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262 lines
7.2 KiB
262 lines
7.2 KiB
5 years ago
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/*
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* This program is a simple binary write/read benchmark.
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*
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* If SD_FAT_TYPE == 2, exFAT, the file will be
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* pre-allocated for improved write latency.
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*/
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#include "SdFs.h"
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#include "FreeStack.h"
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// SD_FAT_TYPE = 1 for FAT16/FAT32, 2 for exFAT, 3 for FAT16/FAT32 and exFAT.
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#define SD_FAT_TYPE 1
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/*
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Change the value of SD_CS_PIN if you are using SPI and
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your hardware does not use the default value, SS.
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Common values are:
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Arduino Ethernet shield: pin 4
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Sparkfun SD shield: pin 8
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Adafruit SD shields and modules: pin 10
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*/
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// SDCARD_SS_PIN is defined for the built-in SD on some boards.
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#ifndef SDCARD_SS_PIN
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const uint8_t SD_CS_PIN = SS;
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#else // SDCARD_SS_PIN
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// Assume built-in SD is used.
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const uint8_t SD_CS_PIN = SDCARD_SS_PIN;
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#endif // SDCARD_SS_PIN
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// Try to select the best SD card configuration.
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#if HAS_SDIO_CLASS
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#define SD_CONFIG SdioConfig(FIFO_SDIO)
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#elif ENABLE_DEDICATED_SPI
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#define SD_CONFIG SdSpiConfig(SD_CS_PIN, DEDICATED_SPI)
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#else // HAS_SDIO_CLASS
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#define SD_CONFIG SdSpiConfig(SD_CS_PIN, SHARED_SPI)
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#endif // HAS_SDIO_CLASS
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// Set PRE_ALLOCATE true to pre-allocate file clusters.
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const bool PRE_ALLOCATE = true;
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// Set SKIP_FIRST_LATENCY true if the first read/write to the SD can
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// be avoid by writing a file header or reading the first record.
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const bool SKIP_FIRST_LATENCY = true;
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// Size of read/write.
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const size_t BUF_SIZE = 512;
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// File size in MB where MB = 1,000,000 bytes.
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const uint32_t FILE_SIZE_MB = 5;
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// Write pass count.
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const uint8_t WRITE_COUNT = 2;
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// Read pass count.
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const uint8_t READ_COUNT = 2;
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//==============================================================================
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// End of configuration constants.
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//------------------------------------------------------------------------------
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// File size in bytes.
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const uint32_t FILE_SIZE = 1000000UL*FILE_SIZE_MB;
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// Insure 4-byte alignment.
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uint32_t buf32[(BUF_SIZE + 3)/4];
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uint8_t* buf = (uint8_t*)buf32;
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#if SD_FAT_TYPE == 1
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SdFat sd;
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File file;
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#elif SD_FAT_TYPE == 2
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SdExFat sd;
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ExFile file;
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#elif SD_FAT_TYPE == 3
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SdFs sd;
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FsFile file;
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#else // SD_FAT_TYPE
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#error Invalid SD_FAT_TYPE
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#endif // SD_FAT_TYPE
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// Serial output stream
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ArduinoOutStream cout(Serial);
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//------------------------------------------------------------------------------
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// Store error strings in flash to save RAM.
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#define error(s) sd.errorHalt(&Serial, F(s))
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//------------------------------------------------------------------------------
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void cidDmp() {
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cid_t cid;
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if (!sd.card()->readCID(&cid)) {
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error("readCID failed");
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}
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cout << F("\nManufacturer ID: ");
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cout << hex << int(cid.mid) << dec << endl;
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cout << F("OEM ID: ") << cid.oid[0] << cid.oid[1] << endl;
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cout << F("Product: ");
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for (uint8_t i = 0; i < 5; i++) {
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cout << cid.pnm[i];
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}
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cout << F("\nVersion: ");
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cout << int(cid.prv_n) << '.' << int(cid.prv_m) << endl;
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cout << F("Serial number: ") << hex << cid.psn << dec << endl;
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cout << F("Manufacturing date: ");
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cout << int(cid.mdt_month) << '/';
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cout << (2000 + cid.mdt_year_low + 10 * cid.mdt_year_high) << endl;
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cout << endl;
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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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// Wait for USB Serial
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while (!Serial) {
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SysCall::yield();
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}
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delay(1000);
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cout << F("\nUse a freshly formatted SD for best performance.\n");
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if (!ENABLE_DEDICATED_SPI) {
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cout << F(
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"\nSet ENABLE_DEDICATED_SPI nonzero in\n"
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"SdFs/src/FsConfig.h for best SPI performance.\n");
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}
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// use uppercase in hex and use 0X base prefix
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cout << uppercase << showbase << endl;
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}
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//------------------------------------------------------------------------------
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void loop() {
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float s;
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uint32_t t;
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uint32_t maxLatency;
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uint32_t minLatency;
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uint32_t totalLatency;
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bool skipLatency;
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// Discard any input.
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do {
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delay(10);
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} while (Serial.available() && Serial.read() >= 0);
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// F() stores strings in flash to save RAM
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cout << F("Type any character to start\n");
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while (!Serial.available()) {
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SysCall::yield();
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}
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cout << F("FreeStack: ") << FreeStack() << endl;
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if (!sd.begin(SD_CONFIG)) {
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sd.initErrorHalt(&Serial);
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}
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if (sd.fatType() == FAT_TYPE_EXFAT) {
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cout << F("Type is exFAT") << endl;
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} else {
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cout << F("Type is FAT") << int(sd.fatType()) << endl;
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}
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cout << F("Card size: ") << sd.card()->sectorCount()*512E-9;
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cout << F(" GB (GB = 1E9 bytes)") << endl;
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cidDmp();
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// open or create file - truncate existing file.
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if (!file.open("bench.dat", O_CREAT | O_TRUNC | O_RDWR)) {
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error("open failed");
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}
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// fill buf with known data
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for (uint16_t i = 0; i < (BUF_SIZE-2); i++) {
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buf[i] = 'A' + (i % 26);
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}
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buf[BUF_SIZE-2] = '\r';
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buf[BUF_SIZE-1] = '\n';
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cout << F("FILE_SIZE_MB = ") << FILE_SIZE_MB << endl;
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cout << F("BUF_SIZE = ") << BUF_SIZE << F(" bytes\n");
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cout << F("Starting write test, please wait.") << endl << endl;
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// do write test
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uint32_t n = FILE_SIZE/BUF_SIZE;
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cout <<F("write speed and latency") << endl;
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cout << F("speed,max,min,avg") << endl;
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cout << F("KB/Sec,usec,usec,usec") << endl;
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for (uint8_t nTest = 0; nTest < WRITE_COUNT; nTest++) {
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file.truncate(0);
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if (PRE_ALLOCATE) {
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if (!file.preAllocate(FILE_SIZE)) {
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error("preAllocate failed");
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}
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}
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maxLatency = 0;
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minLatency = 9999999;
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totalLatency = 0;
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skipLatency = SKIP_FIRST_LATENCY;
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t = millis();
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for (uint32_t i = 0; i < n; i++) {
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uint32_t m = micros();
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if (file.write(buf, BUF_SIZE) != BUF_SIZE) {
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error("write failed");
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}
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m = micros() - m;
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totalLatency += m;
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if (skipLatency) {
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// Wait until first write to SD, not just a copy to the cache.
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skipLatency = file.curPosition() < 512;
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} else {
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if (maxLatency < m) {
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maxLatency = m;
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}
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if (minLatency > m) {
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minLatency = m;
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}
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}
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}
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file.sync();
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t = millis() - t;
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s = file.fileSize();
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cout << s/t <<',' << maxLatency << ',' << minLatency;
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cout << ',' << totalLatency/n << endl;
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}
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cout << endl << F("Starting read test, please wait.") << endl;
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cout << endl <<F("read speed and latency") << endl;
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cout << F("speed,max,min,avg") << endl;
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cout << F("KB/Sec,usec,usec,usec") << endl;
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// do read test
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for (uint8_t nTest = 0; nTest < READ_COUNT; nTest++) {
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file.rewind();
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maxLatency = 0;
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minLatency = 9999999;
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totalLatency = 0;
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skipLatency = SKIP_FIRST_LATENCY;
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t = millis();
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for (uint32_t i = 0; i < n; i++) {
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buf[BUF_SIZE-1] = 0;
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uint32_t m = micros();
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int32_t nr = file.read(buf, BUF_SIZE);
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if (nr != BUF_SIZE) {
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error("read failed");
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}
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m = micros() - m;
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totalLatency += m;
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if (buf[BUF_SIZE-1] != '\n') {
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error("data check error");
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}
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if (skipLatency) {
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skipLatency = false;
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} else {
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if (maxLatency < m) {
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maxLatency = m;
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}
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if (minLatency > m) {
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minLatency = m;
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}
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}
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}
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s = file.fileSize();
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t = millis() - t;
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cout << s/t <<',' << maxLatency << ',' << minLatency;
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cout << ',' << totalLatency/n << endl;
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}
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cout << endl << F("Done") << endl;
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file.close();
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}
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