Reading Analog Ports and Saving in a micro SD CARD with the KL25z
Dependencies: SDFileSystem mbed
Fork of SDFileSystem_HelloWorld by
main.cpp
- Committer:
- neilt6
- Date:
- 2015-12-08
- Revision:
- 19:ae979143c796
- Parent:
- 17:e5b7469082c8
- Child:
- 20:ec1c4f02d50e
File content as of revision 19:ae979143c796:
#include "mbed.h" #include "SDFileSystem.h" Timer timer; DigitalIn button(p21, PullUp); SDFileSystem sd(p5, p6, p7, p20, "sd", p22, SDFileSystem::SWITCH_NEG_NO, 25000000); char buffer[4096]; void writeTest() { //Test write performance by creating a 1MB file printf("Testing %iB write performance...", sizeof(buffer)); FileHandle* file = sd.open("Test File.bin", O_WRONLY | O_CREAT | O_TRUNC); if (file != NULL) { timer.start(); for (int i = 0; i < (1048576 / sizeof(buffer)); i++) { if (file->write(buffer, sizeof(buffer)) != sizeof(buffer)) { timer.stop(); printf("write error!\n"); timer.reset(); return; } } timer.stop(); if (file->close()) printf("failed to close file!\n"); else printf("done!\n\tResult: %.2fKB/s\n", 1024 / (timer.read_us() / 1000000.0)); timer.reset(); } else { printf("failed to create file!\n"); } } void readTest() { //Test read performance by reading the 1MB file created by writeTest() printf("Testing %iB read performance...", sizeof(buffer)); FileHandle* file = sd.open("Test File.bin", O_RDONLY); if (file != NULL) { timer.start(); int iterations = 0; while (file->read(buffer, sizeof(buffer)) == sizeof(buffer)) iterations++; timer.stop(); if (iterations != (1048576 / sizeof(buffer))) printf("read error!\n"); else if (file->close()) printf("failed to close file!\n"); else if (sd.remove("Test File.bin")) printf("failed to delete file!\n"); else printf("done!\n\tResult: %.2fKB/s\n", 1024 / (timer.read_us() / 1000000.0)); timer.reset(); } else { printf("failed to open file!\n"); } } int main() { //Configure CRC, large frames, and write validation sd.crc(true); sd.large_frames(true); sd.write_validation(true); //Fill the buffer with random data for the write test srand(time(NULL)); for (int i = 0; i < sizeof(buffer); i++) buffer[i] = rand(); while(1) { //Simple button debouncing wait(0.5); //Print the start message printf("\nPress the button to perform tests: "); //Wait for the button to be pressed while(button); //Make sure a card is present if (!sd.card_present()) { printf("\nNo card present!\n"); continue; } //Try to mount the SD card printf("\nMounting SD card..."); if (sd.mount() != 0) { printf("failed!\n"); continue; } printf("success!\n"); //Display the card type printf("\tCard type: "); SDFileSystem::CardType cardType = sd.card_type(); if (cardType == SDFileSystem::CARD_NONE) printf("None\n"); else if (cardType == SDFileSystem::CARD_MMC) printf("MMC\n"); else if (cardType == SDFileSystem::CARD_SD) printf("SD\n"); else if (cardType == SDFileSystem::CARD_SDHC) printf("SDHC\n"); else printf("Unknown\n"); //Display the card capacity printf("\tSectors: %llu\n", sd.disk_sectors()); printf("\tCapacity: %.1fMB\n", sd.disk_sectors() / 2048.0); /*//Format the card printf("Formatting SD card..."); if (sd.format() != 0) { printf("failed!\n"); continue; } printf("success!\n");*/ //Perform a read/write test writeTest(); readTest(); //Unmount the SD card sd.unmount(); } }