📄 dm642audio.c
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/*
* Copyright 2003 by Texas Instruments Incorporated.
* All rights reserved. Property of Texas Instruments Incorporated.
* Restricted rights to use, duplicate or disclose this code are
* granted through contract.
*
*/
/*
* ======== main.c ========
*
* This example demonstrates the use of IOM drivers with SIOs and tasks by
* using the DIO class driver with a user defined device mini-driver
* called "codec" and a class driver DIO instance called "dio_codec". This is
* the loopback application where audio is read from an input SIO, then sent
* back via an output SIO.
* The following objects need to be created in the DSP/BIOS
* configuration for this application:
*
* * A UDEV object, which links in a user device driver. In this
* case the UDEV is a codec based IOM device driver.
* * A DIO object, which links the UDEV object.
* * A TSK object, with the function to run set to the function demo
* defined in this file.
* * A LOG named trace for debug and status output.
*/
#include <std.h>
#include <log.h>
#include <sys.h>
#include <mem.h>
#include <sio.h>
#include <csl.h>
#include <csl_cache.h>
#include "seeddm642.h"
#include <evmdm642_edma_aic23.h>
#define NUM_CODEC_CHANNELS 8 /* stereo: left + right */
#define SAMPLEING_RATE 48 /* 48 samples/ms */
#define FRAME_SIZE 10 /* 10 ms */
#define NFRAMES 100 /* 100 frames = 1 second */
#define BUFLEN (NUM_CODEC_CHANNELS*SAMPLEING_RATE*FRAME_SIZE)
#ifdef _6x_
extern far LOG_Obj trace;
/*
* Buffers placed in external memory are aligned on a 128 bytes boundary.
* In addition, the buffer should be of a size multiple of 128 bytes for
* the cache work optimally on the C6x.
*/
#define BUFALIGN 128 /* alignment of buffer to allow use of L2 cache */
#else
extern LOG_Obj trace;
#define BUFALIGN 1
#endif
#define BUFSIZE (BUFLEN * sizeof(short))
/*
* ======== EVMDM642_DEVPARAMS ========
* This static initialization defines the default parameters used for
* EVMDM642_EDMA_AIC23 IOM driver
*/
EVMDM642_EDMA_AIC23_DevParams EVMDM642_CODEC_DEVPARAMS =
EVMDM642_EDMA_AIC23_DEFAULT_DEVPARAMS;
/* inStream and outStream are SIO handles created in main */
SIO_Handle inStream, outStream;
/* Function prototype */
static Void createStreams();
static Void prime();
/*
* ======== main ========
*/
Void main()
{
LOG_printf(&trace, "echo started");
}
short *pEchoBuf;
const int echoBufSize = NFRAMES * BUFLEN;
int echoBufOffset = 0;
int delayTime = 500;
int echoAtt = 64;
/*
* ======== initEchoBuffer ========
* Allocate echo buffer and fill with silence
*/
int initEchoBuffer()
{
pEchoBuf = MEM_calloc(0, echoBufSize * sizeof(short), BUFALIGN);
return (pEchoBuf == MEM_ILLEGAL) ? -1 : 0;
}
/*
* ======== copyWithEcho ========
* Copy an incoming buffer with stereo audio samples into an outgoing
* buffer, mixing with samples from the echo buffer indexed by
* the parameter timeDelay. The parameter "a" indicates the mix
* attenuation * 256 (i.e. 64 = 0.25).
*/
void copyWithEcho(short *inBuf, short *outBuf, int timeDelay, int a)
{
int i;
int srcSample;
for(i = 0;i<BUFLEN;i++)
{
srcSample = (int) *inBuf++;
*outBuf++ = srcSample;
}
}
/*
* ======== createStreams ========
*/
static Void createStreams()
{
SIO_Attrs attrs;
/* align the buffer to allow it to be used with L2 cache */
attrs = SIO_ATTRS;
attrs.align = BUFALIGN;
attrs.model = SIO_ISSUERECLAIM;
/* open the I/O streams */
inStream = SIO_create("/dio_codec", SIO_INPUT, BUFSIZE, &attrs);
if (inStream == NULL) {
SYS_abort("Create input stream FAILED.");
}
outStream = SIO_create("/dio_codec", SIO_OUTPUT, BUFSIZE, &attrs);
if (outStream == NULL) {
SYS_abort("Create output stream FAILED.");
}
}
/*
* ======== prime ========
*/
static Void prime()
{
Ptr buf0, buf1, buf2, buf3;
LOG_printf(&trace, "Allocate buffers started");
/* Allocate buffers for the SIO buffer exchanges */
buf0 = (Ptr)MEM_calloc(0, BUFSIZE, BUFALIGN);
buf1 = (Ptr)MEM_calloc(0, BUFSIZE, BUFALIGN);
buf2 = (Ptr)MEM_calloc(0, BUFSIZE, BUFALIGN);
buf3 = (Ptr)MEM_calloc(0, BUFSIZE, BUFALIGN);
if (buf0 == NULL || buf1 == NULL || buf2 == NULL || buf3 == NULL) {
SYS_abort("MEM_calloc failed.");
}
/* Issue the first & second empty buffers to the input stream */
if (SIO_issue(inStream, buf0, SIO_bufsize(inStream), NULL) != SYS_OK) {
SYS_abort("Error issuing buffer to the input stream");
}
if (SIO_issue(inStream, buf1, SIO_bufsize(inStream), NULL) != SYS_OK) {
SYS_abort("Error issuing buffer to the input stream");
}
/* Issue the first & second empty buffers to the output stream */
if (SIO_issue(outStream, buf2, SIO_bufsize(outStream), NULL) != SYS_OK) {
SYS_abort("Error issuing buffer to the output stream");
}
if (SIO_issue(outStream, buf3, SIO_bufsize(outStream), NULL) != SYS_OK) {
SYS_abort("Error issuing buffer to the output stream");
}
}
/*
* ======== tskAudioDemo ========
* This function copies from the input SIO to the output SIO. You could
* easily replace the copy function with a signal processing algorithm.
*/
Void tskAudioDemo()
{
Int nmadus; /* number of minimal addressable units */
short *inbuf, *outbuf;
/* Call createStream function to create I/O streams */
createStreams();
/* Call prime function to do priming */
prime();
initEchoBuffer();
/* Loop forever looping back buffers */
for (;;) {
/* Reclaim full buffer from the input stream */
if ((nmadus = SIO_reclaim(inStream, (Ptr *)&inbuf, NULL)) < 0) {
SYS_abort("Error reclaiming full buffer from the input stream");
}
/* Reclaim empty buffer from the output stream to be reused */
if (SIO_reclaim(outStream, (Ptr *)&outbuf, NULL) < 0) {
SYS_abort("Error reclaiming empty buffer from the output stream");
}
/* process echo algorithm */
copyWithEcho(inbuf, outbuf, delayTime, echoAtt);
// EVMDM642_LED_toggle(0);
/* Issue full buffer to the output stream */
if (SIO_issue(outStream, outbuf, nmadus, NULL) != SYS_OK) {
SYS_abort("Error issuing full buffer to the output stream");
}
/* Issue an empty buffer to the input stream */
if (SIO_issue(inStream, inbuf, SIO_bufsize(inStream), NULL) != SYS_OK) {
SYS_abort("Error issuing empty buffer to the input stream");
}
}
}
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