/*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*\ File: oct6100_events.c Copyright (c) 2001-2007 Octasic Inc. Description: This file contains functions used to retrieve tone and playout events. This file is part of the Octasic OCT6100 GPL API . The OCT6100 GPL API 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; either version 2 of the License, or (at your option) any later version. The OCT6100 GPL API 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 the OCT6100 GPL API; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. $Octasic_Release: OCT612xAPI-01.00-PR49 $ $Octasic_Revision: 81 $ \*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*/ /***************************** INCLUDE FILES *******************************/ #include "octdef.h" #include "oct6100api/oct6100_defines.h" #include "oct6100api/oct6100_errors.h" #include "oct6100api/oct6100_apiud.h" #include "apilib/octapi_llman.h" #include "oct6100api/oct6100_tlv_inst.h" #include "oct6100api/oct6100_chip_open_inst.h" #include "oct6100api/oct6100_chip_stats_inst.h" #include "oct6100api/oct6100_interrupts_inst.h" #include "oct6100api/oct6100_remote_debug_inst.h" #include "oct6100api/oct6100_debug_inst.h" #include "oct6100api/oct6100_api_inst.h" #include "oct6100api/oct6100_channel_inst.h" #include "oct6100api/oct6100_events_inst.h" #include "oct6100api/oct6100_tone_detection_inst.h" #include "oct6100api/oct6100_playout_buf_inst.h" #include "oct6100api/oct6100_interrupts_pub.h" #include "oct6100api/oct6100_chip_open_pub.h" #include "oct6100api/oct6100_channel_pub.h" #include "oct6100api/oct6100_events_pub.h" #include "oct6100api/oct6100_tone_detection_pub.h" #include "oct6100api/oct6100_playout_buf_pub.h" #include "oct6100_chip_open_priv.h" #include "oct6100_miscellaneous_priv.h" #include "oct6100_channel_priv.h" #include "oct6100_events_priv.h" #include "oct6100_tone_detection_priv.h" #include "oct6100_playout_buf_priv.h" /**************************** PUBLIC FUNCTIONS *****************************/ /*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*\ Function: Oct6100EventGetTone Description: Retreives an array of tone events. ------------------------------------------------------------------------------- | Argument | Description ------------------------------------------------------------------------------- f_pApiInstance Pointer to API instance. This memory is used to keep the present state of the chip and all its resources. f_pEventGetTone Pointer to structure used to store the Tone events. \*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*/ #if !SKIP_Oct6100EventGetToneDef UINT32 Oct6100EventGetToneDef( tPOCT6100_EVENT_GET_TONE f_pEventGetTone ) { f_pEventGetTone->pToneEvent = NULL; f_pEventGetTone->ulMaxToneEvent = 1; f_pEventGetTone->ulNumValidToneEvent = cOCT6100_INVALID_VALUE; f_pEventGetTone->fMoreEvents = FALSE; f_pEventGetTone->fResetBufs = FALSE; return cOCT6100_ERR_OK; } #endif #if !SKIP_Oct6100EventGetTone UINT32 Oct6100EventGetTone( tPOCT6100_INSTANCE_API f_pApiInstance, tPOCT6100_EVENT_GET_TONE f_pEventGetTone ) { tOCT6100_SEIZE_SERIALIZE_OBJECT SeizeSerObj; tOCT6100_RELEASE_SERIALIZE_OBJECT ReleaseSerObj; UINT32 ulSerRes = cOCT6100_ERR_OK; UINT32 ulFncRes = cOCT6100_ERR_OK; /* Set the process context of the serialize structure. */ SeizeSerObj.pProcessContext = f_pApiInstance->pProcessContext; ReleaseSerObj.pProcessContext = f_pApiInstance->pProcessContext; /* Seize all list semaphores needed by this function. */ SeizeSerObj.ulSerialObjHndl = f_pApiInstance->ulApiSerObj; SeizeSerObj.ulTryTimeMs = cOCT6100_WAIT_INFINITELY; ulSerRes = Oct6100UserSeizeSerializeObject( &SeizeSerObj ); if ( ulSerRes == cOCT6100_ERR_OK ) { /* Call the serialized function. */ ulFncRes = Oct6100EventGetToneSer( f_pApiInstance, f_pEventGetTone ); } else { return ulSerRes; } /* Release the seized semaphores. */ ReleaseSerObj.ulSerialObjHndl = f_pApiInstance->ulApiSerObj; ulSerRes = Oct6100UserReleaseSerializeObject( &ReleaseSerObj ); /* If an error occured then return the error code. */ if ( ulSerRes != cOCT6100_ERR_OK ) return ulSerRes; if ( ulFncRes != cOCT6100_ERR_OK ) return ulFncRes; return cOCT6100_ERR_OK; } #endif /*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*\ Function: Oct6100BufferPlayoutGetEvent Description: Retrieves an array of playout stop events. ------------------------------------------------------------------------------- | Argument | Description ------------------------------------------------------------------------------- f_pApiInstance Pointer to API instance. This memory is used to keep the present state of the chip and all its resources. f_pBufPlayoutGetEvent Pointer to structure used to store the playout events. \*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*/ #if !SKIP_Oct6100BufferPlayoutGetEventDef UINT32 Oct6100BufferPlayoutGetEventDef( tPOCT6100_BUFFER_PLAYOUT_GET_EVENT f_pBufPlayoutGetEvent ) { f_pBufPlayoutGetEvent->pBufferPlayoutEvent = NULL; f_pBufPlayoutGetEvent->ulMaxEvent = 1; f_pBufPlayoutGetEvent->ulNumValidEvent = cOCT6100_INVALID_VALUE; f_pBufPlayoutGetEvent->fMoreEvents = FALSE; f_pBufPlayoutGetEvent->fResetBufs = FALSE; return cOCT6100_ERR_OK; } #endif #if !SKIP_Oct6100BufferPlayoutGetEvent UINT32 Oct6100BufferPlayoutGetEvent( tPOCT6100_INSTANCE_API f_pApiInstance, tPOCT6100_BUFFER_PLAYOUT_GET_EVENT f_pBufPlayoutGetEvent ) { tOCT6100_SEIZE_SERIALIZE_OBJECT SeizeSerObj; tOCT6100_RELEASE_SERIALIZE_OBJECT ReleaseSerObj; UINT32 ulSerRes = cOCT6100_ERR_OK; UINT32 ulFncRes = cOCT6100_ERR_OK; /* Set the process context of the serialize structure. */ SeizeSerObj.pProcessContext = f_pApiInstance->pProcessContext; ReleaseSerObj.pProcessContext = f_pApiInstance->pProcessContext; /* Seize all list semaphores needed by this function. */ SeizeSerObj.ulSerialObjHndl = f_pApiInstance->ulApiSerObj; SeizeSerObj.ulTryTimeMs = cOCT6100_WAIT_INFINITELY; ulSerRes = Oct6100UserSeizeSerializeObject( &SeizeSerObj ); if ( ulSerRes == cOCT6100_ERR_OK ) { /* Call the serialized function. */ ulFncRes = Oct6100BufferPlayoutGetEventSer( f_pApiInstance, f_pBufPlayoutGetEvent ); } else { return ulSerRes; } /* Release the seized semaphores. */ ReleaseSerObj.ulSerialObjHndl = f_pApiInstance->ulApiSerObj; ulSerRes = Oct6100UserReleaseSerializeObject( &ReleaseSerObj ); /* If an error occured then return the error code. */ if ( ulSerRes != cOCT6100_ERR_OK ) return ulSerRes; if ( ulFncRes != cOCT6100_ERR_OK ) return ulFncRes; return cOCT6100_ERR_OK; } #endif /**************************** PRIVATE FUNCTIONS ****************************/ /*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*\ Function: Oct6100ApiGetEventsSwSizes Description: Gets the sizes of all portions of the API instance pertinent to the management of the tone events and playout events software buffers. ------------------------------------------------------------------------------- | Argument | Description ------------------------------------------------------------------------------- f_pOpenChip Pointer to chip configuration struct. f_pInstSizes Pointer to struct containing instance sizes. \*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*/ #if !SKIP_Oct6100ApiGetEventsSwSizes UINT32 Oct6100ApiGetEventsSwSizes( IN tPOCT6100_CHIP_OPEN f_pOpenChip, OUT tPOCT6100_API_INSTANCE_SIZES f_pInstSizes ) { { UINT32 ulTempVar; /* Memory needed by soft tone event buffers. */ /* Add 1 to the circular buffer such that all user requested events can fit in the circular queue. */ f_pInstSizes->ulSoftToneEventsBuffer = ( f_pOpenChip->ulSoftToneEventsBufSize + 1 ) * sizeof( tOCT6100_API_TONE_EVENT ); /* Round off the sizes of the soft buffers above. */ mOCT6100_ROUND_MEMORY_SIZE( f_pInstSizes->ulSoftToneEventsBuffer, ulTempVar ) } { UINT32 ulTempVar; /* Memory needed by soft playout stop event buffers. */ if ( f_pOpenChip->ulSoftBufferPlayoutEventsBufSize != cOCT6100_INVALID_VALUE ) { f_pInstSizes->ulSoftBufPlayoutEventsBuffer = ( f_pOpenChip->ulSoftBufferPlayoutEventsBufSize + 1 ) * sizeof( tOCT6100_API_BUFFER_PLAYOUT_EVENT ); /* Round off the sizes of the soft buffers above. */ mOCT6100_ROUND_MEMORY_SIZE( f_pInstSizes->ulSoftBufPlayoutEventsBuffer, ulTempVar ) } else /* if ( f_pInstSizes->ulSoftBufferPlayoutEventsBufSize == cOCT6100_INVALID_VALUE ) */ { f_pInstSizes->ulSoftBufPlayoutEventsBuffer = 0; } } return cOCT6100_ERR_OK; } #endif /*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*\ Function: Oct6100EventGetToneSer Description: Retreives an array of tone event from the software event buffer. ------------------------------------------------------------------------------- | Argument | Description ------------------------------------------------------------------------------- f_pApiInstance Pointer to API instance. This memory is used to keep the present state of the chip and all its resources. f_pEventGetTone Pointer to structure which will contain the retreived events. \*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*/ #if !SKIP_Oct6100EventGetToneSer UINT32 Oct6100EventGetToneSer( IN OUT tPOCT6100_INSTANCE_API f_pApiInstance, IN OUT tPOCT6100_EVENT_GET_TONE f_pEventGetTone ) { tPOCT6100_SHARED_INFO pSharedInfo; tPOCT6100_API_TONE_EVENT pSoftEvent; UINT32 ulSoftReadPnt; UINT32 ulSoftWritePnt; UINT32 ulSoftBufSize; UINT32 ulNumEventsReturned; UINT32 ulResult; /* Get local pointer(s). */ pSharedInfo = f_pApiInstance->pSharedInfo; /* Check the parameters given by the user. */ if ( f_pEventGetTone->fResetBufs != TRUE && f_pEventGetTone->fResetBufs != FALSE ) return cOCT6100_ERR_EVENTS_GET_TONE_RESET_BUFS; /* Check max tones. */ if ( f_pEventGetTone->ulMaxToneEvent > pSharedInfo->ChipConfig.ulSoftToneEventsBufSize ) return cOCT6100_ERR_EVENTS_MAX_TONES; if ( f_pEventGetTone->fResetBufs == FALSE ) { /* Check if the events need to be fetched from the chip buffer. */ ulSoftReadPnt = pSharedInfo->SoftBufs.ulToneEventBufferReadPtr; ulSoftWritePnt = pSharedInfo->SoftBufs.ulToneEventBufferWritePtr; if ( ulSoftReadPnt == ulSoftWritePnt ) { ulResult = Oct6100ApiTransferToneEvents( f_pApiInstance, f_pEventGetTone->fResetBufs ); if ( ulResult != cOCT6100_ERR_OK ) return ulResult; } /* If there are no events in the soft buffer then there are none in the chip */ /* either, so return the empty case. Else, return the events in the buffer. */ ulSoftReadPnt = pSharedInfo->SoftBufs.ulToneEventBufferReadPtr; ulSoftWritePnt = pSharedInfo->SoftBufs.ulToneEventBufferWritePtr; ulSoftBufSize = pSharedInfo->SoftBufs.ulToneEventBufferSize; if ( ulSoftReadPnt != ulSoftWritePnt ) { ulNumEventsReturned = 0; while( (ulSoftReadPnt != ulSoftWritePnt) && ( ulNumEventsReturned != f_pEventGetTone->ulMaxToneEvent) ) { /* Get a pointer to the first event in the buffer. */ mOCT6100_GET_TONE_EVENT_BUF_PNT( pSharedInfo, pSoftEvent ) pSoftEvent += ulSoftReadPnt; f_pEventGetTone->pToneEvent[ ulNumEventsReturned ].ulChannelHndl = pSoftEvent->ulChannelHandle; f_pEventGetTone->pToneEvent[ ulNumEventsReturned ].ulUserChanId = pSoftEvent->ulUserChanId; f_pEventGetTone->pToneEvent[ ulNumEventsReturned ].ulTimestamp = pSoftEvent->ulTimestamp; f_pEventGetTone->pToneEvent[ ulNumEventsReturned ].ulEventType = pSoftEvent->ulEventType; f_pEventGetTone->pToneEvent[ ulNumEventsReturned ].ulToneDetected = pSoftEvent->ulToneDetected; f_pEventGetTone->pToneEvent[ ulNumEventsReturned ].ulExtToneDetectionPort = pSoftEvent->ulExtToneDetectionPort; /* Update the pointers of the soft buffer. */ ulSoftReadPnt++; if ( ulSoftReadPnt == ulSoftBufSize ) ulSoftReadPnt = 0; ulNumEventsReturned++; } pSharedInfo->SoftBufs.ulToneEventBufferReadPtr = ulSoftReadPnt; /* Detemine if there are more events pending in the soft buffer. */ if ( ulSoftReadPnt != ulSoftWritePnt ) f_pEventGetTone->fMoreEvents = TRUE; else /* ( ulSoftReadPnt == ulSoftWritePnt ) */ { f_pEventGetTone->fMoreEvents = FALSE; /* Remember this state in the interrupt manager. */ pSharedInfo->IntrptManage.fToneEventsPending = FALSE; } f_pEventGetTone->ulNumValidToneEvent = ulNumEventsReturned; } else { /* No valid tone.*/ f_pEventGetTone->ulNumValidToneEvent = 0; f_pEventGetTone->fMoreEvents = FALSE; /* Remember this state in the interrupt manager. */ pSharedInfo->IntrptManage.fToneEventsPending = FALSE; return cOCT6100_ERR_EVENTS_TONE_BUF_EMPTY; } } else /* ( f_pEventGetTone->fResetBufs == TRUE ) */ { /* Empty the hardware buffer. */ ulResult = Oct6100ApiTransferToneEvents( f_pApiInstance, f_pEventGetTone->fResetBufs ); if ( ulResult != cOCT6100_ERR_OK ) return ulResult; /* If the buffers are to be reset then update the pointers and full flag. */ pSharedInfo->SoftBufs.ulToneEventBufferReadPtr = 0; pSharedInfo->SoftBufs.ulToneEventBufferWritePtr = 0; f_pEventGetTone->fMoreEvents = FALSE; f_pEventGetTone->ulNumValidToneEvent = 0; /* Remember this state in the interrupt manager. */ pSharedInfo->IntrptManage.fToneEventsPending = FALSE; } return cOCT6100_ERR_OK; } #endif /*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*\ Function: Oct6100ApiTransferToneEvents Description: Transfers all tone events from the PGSP event out chip buffer to the soft buffer. ------------------------------------------------------------------------------- | Argument | Description ------------------------------------------------------------------------------- f_pApiInstance Pointer to API instance. This memory is used to keep the present state of the chip and all its resources. f_ulResetBuf Reset flag. \*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*/ #if !SKIP_Oct6100ApiTransferToneEvents UINT32 Oct6100ApiTransferToneEvents( IN OUT tPOCT6100_INSTANCE_API f_pApiInstance, IN UINT32 f_ulResetBuf ) { tPOCT6100_SHARED_INFO pSharedInfo; tPOCT6100_API_TONE_EVENT pSoftEvent; tPOCT6100_API_CHANNEL pEchoChannel; tOCT6100_WRITE_PARAMS WriteParams; tOCT6100_READ_PARAMS ReadParams; tOCT6100_READ_BURST_PARAMS BurstParams; UINT32 ulChipBufFill; UINT32 ulChipWritePtr = 0; UINT32 ulChipReadPtr = 0; UINT32 usChannelIndex; UINT32 ulBaseTimestamp; UINT32 ulToneCnt; UINT32 ulNumWordsToRead; UINT32 ulEventCode; UINT32 ulResult; UINT32 i, j; UINT16 usReadData; UINT16 ausReadData[ cOCT6100_NUM_WORDS_PER_TONE_EVENT ]; UINT32 ulExtToneDetectionPort; /* Get local pointer(s). */ pSharedInfo = f_pApiInstance->pSharedInfo; /* If the buffer is to be reset then clear the overflow flag. */ if ( f_ulResetBuf == TRUE ) { pSharedInfo->SoftBufs.ulToneEventBufferOverflowCnt = 0; } /* Set some parameters of read struct. */ ReadParams.pProcessContext = f_pApiInstance->pProcessContext; ReadParams.ulUserChipId = pSharedInfo->ChipConfig.ulUserChipId; ReadParams.pusReadData = &usReadData; /* Get the current read pointer of the chip buffer. */ ReadParams.ulReadAddress = cOCT6100_TONE_EVENT_READ_PTR_REG; mOCT6100_DRIVER_READ_API( ReadParams, ulResult ) if ( ulResult != cOCT6100_ERR_OK ) return ulResult; ulChipReadPtr = usReadData; /* Now get the current write pointer. */ ReadParams.ulReadAddress = cOCT6100_TONE_EVENT_WRITE_PTR_REG; mOCT6100_DRIVER_READ_API( ReadParams, ulResult ) if ( ulResult != cOCT6100_ERR_OK ) return ulResult; ulChipWritePtr = usReadData; ulChipBufFill = (( ulChipWritePtr - ulChipReadPtr ) & ( cOCT6100_NUM_PGSP_EVENT_OUT - 1 )); /* Set some parameters of write structs. */ WriteParams.pProcessContext = f_pApiInstance->pProcessContext; WriteParams.ulUserChipId = pSharedInfo->ChipConfig.ulUserChipId; BurstParams.pProcessContext = f_pApiInstance->pProcessContext; BurstParams.ulUserChipId = pSharedInfo->ChipConfig.ulUserChipId; /* Read in the tone event one at a time. */ for ( i = 0; i < ulChipBufFill; i++ ) { /* Skip the event processing if the buffer is to be reset. */ if ( f_ulResetBuf == TRUE ) { /* Update the control variables of the buffer. */ ulChipReadPtr++; if ( cOCT6100_NUM_PGSP_EVENT_OUT == ulChipReadPtr ) ulChipReadPtr = 0; } else { /* Read in the event only if there's enough room in the soft buffer, and */ /* the chip buffer is NOT to be reset. */ if ( ((pSharedInfo->SoftBufs.ulToneEventBufferWritePtr + 1) != pSharedInfo->SoftBufs.ulToneEventBufferReadPtr) && ((pSharedInfo->SoftBufs.ulToneEventBufferWritePtr + 1) != pSharedInfo->SoftBufs.ulToneEventBufferSize || pSharedInfo->SoftBufs.ulToneEventBufferReadPtr != 0) ) { BurstParams.ulReadAddress = cOCT6100_PGSP_EVENT_OUT_BASE + ( ulChipReadPtr * cOCT6100_PGSP_TONE_EVENT_SIZE ); BurstParams.pusReadData = ausReadData; ulNumWordsToRead = cOCT6100_PGSP_TONE_EVENT_SIZE / 2; while ( ulNumWordsToRead > 0 ) { if ( ulNumWordsToRead > pSharedInfo->ChipConfig.usMaxRwAccesses ) { BurstParams.ulReadLength = pSharedInfo->ChipConfig.usMaxRwAccesses; } else { BurstParams.ulReadLength = ulNumWordsToRead; } mOCT6100_DRIVER_READ_BURST_API( BurstParams, ulResult ); if ( ulResult != cOCT6100_ERR_OK ) return ulResult; BurstParams.pusReadData += BurstParams.ulReadLength; BurstParams.ulReadAddress += BurstParams.ulReadLength * 2; ulNumWordsToRead -= BurstParams.ulReadLength; } /* Verify if the event is valid. */ if ( ( ausReadData[ 0 ] & cOCT6100_VALID_TONE_EVENT ) == 0x0 ) return cOCT6100_ERR_FATAL_2D; /* First extract the channel number of the tone event. */ usChannelIndex = ausReadData[ 1 ] & 0x3FF; /* Now the timestamp. */ ulBaseTimestamp = ausReadData[ 2 ] << 16; ulBaseTimestamp |= ausReadData[ 3 ]; /* This timestamp is 256 in adwance, must remove 256 frames. */ ulBaseTimestamp -= 256; /* Fetch the channel stucture to validate which event can be reported. */ mOCT6100_GET_CHANNEL_ENTRY_PNT( f_pApiInstance->pSharedInfo, pEchoChannel, usChannelIndex ); if ( pEchoChannel->fReserved != TRUE ) { /* Update the control variables of the buffer. */ ulChipReadPtr++; if ( ulChipReadPtr == cOCT6100_NUM_PGSP_EVENT_OUT ) ulChipReadPtr = 0; /* This channel has been closed since the generation of the event. */ continue; } /* Extract the extended tone detection port if available. */ if ( pEchoChannel->ulExtToneChanMode == cOCT6100_API_EXT_TONE_SIN_PORT_MODE ) { ulExtToneDetectionPort = cOCT6100_CHANNEL_PORT_SIN; } else if ( pEchoChannel->ulExtToneChanMode == cOCT6100_API_EXT_TONE_RIN_PORT_MODE ) { ulExtToneDetectionPort = cOCT6100_CHANNEL_PORT_RIN; /* Modify the channel index. */ usChannelIndex = pEchoChannel->usExtToneChanIndex; /* Change the channel entry to the original one for statistical purposes. */ mOCT6100_GET_CHANNEL_ENTRY_PNT( f_pApiInstance->pSharedInfo, pEchoChannel, usChannelIndex ); } else /* pEchoChannel->ulExtToneChanMode == cOCT6100_API_EXT_TONE_DISABLED */ { ulExtToneDetectionPort = cOCT6100_INVALID_VALUE; } ulToneCnt = 0; /* Verify all the possible events that might have been detected. */ for ( j = 4; j < cOCT6100_NUM_WORDS_PER_TONE_EVENT; j++ ) { ulEventCode = ( ausReadData[ j ] >> 8 ) & 0x7; if ( ulEventCode != 0x0 ) { /* This tone generated an event, now check if event is masked for the channel. */ if ((( pEchoChannel->aulToneConf[ ulToneCnt / 32 ] >> ( 31 - ( ulToneCnt % 32 ))) & 0x1) == 1 ) { BOOL f2100Tone; /* Check if it is a 2100 Tone STOP and if the user wants receive those events*/ ulResult = Oct6100ApiIs2100Tone(f_pApiInstance, pSharedInfo->ImageInfo.aToneInfo[ ulToneCnt ].ulToneID, &f2100Tone); if ( ulResult != cOCT6100_ERR_OK ) return ulResult; if ( (f2100Tone == FALSE) || ( (f2100Tone == TRUE) && (ulEventCode != 2) ) || ( (f2100Tone == TRUE) && pSharedInfo->ChipConfig.fEnable2100StopEvent == TRUE ) ) { /* If enough space. */ if ( ((pSharedInfo->SoftBufs.ulToneEventBufferWritePtr + 1) != pSharedInfo->SoftBufs.ulToneEventBufferReadPtr) && ((pSharedInfo->SoftBufs.ulToneEventBufferWritePtr + 1) != pSharedInfo->SoftBufs.ulToneEventBufferSize || pSharedInfo->SoftBufs.ulToneEventBufferReadPtr != 0) ) { /* The tone event is not masked, The API can create a soft tone event. */ mOCT6100_GET_TONE_EVENT_BUF_PNT( pSharedInfo, pSoftEvent ) pSoftEvent += pSharedInfo->SoftBufs.ulToneEventBufferWritePtr; /* Decode the event type. */ switch( ulEventCode ) { case 1: pSoftEvent->ulEventType = cOCT6100_TONE_PRESENT; break; case 2: pSoftEvent->ulEventType = cOCT6100_TONE_STOP; break; case 3: /* This one is a little tricky. We first */ /* generate the "PRESENT" event and then generate the "STOP" event. */ pSoftEvent->ulEventType = cOCT6100_TONE_PRESENT; pSoftEvent->ulChannelHandle = cOCT6100_HNDL_TAG_CHANNEL | (pEchoChannel->byEntryOpenCnt << cOCT6100_ENTRY_OPEN_CNT_SHIFT) | usChannelIndex; pSoftEvent->ulUserChanId = pEchoChannel->ulUserChanId; pSoftEvent->ulToneDetected = pSharedInfo->ImageInfo.aToneInfo[ ulToneCnt ].ulToneID; /* We want the timestamp not to be equal to the "STOP" event, so we subtract one to the detector's value. */ pSoftEvent->ulTimestamp = ( ulBaseTimestamp + ((( ausReadData[ j ] >> 13 ) & 0x7) * cOCT6100_LOCAL_TIMESTAMP_INCREMENT ) ) - 1; pSoftEvent->ulExtToneDetectionPort = ulExtToneDetectionPort; /* Update the control variables of the buffer. */ pSharedInfo->SoftBufs.ulToneEventBufferWritePtr++; if ( pSharedInfo->SoftBufs.ulToneEventBufferWritePtr == pSharedInfo->SoftBufs.ulToneEventBufferSize ) pSharedInfo->SoftBufs.ulToneEventBufferWritePtr = 0; /* If enough space for the "STOP" event. */ if ( ((pSharedInfo->SoftBufs.ulToneEventBufferWritePtr + 1) != pSharedInfo->SoftBufs.ulToneEventBufferReadPtr) && ((pSharedInfo->SoftBufs.ulToneEventBufferWritePtr + 1) != pSharedInfo->SoftBufs.ulToneEventBufferSize || pSharedInfo->SoftBufs.ulToneEventBufferReadPtr != 0) ) { mOCT6100_GET_TONE_EVENT_BUF_PNT( pSharedInfo, pSoftEvent ) pSoftEvent += pSharedInfo->SoftBufs.ulToneEventBufferWritePtr; pSoftEvent->ulEventType = cOCT6100_TONE_STOP; } else { /* Set the overflow flag of the buffer. */ pSharedInfo->SoftBufs.ulToneEventBufferOverflowCnt++; /* We continue in the loop in order to empty the hardware buffer. */ continue; } break; case 4: pSoftEvent->ulEventType = cOCT6100_TONE_PRESENT; break; default: pSharedInfo->ErrorStats.ulToneDetectorErrorCnt++; /* do not process this packet*/ continue; } pSoftEvent->ulChannelHandle = cOCT6100_HNDL_TAG_CHANNEL | (pEchoChannel->byEntryOpenCnt << cOCT6100_ENTRY_OPEN_CNT_SHIFT) | usChannelIndex; pSoftEvent->ulUserChanId = pEchoChannel->ulUserChanId; pSoftEvent->ulToneDetected = pSharedInfo->ImageInfo.aToneInfo[ ulToneCnt ].ulToneID; pSoftEvent->ulTimestamp = ulBaseTimestamp + ((( ausReadData[ j ] >> 13 ) & 0x7) * cOCT6100_LOCAL_TIMESTAMP_INCREMENT ); pSoftEvent->ulExtToneDetectionPort = ulExtToneDetectionPort; /* Update the control variables of the buffer. */ pSharedInfo->SoftBufs.ulToneEventBufferWritePtr++; if ( pSharedInfo->SoftBufs.ulToneEventBufferWritePtr == pSharedInfo->SoftBufs.ulToneEventBufferSize ) pSharedInfo->SoftBufs.ulToneEventBufferWritePtr = 0; /* Set the interrupt manager such that the user knows that some tone events */ /* are pending in the software Q. */ pSharedInfo->IntrptManage.fToneEventsPending = TRUE; } else { /* Set the overflow flag of the buffer. */ pSharedInfo->SoftBufs.ulToneEventBufferOverflowCnt++; /* We continue in the loop in order to empty the hardware buffer. */ } } } else { BOOL fSSTone; ulResult = Oct6100ApiIsSSTone( f_pApiInstance, pSharedInfo->ImageInfo.aToneInfo[ ulToneCnt ].ulToneID, &fSSTone ); if ( ulResult != cOCT6100_ERR_OK ) return ulResult; if ( fSSTone == TRUE ) { /* Check if this is a "PRESENT" or "STOP" event */ switch( ulEventCode ) { case 1: /* This is a signaling system present event. Keep this in the instance memory. */ pEchoChannel->ulLastSSToneDetected = pSharedInfo->ImageInfo.aToneInfo[ ulToneCnt ].ulToneID; pEchoChannel->ulLastSSToneTimestamp = ulBaseTimestamp + ((( ausReadData[ j ] >> 13 ) & 0x7) * cOCT6100_LOCAL_TIMESTAMP_INCREMENT ); break; case 2: /* This is the "STOP" event, invalidate the last value. The user does not want to know about this. */ pEchoChannel->ulLastSSToneDetected = cOCT6100_INVALID_VALUE; pEchoChannel->ulLastSSToneTimestamp = cOCT6100_INVALID_VALUE; break; default: break; } } } } ulToneCnt++; /* Check the other tone of this word. */ ulEventCode = ausReadData[ j ] & 0x7; if ( ulEventCode != 0x0 ) { if ((( pEchoChannel->aulToneConf[ ulToneCnt / 32 ] >> ( 31 - ( ulToneCnt % 32 ))) & 0x1) == 1 ) { BOOL f2100Tone; /* Check if it is a 2100 Tone STOP and if the user wants receive those events*/ ulResult = Oct6100ApiIs2100Tone(f_pApiInstance, pSharedInfo->ImageInfo.aToneInfo[ ulToneCnt ].ulToneID, &f2100Tone); if ( ulResult != cOCT6100_ERR_OK ) return ulResult; if ( (f2100Tone == FALSE) || ( (f2100Tone == TRUE) && (ulEventCode != 2) ) || ( (f2100Tone == TRUE) && pSharedInfo->ChipConfig.fEnable2100StopEvent == TRUE ) ) { /* If enough space. */ if ( ((pSharedInfo->SoftBufs.ulToneEventBufferWritePtr + 1) != pSharedInfo->SoftBufs.ulToneEventBufferReadPtr) && ((pSharedInfo->SoftBufs.ulToneEventBufferWritePtr + 1) != pSharedInfo->SoftBufs.ulToneEventBufferSize || pSharedInfo->SoftBufs.ulToneEventBufferReadPtr != 0) ) { /* The tone event is not masked, The API can create a soft tone event. */ mOCT6100_GET_TONE_EVENT_BUF_PNT( pSharedInfo, pSoftEvent ) pSoftEvent += pSharedInfo->SoftBufs.ulToneEventBufferWritePtr; /* Decode the event type. */ switch( ulEventCode ) { case 1: pSoftEvent->ulEventType = cOCT6100_TONE_PRESENT; break; case 2: pSoftEvent->ulEventType = cOCT6100_TONE_STOP; break; case 3: /* This one is a little tricky. We first */ /* generate the "PRESENT" event and then generate the "STOP" event. */ pSoftEvent->ulEventType = cOCT6100_TONE_PRESENT; pSoftEvent->ulChannelHandle = cOCT6100_HNDL_TAG_CHANNEL | (pEchoChannel->byEntryOpenCnt << cOCT6100_ENTRY_OPEN_CNT_SHIFT) | usChannelIndex; pSoftEvent->ulUserChanId = pEchoChannel->ulUserChanId; pSoftEvent->ulToneDetected = pSharedInfo->ImageInfo.aToneInfo[ ulToneCnt ].ulToneID; /* We want the timestamp not to be equal to the "STOP" event, so we subtract one to the detector's value. */ pSoftEvent->ulTimestamp = ( ulBaseTimestamp + ((( ausReadData[ j ] >> 5 ) & 0x7) * cOCT6100_LOCAL_TIMESTAMP_INCREMENT ) ) - 1; pSoftEvent->ulExtToneDetectionPort = ulExtToneDetectionPort; /* Update the control variables of the buffer. */ pSharedInfo->SoftBufs.ulToneEventBufferWritePtr++; if ( pSharedInfo->SoftBufs.ulToneEventBufferWritePtr == pSharedInfo->SoftBufs.ulToneEventBufferSize ) pSharedInfo->SoftBufs.ulToneEventBufferWritePtr = 0; /* If enough space for the "STOP" event. */ if ( ((pSharedInfo->SoftBufs.ulToneEventBufferWritePtr + 1) != pSharedInfo->SoftBufs.ulToneEventBufferReadPtr) && ((pSharedInfo->SoftBufs.ulToneEventBufferWritePtr + 1) != pSharedInfo->SoftBufs.ulToneEventBufferSize || pSharedInfo->SoftBufs.ulToneEventBufferReadPtr != 0) ) { mOCT6100_GET_TONE_EVENT_BUF_PNT( pSharedInfo, pSoftEvent ) pSoftEvent += pSharedInfo->SoftBufs.ulToneEventBufferWritePtr; pSoftEvent->ulEventType = cOCT6100_TONE_STOP; } else { /* Set the overflow flag of the buffer. */ pSharedInfo->SoftBufs.ulToneEventBufferOverflowCnt++; /* We continue in the loop in order to empty the hardware buffer. */ continue; } break; case 4: pSoftEvent->ulEventType = cOCT6100_TONE_PRESENT; break; default: pSharedInfo->ErrorStats.ulToneDetectorErrorCnt++; /* Do not process this packet. */ continue; } pSoftEvent->ulChannelHandle = cOCT6100_HNDL_TAG_CHANNEL | (pEchoChannel->byEntryOpenCnt << cOCT6100_ENTRY_OPEN_CNT_SHIFT) | usChannelIndex; pSoftEvent->ulUserChanId = pEchoChannel->ulUserChanId; pSoftEvent->ulToneDetected = pSharedInfo->ImageInfo.aToneInfo[ ulToneCnt ].ulToneID; pSoftEvent->ulTimestamp = ulBaseTimestamp + ((( ausReadData[ j ] >> 5 ) & 0x7) * cOCT6100_LOCAL_TIMESTAMP_INCREMENT ); pSoftEvent->ulExtToneDetectionPort = ulExtToneDetectionPort; /* Update the control variables of the buffer. */ pSharedInfo->SoftBufs.ulToneEventBufferWritePtr++; if ( pSharedInfo->SoftBufs.ulToneEventBufferWritePtr == pSharedInfo->SoftBufs.ulToneEventBufferSize ) pSharedInfo->SoftBufs.ulToneEventBufferWritePtr = 0; /* Set the interrupt manager such that the user knows that some tone events */ /* are pending in the software Q. */ pSharedInfo->IntrptManage.fToneEventsPending = TRUE; } else { /* Set the overflow flag of the buffer. */ pSharedInfo->SoftBufs.ulToneEventBufferOverflowCnt++; /* We continue in the loop in order to empty the hardware buffer. */ } } } else { BOOL fSSTone; ulResult = Oct6100ApiIsSSTone( f_pApiInstance, pSharedInfo->ImageInfo.aToneInfo[ ulToneCnt ].ulToneID, &fSSTone ); if ( ulResult != cOCT6100_ERR_OK ) return ulResult; if ( fSSTone == TRUE ) { /* Check if this is a "PRESENT" event. */ switch ( ulEventCode ) { case 1: /* This is a signaling system present event. Keep this in the instance memory. */ pEchoChannel->ulLastSSToneDetected = pSharedInfo->ImageInfo.aToneInfo[ ulToneCnt ].ulToneID; pEchoChannel->ulLastSSToneTimestamp = ulBaseTimestamp + ((( ausReadData[ j ] >> 5 ) & 0x7) * cOCT6100_LOCAL_TIMESTAMP_INCREMENT ); break; case 2: /* This is the "STOP" event, invalidate the last value. The user does not want to know about this. */ pEchoChannel->ulLastSSToneDetected = cOCT6100_INVALID_VALUE; pEchoChannel->ulLastSSToneTimestamp = cOCT6100_INVALID_VALUE; break; default: break; } } } } ulToneCnt++; } } else { /* Set the overflow flag of the buffer. */ pSharedInfo->SoftBufs.ulToneEventBufferOverflowCnt++; /* We continue in the loop in order to empty the hardware buffer. */ } /* Update the control variables of the buffer. */ ulChipReadPtr++; if ( ulChipReadPtr == cOCT6100_NUM_PGSP_EVENT_OUT ) ulChipReadPtr = 0; } } /* Write the value of the new Read pointer.*/ WriteParams.ulWriteAddress = cOCT6100_TONE_EVENT_READ_PTR_REG; WriteParams.usWriteData = (UINT16)( ulChipReadPtr ); mOCT6100_DRIVER_WRITE_API( WriteParams, ulResult ) if ( ulResult != cOCT6100_ERR_OK ) return ulResult; return cOCT6100_ERR_OK; } #endif /*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*\ Function: Oct6100BufferPlayoutGetEventSer Description: Retreives an array of buffer playout event from the software event buffer. ------------------------------------------------------------------------------- | Argument | Description ------------------------------------------------------------------------------- f_pApiInstance Pointer to API instance. This memory is used to keep the present state of the chip and all its resources. f_pEventGetPlayoutStop Pointer to structure which will contain the retreived events. \*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*/ #if !SKIP_Oct6100BufferPlayoutGetEventSer UINT32 Oct6100BufferPlayoutGetEventSer( IN OUT tPOCT6100_INSTANCE_API f_pApiInstance, IN OUT tPOCT6100_BUFFER_PLAYOUT_GET_EVENT f_pBufPlayoutGetEvent ) { tPOCT6100_SHARED_INFO pSharedInfo; tPOCT6100_API_BUFFER_PLAYOUT_EVENT pSoftEvent; UINT32 ulSoftReadPnt; UINT32 ulSoftWritePnt; UINT32 ulSoftBufSize; UINT32 ulNumEventsReturned; UINT32 ulResult; /* Get local pointer(s). */ pSharedInfo = f_pApiInstance->pSharedInfo; /* Check the parameters past by the user. */ if ( f_pBufPlayoutGetEvent->fResetBufs != TRUE && f_pBufPlayoutGetEvent->fResetBufs != FALSE ) return cOCT6100_ERR_BUFFER_PLAYOUT_EVENT_RESET; /* Check if software buffer has been allocated and thus enabled. */ if ( pSharedInfo->ChipConfig.ulSoftBufPlayoutEventsBufSize == 0 ) return cOCT6100_ERR_BUFFER_PLAYOUT_EVENT_DISABLED; /* Checking max playout events. */ if ( f_pBufPlayoutGetEvent->ulMaxEvent > pSharedInfo->ChipConfig.ulSoftBufPlayoutEventsBufSize ) return cOCT6100_ERR_BUFFER_PLAYOUT_MAX_EVENT; if ( f_pBufPlayoutGetEvent->fResetBufs == FALSE ) { /* Check if events need to be fetched from the chip. */ ulSoftReadPnt = pSharedInfo->SoftBufs.ulBufPlayoutEventBufferReadPtr; ulSoftWritePnt = pSharedInfo->SoftBufs.ulBufPlayoutEventBufferWritePtr; if ( ulSoftReadPnt == ulSoftWritePnt ) { ulResult = Oct6100BufferPlayoutTransferEvents( f_pApiInstance, f_pBufPlayoutGetEvent->fResetBufs ); if ( ulResult != cOCT6100_ERR_OK ) return ulResult; } /* If there are no events in the soft buffer then there are none in the chip */ /* either, so return the empty case. Else, return the events in the buffer. */ ulSoftReadPnt = pSharedInfo->SoftBufs.ulBufPlayoutEventBufferReadPtr; ulSoftWritePnt = pSharedInfo->SoftBufs.ulBufPlayoutEventBufferWritePtr; ulSoftBufSize = pSharedInfo->SoftBufs.ulBufPlayoutEventBufferSize; if ( ulSoftReadPnt != ulSoftWritePnt ) { ulNumEventsReturned = 0; while( (ulSoftReadPnt != ulSoftWritePnt) && ( ulNumEventsReturned != f_pBufPlayoutGetEvent->ulMaxEvent) ) { /* Get a pointer to the first event in the buffer. */ mOCT6100_GET_BUFFER_PLAYOUT_EVENT_BUF_PNT( pSharedInfo, pSoftEvent ) pSoftEvent += ulSoftReadPnt; f_pBufPlayoutGetEvent->pBufferPlayoutEvent[ ulNumEventsReturned ].ulChannelHndl = pSoftEvent->ulChannelHandle; f_pBufPlayoutGetEvent->pBufferPlayoutEvent[ ulNumEventsReturned ].ulUserChanId = pSoftEvent->ulUserChanId; f_pBufPlayoutGetEvent->pBufferPlayoutEvent[ ulNumEventsReturned ].ulChannelPort = pSoftEvent->ulChannelPort; f_pBufPlayoutGetEvent->pBufferPlayoutEvent[ ulNumEventsReturned ].ulUserEventId = pSoftEvent->ulUserEventId; f_pBufPlayoutGetEvent->pBufferPlayoutEvent[ ulNumEventsReturned ].ulEventType = pSoftEvent->ulEventType; f_pBufPlayoutGetEvent->pBufferPlayoutEvent[ ulNumEventsReturned ].ulTimestamp = pSoftEvent->ulTimestamp; /* Update the pointers of the soft buffer. */ ulSoftReadPnt++; if ( ulSoftReadPnt == ulSoftBufSize ) ulSoftReadPnt = 0; ulNumEventsReturned++; } pSharedInfo->SoftBufs.ulBufPlayoutEventBufferReadPtr = ulSoftReadPnt; /* Detemine if there are more events pending in the soft buffer. */ if ( ulSoftReadPnt != ulSoftWritePnt ) f_pBufPlayoutGetEvent->fMoreEvents = TRUE; else /* ( ulSoftReadPnt == ulSoftWritePnt ) */ { f_pBufPlayoutGetEvent->fMoreEvents = FALSE; /* Remember this state in the interrupt manager. */ pSharedInfo->IntrptManage.fBufferPlayoutEventsPending = FALSE; } f_pBufPlayoutGetEvent->ulNumValidEvent = ulNumEventsReturned; } else /* if ( ulSoftReadPnt == ulSoftWritePnt ) */ { /* No valid buffer playout events. */ f_pBufPlayoutGetEvent->ulNumValidEvent = 0; f_pBufPlayoutGetEvent->fMoreEvents = FALSE; /* Remember this state in the interrupt manager. */ pSharedInfo->IntrptManage.fBufferPlayoutEventsPending = FALSE; return cOCT6100_ERR_BUFFER_PLAYOUT_EVENT_BUF_EMPTY; } } else /* ( f_pEventGetPlayoutStop->fResetBufs == TRUE ) */ { /* Check with the hardware first. */ ulResult = Oct6100BufferPlayoutTransferEvents( f_pApiInstance, f_pBufPlayoutGetEvent->fResetBufs ); if ( ulResult != cOCT6100_ERR_OK ) return ulResult; /* If the buffers are to be reset, then update the pointers and full flag. */ pSharedInfo->SoftBufs.ulBufPlayoutEventBufferReadPtr = 0; pSharedInfo->SoftBufs.ulBufPlayoutEventBufferWritePtr = 0; f_pBufPlayoutGetEvent->fMoreEvents = FALSE; f_pBufPlayoutGetEvent->ulNumValidEvent = 0; /* Remember this state in the interrupt manager. */ pSharedInfo->IntrptManage.fBufferPlayoutEventsPending = FALSE; } return cOCT6100_ERR_OK; } #endif /*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*\ Function: Oct6100BufferPlayoutTransferEvents Description: Check all channels that are currently playing a buffer and generate an event if a buffer has stopped playing. ------------------------------------------------------------------------------- | Argument | Description ------------------------------------------------------------------------------- f_pApiInstance Pointer to API instance. This memory is used to keep the present state of the chip and all its resources. f_ulResetBuf Reset flag. \*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*/ #if !SKIP_Oct6100BufferPlayoutTransferEvents UINT32 Oct6100BufferPlayoutTransferEvents( IN OUT tPOCT6100_INSTANCE_API f_pApiInstance, IN UINT32 f_ulResetBuf ) { tPOCT6100_SHARED_INFO pSharedInfo; tPOCT6100_API_CHANNEL pEchoChannel; UINT32 ulChannelIndex; UINT32 ulResult; UINT32 ulLastBufPlayoutEventBufferOverflowCnt; /* Get local pointer(s). */ pSharedInfo = f_pApiInstance->pSharedInfo; /* If the buffer is to be reset then clear the overflow flag. */ if ( f_ulResetBuf == TRUE ) { pSharedInfo->SoftBufs.ulBufPlayoutEventBufferOverflowCnt = 0; /* We are done for now. */ /* No need to check for new events since the user requested to empty the soft buffer. */ return cOCT6100_ERR_OK; } /* Check if buffer playout has been activated on some ports. */ if ( pSharedInfo->ChipStats.usNumberActiveBufPlayoutPorts == 0 ) { /* Buffer playout has not been activated on any channel, */ /* let's not waste time here. */ return cOCT6100_ERR_OK; } /* Save the current overflow count. We want to know if an overflow occured to get out of the loop. */ ulLastBufPlayoutEventBufferOverflowCnt = pSharedInfo->SoftBufs.ulBufPlayoutEventBufferOverflowCnt; /* Search through the list of API channel entry for the ones that need playout event checking. */ for ( ulChannelIndex = 0; ulChannelIndex < pSharedInfo->ChipConfig.usMaxChannels; ulChannelIndex++ ) { mOCT6100_GET_CHANNEL_ENTRY_PNT( pSharedInfo, pEchoChannel, ulChannelIndex ); /* Check if buffer playout is active on this channel, using the optimization flag. */ /* This flag is redundant of other flags used for playout, but will make the above loop */ /* much faster. This is needed since this function is called very frequently on systems */ /* which use buffer playout stop events. */ if ( pEchoChannel->fBufPlayoutActive == TRUE ) { /* Read in the event only if there's enough room in the soft buffer. */ if ( ulLastBufPlayoutEventBufferOverflowCnt == pSharedInfo->SoftBufs.ulBufPlayoutEventBufferOverflowCnt ) { /* Check Rout buffer playout first. */ if ( ( pEchoChannel->fRinBufPlayoutNotifyOnStop == TRUE ) && ( pEchoChannel->fRinBufPlaying == TRUE ) ) { ulResult = Oct6100BufferPlayoutCheckForSpecificEvent( f_pApiInstance, ulChannelIndex, cOCT6100_CHANNEL_PORT_ROUT, TRUE, NULL ); if ( ulResult != cOCT6100_ERR_OK ) return ulResult; } } else /* if ( ulLastBufPlayoutEventBufferOverflowCnt != pSharedInfo->SoftBufs.ulBufPlayoutEventBufferOverflowCnt ) */ { /* Get out of the loop, no more events can be inserted in the soft buffer. */ break; } /* An overflow might have been detected in the lower level function. */ /* Check the overflow count once again to make sure there might be room for a next event. */ if ( ulLastBufPlayoutEventBufferOverflowCnt == pSharedInfo->SoftBufs.ulBufPlayoutEventBufferOverflowCnt ) { /* Check Sout buffer playout. */ if ( ( pEchoChannel->fSoutBufPlayoutNotifyOnStop == TRUE ) && ( pEchoChannel->fSoutBufPlaying == TRUE ) ) { ulResult = Oct6100BufferPlayoutCheckForSpecificEvent( f_pApiInstance, ulChannelIndex, cOCT6100_CHANNEL_PORT_SOUT, TRUE, NULL ); if ( ulResult != cOCT6100_ERR_OK ) return ulResult; } } else /* if ( ulLastBufPlayoutEventBufferOverflowCnt != pSharedInfo->SoftBufs.ulBufPlayoutEventBufferOverflowCnt ) */ { /* Get out of the loop, no more events can be inserted in the soft buffer. */ break; } } } return cOCT6100_ERR_OK; } #endif /*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*\ Function: Oct6100BufferPlayoutCheckForSpecificEvent Description: Check a specific channel/port for playout buffer events. If asked to, save this event to the software event buffer. Return a flag specifying whether the event was detected or not. ------------------------------------------------------------------------------- | Argument | Description ------------------------------------------------------------------------------- f_pApiInstance Pointer to API instance. This memory is used to keep the present state of the chip and all its resources. f_ulChannelIndex Index of the channel to be checked. f_ulChannelPort Port of the channel to be checked. f_fSaveToSoftBuffer Save event to software buffer. f_pfEventDetected Whether or not an event was detected. \*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*/ #if !SKIP_Oct6100BufferPlayoutCheckForSpecificEvent UINT32 Oct6100BufferPlayoutCheckForSpecificEvent( IN OUT tPOCT6100_INSTANCE_API f_pApiInstance, IN UINT32 f_ulChannelIndex, IN UINT32 f_ulChannelPort, IN BOOL f_fSaveToSoftBuffer, OUT PBOOL f_pfEventDetected ) { tPOCT6100_SHARED_INFO pSharedInfo; tPOCT6100_API_BUFFER_PLAYOUT_EVENT pSoftEvent; tPOCT6100_API_CHANNEL pEchoChannel; tOCT6100_READ_PARAMS ReadParams; tOCT6100_GET_TIME GetTimeParms; UINT32 ulResult; UINT16 usReadData; UINT32 ulReadPtrBytesOfst; UINT32 ulReadPtrBitOfst; UINT32 ulReadPtrFieldSize; UINT32 ulWritePtrBytesOfst; UINT32 ulWritePtrBitOfst; UINT32 ulWritePtrFieldSize; UINT32 ulPlayoutBaseAddress; UINT32 ulTempData; UINT32 ulReadPtr; UINT32 ulMask; UINT32 ulWritePtr; UINT32 ulUserEventId; UINT32 ulEventType; /* Get local pointer(s). */ pSharedInfo = f_pApiInstance->pSharedInfo; /* Compare the read and write pointers for matching. If they matched, playout stopped. */ mOCT6100_GET_CHANNEL_ENTRY_PNT( pSharedInfo, pEchoChannel, f_ulChannelIndex ); /* Set the playout feature base address. */ ulPlayoutBaseAddress = cOCT6100_CHANNEL_ROOT_BASE + ( f_ulChannelIndex * cOCT6100_CHANNEL_ROOT_SIZE ) + pSharedInfo->MemoryMap.ulChanRootConfOfst; if ( f_ulChannelPort == cOCT6100_CHANNEL_PORT_ROUT ) { /* Check on the Rout port. */ ulUserEventId = pEchoChannel->ulRinUserBufPlayoutEventId; ulEventType = pEchoChannel->byRinPlayoutStopEventType; ulWritePtrBytesOfst = pSharedInfo->MemoryMap.PlayoutRinWritePtrOfst.usDwordOffset * 4; ulWritePtrBitOfst = pSharedInfo->MemoryMap.PlayoutRinWritePtrOfst.byBitOffset; ulWritePtrFieldSize = pSharedInfo->MemoryMap.PlayoutRinWritePtrOfst.byFieldSize; ulReadPtrBytesOfst = pSharedInfo->MemoryMap.PlayoutRinReadPtrOfst.usDwordOffset * 4; ulReadPtrBitOfst = pSharedInfo->MemoryMap.PlayoutRinReadPtrOfst.byBitOffset; ulReadPtrFieldSize = pSharedInfo->MemoryMap.PlayoutRinReadPtrOfst.byFieldSize; } else /* if ( f_ulChannelPort == cOCT6100_CHANNEL_PORT_SOUT ) */ { /* Check on the Sout port. */ ulUserEventId = pEchoChannel->ulSoutUserBufPlayoutEventId; ulEventType = pEchoChannel->bySoutPlayoutStopEventType; ulWritePtrBytesOfst = pSharedInfo->MemoryMap.PlayoutSoutWritePtrOfst.usDwordOffset * 4; ulWritePtrBitOfst = pSharedInfo->MemoryMap.PlayoutSoutWritePtrOfst.byBitOffset; ulWritePtrFieldSize = pSharedInfo->MemoryMap.PlayoutSoutWritePtrOfst.byFieldSize; ulReadPtrBytesOfst = pSharedInfo->MemoryMap.PlayoutSoutReadPtrOfst.usDwordOffset * 4; ulReadPtrBitOfst = pSharedInfo->MemoryMap.PlayoutSoutReadPtrOfst.byBitOffset; ulReadPtrFieldSize = pSharedInfo->MemoryMap.PlayoutSoutReadPtrOfst.byFieldSize; } /* Retrieve the current write pointer. */ ulResult = oct6100_retrieve_nlp_conf_dword(f_pApiInstance, pEchoChannel, ulPlayoutBaseAddress + ulWritePtrBytesOfst, &ulTempData); if ( ulResult != cOCT6100_ERR_OK ) return ulResult; mOCT6100_CREATE_FEATURE_MASK( ulWritePtrFieldSize, ulWritePtrBitOfst, &ulMask ); /* Store the write pointer.*/ ulWritePtr = ( ulTempData & ulMask ) >> ulWritePtrBitOfst; /* Read the read pointer.*/ ReadParams.pProcessContext = f_pApiInstance->pProcessContext; ReadParams.ulUserChipId = pSharedInfo->ChipConfig.ulUserChipId; ReadParams.pusReadData = &usReadData; ReadParams.ulReadAddress = ulPlayoutBaseAddress + ulReadPtrBytesOfst; /* Optimize this access by only reading the word we are interested in. */ if ( ulReadPtrBitOfst < 16 ) ReadParams.ulReadAddress += 2; /* Must read in memory directly since this value is changed by hardware */ mOCT6100_DRIVER_READ_API( ReadParams, ulResult ) if ( ulResult != cOCT6100_ERR_OK ) return ulResult; /* Move data at correct position according to what was read. */ if ( ulReadPtrBitOfst < 16 ) ulTempData = usReadData; else ulTempData = usReadData << 16; mOCT6100_CREATE_FEATURE_MASK( ulReadPtrFieldSize, ulReadPtrBitOfst, &ulMask ); /* Store the read pointer. */ ulReadPtr = ( ulTempData & ulMask ) >> ulReadPtrBitOfst; /* Playout has finished when the read pointer reaches the write pointer. */ if ( ulReadPtr != ulWritePtr ) { /* Still playing -- do not generate an event. */ if ( f_pfEventDetected != NULL ) *f_pfEventDetected = FALSE; } else { /* Buffer stopped playing, generate an event here, if asked. */ if ( ( f_fSaveToSoftBuffer == TRUE ) && ( ( pSharedInfo->SoftBufs.ulBufPlayoutEventBufferWritePtr + 1 ) != pSharedInfo->SoftBufs.ulBufPlayoutEventBufferReadPtr ) && ( ( pSharedInfo->SoftBufs.ulBufPlayoutEventBufferWritePtr + 1 ) != pSharedInfo->SoftBufs.ulBufPlayoutEventBufferSize || pSharedInfo->SoftBufs.ulBufPlayoutEventBufferReadPtr != 0 ) ) { /* The API can create a soft buffer playout event. */ mOCT6100_GET_BUFFER_PLAYOUT_EVENT_BUF_PNT( pSharedInfo, pSoftEvent ) pSoftEvent += pSharedInfo->SoftBufs.ulBufPlayoutEventBufferWritePtr; pSoftEvent->ulChannelHandle = cOCT6100_HNDL_TAG_CHANNEL | (pEchoChannel->byEntryOpenCnt << cOCT6100_ENTRY_OPEN_CNT_SHIFT) | f_ulChannelIndex; pSoftEvent->ulUserChanId = pEchoChannel->ulUserChanId; pSoftEvent->ulUserEventId = ulUserEventId; pSoftEvent->ulChannelPort = f_ulChannelPort; /* For now, only this type of event is available. */ pSoftEvent->ulEventType = ulEventType; /* Generate millisecond timestamp. */ GetTimeParms.pProcessContext = f_pApiInstance->pProcessContext; ulResult = Oct6100UserGetTime( &GetTimeParms ); if ( ulResult != cOCT6100_ERR_OK ) return ulResult; pSoftEvent->ulTimestamp = ( GetTimeParms.aulWallTimeUs[ 0 ] / 1000 ); pSoftEvent->ulTimestamp += ( GetTimeParms.aulWallTimeUs[ 1 ] ) * ( 0xFFFFFFFF / 1000 ); /* Update the control variables of the buffer. */ pSharedInfo->SoftBufs.ulBufPlayoutEventBufferWritePtr++; if ( pSharedInfo->SoftBufs.ulBufPlayoutEventBufferWritePtr == pSharedInfo->SoftBufs.ulBufPlayoutEventBufferSize ) pSharedInfo->SoftBufs.ulBufPlayoutEventBufferWritePtr = 0; /* Set the interrupt manager such that the user knows that some playout events */ /* are pending in the software Q. */ pSharedInfo->IntrptManage.fBufferPlayoutEventsPending = TRUE; } else if ( f_fSaveToSoftBuffer == TRUE ) { /* Set the overflow flag of the buffer. */ pSharedInfo->SoftBufs.ulBufPlayoutEventBufferOverflowCnt++; } /* Update the channel entry to set the playing flag to FALSE. */ /* Select the port of interest. */ if ( f_ulChannelPort == cOCT6100_CHANNEL_PORT_ROUT ) { /* Decrement the number of active buffer playout ports. */ /* No need to check anything here, it's been done in the calling function. */ pSharedInfo->ChipStats.usNumberActiveBufPlayoutPorts--; pEchoChannel->fRinBufPlaying = FALSE; pEchoChannel->fRinBufPlayoutNotifyOnStop = FALSE; /* Clear optimization flag if possible. */ if ( ( pEchoChannel->fSoutBufPlaying == FALSE ) && ( pEchoChannel->fSoutBufPlayoutNotifyOnStop == FALSE ) ) { /* Buffer playout is no more active on this channel. */ pEchoChannel->fBufPlayoutActive = FALSE; } } else /* f_ulChannelPort == cOCT6100_CHANNEL_PORT_SOUT */ { /* Decrement the number of active buffer playout ports. */ /* No need to check anything here, it's been done in the calling function. */ pSharedInfo->ChipStats.usNumberActiveBufPlayoutPorts--; pEchoChannel->fSoutBufPlaying = FALSE; pEchoChannel->fSoutBufPlayoutNotifyOnStop = FALSE; /* Clear optimization flag if possible. */ if ( ( pEchoChannel->fRinBufPlaying == FALSE ) && ( pEchoChannel->fRinBufPlayoutNotifyOnStop == FALSE ) ) { /* Buffer playout is no more active on this channel. */ pEchoChannel->fBufPlayoutActive = FALSE; } } /* Return that an event was detected. */ if ( f_pfEventDetected != NULL ) *f_pfEventDetected = TRUE; } return cOCT6100_ERR_OK; } #endif