Cleaned up code repetitions of messaging and shared memory read/write.

[processor-sdk/performance-audio-sr.git] / pasdk / test_dsp / framework / as0.c

/*
Copyright (c) 2016, Texas Instruments Incorporated - http://www.ti.com/
All rights reserved.

* Redistribution and use in source and binary forms, with or without 
* modification, are permitted provided that the following conditions
* are met:
*
* Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the
* distribution.
*
* Neither the name of Texas Instruments Incorporated nor the names of
* its contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/

//
// Framework support function (implementation)
//


#include <xdc/std.h> //<std.h>
#include <xdc/runtime/Error.h>
#include <xdc/runtime/Log.h>
#include <xdc/runtime/Memory.h>
#include <ti/sysbios/BIOS.h>
#include <ti/sysbios/heaps/HeapMem.h>
#include <ti/ipc/MessageQ.h>
#include <ti/ipc/MultiProc.h>

//#include <ti/procsdk_audio/procsdk_audio_typ.h>
#include <procsdk_audio_typ.h>

#include <sio.h>

#include "as0.h"

#include "inpbuf.h"
#include <pafdec.h>
#include <pafenc.h>
#include "outbuf.h"

#include <asperr.h> /* ASPERR_*OUT_* */
#include <pafsio.h>
//#include "pafhjt.h"

#include "common.h"
#include "paf_heapMgr.h"
#include "aspMsg_common.h"
#include "aspMsg_master.h"
#include "audioStreamProc_common.h"

#define PAF_DEVICE_VERSION (PAF_DEVICE & 0xffff)
#if PAF_DEVICE_VERSION == 0xE000
#define _DEBUG // This is to enable log_printfs
#endif /* PAF_DEVICE_VERSION */
#include <logp.h>

// allows you to set a different trace module in pa.cfg
#define TR_MOD  trace

// Allow a developer to selectively enable tracing.
// For release, set mask to 1 to make it easier to catch any errors.
#define CURRENT_TRACE_MASK  1   // terse only

#define TRACE_MASK_TERSE    1   // only flag errors
#define TRACE_MASK_GENERAL  2   // log a half dozen lines per loop
#define TRACE_MASK_VERBOSE  4   // trace full operation

#if (CURRENT_TRACE_MASK & TRACE_MASK_TERSE)
 #define TRACE_TERSE(a) LOG_printf a
#else
 #define TRACE_TERSE(a)
#endif

#if (CURRENT_TRACE_MASK & TRACE_MASK_GENERAL)
 #define TRACE_GEN(a) LOG_printf a
#else
 #define TRACE_GEN(a)
#endif

#if (CURRENT_TRACE_MASK & TRACE_MASK_VERBOSE)
 #define TRACE_VERBOSE(a) LOG_printf a
#else
 #define TRACE_VERBOSE(a)
#endif

//
// Audio Stream Task / Decode Processing - Device Allocation Function
//
//   Name:      PAF_DEC_deviceAllocate
//   Purpose:   Decode Function for "device allocation" to
//              (1) allocate buffer memory, and
//              (2) initialize a Buffer Configuration, including pointers
//                  to that buffer memory.
//   From:      AST Parameter Function -> deviceAllocate
//   Uses:      None.
//   States:    None.
//   Return:    0 on success.
//              1 on MEM_calloc failure.
//   Trace:     None.
//

Int
PAF_DEC_deviceAllocate(
    SIO_Handle *pHandle,
    int mode,
    int heapID,
    int bufSize,
    Ptr pBufCfg )
{
    Ptr pBuf;
    Error_Block    eb;

    *pHandle = NULL;

    // Initialize error block
    Error_init(&eb); 

//#ifdef _TMS320C6X
//#warn Changed back to MEM_calloc until Mantis ID 81 resolved -- mwatson
//#endif
//    if (! (pBuf = (Ptr )MEM_alloc (heapID, bufSize, 128)))
    //if (! (pBuf = (Ptr )MEM_calloc (heapID, bufSize, 128)))
    if (!(pBuf = (Ptr )Memory_calloc((IHeap_Handle)pafHeapMgr_readHeapHandle(heapID), bufSize, 128, &eb)))
        return (SYS_EALLOC);        

    if( mode ==     SIO_OUTPUT ) {
        PAF_OutBufConfig *pConfig = (PAF_OutBufConfig *)pBufCfg;

        pConfig->base.pVoid = pBuf;
        pConfig->pntr.pVoid = pBuf;
        pConfig->head.pVoid = pBuf;
        pConfig->allocation = bufSize;
        pConfig->precision = 24;
    }
    else {
        PAF_InpBufConfig *pConfig = (PAF_InpBufConfig *)pBufCfg;

        pConfig->base.pVoid = pBuf;
        pConfig->pntr.pVoid = pBuf;
        pConfig->head.pVoid = pBuf;
        pConfig->allocation = bufSize;
        pConfig->precision = 16;
    }

    return SYS_OK;
} /* PAF_DEC_deviceAllocate */

//
// Audio Stream Task / Decode Processing - Device Selection Function
//
//   Name:      PAF_DEC_deviceSelect
//   Purpose:   Decode Function for "device selection" which
//              (1) "closes" any open device on that handle, and
//              (2) "opens" a new device on that handle if not None.
//   From:      AST Parameter Function -> deviceSelect
//   Uses:      See code.
//   States:    None.
//   Return:    0 on success.
//              1 on error in device create.
//              2 on error in device open.
//              3 on error in device close.
//              4 on error in device idle.
//   Trace:     None.
//

Int
PAF_DEC_deviceSelect(
    SIO_Handle *pHandle,
    int mode,
    int heapID,
    Ptr pParams )
{
    // Device must be idled, closed, and freed to select new:
    if (*pHandle) {
        if (SIO_idle (*pHandle))
            return ASPERR_DEVINP_IDLE-ASPERR_DEVINP;
        if (SIO_ctrl (*pHandle, PAF_SIO_CONTROL_CLOSE, 0))
            return ASPERR_DEVINP_CLOSE-ASPERR_DEVINP;
        PAF_SIO_free (*pHandle, mode );
            /* For consistency, should return integer. --Kurt */
    }

    // Select new device:
    if (! pParams) {
        /* input/output device None */
        *pHandle = NULL;
    }
    else if (! (*pHandle = PAF_SIO_recreate (pParams, mode, &trace, heapID)))
        return ASPERR_DEVINP_CREATE-ASPERR_DEVINP;
    else if (SIO_ctrl (*pHandle, PAF_SIO_CONTROL_OPEN, (Arg) pParams))
                return ASPERR_DEVINP_OPEN-ASPERR_DEVINP;

    return 0;
} /* PAF_DEC_deviceSelect */

//
// Audio Stream Task / Decode Processing - Frame Length Computation Function
//
//   Name:      PAF_DEC_computeFrameLength
//   Purpose:   Compute frame length to be generated by a decode algorithm,
//              including effects of the "buffer ratio" which is used to
//              indicate possible subsequent up-sampling by 2 or 4 (-2 or
//              -4) or down-sampling by 2 or 4 (2 or 4).
//   From:      AST Parameter Function -> computeFrameLength
//   Uses:      See code.
//   States:    None.
//   Return:    Frame length.
//   Trace:     None.
//

#include <pcm.h>
#if 0 /* commenting IP component header file inclusion */
#include <ac3.h>
#include <dts.h>
#include <aac.h>

#define DEC_MINSAMGEN PCM_MINSAMGEN

#if DEC_MINSAMGEN != AC3_MINSAMGEN
#error internal error
#elif DEC_MINSAMGEN != DTS_MINSAMGEN
#error internal error
#elif DEC_MINSAMGEN != AAC_MINSAMGEN
#error internal error
#endif /* DEC_MINSAMGEN */

#define DEC_MAXSAMGEN PCM_MAXSAMGEN

#if DEC_MAXSAMGEN != AC3_MAXSAMGEN
#error internal error
#elif DEC_MAXSAMGEN != DTS_MAXSAMGEN
#error internal error
#elif defined (AAC_SUPPORT) && DEC_MAXSAMGEN != AAC_MAXSAMGEN
#error internal error
#endif /* DEC_MAXSAMGEN */
#else
#define DEC_MINSAMGEN PCM_MINSAMGEN
#define DEC_MAXSAMGEN PCM_MAXSAMGEN
#endif

// FL: change alg handle to decIdx, index is w.r.t. dec zones
//Int
//PAF_DEC_computeFrameLength(
//    ALG_Handle alg, 
//    Int frameLength, 
//    Int bufferRatio
//)
Int
PAF_DEC_computeFrameLength(
    Int decIdx, 
    Int frameLength, 
    Int bufferRatio
)
{
    Int m, n, o, p;
    // Messaging
    Int argIdx;
    Int errno;                          /* error number */
    char decMsgBuf[ASP_MSG_BUF_LEN];

    // FL: dec control message to slave
    argIdx = 0; //  set decIdx
    *(Int *)&decMsgBuf[argIdx] = decIdx;
    argIdx += sizeof(Int); // set decCtrlCmd
    *(IALG_Cmd *)&decMsgBuf[argIdx] = DEC_MINSAMGEN;
    if(AspMsgSend(ASP_SLAVE_DEC_CONTROL, ASP_MASTER_DEC_CONTROL_DONE,
                  decMsgBuf, decMsgBuf) != ASP_MSG_NO_ERR)
    {
        SW_BREAKPOINT;
        return -1; // temporary        
    }    
    else 
    {
        argIdx = 0; // get decCtrlRet
        m = *(Int *)&decMsgBuf[argIdx];
        TRACE_TERSE1("decCtrlRet (m)=%d", m);        
    }

#if 0 // FL: decoder control call, slave
    m = alg->fxns->algControl(alg, DEC_MINSAMGEN, NULL);
#endif
    
    // FL: dec control message to slave
    argIdx = 0; // set decIdx
    *(Int *)&decMsgBuf[argIdx] = decIdx;
    argIdx += sizeof(Int); // set decCtrlCmd
    *(IALG_Cmd *)&decMsgBuf[argIdx] = DEC_MAXSAMGEN;
    if(AspMsgSend(ASP_SLAVE_DEC_CONTROL, ASP_MASTER_DEC_CONTROL_DONE,
                  decMsgBuf, decMsgBuf) != ASP_MSG_NO_ERR)
    {
        SW_BREAKPOINT;
        return -1; // temporary        
    }    
    else 
    {
        argIdx = 0; // get decCtrlRet
        n = *(Int *)&decMsgBuf[argIdx];
        TRACE_TERSE1("decCtrlRet (n)=%d", n);        
    }

#if 0 // FL: decoder control call, slave
    n = alg->fxns->algControl(alg, DEC_MAXSAMGEN, NULL);
#endif

    
    if (m != n) {
        o = n < frameLength ? n : frameLength;
        o = o / m * m;
        if (bufferRatio > 0) {
            if (bufferRatio == 4 && (p = o / 4) > m && p % 8 == 0)
                return p;
            else if (bufferRatio == 4 && (p = o / 2) > m && p % 8 == 0)
                return p;
            else if (bufferRatio == 2 && (p = o / 2) > m && p % 8 == 0)
                return p;
        }
        else if (bufferRatio < 0) {
            if (bufferRatio == -4 && (p = o * 4) > m && p % 8 == 0)
                return p;
            else if (bufferRatio == -4 && (p = o * 2) > m && p % 8 == 0)
                return p;
            else if (bufferRatio == -2 && (p = o * 2) > m && p % 8 == 0)
                return p;
        }
        if (o % 8 == 0)
            return o;
    }

    return m;
} /* PAF_DEC_computeFrameLength */

//
// Audio Stream Task / Decode Processing - Input Status Update
//
//   Name:      PAF_DEC_updateInputStatus
//   Purpose:   Decode Function for maintaining Input Status.
//   From:      AST Parameter Function -> updateInputStatus
//   Uses:      See code.
//   States:    None.
//   Return:    0 on success.
//              Other on SIO Control failure (using SIO error numbers).
//   Trace:     None.
//

Int
PAF_DEC_updateInputStatus(
    SIO_Handle hSio,
    PAF_InpBufStatus *pStatus,
    PAF_InpBufConfig *pConfig)
{
    Int errno;


    PAF_SIO_InputStatus inputStatus;

    // initialize all values to unknown so that device specific
    //   driver layer need only fill in those entries that it is aware of.
    //   This allows extensibility of the structure without requiring users
    //   to re-code.
    inputStatus.lock = 0;
    inputStatus.sampleRateData = PAF_SAMPLERATE_UNKNOWN;
    inputStatus.sampleRateMeasured = PAF_SAMPLERATE_UNKNOWN;
    inputStatus.nonaudio = PAF_IEC_AUDIOMODE_UNKNOWN;
    inputStatus.emphasis = PAF_IEC_PREEMPHASIS_UNKNOWN;

    errno = SIO_ctrl (hSio, (Uns)PAF_SIO_CONTROL_GET_INPUT_STATUS, (Arg) &inputStatus);
    if (errno)
        return errno;
    pStatus->sampleRateData = inputStatus.sampleRateData;
    pStatus->sampleRateMeasured = inputStatus.sampleRateMeasured;
    pStatus->nonaudio = inputStatus.nonaudio;
    pStatus->emphasisData = inputStatus.emphasis;

    // if MSB of override clear then use as reported lock
    // if = 0x80 then use default [0x81]
    // if = 0x81 then use measured (from device)
    // others not defined or implemented
    if ((pStatus->lockOverride & (XDAS_Int8)0x80) == 0)
        pStatus->lock = pStatus->lockOverride;
    else if (pStatus->lockOverride == (XDAS_Int8)0x80)
        pStatus->lock = inputStatus.lock;
    else if (pStatus->lockOverride == (XDAS_Int8)0x81)
        pStatus->lock = inputStatus.lock;

    // if MSB of override clear then use it as sample rate for system,
    // if = 0x80 then use default [0x82]
    // if = 0x81 then use data
    // if = 0x82 then use measured
    // others not defined or implemented
    if ((pStatus->sampleRateOverride & (XDAS_Int8)0x80) == 0)
        pStatus->sampleRateStatus = pStatus->sampleRateOverride;
    else if (pStatus->sampleRateOverride == (XDAS_Int8)0x80)
        pStatus->sampleRateStatus = pStatus->sampleRateMeasured;
    else if (pStatus->sampleRateOverride == (XDAS_Int8)0x81)
        pStatus->sampleRateStatus = pStatus->sampleRateData;
    else if (pStatus->sampleRateOverride == (XDAS_Int8)0x82)
        pStatus->sampleRateStatus = pStatus->sampleRateMeasured;

    // Update emphasis status:
    if ((pStatus->emphasisOverride & (XDAS_Int8)0x80) == 0) {
        if (pStatus->emphasisData == PAF_IEC_PREEMPHASIS_YES)
            pStatus->emphasisStatus = PAF_IEC_PREEMPHASIS_YES;
        else
            pStatus->emphasisStatus = PAF_IEC_PREEMPHASIS_NO;
    }
    else if (pStatus->emphasisOverride ==
             (XDAS_Int8 )(0x80+PAF_IEC_PREEMPHASIS_YES))
        pStatus->emphasisStatus = PAF_IEC_PREEMPHASIS_YES;
    else /* IBEmphasisOverrideNo or other */
        pStatus->emphasisStatus = PAF_IEC_PREEMPHASIS_NO;

    // Update precision control
    pConfig->precision = pStatus->precisionInput =
        pStatus->precisionOverride < 0
        ? pStatus->precisionDefault
        : pStatus->precisionOverride > 0
        ? pStatus->precisionOverride
        : pStatus->precisionDetect > 0
        ? pStatus->precisionDetect
        : pStatus->precisionDefault;

    return 0;

} /* PAF_DEC_updateInputStatus */

// ----------------------------------------------------------------------------

#ifndef HSE

// ............................................................................

//
// Audio Stream Task / Asynchronous Rate Conversion (ARC) - Control
//
//   Name:      PAF_ARC_controlRate
//   Purpose:   Control ARC conversion rate
//   From:      AST Parameter Function -> controlRate
//   Uses:      See code.
//   States:    None.
//   Return:    0 on success.
//              Other on SIO Control failure (using SIO error numbers).
//   Trace:     None.
//

#include <math.h>    /* ldexp() */

#include <acp.h>

#include <arc_a.h>

Int
PAF_ARC_controlRate(
    SIO_Handle hRxSio,
    SIO_Handle hTxSio,
    ACP_Handle acp,
    double arcRatio)  // KR032013
{
    Int errno;


    if (hRxSio && hTxSio) {
        PAF_SIO_Stats *pRxStats, *pTxStats;
      //extern double arcRatio;    // output / input rate  // KR032013
        XDAS_UInt32 inputsPerOutputQ24 = (XDAS_UInt32) ldexp( arcRatio, 24);

        static const ACP_Unit
            readARCOutputsRemainingQ24_s[] = { readARCOutputsRemainingQ24 },
            wroteARCInputsPerOutputQ24_s[] = { wroteARCInputsPerOutputQ24 };

        ACP_Unit y4[4];


        if (errno = SIO_ctrl (hRxSio, PAF_SIO_CONTROL_GET_STATS, (Arg) &pRxStats)) {
            TRACE_TERSE ((&TR_MOD, "ARC: Error retrieving Rx xfer stats"
                " (0x%04x)", errno));
            return errno;
        }

        if (errno = SIO_ctrl (hTxSio, PAF_SIO_CONTROL_GET_STATS, (Arg) &pTxStats)) {
            TRACE_TERSE ((&TR_MOD, "ARC: Error retrieving Tx xfer stats"
                " (0x%04x)", errno));
            return errno;
        }

        y4[0] = wroteARCInputsPerOutputQ24_s[0];
        y4[1] = wroteARCInputsPerOutputQ24_s[1];
        y4[2] = (MdInt) inputsPerOutputQ24;
        y4[3] = (MdInt)(inputsPerOutputQ24 >> 16);

        if (errno = acp->fxns->apply (acp, y4, NULL)) {
            TRACE_TERSE ((&TR_MOD, "ARC: Error sending ARC rate ratio"
                " (0x%04x)", errno));
            return errno;
        }

        if (errno = acp->fxns->apply (acp, readARCOutputsRemainingQ24_s, y4)) {
            TRACE_TERSE ((&TR_MOD, "ARC: Error retrieving ARC timing"
                " (0x%04x)", errno));
            return errno;
        }

        {
        static XDAS_UInt32 outputsRemainingQ24[2];

        const double arcDiff = pRxStats->dpll.v
                            - (pTxStats->dpll.v + ldexp( outputsRemainingQ24[1], -24) * pTxStats->dpll.dv);
        outputsRemainingQ24[1] = outputsRemainingQ24[0];
        outputsRemainingQ24[0] = ((XDAS_UInt32) y4[3] << 16) + y4[2];

        TRACE_GEN ((&TR_MOD, "time dif %d.%08d",
            (int) arcDiff, (int) (1.e8 * (arcDiff - (int) arcDiff))));

        }
    }

    return 0;
}

// ............................................................................
#else
Int
PAF_ARC_controlRate(
    SIO_Handle hRxSio,
    SIO_Handle hTxSio,
    ACP_Handle acp,
    double arcRatio) // KR032013
{
    return 1;
}
#endif //HSE

// ----------------------------------------------------------------------------

//
// Audio Stream Task / Pass Processing - Buffer Copy
//
//   Name:      PAF_BUF_copy
//   Purpose:   Decode Function for copying the data in the input buffer
//              to the output buffer.
//   From:      AST Parameter Function -> copy
//   Uses:      None.
//   States:    None.
//   Return:    0 on success.
//              0x80000000 for errors in required arguments.
//   Trace:     None.
//

#define min(a, b)  (((a) < (b)) ? (a) : (b))

#include <pafdec.h>
#include <pafenc.h>

/* DO NOT REMOVE THIS CODE_SECTION. --Kurt */
#pragma CODE_SECTION(PAF_BUF_copy,".text:_PAF_BUF_copy")

Int
PAF_BUF_copy(
    Uns inpChan,
    PAF_InpBufConfig *pInpCfg,
    Uns outChan,
    PAF_OutBufConfig *pOutCfg)
{
    Int i;
    Int *pInBuf, *pOutBuf;
    Int numSamples;

#ifndef __TI_EABI__
    asm (" .clink");
#endif    

    if( (pInpCfg == NULL) || (pOutCfg == NULL) )
        return ASPERR_UNSPECIFIED;

    if( (inpChan > pInpCfg->stride) || (outChan > pOutCfg->stride) )
        return ASPERR_UNSPECIFIED;

    //for now assume =32bit words
    if( (pInpCfg->sizeofElement != 4) ||
        (pInpCfg->sizeofElement != pOutCfg->sizeofElement) )
        return ASPERR_UNSPECIFIED;

    pInBuf = pInpCfg->pntr.pLgInt;
    pOutBuf = pOutCfg->pntr.pLgInt;

    numSamples = min(pInpCfg->frameLength, pOutCfg->lengthofFrame);
    pInBuf += inpChan;
    pOutBuf += outChan;
    for( i=0; i < numSamples; i++ )
    {
        *pOutBuf = *pInBuf;
        pInBuf += pInpCfg->stride;
        pOutBuf += pOutCfg->stride;
    }

    return 0;
} /* PAF_BUF_copy */

// EOF