// SD Card Test
//
// Check if the SD card on the Audio Shield is working,
// and perform some simple speed measurements to gauge
// its ability to play 1, 2, 3 and 4 WAV files at a time.
//
// Requires the audio shield:
// http://www.pjrc.com/store/teensy3_audio.html
//
// Data files to put on your SD card can be downloaded here:
// http://www.pjrc.com/teensy/td_libs_AudioDataFiles.html
//
// This example code is in the public domain.
#include <SD.h>
#include <SPI.h>
void setup() {
Sd2Card card;
SdVolume volume;
File f1, f2, f3, f4;
char buffer[512];
boolean status;
unsigned long usec, usecMax;
elapsedMicros usecTotal, usecSingle;
int i, type;
float size;
// wait for the Arduino Serial Monitor to open
while (!Serial) ;
delay(50);
// Configure SPI for the audio shield pins
SPI.setMOSI(7); // Audio shield has MOSI on pin 7
SPI.setSCK(14); // Audio shield has SCK on pin 14
Serial.begin(9600);
Serial.println("SD Card Test");
Serial.println("------------");
// First, detect the card
status = card.init(10); // Audio shield has SD card SD on pin 10
if (status) {
Serial.println("SD card is connected :-)");
} else {
Serial.println("SD card is not connected or unusable :-(");
return;
}
type = card.type();
if (type == SD_CARD_TYPE_SD1 || type == SD_CARD_TYPE_SD2) {
Serial.println("Card type is SD");
} else if (type == SD_CARD_TYPE_SDHC) {
Serial.println("Card type is SDHC");
} else {
Serial.println("Card is an unknown type (maybe SDXC?)");
}
// Then look at the file system and print its capacity
status = volume.init(card);
if (!status) {
Serial.println("Unable to access the filesystem on this card. :-(");
return;
}
size = volume.blocksPerCluster() * volume.clusterCount();
size = size * (512.0 / 1e6); // convert blocks to millions of bytes
Serial.print("File system space is ");
Serial.print(size);
Serial.println(" Mbytes.");
// Now open the SD card normally
status = SD.begin(10); // Audio shield has SD card CS on pin 10
if (status) {
Serial.println("SD library is able to access the filesystem");
} else {
Serial.println("SD library can not access the filesystem!");
Serial.println("Please report this problem, with the make & model of your SD card.");
Serial.println(" http://forum.pjrc.com/forums/4-Suggestions-amp-Bug-Reports");
}
// Open the 4 sample files. Hopefully they're on the card
f1 = SD.open("SDTEST1.WAV");
f2 = SD.open("SDTEST2.WAV");
f3 = SD.open("SDTEST3.WAV");
f4 = SD.open("SDTEST4.WAV");
// Speed test reading a single file
if (f1) {
Serial.println();
Serial.println("Reading SDTEST1.WAV:");
if (f1.size() >= 514048) {
usecMax = 0;
usecTotal = 0;
for (i=0; i < 1000; i++) {
usecSingle = 0;
f1.read(buffer, 512);
usec = usecSingle;
if (usec > usecMax) usecMax = usec;
}
reportSpeed(1, 1000, usecTotal, usecMax);
} else {
Serial.println("SDTEST1.WAV is too small for speed testing");
}
} else {
Serial.println("Unable to find SDTEST1.WAV on this card");
return;
}
// Speed test reading two files
if (f2) {
Serial.println();
Serial.println("Reading SDTEST1.WAV & SDTEST2.WAV:");
if (f2.size() >= 514048) {
f1.seek(0);
usecMax = 0;
usecTotal = 0;
for (i=0; i < 1000; i++) {
usecSingle = 0;
f1.read(buffer, 512);
f2.read(buffer, 512);
usec = usecSingle;
if (usec > usecMax) usecMax = usec;
}
reportSpeed(2, 1000, usecTotal, usecMax);
Serial.println();
Serial.println("Reading SDTEST1.WAV & SDTEST2.WAV staggered:");
f1.seek(0);
f2.seek(0);
f1.read(buffer, 512);
usecMax = 0;
usecTotal = 0;
for (i=0; i < 1000; i++) {
usecSingle = 0;
f1.read(buffer, 512);
f2.read(buffer, 512);
usec = usecSingle;
if (usec > usecMax) usecMax = usec;
}
reportSpeed(2, 1000, usecTotal, usecMax);
} else {
Serial.println("SDTEST2.WAV is too small for speed testing");
}
} else {
Serial.println("Unable to find SDTEST2.WAV on this card");
return;
}
// Speed test reading three files
if (f3) {
Serial.println();
Serial.println("Reading SDTEST1.WAV, SDTEST2.WAV, SDTEST3.WAV:");
if (f3.size() >= 514048) {
f1.seek(0);
f2.seek(0);
usecMax = 0;
usecTotal = 0;
for (i=0; i < 1000; i++) {
usecSingle = 0;
f1.read(buffer, 512);
f2.read(buffer, 512);
f3.read(buffer, 512);
usec = usecSingle;
if (usec > usecMax) usecMax = usec;
}
reportSpeed(3, 1000, usecTotal, usecMax);
Serial.println();
Serial.println("Reading SDTEST1.WAV, SDTEST2.WAV, SDTEST3.WAV staggered:");
f1.seek(0);
f2.seek(0);
f3.seek(0);
f1.read(buffer, 512);
f1.read(buffer, 512);
f2.read(buffer, 512);
usecMax = 0;
usecTotal = 0;
for (i=0; i < 1000; i++) {
usecSingle = 0;
f1.read(buffer, 512);
f2.read(buffer, 512);
f3.read(buffer, 512);
usec = usecSingle;
if (usec > usecMax) usecMax = usec;
}
reportSpeed(3, 1000, usecTotal, usecMax);
} else {
Serial.println("SDTEST3.WAV is too small for speed testing");
}
} else {
Serial.println("Unable to find SDTEST3.WAV on this card");
return;
}
// Speed test reading four files
if (f4) {
Serial.println();
Serial.println("Reading SDTEST1.WAV, SDTEST2.WAV, SDTEST3.WAV, SDTEST4.WAV:");
if (f4.size() >= 514048) {
f1.seek(0);
f2.seek(0);
f3.seek(0);
usecMax = 0;
usecTotal = 0;
for (i=0; i < 1000; i++) {
usecSingle = 0;
f1.read(buffer, 512);
f2.read(buffer, 512);
f3.read(buffer, 512);
f4.read(buffer, 512);
usec = usecSingle;
if (usec > usecMax) usecMax = usec;
}
reportSpeed(4, 1000, usecTotal, usecMax);
Serial.println();
Serial.println("Reading SDTEST1.WAV, SDTEST2.WAV, SDTEST3.WAV, SDTEST4.WAV staggered:");
f1.seek(0);
f2.seek(0);
f3.seek(0);
f4.seek(0);
f1.read(buffer, 512);
f1.read(buffer, 512);
f1.read(buffer, 512);
f2.read(buffer, 512);
f2.read(buffer, 512);
f3.read(buffer, 512);
usecMax = 0;
usecTotal = 0;
for (i=0; i < 1000; i++) {
usecSingle = 0;
f1.read(buffer, 512);
f2.read(buffer, 512);
f3.read(buffer, 512);
f4.read(buffer, 512);
usec = usecSingle;
if (usec > usecMax) usecMax = usec;
}
reportSpeed(4, 1000, usecTotal, usecMax);
} else {
Serial.println("SDTEST4.WAV is too small for speed testing");
}
} else {
Serial.println("Unable to find SDTEST4.WAV on this card");
return;
}
}
unsigned long maximum(unsigned long a, unsigned long b,
unsigned long c, unsigned long d)
{
if (b > a) a = b;
if (c > a) a = c;
if (d > a) a = d;
return a;
}
void reportSpeed(unsigned int numFiles, unsigned long blockCount, unsigned long usecTotal, unsigned long usecMax)
{
float bytesPerSecond = (float)(blockCount * 512 * numFiles) / usecTotal;
Serial.print(" Overall speed = ");
Serial.print(bytesPerSecond);
Serial.println(" Mbyte/sec");
Serial.print(" Worst block time = ");
Serial.print((float)usecMax / 1000.0);
Serial.println(" ms");
Serial.print(" ");
Serial.print( (float)usecMax / 29.01333);
Serial.println("% of audio frame time");
}
void loop(void) {
// do nothing after the test
}