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196 lines
5.0 KiB
196 lines
5.0 KiB
// Simple performance test for Teensy 3.5/3.6 SDHC.
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// Demonstrates yield() efficiency for SDIO modes.
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// Uses built-in SD for SPI modes.
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#include "SdFs.h"
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// FILE_SYSTEM = 1 for FAT16/FAT32
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// 2 for exFAT,
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// 3 for FAT16/FAT32 and exFAT.
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#define FILE_SYSTEM 3
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// 32 KiB buffer.
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const size_t BUF_DIM = 32768;
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// 8 MiB file.
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const uint32_t FILE_SIZE = 256UL*BUF_DIM;
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#if FILE_SYSTEM == 1
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SdFat sd;
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FatFile file;
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#elif FILE_SYSTEM == 2
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SdExFat sd;
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ExFatFile file;
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#elif FILE_SYSTEM == 3
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SdFs sd;
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FsFile file;
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#endif
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uint8_t buf[BUF_DIM];
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// buffer as uint32_t
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uint32_t* buf32 = (uint32_t*)buf;
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// Total usec in read/write calls.
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uint32_t totalMicros = 0;
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// Time in yield() function.
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uint32_t yieldMicros = 0;
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// Number of yield calls.
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uint32_t yieldCalls = 0;
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// Max busy time for single yield call.
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uint32_t yieldMaxUsec = 0;
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//-----------------------------------------------------------------------------
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void errorHalt(const char* msg) {
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Serial.print("Error: ");
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Serial.println(msg);
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if (sd.sdErrorCode()) {
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if (sd.sdErrorCode() == SD_CARD_ERROR_ACMD41) {
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Serial.println("Try power cycling the SD card.");
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}
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printSdErrorSymbol(&Serial, sd.sdErrorCode());
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Serial.print(", ErrorData: 0X");
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Serial.println(sd.sdErrorData(), HEX);
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}
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while (true) {}
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}
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bool ready = false;
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//-----------------------------------------------------------------------------
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bool sdBusy() {
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return ready ? sd.card()->isBusy() : false;
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}
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//------------------------------------------------------------------------------
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// Replace "weak" system yield() function.
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void yield() {
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// Only count cardBusy time.
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if (!sdBusy()) {
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return;
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}
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uint32_t m = micros();
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yieldCalls++;
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while (sdBusy()) {
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// Do something here.
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}
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m = micros() - m;
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if (m > yieldMaxUsec) {
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yieldMaxUsec = m;
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}
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yieldMicros += m;
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}
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//-----------------------------------------------------------------------------
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void runTest() {
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// Zero Stats
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totalMicros = 0;
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yieldMicros = 0;
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yieldCalls = 0;
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yieldMaxUsec = 0;
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if (!file.open("TeensyDemo.bin", O_RDWR | O_CREAT)) {
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errorHalt("open failed");
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}
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Serial.println("\nsize,write,read");
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Serial.println("bytes,KB/sec,KB/sec");
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for (size_t nb = 512; nb <= BUF_DIM; nb *= 2) {
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uint32_t nRdWr = FILE_SIZE/nb;
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if (!file.truncate(0)) {
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errorHalt("truncate failed");
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}
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Serial.print(nb);
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Serial.print(',');
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uint32_t t = micros();
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for (uint32_t n = 0; n < nRdWr; n++) {
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// Set start and end of buffer.
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buf32[0] = n;
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buf32[nb/4 - 1] = n;
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if (nb != file.write(buf, nb)) {
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errorHalt("write failed");
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}
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}
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t = micros() - t;
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totalMicros += t;
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Serial.print(1000.0*FILE_SIZE/t);
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Serial.print(',');
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file.rewind();
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t = micros();
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for (uint32_t n = 0; n < nRdWr; n++) {
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if ((int)nb != file.read(buf, nb)) {
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errorHalt("read failed");
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}
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// crude check of data.
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if (buf32[0] != n || buf32[nb/4 - 1] != n) {
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errorHalt("data check");
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}
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}
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t = micros() - t;
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totalMicros += t;
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Serial.println(1000.0*FILE_SIZE/t);
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}
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file.close();
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Serial.print("\ntotalMicros ");
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Serial.println(totalMicros);
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Serial.print("yieldMicros ");
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Serial.println(yieldMicros);
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Serial.print("yieldCalls ");
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Serial.println(yieldCalls);
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Serial.print("yieldMaxUsec ");
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Serial.println(yieldMaxUsec);
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// Serial.print("kHzSdClk ");
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// Serial.println(kHzSdClk());
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Serial.println("Done");
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}
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//-----------------------------------------------------------------------------
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void setup() {
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Serial.begin(9600);
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while (!Serial) {
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}
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}
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//-----------------------------------------------------------------------------
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void loop() {
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static bool warn = true;
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if (warn) {
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warn = false;
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Serial.println(
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"SD cards must be power cycled to leave\n"
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"SPI mode so do SDIO tests first.\n"
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"\nCycle power on the card if an error occurs.");
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}
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do {
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delay(10);
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} while (Serial.available() && Serial.read());
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Serial.println(
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"\nType '1' for FIFO SDIO"
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"\n '2' for DMA SDIO"
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"\n '3' for Dedicated SPI"
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"\n '4' for Shared SPI");
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while (!Serial.available()) {
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}
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char c = Serial.read();
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if (c =='1') {
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if (!sd.begin(SdioConfig(FIFO_SDIO))) {
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errorHalt("begin failed");
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}
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Serial.println("\nFIFO SDIO mode.");
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} else if (c == '2') {
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if (!sd.begin(SdioConfig(DMA_SDIO))) {
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errorHalt("begin failed");
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}
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Serial.println("\nDMA SDIO mode - slow for small transfers.");
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} else if (c == '3') {
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if (!sd.begin(SdSpiConfig(SDCARD_SS_PIN, DEDICATED_SPI, SD_SCK_MHZ(50)))) {
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errorHalt("begin failed");
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}
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Serial.println("\nDedicated SPI mode.");
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} else if (c == '4') {
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if (!sd.begin(SdSpiConfig(SDCARD_SS_PIN, SHARED_SPI, SD_SCK_MHZ(50)))) {
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errorHalt("begin failed");
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}
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Serial.println("\nShared SPI mode - slow for small transfers.");
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} else {
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Serial.println("Invalid input");
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return;
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}
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ready = true;
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runTest();
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ready = false;
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} |