audio merge (malc) (85571bc7) · Commits · SUMMER2020 / students / proj-2021291

Makefile.target

+33 −6

Original line number	Diff line number	Diff line
		include config.mak

		#After enabling Adlib and/or FMOD rebuild QEMU from scratch
		#Uncomment following for adlib support
		#USE_ADLIB=1

		#Uncomment following and specify proper paths/names for FMOD support
		#USE_FMOD=1
		#FMOD_INCLUDE=/net/include/fmod
		#FMOD_LIBPATH=/net/lib
		#FMOD_VERSION=3.74

		TARGET_PATH=$(SRC_PATH)/target-$(TARGET_ARCH)
		VPATH=$(SRC_PATH):$(TARGET_PATH):$(SRC_PATH)/hw
		VPATH=$(SRC_PATH):$(TARGET_PATH):$(SRC_PATH)/hw:$(SRC_PATH)/audio
		DEFINES=-I. -I$(TARGET_PATH) -I$(SRC_PATH)
		ifdef CONFIG_USER_ONLY
		VPATH+=:$(SRC_PATH)/linux-user
		@@ -267,16 +277,31 @@ endif
		VL_OBJS=vl.o osdep.o block.o readline.o monitor.o pci.o console.o
		VL_OBJS+=block-cow.o block-qcow.o aes.o block-vmdk.o block-cloop.o

		SOUND_HW = sb16.o
		AUDIODRV = audio.o ossaudio.o sdlaudio.o wavaudio.o

		ifeq ($(USE_ADLIB),1)
		SOUND_HW += fmopl.o adlib.o
		audio.o: DEFINES := -DUSE_ADLIB $(DEFINES)
		endif

		ifeq ($(USE_FMOD),1)
		AUDIODRV += fmodaudio.o
		audio.o fmodaudio.o: DEFINES := -DUSE_FMOD_AUDIO -I$(FMOD_INCLUDE) $(DEFINES)
		LDFLAGS += -L$(FMOD_LIBPATH) -Wl,-rpath,$(FMOD_LIBPATH)
		LIBS += -lfmod-$(FMOD_VERSION)
		endif

		ifeq ($(TARGET_ARCH), i386)
		# Hardware support
		VL_OBJS+= ide.o ne2000.o pckbd.o vga.o sb16.o dma.o oss.o
		VL_OBJS+= ide.o ne2000.o pckbd.o vga.o $(SOUND_HW) dma.o $(AUDIODRV)
		VL_OBJS+= fdc.o mc146818rtc.o serial.o i8259.o i8254.o pc.o
		VL_OBJS+= cirrus_vga.o
		VL_OBJS+= cirrus_vga.o mixeng.o
		endif
		ifeq ($(TARGET_ARCH), ppc)
		VL_OBJS+= ppc.o ide.o ne2000.o pckbd.o vga.o sb16.o dma.o oss.o
		VL_OBJS+= ppc.o ide.o ne2000.o pckbd.o vga.o $(SOUND_HW) dma.o $(AUDIODRV)
		VL_OBJS+= mc146818rtc.o serial.o i8259.o i8254.o fdc.o m48t59.o
		VL_OBJS+= ppc_prep.o ppc_chrp.o cuda.o adb.o openpic.o
		VL_OBJS+= ppc_prep.o ppc_chrp.o cuda.o adb.o openpic.o mixeng.o
		endif
		ifeq ($(TARGET_ARCH), sparc)
		VL_OBJS+= sun4m.o tcx.o lance.o iommu.o sched.o m48t08.o magic-load.o timer.o
		@@ -360,6 +385,8 @@ op.o: op.c op_template.h op_mem.h
		op_helper.o: op_helper_mem.h
		endif

		mixeng.o: mixeng.c mixeng.h mixeng_template.h

		%.o: %.c
		$(CC) $(CFLAGS) $(DEFINES) -c -o $@ $<

audio/audio.c

0 → 100644

+935 −0

Original line number	Diff line number	Diff line
		/*
		* QEMU Audio subsystem
		*
		* Copyright (c) 2003-2004 Vassili Karpov (malc)
		*
		* Permission is hereby granted, free of charge, to any person obtaining a copy
		* of this software and associated documentation files (the "Software"), to deal
		* in the Software without restriction, including without limitation the rights
		* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
		* copies of the Software, and to permit persons to whom the Software is
		* furnished to do so, subject to the following conditions:
		*
		* The above copyright notice and this permission notice shall be included in
		* all copies or substantial portions of the Software.
		*
		* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
		* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
		* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
		* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
		* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
		* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
		* THE SOFTWARE.
		*/
		#include <assert.h>
		#include <limits.h>
		#include "vl.h"

		#define AUDIO_CAP "audio"
		#include "audio/audio.h"

		#define USE_SDL_AUDIO
		#define USE_WAV_AUDIO

		#if defined __linux__ \|\| (defined _BSD && !defined __APPLE__)
		#define USE_OSS_AUDIO
		#endif

		#ifdef USE_OSS_AUDIO
		#include "audio/ossaudio.h"
		#endif

		#ifdef USE_SDL_AUDIO
		#include "audio/sdlaudio.h"
		#endif

		#ifdef USE_WAV_AUDIO
		#include "audio/wavaudio.h"
		#endif

		#ifdef USE_FMOD_AUDIO
		#include "audio/fmodaudio.h"
		#endif

		#define QC_AUDIO_DRV "QEMU_AUDIO_DRV"
		#define QC_VOICES "QEMU_VOICES"
		#define QC_FIXED_FORMAT "QEMU_FIXED_FORMAT"
		#define QC_FIXED_FREQ "QEMU_FIXED_FREQ"

		extern void SB16_init (void);

		#ifdef USE_ADLIB
		extern void Adlib_init (void);
		#endif

		#ifdef USE_GUS
		extern void GUS_init (void);
		#endif

		static void (*hw_ctors[]) (void) = {
		SB16_init,
		#ifdef USE_ADLIB
		Adlib_init,
		#endif
		#ifdef USE_GUS
		GUS_init,
		#endif
		NULL
		};

		static HWVoice *hw_voice;

		AudioState audio_state = {
		1, /* use fixed settings */
		44100, /* fixed frequency */
		2, /* fixed channels */
		AUD_FMT_S16, /* fixed format */
		1, /* number of hw voices */
		-1 /* voice size */
		};

		/* http://www.df.lth.se/~john_e/gems/gem002d.html */
		/* http://www.multi-platforms.com/Tips/PopCount.htm */
		uint32_t popcount (uint32_t u)
		{
		u = ((u&0x55555555) + ((u>>1)&0x55555555));
		u = ((u&0x33333333) + ((u>>2)&0x33333333));
		u = ((u&0x0f0f0f0f) + ((u>>4)&0x0f0f0f0f));
		u = ((u&0x00ff00ff) + ((u>>8)&0x00ff00ff));
		u = ( u&0x0000ffff) + (u>>16);
		return u;
		}

		inline uint32_t lsbindex (uint32_t u)
		{
		return popcount ((u&-u)-1);
		}

		int audio_get_conf_int (const char *key, int defval)
		{
		int val = defval;
		char *strval;

		strval = getenv (key);
		if (strval) {
		val = atoi (strval);
		}

		return val;
		}

		const char audio_get_conf_str (const char key, const char *defval)
		{
		const char *val = getenv (key);
		if (!val)
		return defval;
		else
		return val;
		}

		void audio_log (const char *fmt, ...)
		{
		va_list ap;
		va_start (ap, fmt);
		vfprintf (stderr, fmt, ap);
		va_end (ap);
		}

		/*
		* Soft Voice
		*/
		void pcm_sw_free_resources (SWVoice *sw)
		{
		if (sw->buf) qemu_free (sw->buf);
		if (sw->rate) st_rate_stop (sw->rate);
		sw->buf = NULL;
		sw->rate = NULL;
		}

		int pcm_sw_alloc_resources (SWVoice *sw)
		{
		sw->buf = qemu_mallocz (sw->hw->samples * sizeof (st_sample_t));
		if (!sw->buf)
		return -1;

		sw->rate = st_rate_start (sw->freq, sw->hw->freq);
		if (!sw->rate) {
		qemu_free (sw->buf);
		sw->buf = NULL;
		return -1;
		}
		return 0;
		}

		void pcm_sw_fini (SWVoice *sw)
		{
		pcm_sw_free_resources (sw);
		}

		int pcm_sw_init (SWVoice sw, HWVoice hw, int freq,
		int nchannels, audfmt_e fmt)
		{
		int bits = 8, sign = 0;

		switch (fmt) {
		case AUD_FMT_S8:
		sign = 1;
		case AUD_FMT_U8:
		break;

		case AUD_FMT_S16:
		sign = 1;
		case AUD_FMT_U16:
		bits = 16;
		break;
		}

		sw->hw = hw;
		sw->freq = freq;
		sw->fmt = fmt;
		sw->nchannels = nchannels;
		sw->shift = (nchannels == 2) + (bits == 16);
		sw->align = (1 << sw->shift) - 1;
		sw->left = 0;
		sw->pos = 0;
		sw->wpos = 0;
		sw->live = 0;
		sw->ratio = (sw->hw->freq * ((int64_t) INT_MAX)) / sw->freq;
		sw->bytes_per_second = sw->freq << sw->shift;
		sw->conv = mixeng_conv[nchannels == 2][sign][bits == 16];

		pcm_sw_free_resources (sw);
		return pcm_sw_alloc_resources (sw);
		}

		/* Hard voice */
		void pcm_hw_free_resources (HWVoice *hw)
		{
		if (hw->mix_buf)
		qemu_free (hw->mix_buf);
		hw->mix_buf = NULL;
		}

		int pcm_hw_alloc_resources (HWVoice *hw)
		{
		hw->mix_buf = qemu_mallocz (hw->samples * sizeof (st_sample_t));
		if (!hw->mix_buf)
		return -1;
		return 0;
		}


		void pcm_hw_fini (HWVoice *hw)
		{
		if (hw->active) {
		ldebug ("pcm_hw_fini: %d %d %d\n", hw->freq, hw->nchannels, hw->fmt);
		pcm_hw_free_resources (hw);
		hw->pcm_ops->fini (hw);
		memset (hw, 0, audio_state.drv->voice_size);
		}
		}

		void pcm_hw_gc (HWVoice *hw)
		{
		if (hw->nb_voices)
		return;

		pcm_hw_fini (hw);
		}

		int pcm_hw_get_live (HWVoice *hw)
		{
		int i, alive = 0, live = hw->samples;

		for (i = 0; i < hw->nb_voices; i++) {
		if (hw->pvoice[i]->live) {
		live = audio_MIN (hw->pvoice[i]->live, live);
		alive += 1;
		}
		}

		if (alive)
		return live;
		else
		return -1;
		}

		int pcm_hw_get_live2 (HWVoice hw, int nb_active)
		{
		int i, alive = 0, live = hw->samples;

		*nb_active = 0;
		for (i = 0; i < hw->nb_voices; i++) {
		if (hw->pvoice[i]->live) {
		if (hw->pvoice[i]->live < live) {
		*nb_active = hw->pvoice[i]->active != 0;
		live = hw->pvoice[i]->live;
		}
		alive += 1;
		}
		}

		if (alive)
		return live;
		else
		return -1;
		}

		void pcm_hw_dec_live (HWVoice *hw, int decr)
		{
		int i;

		for (i = 0; i < hw->nb_voices; i++) {
		if (hw->pvoice[i]->live) {
		hw->pvoice[i]->live -= decr;
		}
		}
		}

		void pcm_hw_clear (HWVoice hw, void buf, int len)
		{
		if (!len)
		return;

		switch (hw->fmt) {
		case AUD_FMT_S16:
		case AUD_FMT_S8:
		memset (buf, len << hw->shift, 0x00);
		break;

		case AUD_FMT_U8:
		memset (buf, len << hw->shift, 0x80);
		break;

		case AUD_FMT_U16:
		{
		unsigned int i;
		uint16_t *p = buf;
		int shift = hw->nchannels - 1;

		for (i = 0; i < len << shift; i++) {
		p[i] = INT16_MAX;
		}
		}
		break;
		}
		}

		int pcm_hw_write (SWVoice sw, void buf, int size)
		{
		int hwsamples, samples, isamp, osamp, wpos, live, dead, left, swlim, blck;
		int ret = 0, pos = 0;
		if (!sw)
		return size;

		hwsamples = sw->hw->samples;
		samples = size >> sw->shift;

		if (!sw->live) {
		sw->wpos = sw->hw->rpos;
		}
		wpos = sw->wpos;
		live = sw->live;
		dead = hwsamples - live;
		swlim = (dead * ((int64_t) INT_MAX)) / sw->ratio;
		swlim = audio_MIN (swlim, samples);

		ldebug ("size=%d live=%d dead=%d swlim=%d wpos=%d\n",
		size, live, dead, swlim, wpos);
		if (swlim)
		sw->conv (sw->buf, buf, swlim);

		while (swlim) {
		dead = hwsamples - live;
		left = hwsamples - wpos;
		blck = audio_MIN (dead, left);
		if (!blck) {
		/* dolog ("swlim=%d\n", swlim); */
		break;
		}
		isamp = swlim;
		osamp = blck;
		st_rate_flow (sw->rate, sw->buf + pos, sw->hw->mix_buf + wpos, &isamp, &osamp);
		ret += isamp;
		swlim -= isamp;
		pos += isamp;
		live += osamp;
		wpos = (wpos + osamp) % hwsamples;
		}

		sw->wpos = wpos;
		sw->live = live;
		return ret << sw->shift;
		}

		int pcm_hw_init (HWVoice *hw, int freq, int nchannels, audfmt_e fmt)
		{
		int sign = 0, bits = 8;

		pcm_hw_fini (hw);
		ldebug ("pcm_hw_init: %d %d %d\n", freq, nchannels, fmt);
		if (hw->pcm_ops->init (hw, freq, nchannels, fmt)) {
		memset (hw, 0, audio_state.drv->voice_size);
		return -1;
		}

		switch (hw->fmt) {
		case AUD_FMT_S8:
		sign = 1;
		case AUD_FMT_U8:
		break;

		case AUD_FMT_S16:
		sign = 1;
		case AUD_FMT_U16:
		bits = 16;
		break;
		}

		hw->nb_voices = 0;
		hw->active = 1;
		hw->shift = (hw->nchannels == 2) + (bits == 16);
		hw->bytes_per_second = hw->freq << hw->shift;
		hw->align = (1 << hw->shift) - 1;
		hw->samples = hw->bufsize >> hw->shift;
		hw->clip = mixeng_clip[hw->nchannels == 2][sign][bits == 16];
		if (pcm_hw_alloc_resources (hw)) {
		pcm_hw_fini (hw);
		return -1;
		}
		return 0;
		}

		static int dist (void *hw)
		{
		if (hw) {
		return (((uint8_t ) hw - (uint8_t ) hw_voice)
		/ audio_state.voice_size) + 1;
		}
		else {
		return 0;
		}
		}

		#define ADVANCE(hw) hw ? advance (hw, audio_state.voice_size) : hw_voice

		HWVoice pcm_hw_find_any (HWVoice hw)
		{
		int i = dist (hw);
		for (; i < audio_state.nb_hw_voices; i++) {
		hw = ADVANCE (hw);
		return hw;
		}
		return NULL;
		}

		HWVoice pcm_hw_find_any_active (HWVoice hw)
		{
		int i = dist (hw);
		for (; i < audio_state.nb_hw_voices; i++) {
		hw = ADVANCE (hw);
		if (hw->active)
		return hw;
		}
		return NULL;
		}

		HWVoice pcm_hw_find_any_active_enabled (HWVoice hw)
		{
		int i = dist (hw);
		for (; i < audio_state.nb_hw_voices; i++) {
		hw = ADVANCE (hw);
		if (hw->active && hw->enabled)
		return hw;
		}
		return NULL;
		}

		HWVoice pcm_hw_find_any_passive (HWVoice hw)
		{
		int i = dist (hw);
		for (; i < audio_state.nb_hw_voices; i++) {
		hw = ADVANCE (hw);
		if (!hw->active)
		return hw;
		}
		return NULL;
		}

		HWVoice pcm_hw_find_specific (HWVoice hw, int freq,
		int nchannels, audfmt_e fmt)
		{
		while ((hw = pcm_hw_find_any_active (hw))) {
		if (hw->freq == freq &&
		hw->nchannels == nchannels &&
		hw->fmt == fmt)
		return hw;
		}
		return NULL;
		}

		HWVoice *pcm_hw_add (int freq, int nchannels, audfmt_e fmt)
		{
		HWVoice *hw;

		if (audio_state.fixed_format) {
		freq = audio_state.fixed_freq;
		nchannels = audio_state.fixed_channels;
		fmt = audio_state.fixed_fmt;
		}

		hw = pcm_hw_find_specific (NULL, freq, nchannels, fmt);

		if (hw)
		return hw;

		hw = pcm_hw_find_any_passive (NULL);
		if (hw) {
		hw->pcm_ops = audio_state.drv->pcm_ops;
		if (!hw->pcm_ops)
		return NULL;

		if (pcm_hw_init (hw, freq, nchannels, fmt)) {
		pcm_hw_gc (hw);
		return NULL;
		}
		else
		return hw;
		}

		return pcm_hw_find_any (NULL);
		}

		int pcm_hw_add_sw (HWVoice hw, SWVoice sw)
		{
		SWVoice *pvoice = qemu_mallocz ((hw->nb_voices + 1) sizeof (sw));
		if (!pvoice)
		return -1;

		memcpy (pvoice, hw->pvoice, hw->nb_voices * sizeof (sw));
		qemu_free (hw->pvoice);
		hw->pvoice = pvoice;
		hw->pvoice[hw->nb_voices++] = sw;
		return 0;
		}

		int pcm_hw_del_sw (HWVoice hw, SWVoice sw)
		{
		int i, j;
		if (hw->nb_voices > 1) {
		SWVoice *pvoice = qemu_mallocz ((hw->nb_voices - 1) sizeof (sw));

		if (!pvoice) {
		dolog ("Can not maintain consistent state (not enough memory)\n");
		return -1;
		}

		for (i = 0, j = 0; i < hw->nb_voices; i++) {
		if (j >= hw->nb_voices - 1) {
		dolog ("Can not maintain consistent state "
		"(invariant violated)\n");
		return -1;
		}
		if (hw->pvoice[i] != sw)
		pvoice[j++] = hw->pvoice[i];
		}
		qemu_free (hw->pvoice);
		hw->pvoice = pvoice;
		hw->nb_voices -= 1;
		}
		else {
		qemu_free (hw->pvoice);
		hw->pvoice = NULL;
		hw->nb_voices = 0;
		}
		return 0;
		}

		SWVoice *pcm_create_voice_pair (int freq, int nchannels, audfmt_e fmt)
		{
		SWVoice *sw;
		HWVoice *hw;

		sw = qemu_mallocz (sizeof (*sw));
		if (!sw)
		goto err1;

		hw = pcm_hw_add (freq, nchannels, fmt);
		if (!hw)
		goto err2;

		if (pcm_hw_add_sw (hw, sw))
		goto err3;

		if (pcm_sw_init (sw, hw, freq, nchannels, fmt))
		goto err4;

		return sw;

		err4:
		pcm_hw_del_sw (hw, sw);
		err3:
		pcm_hw_gc (hw);
		err2:
		qemu_free (sw);
		err1:
		return NULL;
		}

		SWVoice AUD_open (SWVoice sw, const char *name,
		int freq, int nchannels, audfmt_e fmt)
		{
		if (!audio_state.drv) {
		return NULL;
		}

		if (sw && freq == sw->freq && sw->nchannels == nchannels && sw->fmt == fmt) {
		return sw;
		}

		if (sw) {
		ldebug ("Different format %s %d %d %d\n",
		name,
		sw->freq == freq,
		sw->nchannels == nchannels,
		sw->fmt == fmt);
		}

		if (nchannels != 1 && nchannels != 2) {
		dolog ("Bogus channel count %d for voice %s\n", nchannels, name);
		return NULL;
		}

		if (!audio_state.fixed_format && sw) {
		pcm_sw_fini (sw);
		pcm_hw_del_sw (sw->hw, sw);
		pcm_hw_gc (sw->hw);
		if (sw->name) {
		qemu_free (sw->name);
		sw->name = NULL;
		}
		qemu_free (sw);
		sw = NULL;
		}

		if (sw) {
		HWVoice *hw = sw->hw;
		if (!hw) {
		dolog ("Internal logic error voice %s has no hardware store\n",
		name);
		return sw;
		}

		if (pcm_sw_init (sw, hw, freq, nchannels, fmt)) {
		pcm_sw_fini (sw);
		pcm_hw_del_sw (hw, sw);
		pcm_hw_gc (hw);
		if (sw->name) {
		qemu_free (sw->name);
		sw->name = NULL;
		}
		qemu_free (sw);
		return NULL;
		}
		}
		else {
		sw = pcm_create_voice_pair (freq, nchannels, fmt);
		if (!sw) {
		dolog ("Failed to create voice %s\n", name);
		return NULL;
		}
		}

		if (sw->name) {
		qemu_free (sw->name);
		sw->name = NULL;
		}
		sw->name = qemu_strdup (name);
		return sw;
		}

		int AUD_write (SWVoice sw, void buf, int size)
		{
		int bytes;

		if (!sw->hw->enabled)
		dolog ("Writing to disabled voice %s\n", sw->name);
		bytes = sw->hw->pcm_ops->write (sw, buf, size);
		return bytes;
		}

		void AUD_run (void)
		{
		HWVoice *hw = NULL;

		while ((hw = pcm_hw_find_any_active_enabled (hw))) {
		int i;
		if (hw->pending_disable && pcm_hw_get_live (hw) <= 0) {
		hw->enabled = 0;
		hw->pcm_ops->ctl (hw, VOICE_DISABLE);
		for (i = 0; i < hw->nb_voices; i++) {
		hw->pvoice[i]->live = 0;
		/* hw->pvoice[i]->old_ticks = 0; */
		}
		continue;
		}

		hw->pcm_ops->run (hw);
		assert (hw->rpos < hw->samples);
		for (i = 0; i < hw->nb_voices; i++) {
		SWVoice *sw = hw->pvoice[i];
		if (!sw->active && !sw->live && sw->old_ticks) {
		int64_t delta = qemu_get_clock (vm_clock) - sw->old_ticks;
		if (delta > audio_state.ticks_threshold) {
		ldebug ("resetting old_ticks for %s\n", sw->name);
		sw->old_ticks = 0;
		}
		}
		}
		}
		}

		int AUD_get_free (SWVoice *sw)
		{
		int free;

		if (!sw)
		return 4096;

		free = ((sw->hw->samples - sw->live) << sw->hw->shift) * sw->ratio
		/ INT_MAX;

		free &= ~sw->hw->align;
		if (!free) return 0;

		return free;
		}

		int AUD_get_buffer_size (SWVoice *sw)
		{
		return sw->hw->bufsize;
		}

		void AUD_adjust (SWVoice *sw, int bytes)
		{
		if (!sw)
		return;
		sw->old_ticks += (ticks_per_sec * (int64_t) bytes) / sw->bytes_per_second;
		}

		void AUD_reset (SWVoice *sw)
		{
		sw->active = 0;
		sw->old_ticks = 0;
		}

		int AUD_calc_elapsed (SWVoice *sw)
		{
		int64_t now, delta, bytes;
		int dead, swlim;

		if (!sw)
		return 0;

		now = qemu_get_clock (vm_clock);
		delta = now - sw->old_ticks;
		bytes = (delta * sw->bytes_per_second) / ticks_per_sec;
		if (delta < 0) {
		dolog ("whoops delta(<0)=%lld\n", delta);
		return 0;
		}

		dead = sw->hw->samples - sw->live;
		swlim = ((dead * (int64_t) INT_MAX) / sw->ratio);

		if (bytes > swlim) {
		return swlim;
		}
		else {
		return bytes;
		}
		}

		void AUD_enable (SWVoice *sw, int on)
		{
		int i;
		HWVoice *hw;

		if (!sw)
		return;

		hw = sw->hw;
		if (on) {
		if (!sw->live)
		sw->wpos = sw->hw->rpos;
		if (!sw->old_ticks) {
		sw->old_ticks = qemu_get_clock (vm_clock);
		}
		}

		if (sw->active != on) {
		if (on) {
		hw->pending_disable = 0;
		if (!hw->enabled) {
		hw->enabled = 1;
		for (i = 0; i < hw->nb_voices; i++) {
		ldebug ("resetting voice\n");
		sw = hw->pvoice[i];
		sw->old_ticks = qemu_get_clock (vm_clock);
		}
		hw->pcm_ops->ctl (hw, VOICE_ENABLE);
		}
		}
		else {
		if (hw->enabled && !hw->pending_disable) {
		int nb_active = 0;
		for (i = 0; i < hw->nb_voices; i++) {
		nb_active += hw->pvoice[i]->active != 0;
		}

		if (nb_active == 1) {
		hw->pending_disable = 1;
		}
		}
		}
		sw->active = on;
		}
		}

		static struct audio_output_driver *drvtab[] = {
		#ifdef USE_OSS_AUDIO
		&oss_output_driver,
		#endif
		#ifdef USE_FMOD_AUDIO
		&fmod_output_driver,
		#endif
		#ifdef USE_SDL_AUDIO
		&sdl_output_driver,
		#endif
		#ifdef USE_WAV_AUDIO
		&wav_output_driver,
		#endif
		};

		static int voice_init (struct audio_output_driver *drv)
		{
		audio_state.opaque = drv->init ();
		if (audio_state.opaque) {
		if (audio_state.nb_hw_voices > drv->max_voices) {
		dolog ("`%s' does not support %d multiple hardware channels\n"
		"Resetting to %d\n",
		drv->name, audio_state.nb_hw_voices, drv->max_voices);
		audio_state.nb_hw_voices = drv->max_voices;
		}
		hw_voice = qemu_mallocz (audio_state.nb_hw_voices * drv->voice_size);
		if (hw_voice) {
		audio_state.drv = drv;
		return 1;
		}
		else {
		dolog ("Not enough memory for %d `%s' voices (each %d bytes)\n",
		audio_state.nb_hw_voices, drv->name, drv->voice_size);
		drv->fini (audio_state.opaque);
		return 0;
		}
		}
		else {
		dolog ("Could not init `%s' audio\n", drv->name);
		return 0;
		}
		}

		static void audio_vm_stop_handler (void *opaque, int reason)
		{
		HWVoice *hw = NULL;

		while ((hw = pcm_hw_find_any (hw))) {
		if (!hw->pcm_ops)
		continue;

		hw->pcm_ops->ctl (hw, reason ? VOICE_ENABLE : VOICE_DISABLE);
		}
		}

		static void audio_atexit (void)
		{
		HWVoice *hw = NULL;

		while ((hw = pcm_hw_find_any (hw))) {
		if (!hw->pcm_ops)
		continue;

		hw->pcm_ops->ctl (hw, VOICE_DISABLE);
		hw->pcm_ops->fini (hw);
		}
		audio_state.drv->fini (audio_state.opaque);
		}

		static void audio_save (QEMUFile f, void opaque)
		{
		}

		static int audio_load (QEMUFile f, void opaque, int version_id)
		{
		if (version_id != 1)
		return -EINVAL;

		return 0;
		}

		void AUD_init (void)
		{
		int i;
		int done = 0;
		const char *drvname;

		audio_state.fixed_format =
		!!audio_get_conf_int (QC_FIXED_FORMAT, audio_state.fixed_format);
		audio_state.fixed_freq =
		audio_get_conf_int (QC_FIXED_FREQ, audio_state.fixed_freq);
		audio_state.nb_hw_voices =
		audio_get_conf_int (QC_VOICES, audio_state.nb_hw_voices);

		if (audio_state.nb_hw_voices <= 0) {
		dolog ("Bogus number of voices %d, resetting to 1\n",
		audio_state.nb_hw_voices);
		}

		drvname = audio_get_conf_str (QC_AUDIO_DRV, NULL);
		if (drvname) {
		int found = 0;
		for (i = 0; i < sizeof (drvtab) / sizeof (drvtab[0]); i++) {
		if (!strcmp (drvname, drvtab[i]->name)) {
		done = voice_init (drvtab[i]);
		found = 1;
		break;
		}
		}
		if (!found) {
		dolog ("Unknown audio driver `%s'\n", drvname);
		}
		}

		qemu_add_vm_stop_handler (audio_vm_stop_handler, NULL);
		atexit (audio_atexit);

		if (!done) {
		for (i = 0; !done && i < sizeof (drvtab) / sizeof (drvtab[0]); i++) {
		if (drvtab[i]->can_be_default)
		done = voice_init (drvtab[i]);
		}
		}

		audio_state.ticks_threshold = ticks_per_sec / 50;
		audio_state.freq_threshold = 100;

		register_savevm ("audio", 0, 1, audio_save, audio_load, NULL);
		if (!done) {
		dolog ("Can not initialize audio subsystem\n");
		return;
		}

		for (i = 0; hw_ctors[i]; i++) {
		hw_ctors[i] ();
		}
		}

audio/audio.h

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audio/fmodaudio.c

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audio/fmodaudio.h

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