index 1ce76065248c599b35e3114ad9cbc30130d9dc9a..f561b91be556af34a8d6b1b2d714843e32a7fcc1 100644 (file)
/*
-Copyright (c) 2016, Texas Instruments Incorporated - http://www.ti.com/
+Copyright (c) 2017, Texas Instruments Incorporated - http://www.ti.com/
All rights reserved.
* Redistribution and use in source and binary forms, with or without
#include "paftyp.h"
#include "pafdec.h"
-#define ASP_DECOP_CB_SOK ( 0 ) // ok
-#define ASP_DECOP_CB_CTL_INIT_INV_GATE ( ASP_DECOP_CB_SOK-1 ) // error: invalid gate handle
-#define ASP_DECOP_CB_ERR_START ( ASP_DECOP_CB_CTL_INIT_INV_GATE )
-
-#define ASP_DECOP_CB_MAX_NUM_AF ( 4 ) // decoder output circular buffer maximum number audio frames
-#define ASP_DECOP_CB_MAX_NUM_PCM_CH ( 16 ) // decoder output circular buffer maximum number audio PCM channels
-#define ASP_DECOP_CB_MAX_NUM_PCM_FRAMES ( 2 ) // decoder output circular buffer maximum number PCM frames //Qin - Increased to prevent cb overflow for ddp.
-#define ASP_DECOP_CB_MAX_PCM_FRAME_LEN ( 6*256 ) // decoder output circular buffer maximum PCM frame length
-#define ASP_DECOP_CB_PCM_BUF_SZ ( ASP_DECOP_CB_MAX_NUM_PCM_CH * ASP_DECOP_CB_MAX_NUM_PCM_FRAMES * ASP_DECOP_CB_MAX_PCM_FRAME_LEN )
-
-#define ASP_DECOP_CB_MAX_NUM_AF_PCM ( 4 )
-#define ASP_DECOP_CB_INIT_LAG_PCM ( 2 ) // 1...3
-#define ASP_DECOP_CB_INIT_WRTIDX_PCM ( ASP_DECOP_CB_INIT_LAG_PCM )
-#define ASP_DECOP_CB_INIT_RDIDX_PCM ( 0 )
-
-#define ASP_DECOP_CB_MAX_NUM_AF_DDP ( 2 )
-#define ASP_DECOP_CB_INIT_LAG_DDP ( 4 ) // 0...5
-#define ASP_DECOP_CB_INIT_WRTIDX_DDP ( 1 )
-#define ASP_DECOP_CB_INIT_RDIDX_DDP ( 0 )
-
-#define ASP_DECODE_CB_GATE_NAME ( "AspDecOpCbGate" )
-#define ASP_DECODE_CB_GATE_REGION_ID ( 0 )
+#include "dbgBenchmark.h" // PCM high-sampling rate + SRC + CAR benchmarking
+
+//#define CB_RW_OP_CAP_PP // debug
+#ifdef CB_RW_OP_CAP_PP
+#define CB_OP_NONE 0
+#define CB_OP_W 1 // ARM write
+#define CB_OP_R 2 // DSP read
+#define CB_OP_COUNT_MAX 10000
+#endif
+
+// CB control
+#define ASP_DECODE_CB_GATE_NAME ( "AspDecOpCbGate" ) // name of GateMP used for circular buffer shared memory protection
+#define ASP_DECODE_CB_GATE_REGION_ID ( 0 ) // IPC shared region ID used for CB gate allocation
+
+// error return codes
+#define ASP_DECOP_CB_SOK ( 0 ) // ok
+#define ASP_DECOP_CB_CTL_INIT_INV_GATE ( ASP_DECOP_CB_SOK-1 ) // error: invalid gate handle
+#define ASP_DECOP_CB_RESET_INV_SOURCE_SEL ( ASP_DECOP_CB_CTL_INIT_INV_GATE - 1 ) // error: invalid source selection on init
+#define ASP_DECOP_CB_ERR_START ( ASP_DECOP_CB_RESET_INV_SOURCE_SEL ) // start error return ID for master & slave error return definitions
+
+#define ASP_DECOP_CB_MAX_NUM_AF ( 30 ) // decoder output circular buffer maximum number audio frames
+
+#define ASP_DECOP_CB_MAX_NUM_PCM_CH ( 16 ) // decoder output circular buffer maximum number audio PCM channels
+#define ASP_DECOP_CB_MAX_NUM_PCM_FRAMES ( 15 ) // decoder output circular buffer maximum number PCM frames //Qin - Increased to prevent cb overflow for ddp.
+#define ASP_DECOP_CB_MAX_PCM_FRAME_LEN ( 6*256 ) // decoder output circular buffer maximum PCM frame length
+
+#define ASP_DECOP_CB_MAX_NUM_PCM_CH_DDP ( 16 ) // decoder output circular buffer maximum number audio PCM channels for DDP
+#define ASP_DECOP_CB_MAX_PCM_FRAME_LEN_48kDDP ( 6*256 ) // decoder output circular buffer maximum PCM frame length at 48kHz sampling rate
+
+#define ASP_DECOP_CB_MAX_NUM_PCM_CH_MAT ( 32 ) // decoder output circular buffer maximum number audio PCM channels for MAT
+#define ASP_DECOP_CB_MAX_PCM_FRAME_LEN_48kMAT ( 4*256 ) // decoder output circular buffer maximum PCM frame length at 48kHz sampling rate
+
+// (***) FL: !!! REVISIT!!! THD 192 kHz "fudge factor" for CB PCM buffer size.
+// Using this factor in PCM buffer size definition, buffer large enough to execute 192 kHz w/o CB OVR/UND.
+// Need to define CB size in different terms than existing macros.
+// (***) FL: !!! REVISIT!!! Allocating memory for max # channels (e.g. 32 for THD).
+// GROSS over allocation for THD 192 kHz, 6ch max.
+#define THD_HSR_FUDGE_FACTOR ( 368640 + 240000 )
+#define ASP_DECOP_CB_PCM_BUF_SZ ( ASP_DECOP_CB_MAX_NUM_PCM_CH * ASP_DECOP_CB_MAX_NUM_PCM_FRAMES * ASP_DECOP_CB_MAX_PCM_FRAME_LEN + THD_HSR_FUDGE_FACTOR)
+// FL: unused
+//#define ASP_DECOP_CB_PCM_BUF_SZ_32CH48kMAT ( ASP_DECOP_CB_MAX_NUM_PCM_CH_MAT * ASP_DECOP_CB_MAX_NUM_PCM_FRAMES * ASP_DECOP_CB_MAX_PCM_FRAME_LEN_48kMAT )
+
+#define ASP_DECOP_CB_MAX_NUM_AF_PCM ( 4 )
+#if (ASP_DECOP_CB_MAX_NUM_AF_PCM > ASP_DECOP_CB_MAX_NUM_AF)
+ #error "CB Max AF PCM error"
+#endif
+#define ASP_DECOP_CB_INIT_WRTIDX_PCM ( 0 )
+#define ASP_DECOP_CB_INIT_RDIDX_PCM ( 0 )
+//#define ASP_DECOP_CB_INIT_LAG_PCM ( 2 )
+#define ASP_DECOP_CB_TARGET_ND_SAMPS_48kPCM ( (4+1) * 256 ) // PCM target Nominal Delay in number of samples, fs=48 kHz
+
+#define ASP_DECOP_CB_MAX_NUM_AF_DDP ( 3 )
+#if (ASP_DECOP_CB_MAX_NUM_AF_DDP > ASP_DECOP_CB_MAX_NUM_AF)
+ #error "CB Max AF DDP error"
+#endif
+#define ASP_DECOP_CB_INIT_WRTIDX_DDP ( 0 )
+#define ASP_DECOP_CB_INIT_RDIDX_DDP ( 0 )
+//#define ASP_DECOP_CB_INIT_LAG_DDP ( 1 )
+#define ASP_DECOP_CB_TARGET_ND_SAMPS_DDP ( (6+6) * 256 ) // DDP target Nominal Delay in number of samples
+
+#define ASP_DECOP_CB_MAX_NUM_AF_THD ( 30 ) //( 15 )
+#if (ASP_DECOP_CB_MAX_NUM_AF_THD > ASP_DECOP_CB_MAX_NUM_AF)
+ #error "CB Max AF THD error"
+#endif
+#define ASP_DECOP_CB_INIT_WRTIDX_THD ( 0 )
+#define ASP_DECOP_CB_INIT_RDIDX_THD ( 0 )
+//#define ASP_DECOP_CB_INIT_LAG_THD ( 5 ) // 5*20ms = 100 ms, For the worst case of 100 ms
+#define ASP_DECOP_CB_TARGET_ND_SAMPS_48kTHD ( 3600 ) //( 3504 ) //( 2224 ) // THD target Nominal Delay in number of samples, fs=48 kHz
+#define ASP_DECOP_CB_TARGET_ND_SAMPS_96kTHD ( 2*ASP_DECOP_CB_TARGET_ND_SAMPS_48kTHD ) // THD target Nominal Delay in number of samples, fs=96 kHz
+#define ASP_DECOP_CB_TARGET_ND_SAMPS_192kTHD ( 4*ASP_DECOP_CB_TARGET_ND_SAMPS_48kTHD ) // THD target Nominal Delay in number of samples, fs=192 kHz
+
+//#define DEF_SOURCE_SEL ( PAF_SOURCE_PCM ) // default source select
+//#define DEF_DEC_OP_FRAME_LEN ( PAF_SYS_FRAMELENGTH ) // default decoder output frame length
+//#define DEF_STR_FRAME_LEN ( PAF_SYS_FRAMELENGTH ) // default stream frame length
// Decoder output circular buffer
typedef struct PAF_AST_DecOpCircBuf
{
- PAF_AudioFrame *afCb; // audio frame CB
- PAF_AudioData *pcmBuf; // PCM buffer, contains PCM data associated with audio frames
- UInt8 *metaBuf; // metadata buffer, contains metadata associated with audio frames
- Int8 sourceSel; // selected source
- Int8 afRdIdx; // audio frame CB read index
- Int8 afWrtIdx; // audio frame CB write index
- Int16 pcmRdIdx; // pcm buffer read index
- Int8 numAfCb; // current number frames in CB
- Int8 maxNumAfCb; // maximum number of audio frames in CB
- Int16 decOpFrameLen; // selected decoder output frame length (input transaction size)
- Int16 strFrameLen; // stream frame length (output transaction size)
- Int8 writerActiveFlag; // flag indicates whether CB writer is active
- Int8 readerActiveFlag; // flag indicates whether CB reader is active
- Int8 emptyFlag; // flag indicates whether reader should empty (drain) remaining frames in CB
- Int8 errUndCnt; // underflow count
- Int8 errOvrCnt; // overflow count
- PAF_AudioFrame lastAf; // used to store the last valid read out audio frame info to generate mute frame
+ PAF_AudioFrame *afCb; // audio frame CB
+ PAF_AudioData *pcmBuf; // PCM buffer, contains PCM data associated with audio frames
+ UInt8 *metaBuf; // metadata buffer, contains metadata associated with audio frames
+ Int8 sourceSel; // selected source
+ Int8 primedFlag; // flag indicated whether CB is primed: FALSE - CB not primed, TRUE - CB primed
+ Int16 targetNDSamps; // target CB Nominal Delay number of samples
+ Int16 deltaSamps; // number of 256 (N) sample output frames to block reader
+ Int8 afRdIdx; // audio frame CB read index
+ Int8 afWrtIdx; // audio frame CB write index
+ //Int8 afLagIdx; // audio frame CB Lag idx,
+ //Int8 afInitialLag; // Initial delay/lag between CB write and read
+ Int16 pcmRdIdx; // pcm buffer read index
+ Int8 prvMdRdIdx; // private metadata read index
+ Int8 numAfCb; // current number frames in CB
+ Int8 maxNumAfCb; // maximum number of audio frames in CB
+ Int32 numPcmSampsPerCh; // current number of PCM samples per channel in CB
+ Int32 maxNumPcmSampsPerCh; // max number of PCM samples per channel in CB
+ Int16 decOpFrameLen; // selected decoder output frame length (input transaction size)
+ Int16 strFrameLen; // stream frame length (output transaction size)
+ Int8 writerActiveFlag; // flag indicates whether CB writer is active: FALSE - writer not active, TRUE - writer active
+ Int8 readerActiveFlag; // flag indicates whether CB reader is active: FALSE - reader not active, TRUE - reader active
+ Int8 drainFlag; // flag indicates whether reader should drain (empty) remaining frames in CB: FALSE - reader should not drain, TRUE - reader should drain
+ Int32 readAfWriterInactiveCnt; // count of read audio frames with inactive writer & not draining
+ Int32 readAfNdCnt; // count of read audio frames for nominal delay
+ Int32 wrtAfReaderInactiveCnt; // count of write audio frames with inactive reader
+ Int32 wrtAfZeroSampsCnt; // count of write audio frames with zero samples
+ Int32 errAfUndCnt; // read error AF underflow count
+ Int32 errAfOvrCnt; // write error AF overflow count
+ Int32 errPcmUndCnt; // read error PCM underflow count
+ Int32 errPcmOvrCnt; // write error PCM overflow count
+ PAF_AudioData *pcmBufEnd; // PCM buffer, contains PCM data associated with audio frames end
+ UInt8 *metaBufEnd; // metadata buffer, contains metadata associated with audio frames end
+ Int8 maxAFChanNum; // maximum number of audio data channels in audio frame
+ Int16 maxAFSampCount; // maximum number of sample counts in audio frame
+ PAF_AudioFrame lastAf; // used to store the last valid read out audio frame info to generate mute frame
+#ifdef CB_RW_OP_CAP_PP // debug
+ UInt32 *cb_samples_op; // should be in shared memory, preferred NON cache
+ UInt8 *cb_op_owner; // should be in shared memory, preferred NON cache
+ UInt8 *cb_afRdIdx; // should be in shared memory, preferred NON cache
+ UInt8 *cb_afWrtIdx; // should be in shared memory, preferred NON cache
+ UInt8 *cb_numAfCb; // should be in shared memory, preferred NON cache
+ UInt32 cb_opCnt; // range (0 - CB_OP_COUNT_MAX)
+#endif
} PAF_AST_DecOpCircBuf;
+// Decoder output circular buffer statistics
+typedef struct PAF_AST_DecOpCircBufStats
+{
+ Int32 readAfWriterInactiveCnt; // count of read audio frames with inactive writer & not draining
+ Int32 readAfNdCnt; // count of read audio frames for nominal delay
+ Int32 wrtAfReaderInactiveCnt; // count of write audio frames with inactive reader
+ Int32 wrtAfZeroSampsCnt; // count of write audio frames with zero samples
+ Int32 errAfUndCnt; // read error AF underflow count
+ Int32 errAfOvrCnt; // write error AF overflow count
+ Int32 errPcmUndCnt; // read error PCM underflow count
+ Int32 errPcmOvrCnt; // write error PCM overflow count
+} PAF_AST_DecOpCircBufStats;
+
// Decoder output circular buffer control
typedef struct PAF_AST_DecOpCircBufCtl
{
GateMP_Handle gateHandle; // circular buffer gate handle
+ Int8 numDecOpCb; // number of circular buffers
PAF_AST_DecOpCircBuf **pXDecOpCb; // address of decoder output circular buffer base pointer
} PAF_AST_DecOpCircBufCtl;
// Initialize circular buffer control
Int cbCtlInit(
PAF_AST_DecOpCircBufCtl *pCbCtl, // decoder output circular buffer control
+ Int8 numDecOpCb, // number of circular buffers
PAF_AST_DecOpCircBuf **pXDecOpCb // address of decoder output circular buffer base pointer
);
Int8 cbIdx
);
+// Get circular buffer statistics
+Int cbGetStats(
+ PAF_AST_DecOpCircBufCtl *pCbCtl, // decoder output circular buffer control
+ Int8 cbIdx, // decoder output circular buffer index
+ PAF_AST_DecOpCircBufStats *pCbStats // decoder output circular buffer statistics
+
+);
+
// Output log of circular buffer control variables (debug)
Int cbLog(
PAF_AST_DecOpCircBufCtl *pCbCtl,
char *locInfo
);
+
#endif /* _ASP_DECOP_CB_COMMON_H_ */