned short gpr_trigger; /* GPR containing trigger (activate) information (host) */
unsigned short gpr_running; /* GPR containing info if PCM is running (FX8010) */
unsigned char etram[32]; /* external TRAM address & data */
struct snd_pcm_indirect pcm_rec;
unsigned int tram_pos;
unsigned int tram_shift;
struct snd_emu10k1_fx8010_irq irq;
};
struct snd_emu10k1_fx8010 {
unsigned short extin_mask; /* used external inputs (bitmask); not used for Audigy */
unsigned short extout_mask; /* used external outputs (bitmask); not used for Audigy */
unsigned int itram_size; /* internal TRAM size in samples */
struct snd_dma_buffer etram_pages; /* external TRAM pages and size */
unsigned int dbg; /* FX debugger register */
unsigned char name[128];
int gpr_size; /* size of allocated GPR controls */
int gpr_count; /* count of used kcontrols */
struct list_head gpr_ctl; /* GPR controls */
struct mutex lock;
struct snd_emu10k1_fx8010_pcm pcm[8];
spinlock_t irq_lock;
struct snd_emu10k1_fx8010_irq *irq_handlers;
};
struct snd_emu10k1_midi {
struct snd_emu10k1 *emu;
struct snd_rawmidi *rmidi;
struct snd_rawmidi_substream *substream_input;
struct snd_rawmidi_substream *substream_output;
unsigned int midi_mode;
spinlock_t input_lock;
spinlock_t output_lock;
spinlock_t open_lock;
int tx_enable, rx_enable;
int port;
int ipr_tx, ipr_rx;
void (*interrupt)(struct snd_emu10k1 *emu, unsigned int status);
};
enum {
EMU_MODEL_SB,
EMU_MODEL_EMU1010,
EMU_MODEL_EMU1010B,
EMU_MODEL_EMU1616,
EMU_MODEL_EMU0404,
};
// Chip-o-logy:
// - All SB Live! cards use EMU10K1 chips
// - All SB Audigy cards use CA* chips, termed "emu10k2" by the driver
// - Original Audigy uses CA0100 "Alice"
// - Audigy 2 uses CA0102/CA10200 "Alice2"
// - Has an interface for CA0151 (P16V) "Alice3"
// - Audigy 2 Value uses CA0108/CA10300 "Tina"
// - Approximately a CA0102 with an on-chip CA0151 (P17V)
// - Audigy 2 ZS NB uses CA0109 "Tina2"
// - Cardbus version of CA0108
struct snd_emu_chip_details {
u32 vendor;
u32 device;
u32 subsystem;
unsigned char revision;
unsigned char emu_model; /* EMU model type */
unsigned int emu10k1_chip:1; /* Original SB Live. Not SB Live 24bit. */
/* Redundant with emu10k2_chip being unset. */
unsigned int emu10k2_chip:1; /* Audigy 1 or Audigy 2. */
unsigned int ca0102_chip:1; /* Audigy 1 or Audigy 2. Not SB Audigy 2 Value. */
/* Redundant with ca0108_chip being unset. */
unsigned int ca0108_chip:1; /* Audigy 2 Value */
unsigned int ca_cardbus_chip:1; /* Audigy 2 ZS Notebook */
unsigned int ca0151_chip:1; /* P16V */
unsigned int spk20:1; /* Stereo only */
unsigned int spk71:1; /* Has 7.1 speakers */
unsigned int no_adat:1; /* Has no ADAT, only SPDIF */
unsigned int sblive51:1; /* SBLive! 5.1 - extout 0x11 -> center, 0x12 -> lfe */
unsigned int spdif_bug:1; /* Has Spdif phasing bug */
unsigned int ac97_chip:2; /* Has an AC97 chip: 1 = mandatory, 2 = optional */
unsigned int ecard:1; /* APS EEPROM */
unsigned int spi_dac:1; /* SPI interface for DAC; requires ca0108_chip */
unsigned int i2c_adc:1; /* I2C interface for ADC; requires ca0108_chip */
unsigned int adc_1361t:1; /* Use Philips 1361T ADC */
unsigned int invert_shared_spdif:1; /* analog/digital switch inverted */
const char *driver;
const char *name;
const char *id; /* for backward compatibility - can be NULL if not needed */
};
#define NUM_OUTPUT_DESTS 28
#define NUM_INPUT_DESTS 22
struct snd_emu1010 {
unsigned char output_source[NUM_OUTPUT_DESTS];
unsigned char input_source[NUM_INPUT_DESTS];
unsigned int adc_pads; /* bit mask */
unsigned int dac_pads; /* bit mask */
unsigned int wclock; /* Cached register value */
unsigned int word_clock; /* Cached effective value */
unsigned int clock_source;
unsigned int clock_fallback;
unsigned int optical_in; /* 0:SPDIF, 1:ADAT */
unsigned int optical_out; /* 0:SPDIF, 1:ADAT */
struct work_struct work;
struct mutex lock;
};
struct snd_emu10k1 {
int irq;
unsigned long port; /* I/O port number */
unsigned int tos_link: 1, /* tos link detected */
rear_ac97: 1, /* rear channels are on AC'97 */
enable_ir: 1;
unsigned int support_tlv :1;
/* Contains profile of card capabilities */
const struct snd_emu_chip_details *card_capabilities;
unsigned int audigy; /* is Audigy? */
unsigned int revision; /* chip revision */
unsigned int serial; /* serial number */
unsigned short model; /* subsystem id */
unsigned int ecard_ctrl; /* ecard control bits */
unsigned int address_mode; /* address mode */
unsigned long dma_mask; /* PCI DMA mask */
bool iommu_workaround; /* IOMMU workaround needed */
int max_cache_pages; /* max memory size / PAGE_SIZE */
struct snd_dma_buffer silent_page; /* silent page */
struct snd_dma_buffer ptb_pages; /* page table pages */
struct snd_dma_device p16v_dma_dev;
struct snd_dma_buffer *p16v_buffer;
struct snd_util_memhdr *memhdr; /* page allocation list */
struct list_head mapped_link_head;
struct list_head mapped_order_link_head;
void **page_ptr_table;
unsigned long *page_addr_table;
spinlock_t memblk_lock;
unsigned int spdif_bits[3]; /* s/pdif out setup */
unsigned int i2c_capture_source;
u8 i2c_capture_volume[4][2];
struct snd_emu10k1_fx8010 fx8010; /* FX8010 info */
int gpr_base;
struct snd_ac97 *ac97;
struct pci_dev *pci;
struct snd_card *card;
struct snd_pcm *pcm;
struct snd_pcm *pcm_mic;
struct snd_pcm *pcm_efx;
struct snd_pcm *pcm_multi;
struct snd_pcm *pcm_p16v;
spinlock_t synth_lock;
void *synth;
int (*get_synth_voice)(struct snd_emu10k1 *emu);
spinlock_t reg_lock; // high-level driver lock
spinlock_t emu_lock; // low-level i/o lock
spinlock_t voice_lock; // voice allocator lock
spinlock_t spi_lock; /* serialises access to spi port */
spinlock_t i2c_lock; /* serialises access to i2c port */
struct snd_emu10k1_voice voices[NUM_G];
int p16v_device_offset;
u32 p16v_capture_source;
u32 p16v_capture_channel;
struct snd_emu1010 emu1010;
struct snd_emu10k1_pcm_mixer pcm_mixer[32];
struct snd_emu10k1_pcm_mixer efx_pcm_mixer[NUM_EFX_PLAYBACK];
struct snd_kcontrol *ctl_send_routing;
struct snd_kcontrol *ctl_send_volume;
struct snd_kcontrol *ctl_attn;
struct snd_kcontrol *ctl_efx_send_routing;
struct snd_kcontrol *ctl_efx_send_volume;
struct snd_kcontrol *ctl_efx_attn;
struct snd_kcontrol *ctl_clock_source;
void (*hwvol_interrupt)(struct snd_emu10k1 *emu, unsigned int status);
void (*capture_interrupt)(struct snd_emu10k1 *emu, unsigned int status);
void (*capture_mic_interrupt)(struct snd_emu10k1 *emu, unsigned int status);
void (*capture_efx_interrupt)(struct snd_emu10k1 *emu, unsigned int status);
void (*spdif_interrupt)(struct snd_emu10k1 *emu, unsigned int status);
void (*dsp_interrupt)(struct snd_emu10k1 *emu);
void (*gpio_interrupt)(struct snd_emu10k1 *emu);
void (*p16v_interrupt)(struct snd_emu10k1 *emu);
struct snd_pcm_substream *pcm_capture_substream;
struct snd_pcm_substream *pcm_capture_mic_substream;
struct snd_pcm_substream *pcm_capture_efx_substream;
struct snd_timer *timer;
struct snd_emu10k1_midi midi;
struct snd_emu10k1_midi midi2; /* for audigy */
unsigned int efx_voices_mask[2];
unsigned int next_free_voice;
const struct firmware *firmware;
const struct firmware *dock_fw;
#ifdef CONFIG_PM_SLEEP
unsigned int *saved_ptr;
unsigned int *saved_gpr;
unsigned int *tram_val_saved;
unsigned int *tram_addr_saved;
unsigned int *saved_icode;
unsigned int *p16v_saved;
unsigned int saved_a_iocfg, saved_hcfg;
bool suspend;
#endif
};
int snd_emu10k1_create(struct snd_card *card,
struct pci_dev *pci,
unsigned short extin_mask,
unsigned short extout_mask,
long max_cache_bytes,
int enable_ir,
uint subsystem);
int snd_emu10k1_pcm(struct snd_emu10k1 *emu, int device);
int snd_emu10k1_pcm_mic(struct snd_emu10k1 *emu, int device);
int snd_emu10k1_pcm_efx(struct snd_emu10k1 *emu, int device);
int snd_p16v_pcm(struct snd_emu10k1 *emu, int device);
int snd_p16v_mixer(struct snd_emu10k1 * emu);
int snd_emu10k1_pcm_multi(struct snd_emu10k1 *emu, int device);
int snd_emu10k1_fx8010_pcm(struct snd_emu10k1 *emu, int device);
int snd_emu10k1_mixer(struct snd_emu10k1 * emu, int pcm_device, int multi_device);
int snd_emu10k1_timer(struct snd_emu10k1 * emu, int device);
int snd_emu10k1_fx8010_new(struct snd_emu10k1 *emu, int device);
irqreturn_t snd_emu10k1_interrupt(int irq, void *dev_id);
void snd_emu10k1_voice_init(struct snd_emu10k1 * emu, int voice);
int snd_emu10k1_init_efx(struct snd_emu10k1 *emu);
void snd_emu10k1_free_efx(struct snd_emu10k1 *emu);
int snd_emu10k1_fx8010_tram_setup(struct snd_emu10k1 *emu, u32 size);
int snd_emu10k1_done(struct snd_emu10k1 * emu);
/* I/O functions */
unsigned int snd_emu10k1_ptr_read(struct snd_emu10k1 * emu, unsigned int reg, unsigned int chn);
void snd_emu10k1_ptr_write(struct snd_emu10k1 *emu, unsigned int reg, unsigned int chn, unsigned int data);
void snd_emu10k1_ptr_write_multiple(struct snd_emu10k1 *emu, unsigned int chn, ...);
unsigned int snd_emu10k1_ptr20_read(struct snd_emu10k1 * emu, unsigned int reg, unsigned int chn);
void snd_emu10k1_ptr20_write(struct snd_emu10k1 *emu, unsigned int reg, unsigned int chn, unsigned int data);
int snd_emu10k1_spi_write(struct snd_emu10k1 * emu, unsigned int data);
int snd_emu10k1_i2c_write(struct snd_emu10k1 *emu, u32 reg, u32 value);
static inline void snd_emu1010_fpga_lock(struct snd_emu10k1 *emu) { mutex_lock(&emu->emu1010.lock); };
static inline void snd_emu1010_fpga_unlock(struct snd_emu10k1 *emu) { mutex_unlock(&emu->emu1010.lock); };
void snd_emu1010_fpga_write_lock(struct snd_emu10k1 *emu, u32 reg, u32 value);
void snd_emu1010_fpga_write(struct snd_emu10k1 *emu, u32 reg, u32 value);
void snd_emu1010_fpga_read(struct snd_emu10k1 *emu, u32 reg, u32 *value);
void snd_emu1010_fpga_link_dst_src_write(struct snd_emu10k1 *emu, u32 dst, u32 src);
u32 snd_emu1010_fpga_link_dst_src_read(struct snd_emu10k1 *emu, u32 dst);
int snd_emu1010_get_raw_rate(struct snd_emu10k1 *emu, u8 src);
void snd_emu1010_update_clock(struct snd_emu10k1 *emu);
void snd_emu1010_load_firmware_entry(struct snd_emu10k1 *emu, int dock, const struct firmware *fw_entry);
unsigned int snd_emu10k1_efx_read(struct snd_emu10k1 *emu, unsigned int pc);
void snd_emu10k1_intr_enable(struct snd_emu10k1 *emu, unsigned int intrenb);
void snd_emu10k1_intr_disable(struct snd_emu10k1 *emu, unsigned int intrenb);
void snd_emu10k1_voice_intr_enable(struct snd_emu10k1 *emu, unsigned int voicenum);
void snd_emu10k1_voice_intr_disable(struct snd_emu10k1 *emu, unsigned int voicenum);
void snd_emu10k1_voice_intr_ack(struct snd_emu10k1 *emu, unsigned int voicenum);
void snd_emu10k1_voice_half_loop_intr_enable(struct snd_emu10k1 *emu, unsigned int voicenum);
void snd_emu10k1_voice_half_loop_intr_disable(struct snd_emu10k1 *emu, unsigned int voicenum);
void snd_emu10k1_voice_half_loop_intr_ack(struct snd_emu10k1 *emu, unsigned int voicenum);
#if 0
void snd_emu10k1_voice_set_loop_stop(struct snd_emu10k1 *emu, unsigned int voicenum);
void snd_emu10k1_voice_clear_loop_stop(struct snd_emu10k1 *emu, unsigned int voicenum);
#endif
void snd_emu10k1_voice_set_loop_stop_multiple(struct snd_emu10k1 *emu, u64 voices);
void snd_emu10k1_voice_clear_loop_stop_multiple(struct snd_emu10k1 *emu, u64 voices);
int snd_emu10k1_voice_clear_loop_stop_multiple_atomic(struct snd_emu10k1 *emu, u64 voices);
void snd_emu10k1_wait(struct snd_emu10k1 *emu, unsigned int wait);
static inline unsigned int snd_emu10k1_wc(struct snd_emu10k1 *emu) { return (inl(emu->port + WC) >> 6) & 0xfffff; }
unsigned short snd_emu10k1_ac97_read(struct snd_ac97 *ac97, unsigned short reg);
void snd_emu10k1_ac97_write(struct snd_ac97 *ac97, unsigned short reg, unsigned short data);
#ifdef CONFIG_PM_SLEEP
void snd_emu10k1_suspend_regs(struct snd_emu10k1 *emu);
void snd_emu10k1_resume_init(struct snd_emu10k1 *emu);
void snd_emu10k1_resume_regs(struct snd_emu10k1 *emu);
int snd_emu10k1_efx_alloc_pm_buffer(struct snd_emu10k1 *emu);
void snd_emu10k1_efx_free_pm_buffer(struct snd_emu10k1 *emu);
void snd_emu10k1_efx_suspend(struct snd_emu10k1 *emu);
void snd_emu10k1_efx_resume(struct snd_emu10k1 *emu);
int snd_p16v_alloc_pm_buffer(struct snd_emu10k1 *emu);
void snd_p16v_free_pm_buffer(struct snd_emu10k1 *emu);
void snd_p16v_suspend(struct snd_emu10k1 *emu);
void snd_p16v_resume(struct snd_emu10k1 *emu);
#endif
/* memory allocation */
struct snd_util_memblk *snd_emu10k1_alloc_pages(struct snd_emu10k1 *emu, struct snd_pcm_substream *substream);
int snd_emu10k1_free_pages(struct snd_emu10k1 *emu, struct snd_util_memblk *blk);
int snd_emu10k1_alloc_pages_maybe_wider(struct snd_emu10k1 *emu, size_t size,
struct snd_dma_buffer *dmab);
struct snd_util_memblk *snd_emu10k1_synth_alloc(struct snd_emu10k1 *emu, unsigned int size);
int snd_emu10k1_synth_free(struct snd_emu10k1 *emu, struct snd_util_memblk *blk);
int snd_emu10k1_synth_memset(struct snd_emu10k1 *emu, struct snd_util_memblk *blk, int offset, int size, u8 value);
int snd_emu10k1_synth_copy_from_user(struct snd_emu10k1 *emu, struct snd_util_memblk *blk, int offset, const char __user *data, int size, u32 xor);
int snd_emu10k1_memblk_map(struct snd_emu10k1 *emu, struct snd_emu10k1_memblk *blk);
/* voice allocation */
int snd_emu10k1_voice_alloc(struct snd_emu10k1 *emu, int type, int count, int channels,
struct snd_emu10k1_pcm *epcm, struct snd_emu10k1_voice **rvoice);
int snd_emu10k1_voice_free(struct snd_emu10k1 *emu, struct snd_emu10k1_voice *pvoice);
/* MIDI uart */
int snd_emu10k1_midi(struct snd_emu10k1 * emu);
int snd_emu10k1_audigy_midi(struct snd_emu10k1 * emu);
/* proc interface */
int snd_emu10k1_proc_init(struct snd_emu10k1 * emu);
/* fx8010 irq handler */
int snd_emu10k1_fx8010_register_irq_handler(struct snd_emu10k1 *emu,
snd_fx8010_irq_handler_t *handler,
unsigned char gpr_running,
void *private_data,
struct snd_emu10k1_fx8010_irq *irq);
int snd_emu10k1_fx8010_unregister_irq_handler(struct snd_emu10k1 *emu,
struct snd_emu10k1_fx8010_irq *irq);
#endif /* __SOUND_EMU10K1_H */