Google Git
Sign in
android / platform / external / opencore / 7a7c607909568a2a1b561023be821919bdb9d578 / . / nodes / pvaacffparsernode / src / pvmf_aacffparser_outport.cpp
blob: 4566d6ba8a4547f3a100c759e6c510367dfe7884 [file] [log] [blame]
/* ------------------------------------------------------------------
* Copyright (C) 2008 PacketVideo
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either
* express or implied.
* See the License for the specific language governing permissions
* and limitations under the License.
* -------------------------------------------------------------------
*/
#include "pvmf_aacffparser_outport.h"
#include "pvmf_aacffparser_node.h"
#include "media_clock_converter.h"
#include "pvmf_aacffparser_defs.h"
#ifndef OSCL_MIME_STRING_UTILS_H
#include "pv_mime_string_utils.h"
#endif
PVMFAACFFParserOutPort::PVMFAACFFParserOutPort(int32 aTag, PVMFNodeInterface* aNode)
: PvmfPortBaseImpl(aTag, aNode, "AacFFParOut(Audio)")
{
iAACParserNode = OSCL_STATIC_CAST(PVMFAACFFParserNode*, aNode);
Construct();
}
void PVMFAACFFParserOutPort::Construct()
{
iLogger = PVLogger::GetLoggerObject("PVMFAACParserOutPort");
oscl_memset(&iStats, 0, sizeof(PvmfPortBaseImplStats));
iNumFramesGenerated = 0;
iNumFramesConsumed = 0;
}
PVMFAACFFParserOutPort::~PVMFAACFFParserOutPort()
{
Disconnect();
ClearMsgQueues();
}
bool PVMFAACFFParserOutPort::IsFormatSupported(PVMFFormatType aFmt)
{
return (aFmt == PVMF_MPEG4_AUDIO ||
aFmt == PVMF_ADIF);
}
void PVMFAACFFParserOutPort::FormatUpdated()
{
PVMF_AACPARSERNODE_LOGSTACKTRACE((0, "PVMFAACFFParserOutPort::FormatUpdated"));
}
///////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////
PVMFStatus PVMFAACFFParserOutPort::Connect(PVMFPortInterface* aPort)
{
if (!aPort)
{
PVMF_AACPARSERNODE_LOGERROR((0, "PVMFAACParserOutPort::Connect: Error - Connecting to invalid port"));
return PVMFErrArgument;
}
if (iConnectedPort)
{
PVMF_AACPARSERNODE_LOGERROR((0, "PVMFAACParserOutPort::Connect: Error - Already connected"));
return PVMFFailure;
}
PvmiCapabilityAndConfig *config;
aPort->QueryInterface(PVMI_CAPABILITY_AND_CONFIG_PVUUID,
(OsclAny*&)config);
if (config != NULL)
{
if (!(pvmiSetPortFormatSpecificInfoSync(config, PVMF_FORMAT_SPECIFIC_INFO_KEY)))
{
PVMF_AACPARSERNODE_LOGERROR((0, "PVMFAACParserOutPort::Connect: Error - Unable To Send Format Specific Info To Peer"));
return PVMFFailure;
}
if (!(pvmiSetPortFormatSpecificInfoSync(config, PVMF_DATAPATH_PORT_MAX_NUM_MEDIA_MSGS_KEY)))
{
PVMF_AACPARSERNODE_LOGERROR((0, "PVMFAACParserOutPort::Connect: Error - Unable To Send Max Num Media Msg Key To Peer"));
return PVMFFailure;
}
}
/*
* Automatically connect the peer.
*/
if (aPort->PeerConnect(this) != PVMFSuccess)
{
PVMF_AACPARSERNODE_LOGERROR((0, "PVMFAACParserOutPort::Connect: Error - Peer Connect failed"));
return PVMFFailure;
}
iConnectedPort = aPort;
PortActivity(PVMF_PORT_ACTIVITY_CONNECT);
return PVMFSuccess;
}
PVMFStatus PVMFAACFFParserOutPort::getParametersSync(PvmiMIOSession aSession,
PvmiKeyType aIdentifier,
PvmiKvp*& aParameters,
int& num_parameter_elements,
PvmiCapabilityContext aContext)
{
OSCL_UNUSED_ARG(aSession);
OSCL_UNUSED_ARG(aIdentifier);
OSCL_UNUSED_ARG(aContext);
num_parameter_elements = 0;
if (pv_mime_strcmp(aIdentifier, PVMF_FORMAT_SPECIFIC_INFO_KEY) == 0)
{
if (!pvmiGetPortFormatSpecificInfoSync(PVMF_FORMAT_SPECIFIC_INFO_KEY, aParameters))
{
return PVMFFailure;
}
}
else if (pv_mime_strcmp(aIdentifier, PVMF_DATAPATH_PORT_MAX_NUM_MEDIA_MSGS_KEY) == 0)
{
if (!pvmiGetPortFormatSpecificInfoSync(PVMF_DATAPATH_PORT_MAX_NUM_MEDIA_MSGS_KEY, aParameters))
{
return PVMFFailure;
}
}
num_parameter_elements = 1;
return PVMFSuccess;
}
PVMFStatus PVMFAACFFParserOutPort::releaseParameters(PvmiMIOSession aSession,
PvmiKvp* aParameters,
int num_elements)
{
OSCL_UNUSED_ARG(aSession);
OSCL_UNUSED_ARG(num_elements);
if (pv_mime_strcmp(aParameters->key, PVMF_FORMAT_SPECIFIC_INFO_KEY) == 0)
{
OsclMemAllocator alloc;
alloc.deallocate((OsclAny*)(aParameters->key));
return PVMFSuccess;
}
return PVMFErrNotSupported;
}
void PVMFAACFFParserOutPort::setParametersSync(PvmiMIOSession aSession,
PvmiKvp* aParameters,
int num_elements,
PvmiKvp * & aRet_kvp)
{
OSCL_UNUSED_ARG(aSession);
OSCL_UNUSED_ARG(aParameters);
OSCL_UNUSED_ARG(aRet_kvp);
OSCL_UNUSED_ARG(num_elements);
}
PVMFStatus PVMFAACFFParserOutPort::verifyParametersSync(PvmiMIOSession aSession,
PvmiKvp* aParameters,
int num_elements)
{
OSCL_UNUSED_ARG(aSession);
OSCL_UNUSED_ARG(aParameters);
OSCL_UNUSED_ARG(num_elements);
return PVMFErrNotSupported;
}
bool
PVMFAACFFParserOutPort::pvmiSetPortFormatSpecificInfoSync(PvmiCapabilityAndConfig *aPort,
const char* aFormatValType)
{
/*
* Create PvmiKvp for capability settings
*/
PVAACFFNodeTrackPortInfo* trackInfoPtr = NULL;
if (!(iAACParserNode->GetTrackInfo((OSCL_STATIC_CAST(PVMFPortInterface*, this)), trackInfoPtr)))
{
return false;
}
if (pv_mime_strcmp(aFormatValType, PVMF_FORMAT_SPECIFIC_INFO_KEY) == 0)
{
if (trackInfoPtr->iFormatSpecificConfig.getMemFragSize() > 0)
{
OsclMemAllocator alloc;
PvmiKvp kvp;
kvp.key = NULL;
kvp.length = oscl_strlen(aFormatValType) + 1; // +1 for \0
kvp.key = (PvmiKeyType)alloc.ALLOCATE(kvp.length);
if (kvp.key == NULL)
{
return false;
}
oscl_strncpy(kvp.key, aFormatValType, kvp.length);
kvp.value.key_specific_value = (OsclAny*)(trackInfoPtr->iFormatSpecificConfig.getMemFragPtr());
kvp.capacity = trackInfoPtr->iFormatSpecificConfig.getMemFragSize();
PvmiKvp* retKvp = NULL; // for return value
int32 err;
OSCL_TRY(err, aPort->setParametersSync(NULL, &kvp, 1, retKvp););
/* ignore the error for now */
alloc.deallocate((OsclAny*)(kvp.key));
}
return true;
}
else if (pv_mime_strcmp(aFormatValType, PVMF_DATAPATH_PORT_MAX_NUM_MEDIA_MSGS_KEY) == 0)
{
OsclMemAllocator alloc;
PvmiKvp kvp;
kvp.key = NULL;
kvp.length = oscl_strlen(aFormatValType) + 1; // +1 for \0
kvp.key = (PvmiKeyType)alloc.ALLOCATE(kvp.length);
if (kvp.key == NULL)
{
return false;
}
oscl_strncpy(kvp.key, aFormatValType, kvp.length);
kvp.value.uint32_value = PVMF_AAC_PARSER_NODE_MAX_NUM_OUTSTANDING_MEDIA_MSGS;
PvmiKvp* retKvp = NULL; // for return value
int32 err;
OSCL_TRY(err, aPort->setParametersSync(NULL, &kvp, 1, retKvp););
/* ignore the error for now */
alloc.deallocate((OsclAny*)(kvp.key));
return true;
}
return false;
}
bool
PVMFAACFFParserOutPort::pvmiGetPortFormatSpecificInfoSync(const char* aFormatValType,
PvmiKvp*& aKvp)
{
/*
* Create PvmiKvp for capability settings
*/
PVAACFFNodeTrackPortInfo* trackInfoPtr = NULL;
if (!(iAACParserNode->GetTrackInfo((OSCL_STATIC_CAST(PVMFPortInterface*, this)), trackInfoPtr)))
{
return false;
}
if (pv_mime_strcmp(aFormatValType, PVMF_FORMAT_SPECIFIC_INFO_KEY) == 0)
{
if (trackInfoPtr->iFormatSpecificConfig.getMemFragSize() > 0)
{
OsclMemAllocator alloc;
aKvp->key = NULL;
aKvp->length = oscl_strlen(aFormatValType) + 1; // +1 for \0
aKvp->key = (PvmiKeyType)alloc.ALLOCATE(aKvp->length);
if (aKvp->key == NULL)
{
return false;
}
oscl_strncpy(aKvp->key, aFormatValType, aKvp->length);
aKvp->value.key_specific_value = (OsclAny*)(trackInfoPtr->iFormatSpecificConfig.getMemFragPtr());
aKvp->capacity = trackInfoPtr->iFormatSpecificConfig.getMemFragSize();
}
return true;
}
else if (pv_mime_strcmp(aFormatValType, PVMF_DATAPATH_PORT_MAX_NUM_MEDIA_MSGS_KEY) == 0)
{
OsclMemAllocator alloc;
aKvp->key = NULL;
aKvp->length = oscl_strlen(aFormatValType) + 1; // +1 for \0
aKvp->key = (PvmiKeyType)alloc.ALLOCATE(aKvp->length);
if (aKvp->key == NULL)
{
return false;
}
oscl_strncpy(aKvp->key, aFormatValType, aKvp->length);
aKvp->value.uint32_value = PVMF_AAC_PARSER_NODE_MAX_NUM_OUTSTANDING_MEDIA_MSGS;
return true;
}
return false;
}