Spresense Reference Board v2.0.1(Spresense Arduino Library v2.0.1)のスケッチ例Signal Processing/LowPassSoundを実行し、シリアルモニタを開くと以下のようなログが表示され、スピーカーからノイズが再生されました。正常に動作されるためにはどのような処理が必要なのでしょうか?つい先日触り始めた機器のため右も左も分からず、困り果てています…もう一つの開発環境であるIDEバージョンで解決な場合は、ご案内をいただけると助かります。
以下の調査を通してメモリ不足を疑っておりますが、対処の方法が思いつきません。
よろしくお願いいたします。
環境
windows10 Pro
Arduino IDE 1.8.13
Spresense Reference Board v2.0.1
ボード設定
1.サンプルコードをそのまま実行した場合
公式ドキュメントを参考にDSPライブラリをSDカードにインストールした後、サンプルコードを実行した。
以下のログが表示された。Insufficient buffer areaとあるので、メモリ不足を疑い、2を実行した。
initialization MediaRecorder, MediaPlayer and OutputMixer
recorder init
player init
recorder start
player start
WARNING: Insufficient buffer area.
Error! 8 ,d04d8b0 , 1536
WARNING: Insufficient buffer area.
.
.
.同様の表示
.
Error! 8 ,d04d8b0 , 1536
WARNING: Insufficient buffer area.
2.サンプリングレートを落とした場合
再生/録音のサンプリングレートを48kHz->16kHzにし、さらにメモリの使用容量を調べるコードをmaincore,subcore1に挿入し実行した。しかしスピーカーから音すら出なかった。
subcore1とmaincoreが起動した時点でFree: 128 [KB]となり、ヒープ領域がほとんど存在していない上に、
mptask_exec() failure. -12
Attention: module[11][0] attention id[2]/code[18] (components/decoder/decoder_component.cpp L593)
とあり、おそらくDSPモジュールを読み込めなかったことが想定できる。とにかくメモリ不足が原因に見えたが、対処の方法が思いつかなかった。
以下はコードとログである。
ログ
[Sub1] Used:1024 [KB] / Free: 512 [KB] (Largest: 512 [KB])
nitialization MediaRecorder, MediaPlayer and OutputMixer
recorder init
player init
mptask_exec() failure. -12
Attention: module[11][0] attention id[2]/code[18] (components/decoder/decoder_component.cpp L593)
[Main] Used:1408 [KB] / Free: 128 [KB] (Largest: 128 [KB])
recorder start
Attention: module[4][0] attention id[1]/code[6] (objects/media_recorder/audio_recorder_sink.cpp L84)
error! -116Attention!! Level 0x1 Code 0x6
maincore.ino
#include <MP.h>
#include <MediaRecorder.h>
#include <MediaPlayer.h>
#include <OutputMixer.h>
#include <MemoryUtil.h>
MediaRecorder *theRecorder;
MediaPlayer *thePlayer;
OutputMixer *theMixer;
/* Now suppot only mono channel*/
/* Select mic channel number */
const int mic_channel_num = 1;
//const int mic_channel_num = 2;
const int32_t s_buffer_size = 768 * mic_channel_num * sizeof(uint16_t);
uint8_t s_buffer[s_buffer_size];
bool ErrEnd = false;
const int subcore = 1;
struct Request {
void *buffer;
int sample;
};
struct Result {
void *buffer;
int sample;
};
/**
@brief Audio attention callback
When audio internal error occurc, this function will be called back.
*/
static void attention_callback(const ErrorAttentionParam *atprm)
{
puts("Attention!");
if (atprm->error_code >= AS_ATTENTION_CODE_WARNING)
{
ErrEnd = true;
}
}
/**
@brief Recorder done callback procedure
@param [in] event AsRecorderEvent type indicator
@param [in] result Result
@param [in] sub_result Sub result
@return true on success, false otherwise
*/
static bool mediarecorder_event_callback(AsRecorderEvent event, uint32_t result, uint32_t sub_result)
{
return true;
}
/**
@brief Mixer done callback procedure
@param [in] requester_dtq MsgQueId type
@param [in] reply_of MsgType type
@param [in,out] done_param AsOutputMixDoneParam type pointer
*/
static void outputmixer_event_callback(MsgQueId requester_dtq,
MsgType reply_of,
AsOutputMixDoneParam *done_param)
{
return;
}
/**
@brief Mixer data send callback procedure
@param [in] identifier Device identifier
@param [in] is_end For normal request give false, for stop request give true
*/
static void outmixer_rendering_callback(int32_t identifier, bool is_end)
{
AsRequestNextParam next;
next.type = (!is_end) ? AsNextNormalRequest : AsNextStopResRequest;
AS_RequestNextPlayerProcess(AS_PLAYER_ID_0, &next);
return;
}
/**
@brief Player done callback procedure
@param [in] event AsPlayerEvent type indicator
@param [in] result Result
@param [in] sub_result Sub result
@return true on success, false otherwise
*/
static bool mediaplayer_event_callback(AsPlayerEvent event, uint32_t result, uint32_t sub_result)
{
/* If result of "Play", restart recording (It should been stopped when "Play" requested) */
return true;
}
/**
@brief Player decode callback procedure
@param [in] pcm_param AsPcmDataParam type
*/
void mediaplayer_decode_callback(AsPcmDataParam pcm_param)
{
/* You can imprement any audio signal process */
/* Output and sound audio data */
theMixer->sendData(OutputMixer0,
outmixer_rendering_callback,
pcm_param);
}
void setup()
{
/* Launch SubCore */
int ret = MP.begin(subcore);
if (ret < 0) {
printf("MP.begin error = %d\n", ret);
}
/* receive with non-blocking */
MP.RecvTimeout(20);
/* Initialize memory pools and message libs */
Serial.println("Init memory Library");
initMemoryPools();
createStaticPools(MEM_LAYOUT_RECORDINGPLAYER);
/* start audio system */
Serial.println("Init Audio Library");
theRecorder = MediaRecorder::getInstance();
thePlayer = MediaPlayer::getInstance();
theMixer = OutputMixer::getInstance();
theRecorder->begin();
thePlayer->begin();
puts("initialization MediaRecorder, MediaPlayer and OutputMixer");
theMixer->activateBaseband();
/* Create Objects */
thePlayer->create(MediaPlayer::Player0, attention_callback);
theMixer->create(attention_callback);
/* Activate Objects. Set output device to Speakers/Headphones */
theRecorder->activate(AS_SETRECDR_STS_INPUTDEVICE_MIC, mediarecorder_event_callback);
thePlayer->activate(MediaPlayer::Player0, AS_SETPLAYER_OUTPUTDEVICE_SPHP, mediaplayer_event_callback);
theMixer->activate(OutputMixer0, outputmixer_event_callback);
usleep(100 * 1000);
/*
Initialize recorder to decode stereo wav stream with 48kHz sample rate
Search for SRC filter in "/mnt/sd0/BIN" directory
*/
uint8_t channel;
switch (mic_channel_num) {
case 1: channel = AS_CHANNEL_MONO; break;
case 2: channel = AS_CHANNEL_STEREO; break;
case 4: channel = AS_CHANNEL_4CH; break;
}
//const auto codec_path = "/mnt/spif/BIN";
theRecorder->init(AS_CODECTYPE_LPCM, channel, AS_SAMPLINGRATE_16000, AS_BITLENGTH_16, 0);//サンプリングレートを変更したらどうにかなる?
theRecorder->setMicGain(180);
puts("recorder init");
thePlayer->init(MediaPlayer::Player0, AS_CODECTYPE_WAV,AS_SAMPLINGRATE_16000, channel);
puts("player init");
/* Start Recorder */
theMixer->setVolume(0, 0, 0);
#if 1
//memcheck
int usedMem, freeMem, largestFreeMem;
MP.GetMemoryInfo(usedMem, freeMem, largestFreeMem);
MPLog("Used:%4d [KB] / Free:%4d [KB] (Largest:%4d [KB])\n",
usedMem / 1024, freeMem / 1024, largestFreeMem / 1024);
#endif
}
typedef enum e_appState {
StateReady = 0,
StatePrepare,
StateRun
} appState_t;
void loop()
{
static appState_t state = StateReady;
int8_t sndid = 100; /* user-defined msgid */
int8_t rcvid = 0;
int read_size;
int ret;
static Request request;
static Result* result;
switch (state) {
case StateReady:
{
/* Start recording */
theRecorder->start();
puts("recorder start");
state = StatePrepare;
break;
}
case StatePrepare:
{
static int pre_cnt = 0;
err_t err = theRecorder->readFrames(s_buffer, s_buffer_size, &read_size);
if (err != 0) { printf("Error! %x ,%x , %d\n",err,request.buffer,request.sample); }
if (read_size > 0)
{
request.buffer = s_buffer;
request.sample = read_size/ sizeof(uint16_t) / mic_channel_num;
MP.Send(sndid, &request, subcore);
if (pre_cnt < 2) {
pre_cnt++;
break;
}
/* Receive sound from SubCore */
int ret = MP.Recv(&rcvid, &result, subcore);
if (ret >= 0) {
if (result->sample != 768) { break;}
thePlayer->writeFrames(MediaPlayer::Player0, result->buffer, result->sample*2);
pre_cnt++;
} else {
printf("error! %d", ret);
exit(1);
}
} else {
break;
}
if (pre_cnt > 10) {
puts("player start");
thePlayer->start(MediaPlayer::Player0, mediaplayer_decode_callback);
pre_cnt = 0;
state = StateRun;
}
break;
}
case StateRun:
{
err_t err = theRecorder->readFrames(s_buffer, s_buffer_size, &read_size);
if (err != 0) {printf("Error! %x ,%x , %d\n",err,request.buffer,read_size);}
if (read_size > 0)
{
request.buffer = s_buffer;
request.sample = read_size / sizeof(uint16_t) / mic_channel_num;
MP.Send(sndid, &request, subcore);
/* Receive sound from SubCore */
ret = MP.Recv(&rcvid, &result, subcore);
if (ret >= 0) {
if (result->sample != 768) {break;}
thePlayer->writeFrames(MediaPlayer::Player0,result->buffer, result->sample*2);
} else {
printf("error! %d", ret);
exit(1);
}
} else {
break;
}
break;
}
default:
{
puts("error!");
exit(1);
}
}
}
subcore.ino
#include <MP.h>
#include "IIR.h"
/* Use CMSIS library */
#define ARM_MATH_CM4
#define __FPU_PRESENT 1U
#include <cmsis/arm_math.h>
/* channel number */
const int g_channel = 1;
IIRClass LPF;
/* Allocate the larger heap size than default */
USER_HEAP_SIZE(64 * 1024);
/* MultiCore definitions */
struct Request {
void *buffer;
int sample;
};
struct Result {
void *buffer;
int sample;
};
void setup()
{
int ret = 0;
/* Initialize MP library */
ret = MP.begin();
if (ret < 0) {
errorLoop(2);
}
/* receive with non-blocking */
// MP.RecvTimeout(MP_RECV_POLLING);
MP.RecvTimeout(100000);
LPF.begin(TYPE_LPF,g_channel,1000,sqrt(0.5));
#if 1
//memcheck
int usedMem, freeMem, largestFreeMem;
MP.GetMemoryInfo(usedMem, freeMem, largestFreeMem);
MPLog("Used:%4d [KB] / Free:%4d [KB] (Largest:%4d [KB])\n",
usedMem / 1024, freeMem / 1024, largestFreeMem / 1024);
#endif
}
#define RESULT_SIZE 4
void loop()
{
int ret;
int8_t sndid = 10; /* user-defined msgid */
int8_t rcvid;
Request *request;
static Result result[RESULT_SIZE];
static q15_t pDst[FRAMSIZE];
static q15_t out_buffer[RESULT_SIZE][FRAMSIZE*g_channel];
static int pos=0;
/* Receive PCM captured buffer from MainCore */
ret = MP.Recv(&rcvid, &request);
if (ret >= 0) {
LPF.put((q15_t*)request->buffer,request->sample);
}else{
puts("error!");
return;
}
int cnt = 0;
while (!LPF.empty(0)) {
for (int i = 0; i < g_channel; i++) {
cnt = LPF.get(pDst,i);
/* support only mono channel */
memcpy(&out_buffer[pos][0],pDst,cnt*2);
}
result[pos].buffer = MP.Virt2Phys(&out_buffer[pos][0]);
result[pos].sample = cnt;
ret = MP.Send(sndid, &result[pos],0);
pos = (pos+1)%RESULT_SIZE;
if (ret < 0) {
errorLoop(1);
}
}
}
void errorLoop(int num)
{
int i;
while (1) {
for (i = 0; i < num; i++) {
ledOn(LED0);
delay(300);
ledOff(LED0);
delay(300);
}
delay(1000);
}
}
