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|
/* $Id: DrvHostAudioPulseAudio.cpp $ */
/** @file
* Host audio driver - Pulse Audio.
*/
/*
* Copyright (C) 2006-2022 Oracle and/or its affiliates.
*
* This file is part of VirtualBox base platform packages, as
* available from https://www.virtualbox.org.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation, in version 3 of the
* License.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, see <https://www.gnu.org/licenses>.
*
* SPDX-License-Identifier: GPL-3.0-only
*/
/*********************************************************************************************************************************
* Header Files *
*********************************************************************************************************************************/
#define LOG_GROUP LOG_GROUP_DRV_HOST_AUDIO
#include <VBox/log.h>
#include <VBox/vmm/pdmaudioifs.h>
#include <VBox/vmm/pdmaudioinline.h>
#include <VBox/vmm/pdmaudiohostenuminline.h>
#include <stdio.h>
#include <iprt/alloc.h>
#include <iprt/mem.h>
#include <iprt/uuid.h>
#include <iprt/semaphore.h>
#include "DrvHostAudioPulseAudioStubsMangling.h"
#include "DrvHostAudioPulseAudioStubs.h"
#include <pulse/pulseaudio.h>
#ifndef PA_STREAM_NOFLAGS
# define PA_STREAM_NOFLAGS (pa_context_flags_t)0x0000U /* since 0.9.19 */
#endif
#ifndef PA_CONTEXT_NOFLAGS
# define PA_CONTEXT_NOFLAGS (pa_context_flags_t)0x0000U /* since 0.9.19 */
#endif
#include "VBoxDD.h"
/*********************************************************************************************************************************
* Defines *
*********************************************************************************************************************************/
/** Max number of errors reported by drvHstAudPaError per instance.
* @todo Make this configurable thru driver config. */
#define VBOX_PULSEAUDIO_MAX_LOG_REL_ERRORS 99
/** @name DRVHSTAUDPAENUMCB_F_XXX
* @{ */
/** No flags specified. */
#define DRVHSTAUDPAENUMCB_F_NONE 0
/** (Release) log found devices. */
#define DRVHSTAUDPAENUMCB_F_LOG RT_BIT(0)
/** Only do default devices. */
#define DRVHSTAUDPAENUMCB_F_DEFAULT_ONLY RT_BIT(1)
/** @} */
/*********************************************************************************************************************************
* Structures *
*********************************************************************************************************************************/
/** Pointer to the instance data for a pulse audio host audio driver. */
typedef struct DRVHSTAUDPA *PDRVHSTAUDPA;
/**
* Callback context for the server init context state changed callback.
*/
typedef struct DRVHSTAUDPASTATECHGCTX
{
/** The event semaphore. */
RTSEMEVENT hEvtInit;
/** The returned context state. */
pa_context_state_t volatile enmCtxState;
} DRVHSTAUDPASTATECHGCTX;
/** Pointer to a server init context state changed callback context. */
typedef DRVHSTAUDPASTATECHGCTX *PDRVHSTAUDPASTATECHGCTX;
/**
* Enumeration callback context used by the pfnGetConfig code.
*/
typedef struct DRVHSTAUDPAENUMCBCTX
{
/** Pointer to PulseAudio's threaded main loop. */
pa_threaded_mainloop *pMainLoop;
/** Enumeration flags, DRVHSTAUDPAENUMCB_F_XXX. */
uint32_t fFlags;
/** VBox status code for the operation.
* The caller sets this to VERR_AUDIO_ENUMERATION_FAILED, the callback never
* uses that status code. */
int32_t rcEnum;
/** Name of default sink being used. Must be free'd using RTStrFree(). */
char *pszDefaultSink;
/** Name of default source being used. Must be free'd using RTStrFree(). */
char *pszDefaultSource;
/** The device enumeration to fill, NULL if pfnGetConfig context. */
PPDMAUDIOHOSTENUM pDeviceEnum;
} DRVHSTAUDPAENUMCBCTX;
/** Pointer to an enumeration callback context. */
typedef DRVHSTAUDPAENUMCBCTX *PDRVHSTAUDPAENUMCBCTX;
/**
* Pulse audio device enumeration entry.
*/
typedef struct DRVHSTAUDPADEVENTRY
{
/** The part we share with others. */
PDMAUDIOHOSTDEV Core;
} DRVHSTAUDPADEVENTRY;
/** Pointer to a pulse audio device enumeration entry. */
typedef DRVHSTAUDPADEVENTRY *PDRVHSTAUDPADEVENTRY;
/**
* Pulse audio stream data.
*/
typedef struct DRVHSTAUDPASTREAM
{
/** Common part. */
PDMAUDIOBACKENDSTREAM Core;
/** The stream's acquired configuration. */
PDMAUDIOSTREAMCFG Cfg;
/** Pointer to driver instance. */
PDRVHSTAUDPA pDrv;
/** Pointer to opaque PulseAudio stream. */
pa_stream *pStream;
/** Input: Pointer to Pulse sample peek buffer. */
const uint8_t *pbPeekBuf;
/** Input: Current size (in bytes) of peeked data in buffer. */
size_t cbPeekBuf;
/** Input: Our offset (in bytes) in peek data buffer. */
size_t offPeekBuf;
/** Output: Asynchronous drain operation. This is used as an indicator of
* whether we're currently draining the stream (will be cleaned up before
* resume/re-enable). */
pa_operation *pDrainOp;
/** Asynchronous cork/uncork operation.
* (This solely for cancelling before destroying the stream, so the callback
* won't do any after-freed accesses.) */
pa_operation *pCorkOp;
/** Asynchronous trigger operation.
* (This solely for cancelling before destroying the stream, so the callback
* won't do any after-freed accesses.) */
pa_operation *pTriggerOp;
/** Internal byte offset. */
uint64_t offInternal;
#ifdef LOG_ENABLED
/** Creation timestamp (in microsecs) of stream playback / recording. */
pa_usec_t tsStartUs;
/** Timestamp (in microsecs) when last read from / written to the stream. */
pa_usec_t tsLastReadWrittenUs;
#endif
/** Number of occurred audio data underflows. */
uint32_t cUnderflows;
/** Pulse sample format and attribute specification. */
pa_sample_spec SampleSpec;
/** Channel map. */
pa_channel_map ChannelMap;
/** Pulse playback and buffer metrics. */
pa_buffer_attr BufAttr;
} DRVHSTAUDPASTREAM;
/** Pointer to pulse audio stream data. */
typedef DRVHSTAUDPASTREAM *PDRVHSTAUDPASTREAM;
/**
* Pulse audio host audio driver instance data.
* @implements PDMIAUDIOCONNECTOR
*/
typedef struct DRVHSTAUDPA
{
/** Pointer to the driver instance structure. */
PPDMDRVINS pDrvIns;
/** Pointer to PulseAudio's threaded main loop. */
pa_threaded_mainloop *pMainLoop;
/**
* Pointer to our PulseAudio context.
* @note We use a pMainLoop in a separate thread (pContext).
* So either use callback functions or protect these functions
* by pa_threaded_mainloop_lock() / pa_threaded_mainloop_unlock().
*/
pa_context *pContext;
/** Shutdown indicator. */
volatile bool fAbortLoop;
/** Error count for not flooding the release log.
* Specify UINT32_MAX for unlimited logging. */
uint32_t cLogErrors;
/** Don't want to put this on the stack... */
DRVHSTAUDPASTATECHGCTX InitStateChgCtx;
/** Pointer to host audio interface. */
PDMIHOSTAUDIO IHostAudio;
/** Upwards notification interface. */
PPDMIHOSTAUDIOPORT pIHostAudioPort;
/** The stream (base) name.
* This is needed for distinguishing streams in the PulseAudio mixer controls if
* multiple VMs are running at the same time. */
char szStreamName[64];
/** The name of the input device to use. Empty string for default. */
char szInputDev[256];
/** The name of the output device to use. Empty string for default. */
char szOutputDev[256];
/** Number of buffer underruns (for all streams). */
STAMCOUNTER StatUnderruns;
/** Number of buffer overruns (for all streams). */
STAMCOUNTER StatOverruns;
} DRVHSTAUDPA;
/*
* Glue to make the code work systems with PulseAudio < 0.9.11.
*/
#if !defined(PA_CONTEXT_IS_GOOD) && PA_API_VERSION < 12 /* 12 = 0.9.11 where PA_STREAM_IS_GOOD was added */
DECLINLINE(bool) PA_CONTEXT_IS_GOOD(pa_context_state_t enmState)
{
return enmState == PA_CONTEXT_CONNECTING
|| enmState == PA_CONTEXT_AUTHORIZING
|| enmState == PA_CONTEXT_SETTING_NAME
|| enmState == PA_CONTEXT_READY;
}
#endif
#if !defined(PA_STREAM_IS_GOOD) && PA_API_VERSION < 12 /* 12 = 0.9.11 where PA_STREAM_IS_GOOD was added */
DECLINLINE(bool) PA_STREAM_IS_GOOD(pa_stream_state_t enmState)
{
return enmState == PA_STREAM_CREATING
|| enmState == PA_STREAM_READY;
}
#endif
/**
* Converts a pulse audio error to a VBox status.
*
* @returns VBox status code.
* @param rcPa The error code to convert.
*/
static int drvHstAudPaErrorToVBox(int rcPa)
{
/** @todo Implement some PulseAudio -> VBox mapping here. */
RT_NOREF(rcPa);
return VERR_GENERAL_FAILURE;
}
/**
* Logs a pulse audio (from context) and converts it to VBox status.
*
* @returns VBox status code.
* @param pThis Our instance data.
* @param pszFormat The format string for the release log (no newline) .
* @param ... Format string arguments.
*/
static int drvHstAudPaError(PDRVHSTAUDPA pThis, const char *pszFormat, ...)
{
AssertPtrReturn(pThis, VERR_INVALID_POINTER);
AssertPtr(pszFormat);
int const rcPa = pa_context_errno(pThis->pContext);
int const rcVBox = drvHstAudPaErrorToVBox(rcPa);
if ( pThis->cLogErrors < VBOX_PULSEAUDIO_MAX_LOG_REL_ERRORS
&& LogRelIs2Enabled())
{
va_list va;
va_start(va, pszFormat);
LogRel(("PulseAudio: %N: %s (%d, %Rrc)\n", pszFormat, &va, pa_strerror(rcPa), rcPa, rcVBox));
va_end(va);
if (++pThis->cLogErrors == VBOX_PULSEAUDIO_MAX_LOG_REL_ERRORS)
LogRel(("PulseAudio: muting errors (max %u)\n", VBOX_PULSEAUDIO_MAX_LOG_REL_ERRORS));
}
return rcVBox;
}
/**
* Signal the main loop to abort. Just signalling isn't sufficient as the
* mainloop might not have been entered yet.
*/
static void drvHstAudPaSignalWaiter(PDRVHSTAUDPA pThis)
{
if (pThis)
{
pThis->fAbortLoop = true;
pa_threaded_mainloop_signal(pThis->pMainLoop, 0);
}
}
/**
* Wrapper around pa_threaded_mainloop_wait().
*/
static void drvHstAudPaMainloopWait(PDRVHSTAUDPA pThis)
{
/** @todo r=bird: explain this logic. */
if (!pThis->fAbortLoop)
pa_threaded_mainloop_wait(pThis->pMainLoop);
pThis->fAbortLoop = false;
}
/**
* Pulse audio callback for context status changes, init variant.
*/
static void drvHstAudPaCtxCallbackStateChanged(pa_context *pCtx, void *pvUser)
{
AssertPtrReturnVoid(pCtx);
PDRVHSTAUDPA pThis = (PDRVHSTAUDPA)pvUser;
AssertPtrReturnVoid(pThis);
switch (pa_context_get_state(pCtx))
{
case PA_CONTEXT_READY:
case PA_CONTEXT_TERMINATED:
case PA_CONTEXT_FAILED:
drvHstAudPaSignalWaiter(pThis);
break;
default:
break;
}
}
/**
* Synchronously wait until an operation completed.
*
* This will consume the pOperation reference.
*/
static int drvHstAudPaWaitForEx(PDRVHSTAUDPA pThis, pa_operation *pOperation, RTMSINTERVAL cMsTimeout)
{
AssertPtrReturn(pOperation, VERR_INVALID_POINTER);
uint64_t const msStart = RTTimeMilliTS();
pa_operation_state_t enmOpState;
while ((enmOpState = pa_operation_get_state(pOperation)) == PA_OPERATION_RUNNING)
{
if (!pThis->fAbortLoop) /** @todo r=bird: I do _not_ get the logic behind this fAbortLoop mechanism, it looks more
* than a little mixed up and too much generalized see drvHstAudPaSignalWaiter. */
{
AssertPtr(pThis->pMainLoop);
pa_threaded_mainloop_wait(pThis->pMainLoop);
if ( !pThis->pContext
|| pa_context_get_state(pThis->pContext) != PA_CONTEXT_READY)
{
pa_operation_cancel(pOperation);
pa_operation_unref(pOperation);
LogRel(("PulseAudio: pa_context_get_state context not ready\n"));
return VERR_INVALID_STATE;
}
}
pThis->fAbortLoop = false;
/*
* Note! This timeout business is a bit bogus as pa_threaded_mainloop_wait is indefinite.
*/
if (RTTimeMilliTS() - msStart >= cMsTimeout)
{
enmOpState = pa_operation_get_state(pOperation);
if (enmOpState != PA_OPERATION_RUNNING)
break;
pa_operation_cancel(pOperation);
pa_operation_unref(pOperation);
return VERR_TIMEOUT;
}
}
pa_operation_unref(pOperation);
if (enmOpState == PA_OPERATION_DONE)
return VINF_SUCCESS;
return VERR_CANCELLED;
}
static int drvHstAudPaWaitFor(PDRVHSTAUDPA pThis, pa_operation *pOP)
{
return drvHstAudPaWaitForEx(pThis, pOP, 10 * RT_MS_1SEC);
}
/*********************************************************************************************************************************
* PDMIHOSTAUDIO *
*********************************************************************************************************************************/
/**
* Worker for drvHstAudPaEnumSourceCallback() and
* drvHstAudPaEnumSinkCallback() that adds an entry to the enumeration
* result.
*/
static void drvHstAudPaEnumAddDevice(PDRVHSTAUDPAENUMCBCTX pCbCtx, PDMAUDIODIR enmDir, const char *pszName,
const char *pszDesc, uint8_t cChannelsInput, uint8_t cChannelsOutput,
const char *pszDefaultName)
{
size_t const cbId = strlen(pszName) + 1;
size_t const cbName = pszDesc && *pszDesc ? strlen(pszDesc) + 1 : cbId;
PDRVHSTAUDPADEVENTRY pDev = (PDRVHSTAUDPADEVENTRY)PDMAudioHostDevAlloc(sizeof(*pDev), cbName, cbId);
if (pDev != NULL)
{
pDev->Core.enmUsage = enmDir;
pDev->Core.enmType = RTStrIStr(pszDesc, "built-in") != NULL
? PDMAUDIODEVICETYPE_BUILTIN : PDMAUDIODEVICETYPE_UNKNOWN;
if (RTStrCmp(pszName, pszDefaultName) != 0)
pDev->Core.fFlags = PDMAUDIOHOSTDEV_F_NONE;
else
pDev->Core.fFlags = enmDir == PDMAUDIODIR_IN ? PDMAUDIOHOSTDEV_F_DEFAULT_IN : PDMAUDIOHOSTDEV_F_DEFAULT_OUT;
pDev->Core.cMaxInputChannels = cChannelsInput;
pDev->Core.cMaxOutputChannels = cChannelsOutput;
int rc = RTStrCopy(pDev->Core.pszId, cbId, pszName);
AssertRC(rc);
rc = RTStrCopy(pDev->Core.pszName, cbName, pszDesc && *pszDesc ? pszDesc : pszName);
AssertRC(rc);
PDMAudioHostEnumAppend(pCbCtx->pDeviceEnum, &pDev->Core);
}
else
pCbCtx->rcEnum = VERR_NO_MEMORY;
}
/**
* Enumeration callback - source info.
*
* @param pCtx The context (DRVHSTAUDPA::pContext).
* @param pInfo The info. NULL when @a eol is not zero.
* @param eol Error-or-last indicator or something like that:
* - 0: Normal call with info.
* - 1: End of list, no info.
* - -1: Error callback, no info.
* @param pvUserData Pointer to our DRVHSTAUDPAENUMCBCTX structure.
*/
static void drvHstAudPaEnumSourceCallback(pa_context *pCtx, const pa_source_info *pInfo, int eol, void *pvUserData)
{
LogFlowFunc(("pCtx=%p pInfo=%p eol=%d pvUserData=%p\n", pCtx, pInfo, eol, pvUserData));
PDRVHSTAUDPAENUMCBCTX pCbCtx = (PDRVHSTAUDPAENUMCBCTX)pvUserData;
AssertPtrReturnVoid(pCbCtx);
Assert((pInfo == NULL) == (eol != 0));
RT_NOREF(pCtx);
if (eol == 0 && pInfo != NULL)
{
LogRel2(("PulseAudio: Source #%u: %u Hz %uch format=%u name='%s' desc='%s' driver='%s' flags=%#x\n",
pInfo->index, pInfo->sample_spec.rate, pInfo->sample_spec.channels, pInfo->sample_spec.format,
pInfo->name, pInfo->description, pInfo->driver, pInfo->flags));
drvHstAudPaEnumAddDevice(pCbCtx, PDMAUDIODIR_IN, pInfo->name, pInfo->description,
pInfo->sample_spec.channels, 0 /*cChannelsOutput*/, pCbCtx->pszDefaultSource);
}
else if (eol == 1 && !pInfo && pCbCtx->rcEnum == VERR_AUDIO_ENUMERATION_FAILED)
pCbCtx->rcEnum = VINF_SUCCESS;
/* Wake up the calling thread when done: */
if (eol != 0)
pa_threaded_mainloop_signal(pCbCtx->pMainLoop, 0);
}
/**
* Enumeration callback - sink info.
*
* @param pCtx The context (DRVHSTAUDPA::pContext).
* @param pInfo The info. NULL when @a eol is not zero.
* @param eol Error-or-last indicator or something like that:
* - 0: Normal call with info.
* - 1: End of list, no info.
* - -1: Error callback, no info.
* @param pvUserData Pointer to our DRVHSTAUDPAENUMCBCTX structure.
*/
static void drvHstAudPaEnumSinkCallback(pa_context *pCtx, const pa_sink_info *pInfo, int eol, void *pvUserData)
{
LogFlowFunc(("pCtx=%p pInfo=%p eol=%d pvUserData=%p\n", pCtx, pInfo, eol, pvUserData));
PDRVHSTAUDPAENUMCBCTX pCbCtx = (PDRVHSTAUDPAENUMCBCTX)pvUserData;
AssertPtrReturnVoid(pCbCtx);
Assert((pInfo == NULL) == (eol != 0));
RT_NOREF(pCtx);
if (eol == 0 && pInfo != NULL)
{
LogRel2(("PulseAudio: Sink #%u: %u Hz %uch format=%u name='%s' desc='%s' driver='%s' flags=%#x\n",
pInfo->index, pInfo->sample_spec.rate, pInfo->sample_spec.channels, pInfo->sample_spec.format,
pInfo->name, pInfo->description, pInfo->driver, pInfo->flags));
drvHstAudPaEnumAddDevice(pCbCtx, PDMAUDIODIR_OUT, pInfo->name, pInfo->description,
0 /*cChannelsInput*/, pInfo->sample_spec.channels, pCbCtx->pszDefaultSink);
}
else if (eol == 1 && !pInfo && pCbCtx->rcEnum == VERR_AUDIO_ENUMERATION_FAILED)
pCbCtx->rcEnum = VINF_SUCCESS;
/* Wake up the calling thread when done: */
if (eol != 0)
pa_threaded_mainloop_signal(pCbCtx->pMainLoop, 0);
}
/**
* Enumeration callback - service info.
*
* Copy down the default names.
*/
static void drvHstAudPaEnumServerCallback(pa_context *pCtx, const pa_server_info *pInfo, void *pvUserData)
{
LogFlowFunc(("pCtx=%p pInfo=%p pvUserData=%p\n", pCtx, pInfo, pvUserData));
PDRVHSTAUDPAENUMCBCTX pCbCtx = (PDRVHSTAUDPAENUMCBCTX)pvUserData;
AssertPtrReturnVoid(pCbCtx);
RT_NOREF(pCtx);
if (pInfo)
{
LogRel2(("PulseAudio: Server info: user=%s host=%s ver=%s name=%s defsink=%s defsrc=%s spec: %d %uHz %uch\n",
pInfo->user_name, pInfo->host_name, pInfo->server_version, pInfo->server_name,
pInfo->default_sink_name, pInfo->default_source_name,
pInfo->sample_spec.format, pInfo->sample_spec.rate, pInfo->sample_spec.channels));
Assert(!pCbCtx->pszDefaultSink);
Assert(!pCbCtx->pszDefaultSource);
Assert(pCbCtx->rcEnum == VERR_AUDIO_ENUMERATION_FAILED);
pCbCtx->rcEnum = VINF_SUCCESS;
if (pInfo->default_sink_name)
{
Assert(RTStrIsValidEncoding(pInfo->default_sink_name));
pCbCtx->pszDefaultSink = RTStrDup(pInfo->default_sink_name);
AssertStmt(pCbCtx->pszDefaultSink, pCbCtx->rcEnum = VERR_NO_STR_MEMORY);
}
if (pInfo->default_source_name)
{
Assert(RTStrIsValidEncoding(pInfo->default_source_name));
pCbCtx->pszDefaultSource = RTStrDup(pInfo->default_source_name);
AssertStmt(pCbCtx->pszDefaultSource, pCbCtx->rcEnum = VERR_NO_STR_MEMORY);
}
}
else
pCbCtx->rcEnum = VERR_INVALID_POINTER;
pa_threaded_mainloop_signal(pCbCtx->pMainLoop, 0);
}
/**
* @note Called with the PA main loop locked.
*/
static int drvHstAudPaEnumerate(PDRVHSTAUDPA pThis, uint32_t fEnum, PPDMAUDIOHOSTENUM pDeviceEnum)
{
DRVHSTAUDPAENUMCBCTX CbCtx = { pThis->pMainLoop, fEnum, VERR_AUDIO_ENUMERATION_FAILED, NULL, NULL, pDeviceEnum };
bool const fLog = (fEnum & DRVHSTAUDPAENUMCB_F_LOG);
bool const fOnlyDefault = (fEnum & DRVHSTAUDPAENUMCB_F_DEFAULT_ONLY);
int rc;
/*
* Check if server information is available and bail out early if it isn't.
* This should give us a default (playback) sink and (recording) source.
*/
LogRel(("PulseAudio: Retrieving server information ...\n"));
CbCtx.rcEnum = VERR_AUDIO_ENUMERATION_FAILED;
pa_operation *paOpServerInfo = pa_context_get_server_info(pThis->pContext, drvHstAudPaEnumServerCallback, &CbCtx);
if (paOpServerInfo)
rc = drvHstAudPaWaitFor(pThis, paOpServerInfo);
else
{
LogRel(("PulseAudio: Server information not available, skipping enumeration.\n"));
return VINF_SUCCESS;
}
if (RT_SUCCESS(rc))
rc = CbCtx.rcEnum;
if (RT_FAILURE(rc))
{
if (fLog)
LogRel(("PulseAudio: Error enumerating PulseAudio server properties: %Rrc\n", rc));
return rc;
}
/*
* Get info about the playback sink.
*/
if (fLog && CbCtx.pszDefaultSink)
LogRel2(("PulseAudio: Default output sink is '%s'\n", CbCtx.pszDefaultSink));
else if (fLog)
LogRel2(("PulseAudio: No default output sink found\n"));
if (CbCtx.pszDefaultSink || !fOnlyDefault)
{
CbCtx.rcEnum = VERR_AUDIO_ENUMERATION_FAILED;
if (!fOnlyDefault)
rc = drvHstAudPaWaitFor(pThis,
pa_context_get_sink_info_list(pThis->pContext, drvHstAudPaEnumSinkCallback, &CbCtx));
else
rc = drvHstAudPaWaitFor(pThis, pa_context_get_sink_info_by_name(pThis->pContext, CbCtx.pszDefaultSink,
drvHstAudPaEnumSinkCallback, &CbCtx));
if (RT_SUCCESS(rc))
rc = CbCtx.rcEnum;
if (fLog && RT_FAILURE(rc))
LogRel(("PulseAudio: Error enumerating properties for default output sink '%s': %Rrc\n",
CbCtx.pszDefaultSink, rc));
}
/*
* Get info about the recording source.
*/
if (fLog && CbCtx.pszDefaultSource)
LogRel2(("PulseAudio: Default input source is '%s'\n", CbCtx.pszDefaultSource));
else if (fLog)
LogRel2(("PulseAudio: No default input source found\n"));
if (CbCtx.pszDefaultSource || !fOnlyDefault)
{
CbCtx.rcEnum = VERR_AUDIO_ENUMERATION_FAILED;
int rc2;
if (!fOnlyDefault)
rc2 = drvHstAudPaWaitFor(pThis, pa_context_get_source_info_list(pThis->pContext,
drvHstAudPaEnumSourceCallback, &CbCtx));
else
rc2 = drvHstAudPaWaitFor(pThis, pa_context_get_source_info_by_name(pThis->pContext, CbCtx.pszDefaultSource,
drvHstAudPaEnumSourceCallback, &CbCtx));
if (RT_SUCCESS(rc2))
rc2 = CbCtx.rcEnum;
if (fLog && RT_FAILURE(rc2))
LogRel(("PulseAudio: Error enumerating properties for default input source '%s': %Rrc\n",
CbCtx.pszDefaultSource, rc));
if (RT_SUCCESS(rc))
rc = rc2;
}
/* clean up */
RTStrFree(CbCtx.pszDefaultSink);
RTStrFree(CbCtx.pszDefaultSource);
LogFlowFuncLeaveRC(rc);
return rc;
}
/**
* @interface_method_impl{PDMIHOSTAUDIO,pfnGetConfig}
*/
static DECLCALLBACK(int) drvHstAudPaHA_GetConfig(PPDMIHOSTAUDIO pInterface, PPDMAUDIOBACKENDCFG pBackendCfg)
{
PDRVHSTAUDPA pThis = RT_FROM_MEMBER(pInterface, DRVHSTAUDPA, IHostAudio);
AssertPtrReturn(pBackendCfg, VERR_INVALID_POINTER);
/*
* The configuration.
*/
RTStrCopy(pBackendCfg->szName, sizeof(pBackendCfg->szName), "PulseAudio");
pBackendCfg->cbStream = sizeof(DRVHSTAUDPASTREAM);
pBackendCfg->fFlags = 0;
pBackendCfg->cMaxStreamsOut = UINT32_MAX;
pBackendCfg->cMaxStreamsIn = UINT32_MAX;
#if 0
/*
* In case we want to gather info about default devices, we can do this:
*/
PDMAUDIOHOSTENUM DeviceEnum;
PDMAudioHostEnumInit(&DeviceEnum);
pa_threaded_mainloop_lock(pThis->pMainLoop);
int rc = drvHstAudPaEnumerate(pThis, DRVHSTAUDPAENUMCB_F_DEFAULT_ONLY | DRVHSTAUDPAENUMCB_F_LOG, &DeviceEnum);
pa_threaded_mainloop_unlock(pThis->pMainLoop);
AssertRCReturn(rc, rc);
/** @todo do stuff with DeviceEnum. */
PDMAudioHostEnumDelete(&DeviceEnum);
#else
RT_NOREF(pThis);
#endif
return VINF_SUCCESS;
}
/**
* @interface_method_impl{PDMIHOSTAUDIO,pfnGetDevices}
*/
static DECLCALLBACK(int) drvHstAudPaHA_GetDevices(PPDMIHOSTAUDIO pInterface, PPDMAUDIOHOSTENUM pDeviceEnum)
{
PDRVHSTAUDPA pThis = RT_FROM_MEMBER(pInterface, DRVHSTAUDPA, IHostAudio);
AssertPtrReturn(pDeviceEnum, VERR_INVALID_POINTER);
PDMAudioHostEnumInit(pDeviceEnum);
/* Refine it or something (currently only some LogRel2 stuff): */
pa_threaded_mainloop_lock(pThis->pMainLoop);
int rc = drvHstAudPaEnumerate(pThis, DRVHSTAUDPAENUMCB_F_NONE, pDeviceEnum);
pa_threaded_mainloop_unlock(pThis->pMainLoop);
return rc;
}
/**
* @interface_method_impl{PDMIHOSTAUDIO,pfnSetDevice}
*/
static DECLCALLBACK(int) drvHstAudPaHA_SetDevice(PPDMIHOSTAUDIO pInterface, PDMAUDIODIR enmDir, const char *pszId)
{
PDRVHSTAUDPA pThis = RT_FROM_MEMBER(pInterface, DRVHSTAUDPA, IHostAudio);
/*
* Validate and normalize input.
*/
AssertReturn(enmDir == PDMAUDIODIR_IN || enmDir == PDMAUDIODIR_OUT || enmDir == PDMAUDIODIR_DUPLEX, VERR_INVALID_PARAMETER);
AssertPtrNullReturn(pszId, VERR_INVALID_POINTER);
if (!pszId || !*pszId)
pszId = "";
else
{
size_t cch = strlen(pszId);
AssertReturn(cch < sizeof(pThis->szInputDev), VERR_INVALID_NAME);
}
LogFunc(("enmDir=%d pszId=%s\n", enmDir, pszId));
/*
* Update input.
*/
if (enmDir == PDMAUDIODIR_IN || enmDir == PDMAUDIODIR_DUPLEX)
{
pa_threaded_mainloop_lock(pThis->pMainLoop);
if (strcmp(pThis->szInputDev, pszId) == 0)
pa_threaded_mainloop_unlock(pThis->pMainLoop);
else
{
LogRel(("PulseAudio: Changing input device: '%s' -> '%s'\n", pThis->szInputDev, pszId));
RTStrCopy(pThis->szInputDev, sizeof(pThis->szInputDev), pszId);
PPDMIHOSTAUDIOPORT pIHostAudioPort = pThis->pIHostAudioPort;
pa_threaded_mainloop_unlock(pThis->pMainLoop);
if (pIHostAudioPort)
{
LogFlowFunc(("Notifying parent driver about input device change...\n"));
pIHostAudioPort->pfnNotifyDeviceChanged(pIHostAudioPort, PDMAUDIODIR_IN, NULL /*pvUser*/);
}
}
}
/*
* Update output.
*/
if (enmDir == PDMAUDIODIR_OUT || enmDir == PDMAUDIODIR_DUPLEX)
{
pa_threaded_mainloop_lock(pThis->pMainLoop);
if (strcmp(pThis->szOutputDev, pszId) == 0)
pa_threaded_mainloop_unlock(pThis->pMainLoop);
else
{
LogRel(("PulseAudio: Changing output device: '%s' -> '%s'\n", pThis->szOutputDev, pszId));
RTStrCopy(pThis->szOutputDev, sizeof(pThis->szOutputDev), pszId);
PPDMIHOSTAUDIOPORT pIHostAudioPort = pThis->pIHostAudioPort;
pa_threaded_mainloop_unlock(pThis->pMainLoop);
if (pIHostAudioPort)
{
LogFlowFunc(("Notifying parent driver about output device change...\n"));
pIHostAudioPort->pfnNotifyDeviceChanged(pIHostAudioPort, PDMAUDIODIR_OUT, NULL /*pvUser*/);
}
}
}
return VINF_SUCCESS;
}
/**
* @interface_method_impl{PDMIHOSTAUDIO,pfnGetStatus}
*/
static DECLCALLBACK(PDMAUDIOBACKENDSTS) drvHstAudPaHA_GetStatus(PPDMIHOSTAUDIO pInterface, PDMAUDIODIR enmDir)
{
RT_NOREF(pInterface, enmDir);
return PDMAUDIOBACKENDSTS_RUNNING;
}
/**
* Stream status changed.
*/
static void drvHstAudPaStreamStateChangedCallback(pa_stream *pStream, void *pvUser)
{
AssertPtrReturnVoid(pStream);
PDRVHSTAUDPA pThis = (PDRVHSTAUDPA)pvUser;
AssertPtrReturnVoid(pThis);
switch (pa_stream_get_state(pStream))
{
case PA_STREAM_READY:
case PA_STREAM_FAILED:
case PA_STREAM_TERMINATED:
drvHstAudPaSignalWaiter(pThis);
break;
default:
break;
}
}
/**
* Underflow notification.
*/
static void drvHstAudPaStreamUnderflowStatsCallback(pa_stream *pStream, void *pvContext)
{
PDRVHSTAUDPASTREAM pStreamPA = (PDRVHSTAUDPASTREAM)pvContext;
AssertPtrReturnVoid(pStreamPA);
AssertPtrReturnVoid(pStreamPA->pDrv);
/* This may happen when draining/corking, so don't count those. */
if (!pStreamPA->pDrainOp)
STAM_REL_COUNTER_INC(&pStreamPA->pDrv->StatUnderruns);
pStreamPA->cUnderflows++;
LogRel2(("PulseAudio: Warning: Hit underflow #%RU32%s%s\n", pStreamPA->cUnderflows,
pStreamPA->pDrainOp && pa_operation_get_state(pStreamPA->pDrainOp) == PA_OPERATION_RUNNING ? " (draining)" : "",
pStreamPA->pCorkOp && pa_operation_get_state(pStreamPA->pCorkOp) == PA_OPERATION_RUNNING ? " (corking)" : "" ));
if (LogRelIs2Enabled() || LogIs2Enabled())
{
pa_usec_t cUsLatency = 0;
int fNegative = 0;
pa_stream_get_latency(pStream, &cUsLatency, &fNegative);
LogRel2(("PulseAudio: Latency now is %'RU64 us\n", cUsLatency));
if (LogRelIs2Enabled())
{
const pa_timing_info *pTInfo = pa_stream_get_timing_info(pStream);
AssertReturnVoid(pTInfo);
const pa_sample_spec *pSpec = pa_stream_get_sample_spec(pStream);
AssertReturnVoid(pSpec);
LogRel2(("PulseAudio: Timing info: writepos=%'RU64 us, readpost=%'RU64 us, latency=%'RU64 us (%RU32Hz %RU8ch)\n",
pa_bytes_to_usec(pTInfo->write_index, pSpec), pa_bytes_to_usec(pTInfo->read_index, pSpec),
cUsLatency, pSpec->rate, pSpec->channels));
}
#ifdef LOG_ENABLED
Log2Func(("age=%'RU64 us\n", pa_rtclock_now() - pStreamPA->tsStartUs));
#endif
}
}
/**
* Overflow notification.
*/
static void drvHstAudPaStreamOverflowStatsCallback(pa_stream *pStream, void *pvContext)
{
PDRVHSTAUDPASTREAM pStreamPA = (PDRVHSTAUDPASTREAM)pvContext;
AssertPtrReturnVoid(pStreamPA);
AssertPtrReturnVoid(pStreamPA->pDrv);
STAM_REL_COUNTER_INC(&pStreamPA->pDrv->StatOverruns);
LogRel2(("PulseAudio: Warning: Hit overflow.\n"));
RT_NOREF(pStream);
}
#ifdef DEBUG
/**
* Debug PA callback: Need data to output.
*/
static void drvHstAudPaStreamReqWriteDebugCallback(pa_stream *pStream, size_t cbLen, void *pvContext)
{
RT_NOREF(cbLen, pvContext);
pa_usec_t cUsLatency = 0;
int fNegative = 0;
int rcPa = pa_stream_get_latency(pStream, &cUsLatency, &fNegative);
Log2Func(("Requesting %zu bytes; Latency: %'RU64 us (rcPa=%d n=%d)\n", cbLen, cUsLatency, rcPa, fNegative));
}
#endif /* DEBUG */
/**
* Converts from PDM PCM properties to pulse audio format.
*
* Worker for the stream creation code.
*
* @returns PA format.
* @retval PA_SAMPLE_INVALID if format not supported.
* @param pProps The PDM audio source properties.
*/
static pa_sample_format_t drvHstAudPaPropsToPulse(PCPDMAUDIOPCMPROPS pProps)
{
switch (PDMAudioPropsSampleSize(pProps))
{
case 1:
if (!PDMAudioPropsIsSigned(pProps))
return PA_SAMPLE_U8;
break;
case 2:
if (PDMAudioPropsIsSigned(pProps))
return PDMAudioPropsIsLittleEndian(pProps) ? PA_SAMPLE_S16LE : PA_SAMPLE_S16BE;
break;
#ifdef PA_SAMPLE_S32LE
case 4:
if (PDMAudioPropsIsSigned(pProps))
return PDMAudioPropsIsLittleEndian(pProps) ? PA_SAMPLE_S32LE : PA_SAMPLE_S32BE;
break;
#endif
}
AssertMsgFailed(("%RU8%s not supported\n", PDMAudioPropsSampleSize(pProps), PDMAudioPropsIsSigned(pProps) ? "S" : "U"));
return PA_SAMPLE_INVALID;
}
/**
* Converts from pulse audio sample specification to PDM PCM audio properties.
*
* Worker for the stream creation code.
*
* @returns VBox status code.
* @param pProps The PDM audio source properties.
* @param enmPulseFmt The PA format.
* @param cChannels The number of channels.
* @param uHz The frequency.
*/
static int drvHstAudPaToAudioProps(PPDMAUDIOPCMPROPS pProps, pa_sample_format_t enmPulseFmt, uint8_t cChannels, uint32_t uHz)
{
AssertReturn(cChannels > 0, VERR_INVALID_PARAMETER);
AssertReturn(cChannels < 16, VERR_INVALID_PARAMETER);
switch (enmPulseFmt)
{
case PA_SAMPLE_U8:
PDMAudioPropsInit(pProps, 1 /*8-bit*/, false /*signed*/, cChannels, uHz);
break;
case PA_SAMPLE_S16LE:
PDMAudioPropsInitEx(pProps, 2 /*16-bit*/, true /*signed*/, cChannels, uHz, true /*fLittleEndian*/, false /*fRaw*/);
break;
case PA_SAMPLE_S16BE:
PDMAudioPropsInitEx(pProps, 2 /*16-bit*/, true /*signed*/, cChannels, uHz, false /*fLittleEndian*/, false /*fRaw*/);
break;
#ifdef PA_SAMPLE_S32LE
case PA_SAMPLE_S32LE:
PDMAudioPropsInitEx(pProps, 4 /*32-bit*/, true /*signed*/, cChannels, uHz, true /*fLittleEndian*/, false /*fRaw*/);
break;
#endif
#ifdef PA_SAMPLE_S32BE
case PA_SAMPLE_S32BE:
PDMAudioPropsInitEx(pProps, 4 /*32-bit*/, true /*signed*/, cChannels, uHz, false /*fLittleEndian*/, false /*fRaw*/);
break;
#endif
default:
AssertLogRelMsgFailed(("PulseAudio: Format (%d) not supported\n", enmPulseFmt));
return VERR_NOT_SUPPORTED;
}
return VINF_SUCCESS;
}
#if 0 /* experiment */
/**
* Completion callback used with pa_stream_set_buffer_attr().
*/
static void drvHstAudPaStreamSetBufferAttrCompletionCallback(pa_stream *pStream, int fSuccess, void *pvUser)
{
PDRVHSTAUDPA pThis = (PDRVHSTAUDPA)pvUser;
LogFlowFunc(("fSuccess=%d\n", fSuccess));
pa_threaded_mainloop_signal(pThis->pMainLoop, 0 /*fWaitForAccept*/);
RT_NOREF(pStream);
}
#endif
/**
* Worker that does the actual creation of an PA stream.
*
* @returns VBox status code.
* @param pThis Our driver instance data.
* @param pStreamPA Our stream data.
* @param pszName How we name the stream.
* @param pCfgAcq The requested stream properties, the Props member is
* updated upon successful return.
*
* @note Caller owns the mainloop lock.
*/
static int drvHstAudPaStreamCreateLocked(PDRVHSTAUDPA pThis, PDRVHSTAUDPASTREAM pStreamPA,
const char *pszName, PPDMAUDIOSTREAMCFG pCfgAcq)
{
/*
* Create the stream.
*/
pa_stream *pStream = pa_stream_new(pThis->pContext, pszName, &pStreamPA->SampleSpec, &pStreamPA->ChannelMap);
if (!pStream)
{
LogRel(("PulseAudio: Failed to create stream '%s': %s (%d)\n",
pszName, pa_strerror(pa_context_errno(pThis->pContext)), pa_context_errno(pThis->pContext)));
return VERR_AUDIO_STREAM_COULD_NOT_CREATE;
}
/*
* Set the state callback, and in debug builds a few more...
*/
pa_stream_set_state_callback(pStream, drvHstAudPaStreamStateChangedCallback, pThis);
pa_stream_set_underflow_callback(pStream, drvHstAudPaStreamUnderflowStatsCallback, pStreamPA);
pa_stream_set_overflow_callback(pStream, drvHstAudPaStreamOverflowStatsCallback, pStreamPA);
#ifdef DEBUG
pa_stream_set_write_callback(pStream, drvHstAudPaStreamReqWriteDebugCallback, pStreamPA);
#endif
/*
* Connect the stream.
*/
int rc;
unsigned const fFlags = PA_STREAM_START_CORKED /* Require explicit starting (uncorking). */
/* For using pa_stream_get_latency() and pa_stream_get_time(). */
| PA_STREAM_INTERPOLATE_TIMING | PA_STREAM_AUTO_TIMING_UPDATE
#if PA_API_VERSION >= 12
| PA_STREAM_ADJUST_LATENCY
#endif
;
if (pCfgAcq->enmDir == PDMAUDIODIR_IN)
{
LogFunc(("Input stream attributes: maxlength=%d fragsize=%d\n",
pStreamPA->BufAttr.maxlength, pStreamPA->BufAttr.fragsize));
rc = pa_stream_connect_record(pStream, pThis->szInputDev[0] ? pThis->szInputDev : NULL,
&pStreamPA->BufAttr, (pa_stream_flags_t)fFlags);
}
else
{
LogFunc(("Output buffer attributes: maxlength=%d tlength=%d prebuf=%d minreq=%d\n",
pStreamPA->BufAttr.maxlength, pStreamPA->BufAttr.tlength, pStreamPA->BufAttr.prebuf, pStreamPA->BufAttr.minreq));
rc = pa_stream_connect_playback(pStream, pThis->szOutputDev[0] ? pThis->szOutputDev : NULL, &pStreamPA->BufAttr, (pa_stream_flags_t)fFlags,
NULL /*volume*/, NULL /*sync_stream*/);
}
if (rc >= 0)
{
/*
* Wait for the stream to become ready.
*/
uint64_t const nsStart = RTTimeNanoTS();
pa_stream_state_t enmStreamState;
while ( (enmStreamState = pa_stream_get_state(pStream)) != PA_STREAM_READY
&& PA_STREAM_IS_GOOD(enmStreamState)
&& RTTimeNanoTS() - nsStart < RT_NS_10SEC /* not really timed */ )
drvHstAudPaMainloopWait(pThis);
if (enmStreamState == PA_STREAM_READY)
{
LogFunc(("Connecting stream took %'RU64 ns\n", RTTimeNanoTS() - nsStart));
#ifdef LOG_ENABLED
pStreamPA->tsStartUs = pa_rtclock_now();
#endif
/*
* Update the buffer attributes.
*/
const pa_buffer_attr *pBufAttribs = pa_stream_get_buffer_attr(pStream);
#if 0 /* Experiment for getting tlength closer to what we requested (ADJUST_LATENCY effect).
Will slow down stream creation, so not pursued any further at present. */
if ( pCfgAcq->enmDir == PDMAUDIODIR_OUT
&& pBufAttribs
&& pBufAttribs->tlength < pStreamPA->BufAttr.tlength)
{
pStreamPA->BufAttr.maxlength += (pStreamPA->BufAttr.tlength - pBufAttribs->tlength) * 2;
pStreamPA->BufAttr.tlength += (pStreamPA->BufAttr.tlength - pBufAttribs->tlength) * 2;
LogRel(("Before pa_stream_set_buffer_attr: tlength=%#x (trying =%#x)\n", pBufAttribs->tlength, pStreamPA->BufAttr.tlength));
drvHstAudPaWaitFor(pThis, pa_stream_set_buffer_attr(pStream, &pStreamPA->BufAttr,
drvHstAudPaStreamSetBufferAttrCompletionCallback, pThis));
pBufAttribs = pa_stream_get_buffer_attr(pStream);
LogRel(("After pa_stream_set_buffer_attr: tlength=%#x\n", pBufAttribs->tlength));
}
#endif
AssertPtr(pBufAttribs);
if (pBufAttribs)
{
pStreamPA->BufAttr = *pBufAttribs;
LogFunc(("Obtained %s buffer attributes: maxlength=%RU32 tlength=%RU32 prebuf=%RU32 minreq=%RU32 fragsize=%RU32\n",
pCfgAcq->enmDir == PDMAUDIODIR_IN ? "input" : "output", pBufAttribs->maxlength, pBufAttribs->tlength,
pBufAttribs->prebuf, pBufAttribs->minreq, pBufAttribs->fragsize));
/*
* Convert the sample spec back to PDM speak.
* Note! This isn't strictly speaking needed as SampleSpec has *not* been
* modified since the caller converted it from pCfgReq.
*/
rc = drvHstAudPaToAudioProps(&pCfgAcq->Props, pStreamPA->SampleSpec.format,
pStreamPA->SampleSpec.channels, pStreamPA->SampleSpec.rate);
if (RT_SUCCESS(rc))
{
pStreamPA->pStream = pStream;
LogFlowFunc(("returns VINF_SUCCESS\n"));
return VINF_SUCCESS;
}
}
else
{
LogRelMax(99, ("PulseAudio: Failed to get buffer attribs for stream '%s': %s (%d)\n",
pszName, pa_strerror(pa_context_errno(pThis->pContext)), pa_context_errno(pThis->pContext)));
rc = VERR_AUDIO_STREAM_COULD_NOT_CREATE;
}
}
else
{
LogRelMax(99, ("PulseAudio: Failed to initialize stream '%s': state=%d, waited %'RU64 ns\n",
pszName, enmStreamState, RTTimeNanoTS() - nsStart));
rc = VERR_AUDIO_STREAM_COULD_NOT_CREATE;
}
pa_stream_disconnect(pStream);
}
else
{
LogRelMax(99, ("PulseAudio: Could not connect %s stream '%s': %s (%d/%d)\n",
pCfgAcq->enmDir == PDMAUDIODIR_IN ? "input" : "output",
pszName, pa_strerror(pa_context_errno(pThis->pContext)), pa_context_errno(pThis->pContext), rc));
rc = VERR_AUDIO_STREAM_COULD_NOT_CREATE;
}
pa_stream_unref(pStream);
Assert(RT_FAILURE_NP(rc));
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* Translates a PDM channel ID to a PA channel position.
*
* @returns PA channel position, INVALID if no mapping found.
*/
static pa_channel_position_t drvHstAudPaConvertChannelId(uint8_t idChannel)
{
switch (idChannel)
{
case PDMAUDIOCHANNELID_FRONT_LEFT: return PA_CHANNEL_POSITION_FRONT_LEFT;
case PDMAUDIOCHANNELID_FRONT_RIGHT: return PA_CHANNEL_POSITION_FRONT_RIGHT;
case PDMAUDIOCHANNELID_FRONT_CENTER: return PA_CHANNEL_POSITION_FRONT_CENTER;
case PDMAUDIOCHANNELID_LFE: return PA_CHANNEL_POSITION_LFE;
case PDMAUDIOCHANNELID_REAR_LEFT: return PA_CHANNEL_POSITION_REAR_LEFT;
case PDMAUDIOCHANNELID_REAR_RIGHT: return PA_CHANNEL_POSITION_REAR_RIGHT;
case PDMAUDIOCHANNELID_FRONT_LEFT_OF_CENTER: return PA_CHANNEL_POSITION_FRONT_LEFT_OF_CENTER;
case PDMAUDIOCHANNELID_FRONT_RIGHT_OF_CENTER: return PA_CHANNEL_POSITION_FRONT_RIGHT_OF_CENTER;
case PDMAUDIOCHANNELID_REAR_CENTER: return PA_CHANNEL_POSITION_REAR_CENTER;
case PDMAUDIOCHANNELID_SIDE_LEFT: return PA_CHANNEL_POSITION_SIDE_LEFT;
case PDMAUDIOCHANNELID_SIDE_RIGHT: return PA_CHANNEL_POSITION_SIDE_RIGHT;
case PDMAUDIOCHANNELID_TOP_CENTER: return PA_CHANNEL_POSITION_TOP_CENTER;
case PDMAUDIOCHANNELID_FRONT_LEFT_HEIGHT: return PA_CHANNEL_POSITION_TOP_FRONT_LEFT;
case PDMAUDIOCHANNELID_FRONT_CENTER_HEIGHT: return PA_CHANNEL_POSITION_TOP_FRONT_CENTER;
case PDMAUDIOCHANNELID_FRONT_RIGHT_HEIGHT: return PA_CHANNEL_POSITION_TOP_FRONT_RIGHT;
case PDMAUDIOCHANNELID_REAR_LEFT_HEIGHT: return PA_CHANNEL_POSITION_TOP_REAR_LEFT;
case PDMAUDIOCHANNELID_REAR_CENTER_HEIGHT: return PA_CHANNEL_POSITION_TOP_REAR_CENTER;
case PDMAUDIOCHANNELID_REAR_RIGHT_HEIGHT: return PA_CHANNEL_POSITION_TOP_REAR_RIGHT;
default: return PA_CHANNEL_POSITION_INVALID;
}
}
/**
* Translates a PA channel position to a PDM channel ID.
*
* @returns PDM channel ID, UNKNOWN if no mapping found.
*/
static PDMAUDIOCHANNELID drvHstAudPaConvertChannelPos(pa_channel_position_t enmChannelPos)
{
switch (enmChannelPos)
{
case PA_CHANNEL_POSITION_INVALID: return PDMAUDIOCHANNELID_INVALID;
case PA_CHANNEL_POSITION_MONO: return PDMAUDIOCHANNELID_MONO;
case PA_CHANNEL_POSITION_FRONT_LEFT: return PDMAUDIOCHANNELID_FRONT_LEFT;
case PA_CHANNEL_POSITION_FRONT_RIGHT: return PDMAUDIOCHANNELID_FRONT_RIGHT;
case PA_CHANNEL_POSITION_FRONT_CENTER: return PDMAUDIOCHANNELID_FRONT_CENTER;
case PA_CHANNEL_POSITION_LFE: return PDMAUDIOCHANNELID_LFE;
case PA_CHANNEL_POSITION_REAR_LEFT: return PDMAUDIOCHANNELID_REAR_LEFT;
case PA_CHANNEL_POSITION_REAR_RIGHT: return PDMAUDIOCHANNELID_REAR_RIGHT;
case PA_CHANNEL_POSITION_FRONT_LEFT_OF_CENTER: return PDMAUDIOCHANNELID_FRONT_LEFT_OF_CENTER;
case PA_CHANNEL_POSITION_FRONT_RIGHT_OF_CENTER: return PDMAUDIOCHANNELID_FRONT_RIGHT_OF_CENTER;
case PA_CHANNEL_POSITION_REAR_CENTER: return PDMAUDIOCHANNELID_REAR_CENTER;
case PA_CHANNEL_POSITION_SIDE_LEFT: return PDMAUDIOCHANNELID_SIDE_LEFT;
case PA_CHANNEL_POSITION_SIDE_RIGHT: return PDMAUDIOCHANNELID_SIDE_RIGHT;
case PA_CHANNEL_POSITION_TOP_CENTER: return PDMAUDIOCHANNELID_TOP_CENTER;
case PA_CHANNEL_POSITION_TOP_FRONT_LEFT: return PDMAUDIOCHANNELID_FRONT_LEFT_HEIGHT;
case PA_CHANNEL_POSITION_TOP_FRONT_CENTER: return PDMAUDIOCHANNELID_FRONT_CENTER_HEIGHT;
case PA_CHANNEL_POSITION_TOP_FRONT_RIGHT: return PDMAUDIOCHANNELID_FRONT_RIGHT_HEIGHT;
case PA_CHANNEL_POSITION_TOP_REAR_LEFT: return PDMAUDIOCHANNELID_REAR_LEFT_HEIGHT;
case PA_CHANNEL_POSITION_TOP_REAR_CENTER: return PDMAUDIOCHANNELID_REAR_CENTER_HEIGHT;
case PA_CHANNEL_POSITION_TOP_REAR_RIGHT: return PDMAUDIOCHANNELID_REAR_RIGHT_HEIGHT;
default: return PDMAUDIOCHANNELID_UNKNOWN;
}
}
/**
* @interface_method_impl{PDMIHOSTAUDIO,pfnStreamCreate}
*/
static DECLCALLBACK(int) drvHstAudPaHA_StreamCreate(PPDMIHOSTAUDIO pInterface, PPDMAUDIOBACKENDSTREAM pStream,
PCPDMAUDIOSTREAMCFG pCfgReq, PPDMAUDIOSTREAMCFG pCfgAcq)
{
PDRVHSTAUDPA pThis = RT_FROM_MEMBER(pInterface, DRVHSTAUDPA, IHostAudio);
PDRVHSTAUDPASTREAM pStreamPA = (PDRVHSTAUDPASTREAM)pStream;
AssertPtrReturn(pStreamPA, VERR_INVALID_POINTER);
AssertPtrReturn(pCfgReq, VERR_INVALID_POINTER);
AssertPtrReturn(pCfgAcq, VERR_INVALID_POINTER);
AssertReturn(pCfgReq->enmDir == PDMAUDIODIR_IN || pCfgReq->enmDir == PDMAUDIODIR_OUT, VERR_INVALID_PARAMETER);
Assert(PDMAudioStrmCfgEquals(pCfgReq, pCfgAcq));
int rc;
/*
* Prepare name, sample spec and the stream instance data.
*/
char szName[256];
RTStrPrintf(szName, sizeof(szName), "VirtualBox %s [%s]", PDMAudioPathGetName(pCfgReq->enmPath), pThis->szStreamName);
pStreamPA->pDrv = pThis;
pStreamPA->pDrainOp = NULL;
pStreamPA->pbPeekBuf = NULL;
pStreamPA->SampleSpec.rate = PDMAudioPropsHz(&pCfgReq->Props);
pStreamPA->SampleSpec.channels = PDMAudioPropsChannels(&pCfgReq->Props);
pStreamPA->SampleSpec.format = drvHstAudPaPropsToPulse(&pCfgReq->Props);
/*
* Initialize the channelmap. This may change the channel count.
*/
AssertCompile(RT_ELEMENTS(pStreamPA->ChannelMap.map) >= PDMAUDIO_MAX_CHANNELS);
uint8_t const cSrcChannels = pStreamPA->ChannelMap.channels = PDMAudioPropsChannels(&pCfgReq->Props);
uintptr_t iDst = 0;
if (cSrcChannels == 1 && pCfgReq->Props.aidChannels[0] == PDMAUDIOCHANNELID_MONO)
pStreamPA->ChannelMap.map[iDst++] = PA_CHANNEL_POSITION_MONO;
else
{
uintptr_t iSrc;
for (iSrc = iDst = 0; iSrc < cSrcChannels; iSrc++)
{
pStreamPA->ChannelMap.map[iDst] = drvHstAudPaConvertChannelId(pCfgReq->Props.aidChannels[iSrc]);
if (pStreamPA->ChannelMap.map[iDst] != PA_CHANNEL_POSITION_INVALID)
iDst++;
else
{
LogRel2(("PulseAudio: Dropping channel #%u (%d/%s)\n", iSrc, pCfgReq->Props.aidChannels[iSrc],
PDMAudioChannelIdGetName((PDMAUDIOCHANNELID)pCfgReq->Props.aidChannels[iSrc])));
pStreamPA->ChannelMap.channels--;
pStreamPA->SampleSpec.channels--;
PDMAudioPropsSetChannels(&pCfgAcq->Props, pStreamPA->SampleSpec.channels);
}
}
Assert(iDst == pStreamPA->ChannelMap.channels);
}
while (iDst < RT_ELEMENTS(pStreamPA->ChannelMap.map))
pStreamPA->ChannelMap.map[iDst++] = PA_CHANNEL_POSITION_INVALID;
LogFunc(("Opening '%s', rate=%dHz, channels=%d (%d), format=%s\n", szName, pStreamPA->SampleSpec.rate,
pStreamPA->SampleSpec.channels, cSrcChannels, pa_sample_format_to_string(pStreamPA->SampleSpec.format)));
if (pa_sample_spec_valid(&pStreamPA->SampleSpec))
{
/*
* Convert the requested buffer parameters to PA bytes.
*/
uint32_t const cbBuffer = pa_usec_to_bytes(PDMAudioPropsFramesToMicro(&pCfgAcq->Props,
pCfgReq->Backend.cFramesBufferSize),
&pStreamPA->SampleSpec);
uint32_t const cbPreBuffer = pa_usec_to_bytes(PDMAudioPropsFramesToMicro(&pCfgAcq->Props,
pCfgReq->Backend.cFramesPreBuffering),
&pStreamPA->SampleSpec);
uint32_t const cbSchedHint = pa_usec_to_bytes(pCfgReq->Device.cMsSchedulingHint * RT_US_1MS, &pStreamPA->SampleSpec);
RT_NOREF(cbBuffer, cbSchedHint, cbPreBuffer);
/*
* Set up buffer attributes according to the stream type.
*/
if (pCfgReq->enmDir == PDMAUDIODIR_IN)
{
/* Set maxlength to the requested buffer size. */
pStreamPA->BufAttr.maxlength = cbBuffer;
/* Set the fragment size according to the scheduling hint (forget
cFramesPeriod, it's generally rubbish on input). */
pStreamPA->BufAttr.fragsize = cbSchedHint;
/* (tlength, minreq and prebuf are playback only) */
LogRel2(("PulseAudio: Requesting: BufAttr: fragsize=%#RX32 maxLength=%#RX32\n",
pStreamPA->BufAttr.fragsize, pStreamPA->BufAttr.maxlength));
}
else
{
/* Set tlength to the desired buffer size as PA doesn't have any way
of telling us if anything beyond tlength is writable or not (see
drvHstAudPaStreamGetWritableLocked for more). Because of the
ADJUST_LATENCY flag, this value will be adjusted down, so we'll
end up with less buffer than what we requested, however it should
probably reflect the actual latency a bit closer. Probably not
worth trying to adjust this via pa_stream_set_buffer_attr. */
pStreamPA->BufAttr.tlength = cbBuffer;
/* Set maxlength to the same as tlength as we won't ever write more
than tlength. */
pStreamPA->BufAttr.maxlength = pStreamPA->BufAttr.tlength;
/* According to vlc, pulseaudio goes berserk if the minreq is not
significantly smaller than half of tlength. They use a 1:3 ratio
between minreq and tlength. Traditionally, we've used to just
pass the period value here, however the quality of the incoming
cFramesPeriod value is so variable that just ignore it. This
minreq value is mainly about updating the pa_stream_writable_size
return value, so it makes sense that it need to be well below
half of the buffer length, otherwise we will think the buffer
is full for too long when it isn't.
The DMA scheduling hint is often a much better indicator. Just
to avoid generating too much IPC, limit this to 10 ms. */
uint32_t const cbMinUpdate = pa_usec_to_bytes(RT_US_10MS, &pStreamPA->SampleSpec);
pStreamPA->BufAttr.minreq = RT_MIN(RT_MAX(cbSchedHint, cbMinUpdate),
pStreamPA->BufAttr.tlength / 4);
/* Just pass along the requested pre-buffering size. This seems
typically to be unaltered by pa_stream_connect_playback. Not
sure if tlength is perhaps adjusted relative to it... Ratio
seen here is prebuf=93.75% of tlength. This isn't entirely
optimal as we use 50% by default (see DrvAudio) so that there
is equal room for the guest to run too fast and too slow. Not
much we can do about it w/o slowing down stream creation. */
pStreamPA->BufAttr.prebuf = cbPreBuffer;
/* (fragsize is capture only) */
LogRel2(("PulseAudio: Requesting: BufAttr: tlength=%#RX32 minReq=%#RX32 prebuf=%#RX32 maxLength=%#RX32\n",
pStreamPA->BufAttr.tlength, pStreamPA->BufAttr.minreq, pStreamPA->BufAttr.prebuf, pStreamPA->BufAttr.maxlength));
}
/*
* Do the actual PA stream creation.
*/
pa_threaded_mainloop_lock(pThis->pMainLoop);
rc = drvHstAudPaStreamCreateLocked(pThis, pStreamPA, szName, pCfgAcq);
pa_threaded_mainloop_unlock(pThis->pMainLoop);
if (RT_SUCCESS(rc))
{
/*
* Set the acquired stream config according to the actual buffer
* attributes we got and the stream type.
*
* Note! We use maxlength for input buffer and tlength for the
* output buffer size. See above for why.
*/
if (pCfgReq->enmDir == PDMAUDIODIR_IN)
{
LogRel2(("PulseAudio: Got: BufAttr: fragsize=%#RX32 maxLength=%#RX32\n",
pStreamPA->BufAttr.fragsize, pStreamPA->BufAttr.maxlength));
pCfgAcq->Backend.cFramesPeriod = PDMAudioPropsBytesToFrames(&pCfgAcq->Props, pStreamPA->BufAttr.fragsize);
pCfgAcq->Backend.cFramesBufferSize = pStreamPA->BufAttr.maxlength != UINT32_MAX /* paranoia */
? PDMAudioPropsBytesToFrames(&pCfgAcq->Props, pStreamPA->BufAttr.maxlength)
: pCfgAcq->Backend.cFramesPeriod * 3 /* whatever */;
pCfgAcq->Backend.cFramesPreBuffering = pCfgReq->Backend.cFramesPreBuffering * pCfgAcq->Backend.cFramesBufferSize
/ RT_MAX(pCfgReq->Backend.cFramesBufferSize, 1);
}
else
{
LogRel2(("PulseAudio: Got: BufAttr: tlength=%#RX32 minReq=%#RX32 prebuf=%#RX32 maxLength=%#RX32\n",
pStreamPA->BufAttr.tlength, pStreamPA->BufAttr.minreq, pStreamPA->BufAttr.prebuf, pStreamPA->BufAttr.maxlength));
pCfgAcq->Backend.cFramesPeriod = PDMAudioPropsBytesToFrames(&pCfgAcq->Props, pStreamPA->BufAttr.minreq);
pCfgAcq->Backend.cFramesBufferSize = PDMAudioPropsBytesToFrames(&pCfgAcq->Props, pStreamPA->BufAttr.tlength);
pCfgAcq->Backend.cFramesPreBuffering = PDMAudioPropsBytesToFrames(&pCfgAcq->Props, pStreamPA->BufAttr.prebuf);
LogRel2(("PulseAudio: Initial output latency is %RU64 us (%RU32 bytes)\n",
PDMAudioPropsBytesToMicro(&pCfgAcq->Props, pStreamPA->BufAttr.tlength), pStreamPA->BufAttr.tlength));
}
/*
* Translate back the channel mapping.
*/
for (iDst = 0; iDst < pStreamPA->ChannelMap.channels; iDst++)
pCfgAcq->Props.aidChannels[iDst] = drvHstAudPaConvertChannelPos(pStreamPA->ChannelMap.map[iDst]);
while (iDst < RT_ELEMENTS(pCfgAcq->Props.aidChannels))
pCfgAcq->Props.aidChannels[iDst++] = PDMAUDIOCHANNELID_INVALID;
PDMAudioStrmCfgCopy(&pStreamPA->Cfg, pCfgAcq);
}
}
else
{
LogRel(("PulseAudio: Unsupported sample specification for stream '%s'\n", szName));
rc = VERR_AUDIO_STREAM_COULD_NOT_CREATE;
}
LogFlowFuncLeaveRC(rc);
return rc;
}
/**
* Cancel and release any pending stream requests (drain and cork/uncork).
*
* @note Caller has locked the mainloop.
*/
static void drvHstAudPaStreamCancelAndReleaseOperations(PDRVHSTAUDPASTREAM pStreamPA)
{
if (pStreamPA->pDrainOp)
{
LogFlowFunc(("drain operation (%p) status: %d\n", pStreamPA->pDrainOp, pa_operation_get_state(pStreamPA->pDrainOp)));
pa_operation_cancel(pStreamPA->pDrainOp);
pa_operation_unref(pStreamPA->pDrainOp);
pStreamPA->pDrainOp = NULL;
}
if (pStreamPA->pCorkOp)
{
LogFlowFunc(("cork operation (%p) status: %d\n", pStreamPA->pCorkOp, pa_operation_get_state(pStreamPA->pCorkOp)));
pa_operation_cancel(pStreamPA->pCorkOp);
pa_operation_unref(pStreamPA->pCorkOp);
pStreamPA->pCorkOp = NULL;
}
if (pStreamPA->pTriggerOp)
{
LogFlowFunc(("trigger operation (%p) status: %d\n", pStreamPA->pTriggerOp, pa_operation_get_state(pStreamPA->pTriggerOp)));
pa_operation_cancel(pStreamPA->pTriggerOp);
pa_operation_unref(pStreamPA->pTriggerOp);
pStreamPA->pTriggerOp = NULL;
}
}
/**
* @interface_method_impl{PDMIHOSTAUDIO,pfnStreamDestroy}
*/
static DECLCALLBACK(int) drvHstAudPaHA_StreamDestroy(PPDMIHOSTAUDIO pInterface, PPDMAUDIOBACKENDSTREAM pStream, bool fImmediate)
{
PDRVHSTAUDPA pThis = RT_FROM_MEMBER(pInterface, DRVHSTAUDPA, IHostAudio);
PDRVHSTAUDPASTREAM pStreamPA = (PDRVHSTAUDPASTREAM)pStream;
AssertPtrReturn(pStreamPA, VERR_INVALID_POINTER);
RT_NOREF(fImmediate);
if (pStreamPA->pStream)
{
pa_threaded_mainloop_lock(pThis->pMainLoop);
drvHstAudPaStreamCancelAndReleaseOperations(pStreamPA);
pa_stream_disconnect(pStreamPA->pStream);
pa_stream_unref(pStreamPA->pStream);
pStreamPA->pStream = NULL;
pa_threaded_mainloop_unlock(pThis->pMainLoop);
}
return VINF_SUCCESS;
}
/**
* Common worker for the cork/uncork completion callbacks.
* @note This is fully async, so nobody is waiting for this.
*/
static void drvHstAudPaStreamCorkUncorkCommon(PDRVHSTAUDPASTREAM pStreamPA, int fSuccess, const char *pszOperation)
{
AssertPtrReturnVoid(pStreamPA);
LogFlowFunc(("%s '%s': fSuccess=%RTbool\n", pszOperation, pStreamPA->Cfg.szName, fSuccess));
if (!fSuccess)
drvHstAudPaError(pStreamPA->pDrv, "%s stream '%s' failed", pszOperation, pStreamPA->Cfg.szName);
if (pStreamPA->pCorkOp)
{
pa_operation_unref(pStreamPA->pCorkOp);
pStreamPA->pCorkOp = NULL;
}
}
/**
* Completion callback used with pa_stream_cork(,false,).
*/
static void drvHstAudPaStreamUncorkCompletionCallback(pa_stream *pStream, int fSuccess, void *pvUser)
{
RT_NOREF(pStream);
drvHstAudPaStreamCorkUncorkCommon((PDRVHSTAUDPASTREAM)pvUser, fSuccess, "Uncorking");
}
/**
* Completion callback used with pa_stream_cork(,true,).
*/
static void drvHstAudPaStreamCorkCompletionCallback(pa_stream *pStream, int fSuccess, void *pvUser)
{
RT_NOREF(pStream);
drvHstAudPaStreamCorkUncorkCommon((PDRVHSTAUDPASTREAM)pvUser, fSuccess, "Corking");
}
/**
* @interface_method_impl{PDMIHOSTAUDIO,pfnStreamEnable}
*/
static DECLCALLBACK(int) drvHstAudPaHA_StreamEnable(PPDMIHOSTAUDIO pInterface, PPDMAUDIOBACKENDSTREAM pStream)
{
PDRVHSTAUDPA pThis = RT_FROM_MEMBER(pInterface, DRVHSTAUDPA, IHostAudio);
PDRVHSTAUDPASTREAM pStreamPA = (PDRVHSTAUDPASTREAM)pStream;
LogFlowFunc(("\n"));
/*
* Uncork (start or resume playback/capture) the stream.
*/
pa_threaded_mainloop_lock(pThis->pMainLoop);
drvHstAudPaStreamCancelAndReleaseOperations(pStreamPA);
pStreamPA->pCorkOp = pa_stream_cork(pStreamPA->pStream, 0 /*uncork it*/,
drvHstAudPaStreamUncorkCompletionCallback, pStreamPA);
LogFlowFunc(("Uncorking '%s': %p (async)\n", pStreamPA->Cfg.szName, pStreamPA->pCorkOp));
int const rc = pStreamPA->pCorkOp ? VINF_SUCCESS
: drvHstAudPaError(pThis, "pa_stream_cork('%s', 0 /*uncork it*/,,) failed", pStreamPA->Cfg.szName);
pStreamPA->offInternal = 0;
pa_threaded_mainloop_unlock(pThis->pMainLoop);
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* @interface_method_impl{PDMIHOSTAUDIO,pfnStreamDisable}
*/
static DECLCALLBACK(int) drvHstAudPaHA_StreamDisable(PPDMIHOSTAUDIO pInterface, PPDMAUDIOBACKENDSTREAM pStream)
{
PDRVHSTAUDPA pThis = RT_FROM_MEMBER(pInterface, DRVHSTAUDPA, IHostAudio);
PDRVHSTAUDPASTREAM pStreamPA = (PDRVHSTAUDPASTREAM)pStream;
LogFlowFunc(("\n"));
pa_threaded_mainloop_lock(pThis->pMainLoop);
/*
* For output streams, we will ignore the request if there is a pending drain
* as it will cork the stream in the end.
*/
if (pStreamPA->Cfg.enmDir == PDMAUDIODIR_OUT)
{
if (pStreamPA->pDrainOp)
{
pa_operation_state_t const enmOpState = pa_operation_get_state(pStreamPA->pDrainOp);
if (enmOpState == PA_OPERATION_RUNNING)
{
/** @todo consider corking it immediately instead, as that's what the caller
* wants now... */
LogFlowFunc(("Drain (%p) already running on '%s', skipping.\n", pStreamPA->pDrainOp, pStreamPA->Cfg.szName));
pa_threaded_mainloop_unlock(pThis->pMainLoop);
return VINF_SUCCESS;
}
LogFlowFunc(("Drain (%p) not running: %d\n", pStreamPA->pDrainOp, enmOpState));
}
}
/*
* For input stream we always cork it, but we clean up the peek buffer first.
*/
/** @todo r=bird: It is (probably) not technically be correct to drop the peek buffer
* here when we're only pausing the stream (VM paused) as it means we'll
* risk underruns when later resuming. */
else if (pStreamPA->pbPeekBuf) /** @todo Do we need to drop the peek buffer?*/
{
pStreamPA->pbPeekBuf = NULL;
pStreamPA->cbPeekBuf = 0;
pa_stream_drop(pStreamPA->pStream);
}
/*
* Cork (pause playback/capture) the stream.
*/
drvHstAudPaStreamCancelAndReleaseOperations(pStreamPA);
pStreamPA->pCorkOp = pa_stream_cork(pStreamPA->pStream, 1 /* cork it */,
drvHstAudPaStreamCorkCompletionCallback, pStreamPA);
LogFlowFunc(("Corking '%s': %p (async)\n", pStreamPA->Cfg.szName, pStreamPA->pCorkOp));
int const rc = pStreamPA->pCorkOp ? VINF_SUCCESS
: drvHstAudPaError(pThis, "pa_stream_cork('%s', 1 /*cork*/,,) failed", pStreamPA->Cfg.szName);
pa_threaded_mainloop_unlock(pThis->pMainLoop);
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* @interface_method_impl{PDMIHOSTAUDIO,pfnStreamPause}
*/
static DECLCALLBACK(int) drvHstAudPaHA_StreamPause(PPDMIHOSTAUDIO pInterface, PPDMAUDIOBACKENDSTREAM pStream)
{
/* Same as disable. */
return drvHstAudPaHA_StreamDisable(pInterface, pStream);
}
/**
* @interface_method_impl{PDMIHOSTAUDIO,pfnStreamResume}
*/
static DECLCALLBACK(int) drvHstAudPaHA_StreamResume(PPDMIHOSTAUDIO pInterface, PPDMAUDIOBACKENDSTREAM pStream)
{
/* Same as enable. */
return drvHstAudPaHA_StreamEnable(pInterface, pStream);
}
/**
* Pulse audio pa_stream_drain() completion callback.
* @note This is fully async, so nobody is waiting for this.
*/
static void drvHstAudPaStreamDrainCompletionCallback(pa_stream *pStream, int fSuccess, void *pvUser)
{
PDRVHSTAUDPASTREAM pStreamPA = (PDRVHSTAUDPASTREAM)pvUser;
AssertPtrReturnVoid(pStreamPA);
Assert(pStreamPA->pStream == pStream);
LogFlowFunc(("'%s': fSuccess=%RTbool\n", pStreamPA->Cfg.szName, fSuccess));
if (!fSuccess)
drvHstAudPaError(pStreamPA->pDrv, "Draining stream '%s' failed", pStreamPA->Cfg.szName);
/* Now cork the stream (doing it unconditionally atm). */
if (pStreamPA->pCorkOp)
{
LogFlowFunc(("Cancelling & releasing cork/uncork operation %p (state: %d)\n",
pStreamPA->pCorkOp, pa_operation_get_state(pStreamPA->pCorkOp)));
pa_operation_cancel(pStreamPA->pCorkOp);
pa_operation_unref(pStreamPA->pCorkOp);
}
pStreamPA->pCorkOp = pa_stream_cork(pStream, 1 /* cork it*/, drvHstAudPaStreamCorkCompletionCallback, pStreamPA);
if (pStreamPA->pCorkOp)
LogFlowFunc(("Started cork operation %p of %s (following drain)\n", pStreamPA->pCorkOp, pStreamPA->Cfg.szName));
else
drvHstAudPaError(pStreamPA->pDrv, "pa_stream_cork failed on '%s' (following drain)", pStreamPA->Cfg.szName);
}
/**
* Callback used with pa_stream_tigger(), starts draining.
*/
static void drvHstAudPaStreamTriggerCompletionCallback(pa_stream *pStream, int fSuccess, void *pvUser)
{
PDRVHSTAUDPASTREAM pStreamPA = (PDRVHSTAUDPASTREAM)pvUser;
AssertPtrReturnVoid(pStreamPA);
RT_NOREF(pStream);
LogFlowFunc(("'%s': fSuccess=%RTbool\n", pStreamPA->Cfg.szName, fSuccess));
if (!fSuccess)
drvHstAudPaError(pStreamPA->pDrv, "Forcing playback before drainig '%s' failed", pStreamPA->Cfg.szName);
if (pStreamPA->pTriggerOp)
{
pa_operation_unref(pStreamPA->pTriggerOp);
pStreamPA->pTriggerOp = NULL;
}
}
/**
* @interface_method_impl{PDMIHOSTAUDIO,pfnStreamDrain}
*/
static DECLCALLBACK(int) drvHstAudPaHA_StreamDrain(PPDMIHOSTAUDIO pInterface, PPDMAUDIOBACKENDSTREAM pStream)
{
PDRVHSTAUDPA pThis = RT_FROM_MEMBER(pInterface, DRVHSTAUDPA, IHostAudio);
PDRVHSTAUDPASTREAM pStreamPA = (PDRVHSTAUDPASTREAM)pStream;
AssertReturn(pStreamPA->Cfg.enmDir == PDMAUDIODIR_OUT, VERR_INVALID_PARAMETER);
LogFlowFunc(("\n"));
pa_threaded_mainloop_lock(pThis->pMainLoop);
/*
* If there is a drain running already, don't try issue another as pulse
* doesn't support more than one concurrent drain per stream.
*/
if (pStreamPA->pDrainOp)
{
if (pa_operation_get_state(pStreamPA->pDrainOp) == PA_OPERATION_RUNNING)
{
pa_threaded_mainloop_unlock(pThis->pMainLoop);
LogFlowFunc(("returns VINF_SUCCESS (drain already running)\n"));
return VINF_SUCCESS;
}
LogFlowFunc(("Releasing drain operation %p (state: %d)\n", pStreamPA->pDrainOp, pa_operation_get_state(pStreamPA->pDrainOp)));
pa_operation_unref(pStreamPA->pDrainOp);
pStreamPA->pDrainOp = NULL;
}
/*
* Make sure pre-buffered data is played before we drain it.
*
* ASSUMES that the async stream requests are executed in the order they're
* issued here, so that we avoid waiting for the trigger request to complete.
*/
int rc = VINF_SUCCESS;
if ( pStreamPA->offInternal
< PDMAudioPropsFramesToBytes(&pStreamPA->Cfg.Props, pStreamPA->Cfg.Backend.cFramesPreBuffering) * 2)
{
if (pStreamPA->pTriggerOp)
{
LogFlowFunc(("Cancelling & releasing trigger operation %p (state: %d)\n",
pStreamPA->pTriggerOp, pa_operation_get_state(pStreamPA->pTriggerOp)));
pa_operation_cancel(pStreamPA->pTriggerOp);
pa_operation_unref(pStreamPA->pTriggerOp);
}
pStreamPA->pTriggerOp = pa_stream_trigger(pStreamPA->pStream, drvHstAudPaStreamTriggerCompletionCallback, pStreamPA);
if (pStreamPA->pTriggerOp)
LogFlowFunc(("Started tigger operation %p on %s\n", pStreamPA->pTriggerOp, pStreamPA->Cfg.szName));
else
rc = drvHstAudPaError(pStreamPA->pDrv, "pa_stream_trigger failed on '%s'", pStreamPA->Cfg.szName);
}
/*
* Initiate the draining (async), will cork the stream when it completes.
*/
pStreamPA->pDrainOp = pa_stream_drain(pStreamPA->pStream, drvHstAudPaStreamDrainCompletionCallback, pStreamPA);
if (pStreamPA->pDrainOp)
LogFlowFunc(("Started drain operation %p of %s\n", pStreamPA->pDrainOp, pStreamPA->Cfg.szName));
else
rc = drvHstAudPaError(pStreamPA->pDrv, "pa_stream_drain failed on '%s'", pStreamPA->Cfg.szName);
pa_threaded_mainloop_unlock(pThis->pMainLoop);
LogFlowFunc(("returns %Rrc\n", rc));
return rc;
}
/**
* @interface_method_impl{PDMIHOSTAUDIO,pfnStreamGetState}
*/
static DECLCALLBACK(PDMHOSTAUDIOSTREAMSTATE) drvHstAudPaHA_StreamGetState(PPDMIHOSTAUDIO pInterface,
PPDMAUDIOBACKENDSTREAM pStream)
{
PDRVHSTAUDPA pThis = RT_FROM_MEMBER(pInterface, DRVHSTAUDPA, IHostAudio);
AssertPtrReturn(pStream, PDMHOSTAUDIOSTREAMSTATE_INVALID);
PDRVHSTAUDPASTREAM pStreamPA = (PDRVHSTAUDPASTREAM)pStream;
AssertPtrReturn(pStreamPA, PDMHOSTAUDIOSTREAMSTATE_INVALID);
/* Check PulseAudio's general status. */
PDMHOSTAUDIOSTREAMSTATE enmBackendStreamState = PDMHOSTAUDIOSTREAMSTATE_NOT_WORKING;
if (pThis->pContext)
{
pa_context_state_t const enmPaCtxState = pa_context_get_state(pThis->pContext);
if (PA_CONTEXT_IS_GOOD(enmPaCtxState))
{
pa_stream_state_t const enmPaStreamState = pa_stream_get_state(pStreamPA->pStream);
if (PA_STREAM_IS_GOOD(enmPaStreamState))
{
if (enmPaStreamState != PA_STREAM_CREATING)
{
if ( pStreamPA->Cfg.enmDir != PDMAUDIODIR_OUT
|| pStreamPA->pDrainOp == NULL
|| pa_operation_get_state(pStreamPA->pDrainOp) != PA_OPERATION_RUNNING)
enmBackendStreamState = PDMHOSTAUDIOSTREAMSTATE_OKAY;
else
enmBackendStreamState = PDMHOSTAUDIOSTREAMSTATE_DRAINING;
}
else
enmBackendStreamState = PDMHOSTAUDIOSTREAMSTATE_INITIALIZING;
}
else
LogFunc(("non-good PA stream state: %d\n", enmPaStreamState));
}
else
LogFunc(("non-good PA context state: %d\n", enmPaCtxState));
}
else
LogFunc(("No context!\n"));
LogFlowFunc(("returns %s for stream '%s'\n", PDMHostAudioStreamStateGetName(enmBackendStreamState), pStreamPA->Cfg.szName));
return enmBackendStreamState;
}
/**
* Gets the number of bytes that can safely be written to a stream.
*
* @returns Number of writable bytes, ~(size_t)0 on error.
* @param pStreamPA The stream.
*/
DECLINLINE(uint32_t) drvHstAudPaStreamGetWritableLocked(PDRVHSTAUDPASTREAM pStreamPA)
{
/* pa_stream_writable_size() returns the amount requested currently by the
server, we could write more than this if we liked. The documentation says
up to maxlength, whoever I'm not sure how that limitation is enforced or
what would happen if we exceed it. There seems to be no (simple) way to
figure out how much buffer we have left between what pa_stream_writable_size
returns and what maxlength indicates.
An alternative would be to guess the difference using the read and write
positions in the timing info, however the read position is only updated
when starting and stopping. In the auto update mode it's updated at a
sharply decreasing rate starting at 10ms and ending at 1500ms. So, not
all that helpful. (As long as pa_stream_writable_size returns a non-zero
value, though, we could just add the maxlength-tlength difference. But
the problem is after that.)
So, for now we just use tlength = maxlength for output streams and
problem solved. */
size_t const cbWritablePa = pa_stream_writable_size(pStreamPA->pStream);
#if 1
return cbWritablePa;
#else
if (cbWritablePa > 0 && cbWritablePa != (size_t)-1)
return cbWritablePa + (pStreamPA->BufAttr.maxlength - pStreamPA->BufAttr.tlength);
//const pa_timing_info * const pTimingInfo = pa_stream_get_timing_info(pStreamPA->pStream);
return 0;
#endif
}
/**
* @interface_method_impl{PDMIHOSTAUDIO,pfnStreamGetWritable}
*/
static DECLCALLBACK(uint32_t) drvHstAudPaHA_StreamGetWritable(PPDMIHOSTAUDIO pInterface, PPDMAUDIOBACKENDSTREAM pStream)
{
PDRVHSTAUDPA pThis = RT_FROM_MEMBER(pInterface, DRVHSTAUDPA, IHostAudio);
PDRVHSTAUDPASTREAM pStreamPA = (PDRVHSTAUDPASTREAM)pStream;
uint32_t cbWritable = 0;
if (pStreamPA->Cfg.enmDir == PDMAUDIODIR_OUT)
{
pa_threaded_mainloop_lock(pThis->pMainLoop);
pa_stream_state_t const enmState = pa_stream_get_state(pStreamPA->pStream);
if (PA_STREAM_IS_GOOD(enmState))
{
size_t cbWritablePa = drvHstAudPaStreamGetWritableLocked(pStreamPA);
if (cbWritablePa != (size_t)-1)
cbWritable = cbWritablePa <= UINT32_MAX ? (uint32_t)cbWritablePa : UINT32_MAX;
else
drvHstAudPaError(pThis, "pa_stream_writable_size failed on '%s'", pStreamPA->Cfg.szName);
}
else
drvHstAudPaError(pThis, "Non-good %s stream state for '%s' (%#x)\n",
PDMAudioDirGetName(pStreamPA->Cfg.enmDir), pStreamPA->Cfg.szName, enmState);
pa_threaded_mainloop_unlock(pThis->pMainLoop);
}
Log3Func(("returns %#x (%u) [max=%#RX32 min=%#RX32]\n",
cbWritable, cbWritable, pStreamPA->BufAttr.maxlength, pStreamPA->BufAttr.minreq));
return cbWritable;
}
/**
* @interface_method_impl{PDMIHOSTAUDIO,pfnStreamPlay}
*/
static DECLCALLBACK(int) drvHstAudPaHA_StreamPlay(PPDMIHOSTAUDIO pInterface, PPDMAUDIOBACKENDSTREAM pStream,
const void *pvBuf, uint32_t cbBuf, uint32_t *pcbWritten)
{
PDRVHSTAUDPA pThis = RT_FROM_MEMBER(pInterface, DRVHSTAUDPA, IHostAudio);
PDRVHSTAUDPASTREAM pStreamPA = (PDRVHSTAUDPASTREAM)pStream;
AssertPtrReturn(pStreamPA, VERR_INVALID_POINTER);
AssertPtrReturn(pcbWritten, VERR_INVALID_POINTER);
if (cbBuf)
AssertPtrReturn(pvBuf, VERR_INVALID_POINTER);
else
{
/* Fend off draining calls. */
*pcbWritten = 0;
return VINF_SUCCESS;
}
pa_threaded_mainloop_lock(pThis->pMainLoop);
#ifdef LOG_ENABLED
const pa_usec_t tsNowUs = pa_rtclock_now();
Log3Func(("play delta: %'RI64 us; cbBuf=%#x @%#RX64\n",
pStreamPA->tsLastReadWrittenUs ? tsNowUs - pStreamPA->tsLastReadWrittenUs : -1, cbBuf, pStreamPA->offInternal));
pStreamPA->tsLastReadWrittenUs = tsNowUs;
#endif
/*
* Using a loop here so we can stuff the buffer as full as it gets.
*/
int rc = VINF_SUCCESS;
uint32_t cbTotalWritten = 0;
uint32_t iLoop;
for (iLoop = 0; ; iLoop++)
{
size_t const cbWriteable = drvHstAudPaStreamGetWritableLocked(pStreamPA);
if ( cbWriteable != (size_t)-1
&& cbWriteable >= PDMAudioPropsFrameSize(&pStreamPA->Cfg.Props))
{
uint32_t cbToWrite = (uint32_t)RT_MIN(cbWriteable, cbBuf);
cbToWrite = PDMAudioPropsFloorBytesToFrame(&pStreamPA->Cfg.Props, cbToWrite);
if (pa_stream_write(pStreamPA->pStream, pvBuf, cbToWrite, NULL /*pfnFree*/, 0 /*offset*/, PA_SEEK_RELATIVE) >= 0)
{
cbTotalWritten += cbToWrite;
cbBuf -= cbToWrite;
pStreamPA->offInternal += cbToWrite;
if (!cbBuf)
break;
pvBuf = (uint8_t const *)pvBuf + cbToWrite;
Log3Func(("%#x left to write\n", cbBuf));
}
else
{
rc = drvHstAudPaError(pStreamPA->pDrv, "Failed to write to output stream");
break;
}
}
else
{
if (cbWriteable == (size_t)-1)
rc = drvHstAudPaError(pStreamPA->pDrv, "pa_stream_writable_size failed on '%s'", pStreamPA->Cfg.szName);
break;
}
}
pa_threaded_mainloop_unlock(pThis->pMainLoop);
*pcbWritten = cbTotalWritten;
if (RT_SUCCESS(rc) || cbTotalWritten == 0)
{ /* likely */ }
else
{
LogFunc(("Supressing %Rrc because we wrote %#x bytes\n", rc, cbTotalWritten));
rc = VINF_SUCCESS;
}
Log3Func(("returns %Rrc *pcbWritten=%#x iLoop=%u @%#RX64\n", rc, cbTotalWritten, iLoop, pStreamPA->offInternal));
return rc;
}
/**
* @interface_method_impl{PDMIHOSTAUDIO,pfnStreamGetReadable}
*/
static DECLCALLBACK(uint32_t) drvHstAudPaHA_StreamGetReadable(PPDMIHOSTAUDIO pInterface, PPDMAUDIOBACKENDSTREAM pStream)
{
PDRVHSTAUDPA pThis = RT_FROM_MEMBER(pInterface, DRVHSTAUDPA, IHostAudio);
PDRVHSTAUDPASTREAM pStreamPA = (PDRVHSTAUDPASTREAM)pStream;
uint32_t cbReadable = 0;
if (pStreamPA->Cfg.enmDir == PDMAUDIODIR_IN)
{
pa_threaded_mainloop_lock(pThis->pMainLoop);
pa_stream_state_t const enmState = pa_stream_get_state(pStreamPA->pStream);
if (PA_STREAM_IS_GOOD(enmState))
{
size_t cbReadablePa = pa_stream_readable_size(pStreamPA->pStream);
if (cbReadablePa != (size_t)-1)
{
/* As with WASAPI on Windows, the peek buffer must be subtracted.*/
if (cbReadablePa >= pStreamPA->cbPeekBuf)
cbReadable = (uint32_t)(cbReadablePa - pStreamPA->cbPeekBuf);
else
{
AssertMsgFailed(("%#zx vs %#zx\n", cbReadablePa, pStreamPA->cbPeekBuf));
cbReadable = 0;
}
}
else
drvHstAudPaError(pThis, "pa_stream_readable_size failed on '%s'", pStreamPA->Cfg.szName);
}
else
drvHstAudPaError(pThis, "Non-good %s stream state for '%s' (%#x)\n",
PDMAudioDirGetName(pStreamPA->Cfg.enmDir), pStreamPA->Cfg.szName, enmState);
pa_threaded_mainloop_unlock(pThis->pMainLoop);
}
Log3Func(("returns %#x (%u)\n", cbReadable, cbReadable));
return cbReadable;
}
/**
* @interface_method_impl{PDMIHOSTAUDIO,pfnStreamCapture}
*/
static DECLCALLBACK(int) drvHstAudPaHA_StreamCapture(PPDMIHOSTAUDIO pInterface, PPDMAUDIOBACKENDSTREAM pStream,
void *pvBuf, uint32_t cbBuf, uint32_t *pcbRead)
{
PDRVHSTAUDPA pThis = RT_FROM_MEMBER(pInterface, DRVHSTAUDPA, IHostAudio);
PDRVHSTAUDPASTREAM pStreamPA = (PDRVHSTAUDPASTREAM)pStream;
AssertPtrReturn(pStreamPA, VERR_INVALID_POINTER);
AssertPtrReturn(pvBuf, VERR_INVALID_POINTER);
AssertReturn(cbBuf, VERR_INVALID_PARAMETER);
AssertPtrReturn(pcbRead, VERR_INVALID_POINTER);
#ifdef LOG_ENABLED
const pa_usec_t tsNowUs = pa_rtclock_now();
Log3Func(("capture delta: %'RI64 us; cbBuf=%#x @%#RX64\n",
pStreamPA->tsLastReadWrittenUs ? tsNowUs - pStreamPA->tsLastReadWrittenUs : -1, cbBuf, pStreamPA->offInternal));
pStreamPA->tsLastReadWrittenUs = tsNowUs;
#endif
/*
* If we have left over peek buffer space from the last call,
* copy out the data from there.
*/
uint32_t cbTotalRead = 0;
if ( pStreamPA->pbPeekBuf
&& pStreamPA->offPeekBuf < pStreamPA->cbPeekBuf)
{
uint32_t cbToCopy = pStreamPA->cbPeekBuf - pStreamPA->offPeekBuf;
if (cbToCopy >= cbBuf)
{
memcpy(pvBuf, &pStreamPA->pbPeekBuf[pStreamPA->offPeekBuf], cbBuf);
pStreamPA->offPeekBuf += cbBuf;
pStreamPA->offInternal += cbBuf;
*pcbRead = cbBuf;
if (cbToCopy == cbBuf)
{
pa_threaded_mainloop_lock(pThis->pMainLoop);
pStreamPA->pbPeekBuf = NULL;
pStreamPA->cbPeekBuf = 0;
pa_stream_drop(pStreamPA->pStream);
pa_threaded_mainloop_unlock(pThis->pMainLoop);
}
Log3Func(("returns *pcbRead=%#x from prev peek buf (%#x/%#x) @%#RX64\n",
cbBuf, pStreamPA->offPeekBuf, pStreamPA->cbPeekBuf, pStreamPA->offInternal));
return VINF_SUCCESS;
}
memcpy(pvBuf, &pStreamPA->pbPeekBuf[pStreamPA->offPeekBuf], cbToCopy);
cbBuf -= cbToCopy;
pvBuf = (uint8_t *)pvBuf + cbToCopy;
cbTotalRead += cbToCopy;
pStreamPA->offPeekBuf = pStreamPA->cbPeekBuf;
}
/*
* Copy out what we can.
*/
int rc = VINF_SUCCESS;
pa_threaded_mainloop_lock(pThis->pMainLoop);
while (cbBuf > 0)
{
/*
* Drop the old peek buffer first, if we have one.
*/
if (pStreamPA->pbPeekBuf)
{
Assert(pStreamPA->offPeekBuf >= pStreamPA->cbPeekBuf);
pStreamPA->pbPeekBuf = NULL;
pStreamPA->cbPeekBuf = 0;
pa_stream_drop(pStreamPA->pStream);
}
/*
* Check if there is anything to read, the get the peek buffer for it.
*/
size_t cbAvail = pa_stream_readable_size(pStreamPA->pStream);
if (cbAvail > 0 && cbAvail != (size_t)-1)
{
pStreamPA->pbPeekBuf = NULL;
pStreamPA->cbPeekBuf = 0;
int rcPa = pa_stream_peek(pStreamPA->pStream, (const void **)&pStreamPA->pbPeekBuf, &pStreamPA->cbPeekBuf);
if (rcPa == 0)
{
if (pStreamPA->cbPeekBuf)
{
if (pStreamPA->pbPeekBuf)
{
/*
* We got data back. Copy it into the return buffer, return if it's full.
*/
if (cbBuf < pStreamPA->cbPeekBuf)
{
memcpy(pvBuf, pStreamPA->pbPeekBuf, cbBuf);
cbTotalRead += cbBuf;
pStreamPA->offPeekBuf = cbBuf;
pStreamPA->offInternal += cbBuf;
cbBuf = 0;
break;
}
memcpy(pvBuf, pStreamPA->pbPeekBuf, pStreamPA->cbPeekBuf);
cbBuf -= pStreamPA->cbPeekBuf;
pvBuf = (uint8_t *)pvBuf + pStreamPA->cbPeekBuf;
cbTotalRead += pStreamPA->cbPeekBuf;
pStreamPA->offInternal += cbBuf;
pStreamPA->pbPeekBuf = NULL;
}
else
{
/*
* We got a hole (drop needed). We will skip it as we leave it to
* the device's DMA engine to fill in buffer gaps with silence.
*/
LogFunc(("pa_stream_peek returned a %#zx (%zu) byte hole - skipping.\n",
pStreamPA->cbPeekBuf, pStreamPA->cbPeekBuf));
}
pStreamPA->cbPeekBuf = 0;
pa_stream_drop(pStreamPA->pStream);
}
else
{
Assert(!pStreamPA->pbPeekBuf);
LogFunc(("pa_stream_peek returned empty buffer\n"));
break;
}
}
else
{
rc = drvHstAudPaError(pStreamPA->pDrv, "pa_stream_peek failed on '%s' (%d)", pStreamPA->Cfg.szName, rcPa);
pStreamPA->pbPeekBuf = NULL;
pStreamPA->cbPeekBuf = 0;
break;
}
}
else
{
if (cbAvail == (size_t)-1)
rc = drvHstAudPaError(pStreamPA->pDrv, "pa_stream_readable_size failed on '%s'", pStreamPA->Cfg.szName);
break;
}
}
pa_threaded_mainloop_unlock(pThis->pMainLoop);
*pcbRead = cbTotalRead;
if (RT_SUCCESS(rc) || cbTotalRead == 0)
{ /* likely */ }
else
{
LogFunc(("Supressing %Rrc because we're returning %#x bytes\n", rc, cbTotalRead));
rc = VINF_SUCCESS;
}
Log3Func(("returns %Rrc *pcbRead=%#x (%#x left, peek %#x/%#x) @%#RX64\n",
rc, cbTotalRead, cbBuf, pStreamPA->offPeekBuf, pStreamPA->cbPeekBuf, pStreamPA->offInternal));
return rc;
}
/*********************************************************************************************************************************
* PDMIBASE *
*********************************************************************************************************************************/
/**
* @interface_method_impl{PDMIBASE,pfnQueryInterface}
*/
static DECLCALLBACK(void *) drvHstAudPaQueryInterface(PPDMIBASE pInterface, const char *pszIID)
{
AssertPtrReturn(pInterface, NULL);
AssertPtrReturn(pszIID, NULL);
PPDMDRVINS pDrvIns = PDMIBASE_2_PDMDRV(pInterface);
PDRVHSTAUDPA pThis = PDMINS_2_DATA(pDrvIns, PDRVHSTAUDPA);
PDMIBASE_RETURN_INTERFACE(pszIID, PDMIBASE, &pDrvIns->IBase);
PDMIBASE_RETURN_INTERFACE(pszIID, PDMIHOSTAUDIO, &pThis->IHostAudio);
return NULL;
}
/*********************************************************************************************************************************
* PDMDRVREG *
*********************************************************************************************************************************/
/**
* Destructs a PulseAudio Audio driver instance.
*
* @copydoc FNPDMDRVDESTRUCT
*/
static DECLCALLBACK(void) drvHstAudPaDestruct(PPDMDRVINS pDrvIns)
{
PDMDRV_CHECK_VERSIONS_RETURN_VOID(pDrvIns);
PDRVHSTAUDPA pThis = PDMINS_2_DATA(pDrvIns, PDRVHSTAUDPA);
LogFlowFuncEnter();
if (pThis->pMainLoop)
pa_threaded_mainloop_stop(pThis->pMainLoop);
if (pThis->pContext)
{
pa_context_disconnect(pThis->pContext);
pa_context_unref(pThis->pContext);
pThis->pContext = NULL;
}
if (pThis->pMainLoop)
{
pa_threaded_mainloop_free(pThis->pMainLoop);
pThis->pMainLoop = NULL;
}
LogFlowFuncLeave();
}
/**
* Pulse audio callback for context status changes, init variant.
*
* Signalls our event semaphore so we can do a timed wait from
* drvHstAudPaConstruct().
*/
static void drvHstAudPaCtxCallbackStateChangedInit(pa_context *pCtx, void *pvUser)
{
AssertPtrReturnVoid(pCtx);
PDRVHSTAUDPASTATECHGCTX pStateChgCtx = (PDRVHSTAUDPASTATECHGCTX)pvUser;
pa_context_state_t enmCtxState = pa_context_get_state(pCtx);
switch (enmCtxState)
{
case PA_CONTEXT_READY:
case PA_CONTEXT_TERMINATED:
case PA_CONTEXT_FAILED:
AssertPtrReturnVoid(pStateChgCtx);
pStateChgCtx->enmCtxState = enmCtxState;
RTSemEventSignal(pStateChgCtx->hEvtInit);
break;
default:
break;
}
}
/**
* Constructs a PulseAudio Audio driver instance.
*
* @copydoc FNPDMDRVCONSTRUCT
*/
static DECLCALLBACK(int) drvHstAudPaConstruct(PPDMDRVINS pDrvIns, PCFGMNODE pCfg, uint32_t fFlags)
{
RT_NOREF(pCfg, fFlags);
PDMDRV_CHECK_VERSIONS_RETURN(pDrvIns);
PDRVHSTAUDPA pThis = PDMINS_2_DATA(pDrvIns, PDRVHSTAUDPA);
PCPDMDRVHLPR3 pHlp = pDrvIns->pHlpR3;
LogRel(("Audio: Initializing PulseAudio driver\n"));
/*
* Initialize instance data.
*/
pThis->pDrvIns = pDrvIns;
/* IBase */
pDrvIns->IBase.pfnQueryInterface = drvHstAudPaQueryInterface;
/* IHostAudio */
pThis->IHostAudio.pfnGetConfig = drvHstAudPaHA_GetConfig;
pThis->IHostAudio.pfnGetDevices = drvHstAudPaHA_GetDevices;
pThis->IHostAudio.pfnSetDevice = drvHstAudPaHA_SetDevice;
pThis->IHostAudio.pfnGetStatus = drvHstAudPaHA_GetStatus;
pThis->IHostAudio.pfnDoOnWorkerThread = NULL;
pThis->IHostAudio.pfnStreamConfigHint = NULL;
pThis->IHostAudio.pfnStreamCreate = drvHstAudPaHA_StreamCreate;
pThis->IHostAudio.pfnStreamInitAsync = NULL;
pThis->IHostAudio.pfnStreamDestroy = drvHstAudPaHA_StreamDestroy;
pThis->IHostAudio.pfnStreamNotifyDeviceChanged = NULL;
pThis->IHostAudio.pfnStreamEnable = drvHstAudPaHA_StreamEnable;
pThis->IHostAudio.pfnStreamDisable = drvHstAudPaHA_StreamDisable;
pThis->IHostAudio.pfnStreamPause = drvHstAudPaHA_StreamPause;
pThis->IHostAudio.pfnStreamResume = drvHstAudPaHA_StreamResume;
pThis->IHostAudio.pfnStreamDrain = drvHstAudPaHA_StreamDrain;
pThis->IHostAudio.pfnStreamGetState = drvHstAudPaHA_StreamGetState;
pThis->IHostAudio.pfnStreamGetPending = NULL;
pThis->IHostAudio.pfnStreamGetWritable = drvHstAudPaHA_StreamGetWritable;
pThis->IHostAudio.pfnStreamPlay = drvHstAudPaHA_StreamPlay;
pThis->IHostAudio.pfnStreamGetReadable = drvHstAudPaHA_StreamGetReadable;
pThis->IHostAudio.pfnStreamCapture = drvHstAudPaHA_StreamCapture;
/*
* Read configuration.
*/
PDMDRV_VALIDATE_CONFIG_RETURN(pDrvIns, "VmName|InputDeviceID|OutputDeviceID", "");
int rc = pHlp->pfnCFGMQueryString(pCfg, "VmName", pThis->szStreamName, sizeof(pThis->szStreamName));
AssertMsgRCReturn(rc, ("Confguration error: No/bad \"VmName\" value, rc=%Rrc\n", rc), rc);
rc = pHlp->pfnCFGMQueryStringDef(pCfg, "InputDeviceID", pThis->szInputDev, sizeof(pThis->szInputDev), "");
AssertMsgRCReturn(rc, ("Confguration error: Failed to read \"InputDeviceID\" as string: rc=%Rrc\n", rc), rc);
rc = pHlp->pfnCFGMQueryStringDef(pCfg, "OutputDeviceID", pThis->szOutputDev, sizeof(pThis->szOutputDev), "");
AssertMsgRCReturn(rc, ("Confguration error: Failed to read \"OutputDeviceID\" as string: rc=%Rrc\n", rc), rc);
/*
* Query the notification interface from the driver/device above us.
*/
pThis->pIHostAudioPort = PDMIBASE_QUERY_INTERFACE(pDrvIns->pUpBase, PDMIHOSTAUDIOPORT);
AssertReturn(pThis->pIHostAudioPort, VERR_PDM_MISSING_INTERFACE_ABOVE);
/*
* Load the pulse audio library.
*/
LogRel2(("PulseAudio: Loading PulseAudio shared library ...\n"));
rc = audioLoadPulseLib();
if (RT_SUCCESS(rc))
{
LogRel2(("PulseAudio: PulseAudio shared library loaded\n"));
LogRel(("PulseAudio: Using version %s\n", pa_get_library_version()));
}
else
{
LogRel(("PulseAudio: Failed to load the PulseAudio shared library! Error %Rrc\n", rc));
return rc;
}
LogRel2(("PulseAudio: Starting PulseAudio main loop ...\n"));
/*
* Set up the basic pulse audio bits (remember the destructore is always called).
*/
//pThis->fAbortLoop = false;
pThis->pMainLoop = pa_threaded_mainloop_new();
if (!pThis->pMainLoop)
{
LogRel(("PulseAudio: Failed to allocate main loop: %s\n", pa_strerror(pa_context_errno(pThis->pContext))));
return VERR_NO_MEMORY;
}
pThis->pContext = pa_context_new(pa_threaded_mainloop_get_api(pThis->pMainLoop), "VirtualBox");
if (!pThis->pContext)
{
LogRel(("PulseAudio: Failed to allocate context: %s\n", pa_strerror(pa_context_errno(pThis->pContext))));
return VERR_NO_MEMORY;
}
if (pa_threaded_mainloop_start(pThis->pMainLoop) < 0)
{
LogRel(("PulseAudio: Failed to start threaded mainloop: %s\n", pa_strerror(pa_context_errno(pThis->pContext))));
return VERR_AUDIO_BACKEND_INIT_FAILED;
}
LogRel2(("PulseAudio: Started PulseAudio main loop, connecting to server ...\n"));
/*
* Connect to the pulse audio server.
*
* We install an init state callback so we can do a timed wait in case
* connecting to the pulseaudio server should take too long.
*/
pThis->InitStateChgCtx.hEvtInit = NIL_RTSEMEVENT;
pThis->InitStateChgCtx.enmCtxState = PA_CONTEXT_UNCONNECTED;
rc = RTSemEventCreate(&pThis->InitStateChgCtx.hEvtInit);
AssertLogRelRCReturn(rc, rc);
pa_threaded_mainloop_lock(pThis->pMainLoop);
pa_context_set_state_callback(pThis->pContext, drvHstAudPaCtxCallbackStateChangedInit, &pThis->InitStateChgCtx);
if (!pa_context_connect(pThis->pContext, NULL /* pszServer */, PA_CONTEXT_NOFLAGS, NULL))
{
pa_threaded_mainloop_unlock(pThis->pMainLoop);
rc = RTSemEventWait(pThis->InitStateChgCtx.hEvtInit, RT_MS_10SEC); /* 10 seconds should be plenty. */
if (RT_SUCCESS(rc))
{
if (pThis->InitStateChgCtx.enmCtxState == PA_CONTEXT_READY)
{
/* Install the main state changed callback to know if something happens to our acquired context. */
pa_threaded_mainloop_lock(pThis->pMainLoop);
pa_context_set_state_callback(pThis->pContext, drvHstAudPaCtxCallbackStateChanged, pThis /* pvUserData */);
pa_threaded_mainloop_unlock(pThis->pMainLoop);
}
else
{
LogRel(("PulseAudio: Failed to initialize context (state %d, rc=%Rrc)\n", pThis->InitStateChgCtx.enmCtxState, rc));
rc = VERR_AUDIO_BACKEND_INIT_FAILED;
}
}
else
{
LogRel(("PulseAudio: Waiting for context to become ready failed: %Rrc\n", rc));
rc = VERR_AUDIO_BACKEND_INIT_FAILED;
}
}
else
{
pa_threaded_mainloop_unlock(pThis->pMainLoop);
LogRel(("PulseAudio: Failed to connect to server: %s\n", pa_strerror(pa_context_errno(pThis->pContext))));
rc = VERR_AUDIO_BACKEND_INIT_FAILED; /* bird: This used to be VINF_SUCCESS. */
}
RTSemEventDestroy(pThis->InitStateChgCtx.hEvtInit);
pThis->InitStateChgCtx.hEvtInit = NIL_RTSEMEVENT;
/*
* Register statistics.
*/
if (RT_SUCCESS(rc))
{
LogRel2(("PulseAudio: Connected to PulseAudio server\n"));
PDMDrvHlpSTAMRegister(pDrvIns, &pThis->StatOverruns, STAMTYPE_COUNTER, "Overruns", STAMUNIT_OCCURENCES,
"Pulse-server side buffer overruns (all streams)");
PDMDrvHlpSTAMRegister(pDrvIns, &pThis->StatUnderruns, STAMTYPE_COUNTER, "Underruns", STAMUNIT_OCCURENCES,
"Pulse-server side buffer underruns (all streams)");
}
LogRel2(("PulseAudio: Initialization ended with %Rrc\n", rc));
return rc;
}
/**
* Pulse audio driver registration record.
*/
const PDMDRVREG g_DrvHostPulseAudio =
{
/* u32Version */
PDM_DRVREG_VERSION,
/* szName */
"PulseAudio",
/* szRCMod */
"",
/* szR0Mod */
"",
/* pszDescription */
"Pulse Audio host driver",
/* fFlags */
PDM_DRVREG_FLAGS_HOST_BITS_DEFAULT,
/* fClass. */
PDM_DRVREG_CLASS_AUDIO,
/* cMaxInstances */
~0U,
/* cbInstance */
sizeof(DRVHSTAUDPA),
/* pfnConstruct */
drvHstAudPaConstruct,
/* pfnDestruct */
drvHstAudPaDestruct,
/* pfnRelocate */
NULL,
/* pfnIOCtl */
NULL,
/* pfnPowerOn */
NULL,
/* pfnReset */
NULL,
/* pfnSuspend */
NULL,
/* pfnResume */
NULL,
/* pfnAttach */
NULL,
/* pfnDetach */
NULL,
/* pfnPowerOff */
NULL,
/* pfnSoftReset */
NULL,
/* u32EndVersion */
PDM_DRVREG_VERSION
};
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