/* * Example use of chdir(), ls(), mkdir(), and rmdir(). */ #include "SdFat.h" #include "sdios.h" // SD_FAT_TYPE = 0 for SdFat/File as defined in SdFatConfig.h, // 1 for FAT16/FAT32, 2 for exFAT, 3 for FAT16/FAT32 and exFAT. #define SD_FAT_TYPE 0 /* Change the value of SD_CS_PIN if you are using SPI and your hardware does not use the default value, SS. Common values are: Arduino Ethernet shield: pin 4 Sparkfun SD shield: pin 8 Adafruit SD shields and modules: pin 10 */ // SDCARD_SS_PIN is defined for the built-in SD on some boards. #ifndef SDCARD_SS_PIN const uint8_t SD_CS_PIN = SS; #else // SDCARD_SS_PIN // Assume built-in SD is used. const uint8_t SD_CS_PIN = SDCARD_SS_PIN; #endif // SDCARD_SS_PIN // Try max SPI clock for an SD. Reduce SPI_CLOCK if errors occur. #define SPI_CLOCK SD_SCK_MHZ(50) // Try to select the best SD card configuration. #if HAS_SDIO_CLASS #define SD_CONFIG SdioConfig(FIFO_SDIO) #elif ENABLE_DEDICATED_SPI #define SD_CONFIG SdSpiConfig(SD_CS_PIN, DEDICATED_SPI, SPI_CLOCK) #else // HAS_SDIO_CLASS #define SD_CONFIG SdSpiConfig(SD_CS_PIN, SHARED_SPI, SPI_CLOCK) #endif // HAS_SDIO_CLASS //------------------------------------------------------------------------------ #if SD_FAT_TYPE == 0 SdFat sd; File file; File root; #elif SD_FAT_TYPE == 1 SdFat32 sd; File32 file; File32 root; #elif SD_FAT_TYPE == 2 SdExFat sd; ExFile file; ExFile root; #elif SD_FAT_TYPE == 3 SdFs sd; FsFile file; FsFile root; #endif // SD_FAT_TYPE // Create a Serial output stream. ArduinoOutStream cout(Serial); //------------------------------------------------------------------------------ // Store error strings in flash to save RAM. #define error(s) sd.errorHalt(&Serial, F(s)) //------------------------------------------------------------------------------ void setup() { Serial.begin(9600); // Wait for USB Serial while (!Serial) { yield(); } delay(1000); cout << F("Type any character to start\n"); while (!Serial.available()) { yield(); } // Initialize the SD card. if (!sd.begin(SD_CONFIG)) { sd.initErrorHalt(&Serial); } if (sd.exists("Folder1") || sd.exists("Folder1/file1.txt") || sd.exists("Folder1/File2.txt")) { error("Please remove existing Folder1, file1.txt, and File2.txt"); } int rootFileCount = 0; if (!root.open("/")) { error("open root"); } while (file.openNext(&root, O_RDONLY)) { if (!file.isHidden()) { rootFileCount++; } file.close(); if (rootFileCount > 10) { error("Too many files in root. Please use an empty SD."); } } if (rootFileCount) { cout << F("\nPlease use an empty SD for best results.\n\n"); delay(1000); } // Create a new folder. if (!sd.mkdir("Folder1")) { error("Create Folder1 failed"); } cout << F("Created Folder1\n"); // Create a file in Folder1 using a path. if (!file.open("Folder1/file1.txt", O_WRONLY | O_CREAT)) { error("create Folder1/file1.txt failed"); } file.close(); cout << F("Created Folder1/file1.txt\n"); // Change volume working directory to Folder1. if (!sd.chdir("Folder1")) { error("chdir failed for Folder1.\n"); } cout << F("chdir to Folder1\n"); // Create File2.txt in current directory. if (!file.open("File2.txt", O_WRONLY | O_CREAT)) { error("create File2.txt failed"); } file.close(); cout << F("Created File2.txt in current directory\n"); cout << F("\nList of files on the SD.\n"); sd.ls("/", LS_R); // Remove files from current directory. if (!sd.remove("file1.txt") || !sd.remove("File2.txt")) { error("remove failed"); } cout << F("\nfile1.txt and File2.txt removed.\n"); // Change current directory to root. if (!sd.chdir()) { error("chdir to root failed.\n"); } cout << F("\nList of files on the SD.\n"); sd.ls(LS_R); // Remove Folder1. if (!sd.rmdir("Folder1")) { error("rmdir for Folder1 failed\n"); } cout << F("\nFolder1 removed.\n"); cout << F("\nList of files on the SD.\n"); sd.ls(LS_R); cout << F("Done!\n"); } //------------------------------------------------------------------------------ // Nothing happens in loop. void loop() {}