670 lines
20 KiB
C++
670 lines
20 KiB
C++
/**
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* Marlin 3D Printer Firmware
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* Copyright (c) 2020 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
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*
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* Based on Sprinter and grbl.
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* Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <https://www.gnu.org/licenses/>.
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*
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*/
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/**
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* Arduino Sd2Card Library
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* Copyright (c) 2009 by William Greiman
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* Updated with backports of the latest SdFat library from the same author
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*
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* This file is part of the Arduino Sd2Card Library
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*/
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#include "../inc/MarlinConfig.h"
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#if ENABLED(SDSUPPORT) && NONE(USB_FLASH_DRIVE_SUPPORT, SDIO_SUPPORT)
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/* Enable FAST CRC computations - You can trade speed for FLASH space if
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* needed by disabling the following define */
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#define FAST_CRC 1
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#include "Sd2Card.h"
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#include "../MarlinCore.h"
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#if ENABLED(SD_CHECK_AND_RETRY)
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static bool crcSupported = true;
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#ifdef FAST_CRC
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static const uint8_t crctab7[] PROGMEM = {
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0x00,0x09,0x12,0x1B,0x24,0x2D,0x36,0x3F,0x48,0x41,0x5A,0x53,0x6C,0x65,0x7E,0x77,
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0x19,0x10,0x0B,0x02,0x3D,0x34,0x2F,0x26,0x51,0x58,0x43,0x4A,0x75,0x7C,0x67,0x6E,
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0x32,0x3B,0x20,0x29,0x16,0x1F,0x04,0x0D,0x7A,0x73,0x68,0x61,0x5E,0x57,0x4C,0x45,
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0x2B,0x22,0x39,0x30,0x0F,0x06,0x1D,0x14,0x63,0x6A,0x71,0x78,0x47,0x4E,0x55,0x5C,
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0x64,0x6D,0x76,0x7F,0x40,0x49,0x52,0x5B,0x2C,0x25,0x3E,0x37,0x08,0x01,0x1A,0x13,
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0x7D,0x74,0x6F,0x66,0x59,0x50,0x4B,0x42,0x35,0x3C,0x27,0x2E,0x11,0x18,0x03,0x0A,
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0x56,0x5F,0x44,0x4D,0x72,0x7B,0x60,0x69,0x1E,0x17,0x0C,0x05,0x3A,0x33,0x28,0x21,
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0x4F,0x46,0x5D,0x54,0x6B,0x62,0x79,0x70,0x07,0x0E,0x15,0x1C,0x23,0x2A,0x31,0x38,
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0x41,0x48,0x53,0x5A,0x65,0x6C,0x77,0x7E,0x09,0x00,0x1B,0x12,0x2D,0x24,0x3F,0x36,
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0x58,0x51,0x4A,0x43,0x7C,0x75,0x6E,0x67,0x10,0x19,0x02,0x0B,0x34,0x3D,0x26,0x2F,
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0x73,0x7A,0x61,0x68,0x57,0x5E,0x45,0x4C,0x3B,0x32,0x29,0x20,0x1F,0x16,0x0D,0x04,
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0x6A,0x63,0x78,0x71,0x4E,0x47,0x5C,0x55,0x22,0x2B,0x30,0x39,0x06,0x0F,0x14,0x1D,
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0x25,0x2C,0x37,0x3E,0x01,0x08,0x13,0x1A,0x6D,0x64,0x7F,0x76,0x49,0x40,0x5B,0x52,
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0x3C,0x35,0x2E,0x27,0x18,0x11,0x0A,0x03,0x74,0x7D,0x66,0x6F,0x50,0x59,0x42,0x4B,
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0x17,0x1E,0x05,0x0C,0x33,0x3A,0x21,0x28,0x5F,0x56,0x4D,0x44,0x7B,0x72,0x69,0x60,
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0x0E,0x07,0x1C,0x15,0x2A,0x23,0x38,0x31,0x46,0x4F,0x54,0x5D,0x62,0x6B,0x70,0x79
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};
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static uint8_t CRC7(const uint8_t *data, uint8_t n) {
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uint8_t crc = 0;
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while (n > 0) {
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crc = pgm_read_byte(&crctab7[ (crc << 1) ^ *data++ ]);
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n--;
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}
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return (crc << 1) | 1;
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}
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#else
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static uint8_t CRC7(const uint8_t *data, uint8_t n) {
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uint8_t crc = 0;
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LOOP_L_N(i, n) {
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uint8_t d = data[i];
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d ^= crc << 1;
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if (d & 0x80) d ^= 9;
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crc = d ^ (crc & 0x78) ^ (crc << 4) ^ ((crc >> 3) & 15);
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crc &= 0x7F;
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}
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crc = (crc << 1) ^ (crc << 4) ^ (crc & 0x70) ^ ((crc >> 3) & 0x0F);
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return crc | 1;
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}
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#endif
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#endif
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// Send command and return error code. Return zero for OK
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uint8_t Sd2Card::cardCommand(const uint8_t cmd, const uint32_t arg) {
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// Select card
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chipSelect();
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// Wait up to 300 ms if busy
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waitNotBusy(SD_WRITE_TIMEOUT);
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uint8_t *pa = (uint8_t *)(&arg);
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#if ENABLED(SD_CHECK_AND_RETRY)
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// Form message
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uint8_t d[6] = {(uint8_t) (cmd | 0x40), pa[3], pa[2], pa[1], pa[0] };
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// Add crc
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d[5] = CRC7(d, 5);
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// Send message
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LOOP_L_N(k, 6) spiSend(d[k]);
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#else
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// Send command
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spiSend(cmd | 0x40);
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// Send argument
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for (int8_t i = 3; i >= 0; i--) spiSend(pa[i]);
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// Send CRC - correct for CMD0 with arg zero or CMD8 with arg 0X1AA
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spiSend(cmd == CMD0 ? 0X95 : 0X87);
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#endif
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// Skip stuff byte for stop read
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if (cmd == CMD12) spiRec();
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// Wait for response
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for (uint8_t i = 0; ((status_ = spiRec()) & 0x80) && i != 0xFF; i++) { /* Intentionally left empty */ }
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return status_;
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}
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/**
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* Determine the size of an SD flash memory card.
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*
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* \return The number of 512 byte data blocks in the card
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* or zero if an error occurs.
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*/
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uint32_t Sd2Card::cardSize() {
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csd_t csd;
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if (!readCSD(&csd)) return 0;
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if (csd.v1.csd_ver == 0) {
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uint8_t read_bl_len = csd.v1.read_bl_len;
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uint16_t c_size = (csd.v1.c_size_high << 10)
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| (csd.v1.c_size_mid << 2) | csd.v1.c_size_low;
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uint8_t c_size_mult = (csd.v1.c_size_mult_high << 1)
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| csd.v1.c_size_mult_low;
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return (uint32_t)(c_size + 1) << (c_size_mult + read_bl_len - 7);
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}
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else if (csd.v2.csd_ver == 1) {
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uint32_t c_size = ((uint32_t)csd.v2.c_size_high << 16)
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| (csd.v2.c_size_mid << 8) | csd.v2.c_size_low;
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return (c_size + 1) << 10;
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}
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else {
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error(SD_CARD_ERROR_BAD_CSD);
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return 0;
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}
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}
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void Sd2Card::chipDeselect() {
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extDigitalWrite(chipSelectPin_, HIGH);
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spiSend(0xFF); // Ensure MISO goes high impedance
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}
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void Sd2Card::chipSelect() {
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spiInit(spiRate_);
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extDigitalWrite(chipSelectPin_, LOW);
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}
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/**
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* Erase a range of blocks.
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*
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* \param[in] firstBlock The address of the first block in the range.
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* \param[in] lastBlock The address of the last block in the range.
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*
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* \note This function requests the SD card to do a flash erase for a
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* range of blocks. The data on the card after an erase operation is
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* either 0 or 1, depends on the card vendor. The card must support
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* single block erase.
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*
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* \return true for success, false for failure.
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*/
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bool Sd2Card::erase(uint32_t firstBlock, uint32_t lastBlock) {
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if (ENABLED(SDCARD_READONLY)) return false;
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csd_t csd;
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if (!readCSD(&csd)) goto FAIL;
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// check for single block erase
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if (!csd.v1.erase_blk_en) {
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// erase size mask
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uint8_t m = (csd.v1.sector_size_high << 1) | csd.v1.sector_size_low;
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if ((firstBlock & m) != 0 || ((lastBlock + 1) & m) != 0) {
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// error card can't erase specified area
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error(SD_CARD_ERROR_ERASE_SINGLE_BLOCK);
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goto FAIL;
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}
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}
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if (type_ != SD_CARD_TYPE_SDHC) { firstBlock <<= 9; lastBlock <<= 9; }
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if (cardCommand(CMD32, firstBlock) || cardCommand(CMD33, lastBlock) || cardCommand(CMD38, 0)) {
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error(SD_CARD_ERROR_ERASE);
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goto FAIL;
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}
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if (!waitNotBusy(SD_ERASE_TIMEOUT)) {
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error(SD_CARD_ERROR_ERASE_TIMEOUT);
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goto FAIL;
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}
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chipDeselect();
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return true;
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FAIL:
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chipDeselect();
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return false;
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}
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/**
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* Determine if card supports single block erase.
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*
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* \return true if single block erase is supported.
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* false if single block erase is not supported.
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*/
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bool Sd2Card::eraseSingleBlockEnable() {
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csd_t csd;
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return readCSD(&csd) ? csd.v1.erase_blk_en : false;
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}
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/**
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* Initialize an SD flash memory card.
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*
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* \param[in] sckRateID SPI clock rate selector. See setSckRate().
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* \param[in] chipSelectPin SD chip select pin number.
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*
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* \return true for success, false for failure.
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* The reason for failure can be determined by calling errorCode() and errorData().
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*/
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bool Sd2Card::init(const uint8_t sckRateID, const pin_t chipSelectPin) {
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#if IS_TEENSY_35_36 || IS_TEENSY_40_41
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chipSelectPin_ = BUILTIN_SDCARD;
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const uint8_t ret = SDHC_CardInit();
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type_ = SDHC_CardGetType();
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return (ret == 0);
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#endif
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errorCode_ = type_ = 0;
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chipSelectPin_ = chipSelectPin;
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// 16-bit init start time allows over a minute
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const millis_t init_timeout = millis() + SD_INIT_TIMEOUT;
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uint32_t arg;
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watchdog_refresh(); // In case init takes too long
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// Set pin modes
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#if ENABLED(ZONESTAR_12864OLED)
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if (chipSelectPin_ != DOGLCD_CS) {
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SET_OUTPUT(DOGLCD_CS);
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WRITE(DOGLCD_CS, HIGH);
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}
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#else
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extDigitalWrite(chipSelectPin_, HIGH); // For some CPUs pinMode can write the wrong data so init desired data value first
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pinMode(chipSelectPin_, OUTPUT); // Solution for #8746 by @benlye
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#endif
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spiBegin();
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// Set SCK rate for initialization commands
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spiRate_ = SPI_SD_INIT_RATE;
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spiInit(spiRate_);
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// Must supply min of 74 clock cycles with CS high.
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LOOP_L_N(i, 10) spiSend(0xFF);
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watchdog_refresh(); // In case init takes too long
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// Command to go idle in SPI mode
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while ((status_ = cardCommand(CMD0, 0)) != R1_IDLE_STATE) {
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if (ELAPSED(millis(), init_timeout)) {
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error(SD_CARD_ERROR_CMD0);
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goto FAIL;
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}
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}
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#if ENABLED(SD_CHECK_AND_RETRY)
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crcSupported = (cardCommand(CMD59, 1) == R1_IDLE_STATE);
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#endif
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watchdog_refresh(); // In case init takes too long
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// check SD version
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for (;;) {
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if (cardCommand(CMD8, 0x1AA) == (R1_ILLEGAL_COMMAND | R1_IDLE_STATE)) {
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type(SD_CARD_TYPE_SD1);
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break;
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}
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// Get the last byte of r7 response
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LOOP_L_N(i, 4) status_ = spiRec();
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if (status_ == 0xAA) {
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type(SD_CARD_TYPE_SD2);
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break;
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}
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if (ELAPSED(millis(), init_timeout)) {
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error(SD_CARD_ERROR_CMD8);
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goto FAIL;
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}
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}
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watchdog_refresh(); // In case init takes too long
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// Initialize card and send host supports SDHC if SD2
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arg = type() == SD_CARD_TYPE_SD2 ? 0x40000000 : 0;
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while ((status_ = cardAcmd(ACMD41, arg)) != R1_READY_STATE) {
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// Check for timeout
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if (ELAPSED(millis(), init_timeout)) {
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error(SD_CARD_ERROR_ACMD41);
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goto FAIL;
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}
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}
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// If SD2 read OCR register to check for SDHC card
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if (type() == SD_CARD_TYPE_SD2) {
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if (cardCommand(CMD58, 0)) {
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error(SD_CARD_ERROR_CMD58);
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goto FAIL;
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}
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if ((spiRec() & 0xC0) == 0xC0) type(SD_CARD_TYPE_SDHC);
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// Discard rest of ocr - contains allowed voltage range
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LOOP_L_N(i, 3) spiRec();
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}
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chipDeselect();
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return setSckRate(sckRateID);
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FAIL:
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chipDeselect();
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return false;
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}
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/**
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* Read a 512 byte block from an SD card.
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*
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* \param[in] blockNumber Logical block to be read.
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* \param[out] dst Pointer to the location that will receive the data.
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* \return true for success, false for failure.
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*/
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bool Sd2Card::readBlock(uint32_t blockNumber, uint8_t *dst) {
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#if IS_TEENSY_35_36 || IS_TEENSY_40_41
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return 0 == SDHC_CardReadBlock(dst, blockNumber);
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#endif
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if (type() != SD_CARD_TYPE_SDHC) blockNumber <<= 9; // Use address if not SDHC card
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#if ENABLED(SD_CHECK_AND_RETRY)
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uint8_t retryCnt = 3;
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for (;;) {
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if (cardCommand(CMD17, blockNumber))
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error(SD_CARD_ERROR_CMD17);
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else if (readData(dst, 512))
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return true;
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chipDeselect();
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if (!--retryCnt) break;
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cardCommand(CMD12, 0); // Try sending a stop command, ignore the result.
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errorCode_ = 0;
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}
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return false;
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#else
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if (cardCommand(CMD17, blockNumber)) {
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error(SD_CARD_ERROR_CMD17);
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chipDeselect();
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return false;
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}
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else
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return readData(dst, 512);
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#endif
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}
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/**
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* Read one data block in a multiple block read sequence
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*
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* \param[in] dst Pointer to the location for the data to be read.
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*
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* \return true for success, false for failure.
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*/
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bool Sd2Card::readData(uint8_t *dst) {
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chipSelect();
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return readData(dst, 512);
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}
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#if ENABLED(SD_CHECK_AND_RETRY)
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#ifdef FAST_CRC
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static const uint16_t crctab16[] PROGMEM = {
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0x0000, 0x1021, 0x2042, 0x3063, 0x4084, 0x50A5, 0x60C6, 0x70E7,
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0x8108, 0x9129, 0xA14A, 0xB16B, 0xC18C, 0xD1AD, 0xE1CE, 0xF1EF,
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0x1231, 0x0210, 0x3273, 0x2252, 0x52B5, 0x4294, 0x72F7, 0x62D6,
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0x9339, 0x8318, 0xB37B, 0xA35A, 0xD3BD, 0xC39C, 0xF3FF, 0xE3DE,
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0x2462, 0x3443, 0x0420, 0x1401, 0x64E6, 0x74C7, 0x44A4, 0x5485,
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0xA56A, 0xB54B, 0x8528, 0x9509, 0xE5EE, 0xF5CF, 0xC5AC, 0xD58D,
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0x3653, 0x2672, 0x1611, 0x0630, 0x76D7, 0x66F6, 0x5695, 0x46B4,
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0xB75B, 0xA77A, 0x9719, 0x8738, 0xF7DF, 0xE7FE, 0xD79D, 0xC7BC,
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0x48C4, 0x58E5, 0x6886, 0x78A7, 0x0840, 0x1861, 0x2802, 0x3823,
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0xC9CC, 0xD9ED, 0xE98E, 0xF9AF, 0x8948, 0x9969, 0xA90A, 0xB92B,
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0x5AF5, 0x4AD4, 0x7AB7, 0x6A96, 0x1A71, 0x0A50, 0x3A33, 0x2A12,
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0xDBFD, 0xCBDC, 0xFBBF, 0xEB9E, 0x9B79, 0x8B58, 0xBB3B, 0xAB1A,
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0x6CA6, 0x7C87, 0x4CE4, 0x5CC5, 0x2C22, 0x3C03, 0x0C60, 0x1C41,
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0xEDAE, 0xFD8F, 0xCDEC, 0xDDCD, 0xAD2A, 0xBD0B, 0x8D68, 0x9D49,
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0x7E97, 0x6EB6, 0x5ED5, 0x4EF4, 0x3E13, 0x2E32, 0x1E51, 0x0E70,
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0xFF9F, 0xEFBE, 0xDFDD, 0xCFFC, 0xBF1B, 0xAF3A, 0x9F59, 0x8F78,
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0x9188, 0x81A9, 0xB1CA, 0xA1EB, 0xD10C, 0xC12D, 0xF14E, 0xE16F,
|
|
0x1080, 0x00A1, 0x30C2, 0x20E3, 0x5004, 0x4025, 0x7046, 0x6067,
|
|
0x83B9, 0x9398, 0xA3FB, 0xB3DA, 0xC33D, 0xD31C, 0xE37F, 0xF35E,
|
|
0x02B1, 0x1290, 0x22F3, 0x32D2, 0x4235, 0x5214, 0x6277, 0x7256,
|
|
0xB5EA, 0xA5CB, 0x95A8, 0x8589, 0xF56E, 0xE54F, 0xD52C, 0xC50D,
|
|
0x34E2, 0x24C3, 0x14A0, 0x0481, 0x7466, 0x6447, 0x5424, 0x4405,
|
|
0xA7DB, 0xB7FA, 0x8799, 0x97B8, 0xE75F, 0xF77E, 0xC71D, 0xD73C,
|
|
0x26D3, 0x36F2, 0x0691, 0x16B0, 0x6657, 0x7676, 0x4615, 0x5634,
|
|
0xD94C, 0xC96D, 0xF90E, 0xE92F, 0x99C8, 0x89E9, 0xB98A, 0xA9AB,
|
|
0x5844, 0x4865, 0x7806, 0x6827, 0x18C0, 0x08E1, 0x3882, 0x28A3,
|
|
0xCB7D, 0xDB5C, 0xEB3F, 0xFB1E, 0x8BF9, 0x9BD8, 0xABBB, 0xBB9A,
|
|
0x4A75, 0x5A54, 0x6A37, 0x7A16, 0x0AF1, 0x1AD0, 0x2AB3, 0x3A92,
|
|
0xFD2E, 0xED0F, 0xDD6C, 0xCD4D, 0xBDAA, 0xAD8B, 0x9DE8, 0x8DC9,
|
|
0x7C26, 0x6C07, 0x5C64, 0x4C45, 0x3CA2, 0x2C83, 0x1CE0, 0x0CC1,
|
|
0xEF1F, 0xFF3E, 0xCF5D, 0xDF7C, 0xAF9B, 0xBFBA, 0x8FD9, 0x9FF8,
|
|
0x6E17, 0x7E36, 0x4E55, 0x5E74, 0x2E93, 0x3EB2, 0x0ED1, 0x1EF0
|
|
};
|
|
// faster CRC-CCITT
|
|
// uses the x^16,x^12,x^5,x^1 polynomial.
|
|
static uint16_t CRC_CCITT(const uint8_t *data, size_t n) {
|
|
uint16_t crc = 0;
|
|
for (size_t i = 0; i < n; i++) {
|
|
crc = pgm_read_word(&crctab16[(crc >> 8 ^ data[i]) & 0xFF]) ^ (crc << 8);
|
|
}
|
|
return crc;
|
|
}
|
|
#else
|
|
// slower CRC-CCITT
|
|
// uses the x^16,x^12,x^5,x^1 polynomial.
|
|
static uint16_t CRC_CCITT(const uint8_t *data, size_t n) {
|
|
uint16_t crc = 0;
|
|
for (size_t i = 0; i < n; i++) {
|
|
crc = (uint8_t)(crc >> 8) | (crc << 8);
|
|
crc ^= data[i];
|
|
crc ^= (uint8_t)(crc & 0xFF) >> 4;
|
|
crc ^= crc << 12;
|
|
crc ^= (crc & 0xFF) << 5;
|
|
}
|
|
return crc;
|
|
}
|
|
#endif
|
|
#endif // SD_CHECK_AND_RETRY
|
|
|
|
bool Sd2Card::readData(uint8_t *dst, const uint16_t count) {
|
|
bool success = false;
|
|
|
|
const millis_t read_timeout = millis() + SD_READ_TIMEOUT;
|
|
while ((status_ = spiRec()) == 0xFF) { // Wait for start block token
|
|
if (ELAPSED(millis(), read_timeout)) {
|
|
error(SD_CARD_ERROR_READ_TIMEOUT);
|
|
goto FAIL;
|
|
}
|
|
}
|
|
|
|
if (status_ == DATA_START_BLOCK) {
|
|
spiRead(dst, count); // Transfer data
|
|
|
|
const uint16_t recvCrc = (spiRec() << 8) | spiRec();
|
|
#if ENABLED(SD_CHECK_AND_RETRY)
|
|
success = !crcSupported || recvCrc == CRC_CCITT(dst, count);
|
|
if (!success) error(SD_CARD_ERROR_READ_CRC);
|
|
#else
|
|
success = true;
|
|
UNUSED(recvCrc);
|
|
#endif
|
|
}
|
|
else
|
|
error(SD_CARD_ERROR_READ);
|
|
|
|
FAIL:
|
|
chipDeselect();
|
|
return success;
|
|
}
|
|
|
|
/** read CID or CSR register */
|
|
bool Sd2Card::readRegister(const uint8_t cmd, void *buf) {
|
|
uint8_t *dst = reinterpret_cast<uint8_t*>(buf);
|
|
if (cardCommand(cmd, 0)) {
|
|
error(SD_CARD_ERROR_READ_REG);
|
|
chipDeselect();
|
|
return false;
|
|
}
|
|
return readData(dst, 16);
|
|
}
|
|
|
|
/**
|
|
* Start a read multiple blocks sequence.
|
|
*
|
|
* \param[in] blockNumber Address of first block in sequence.
|
|
*
|
|
* \note This function is used with readData() and readStop() for optimized
|
|
* multiple block reads. SPI chipSelect must be low for the entire sequence.
|
|
*
|
|
* \return true for success, false for failure.
|
|
*/
|
|
bool Sd2Card::readStart(uint32_t blockNumber) {
|
|
if (type() != SD_CARD_TYPE_SDHC) blockNumber <<= 9;
|
|
|
|
const bool success = !cardCommand(CMD18, blockNumber);
|
|
if (!success) error(SD_CARD_ERROR_CMD18);
|
|
chipDeselect();
|
|
return success;
|
|
}
|
|
|
|
/**
|
|
* End a read multiple blocks sequence.
|
|
*
|
|
* \return true for success, false for failure.
|
|
*/
|
|
bool Sd2Card::readStop() {
|
|
chipSelect();
|
|
const bool success = !cardCommand(CMD12, 0);
|
|
if (!success) error(SD_CARD_ERROR_CMD12);
|
|
chipDeselect();
|
|
return success;
|
|
}
|
|
|
|
/**
|
|
* Set the SPI clock rate.
|
|
*
|
|
* \param[in] sckRateID A value in the range [0, 6].
|
|
*
|
|
* The SPI clock will be set to F_CPU/pow(2, 1 + sckRateID). The maximum
|
|
* SPI rate is F_CPU/2 for \a sckRateID = 0 and the minimum rate is F_CPU/128
|
|
* for \a scsRateID = 6.
|
|
*
|
|
* \return The value one, true, is returned for success and the value zero,
|
|
* false, is returned for an invalid value of \a sckRateID.
|
|
*/
|
|
bool Sd2Card::setSckRate(const uint8_t sckRateID) {
|
|
const bool success = (sckRateID <= 6);
|
|
if (success) spiRate_ = sckRateID; else error(SD_CARD_ERROR_SCK_RATE);
|
|
return success;
|
|
}
|
|
|
|
/**
|
|
* Wait for card to become not-busy
|
|
* \param[in] timeout_ms Timeout to abort.
|
|
* \return true for success, false for timeout.
|
|
*/
|
|
bool Sd2Card::waitNotBusy(const millis_t timeout_ms) {
|
|
const millis_t wait_timeout = millis() + timeout_ms;
|
|
while (spiRec() != 0xFF) if (ELAPSED(millis(), wait_timeout)) return false;
|
|
return true;
|
|
}
|
|
|
|
/**
|
|
* Write a 512 byte block to an SD card.
|
|
*
|
|
* \param[in] blockNumber Logical block to be written.
|
|
* \param[in] src Pointer to the location of the data to be written.
|
|
* \return true for success, false for failure.
|
|
*/
|
|
bool Sd2Card::writeBlock(uint32_t blockNumber, const uint8_t *src) {
|
|
if (ENABLED(SDCARD_READONLY)) return false;
|
|
|
|
#if IS_TEENSY_35_36 || IS_TEENSY_40_41
|
|
return 0 == SDHC_CardWriteBlock(src, blockNumber);
|
|
#endif
|
|
|
|
bool success = false;
|
|
if (type() != SD_CARD_TYPE_SDHC) blockNumber <<= 9; // Use address if not SDHC card
|
|
if (!cardCommand(CMD24, blockNumber)) {
|
|
if (writeData(DATA_START_BLOCK, src)) {
|
|
if (waitNotBusy(SD_WRITE_TIMEOUT)) { // Wait for flashing to complete
|
|
success = !(cardCommand(CMD13, 0) || spiRec()); // Response is r2 so get and check two bytes for nonzero
|
|
if (!success) error(SD_CARD_ERROR_WRITE_PROGRAMMING);
|
|
}
|
|
else
|
|
error(SD_CARD_ERROR_WRITE_TIMEOUT);
|
|
}
|
|
}
|
|
else
|
|
error(SD_CARD_ERROR_CMD24);
|
|
|
|
chipDeselect();
|
|
return success;
|
|
}
|
|
|
|
/**
|
|
* Write one data block in a multiple block write sequence
|
|
* \param[in] src Pointer to the location of the data to be written.
|
|
* \return true for success, false for failure.
|
|
*/
|
|
bool Sd2Card::writeData(const uint8_t *src) {
|
|
if (ENABLED(SDCARD_READONLY)) return false;
|
|
|
|
bool success = true;
|
|
chipSelect();
|
|
// Wait for previous write to finish
|
|
if (!waitNotBusy(SD_WRITE_TIMEOUT) || !writeData(WRITE_MULTIPLE_TOKEN, src)) {
|
|
error(SD_CARD_ERROR_WRITE_MULTIPLE);
|
|
success = false;
|
|
}
|
|
chipDeselect();
|
|
return success;
|
|
}
|
|
|
|
// Send one block of data for write block or write multiple blocks
|
|
bool Sd2Card::writeData(const uint8_t token, const uint8_t *src) {
|
|
if (ENABLED(SDCARD_READONLY)) return false;
|
|
|
|
const uint16_t crc = TERN(SD_CHECK_AND_RETRY, CRC_CCITT(src, 512), 0xFFFF);
|
|
spiSendBlock(token, src);
|
|
spiSend(crc >> 8);
|
|
spiSend(crc & 0xFF);
|
|
|
|
status_ = spiRec();
|
|
if ((status_ & DATA_RES_MASK) != DATA_RES_ACCEPTED) {
|
|
error(SD_CARD_ERROR_WRITE);
|
|
chipDeselect();
|
|
return false;
|
|
}
|
|
return true;
|
|
}
|
|
|
|
/**
|
|
* Start a write multiple blocks sequence.
|
|
*
|
|
* \param[in] blockNumber Address of first block in sequence.
|
|
* \param[in] eraseCount The number of blocks to be pre-erased.
|
|
*
|
|
* \note This function is used with writeData() and writeStop()
|
|
* for optimized multiple block writes.
|
|
*
|
|
* \return true for success, false for failure.
|
|
*/
|
|
bool Sd2Card::writeStart(uint32_t blockNumber, const uint32_t eraseCount) {
|
|
if (ENABLED(SDCARD_READONLY)) return false;
|
|
|
|
bool success = false;
|
|
if (!cardAcmd(ACMD23, eraseCount)) { // Send pre-erase count
|
|
if (type() != SD_CARD_TYPE_SDHC) blockNumber <<= 9; // Use address if not SDHC card
|
|
success = !cardCommand(CMD25, blockNumber);
|
|
if (!success) error(SD_CARD_ERROR_CMD25);
|
|
}
|
|
else
|
|
error(SD_CARD_ERROR_ACMD23);
|
|
|
|
chipDeselect();
|
|
return success;
|
|
}
|
|
|
|
/**
|
|
* End a write multiple blocks sequence.
|
|
*
|
|
* \return true for success, false for failure.
|
|
*/
|
|
bool Sd2Card::writeStop() {
|
|
if (ENABLED(SDCARD_READONLY)) return false;
|
|
|
|
bool success = false;
|
|
chipSelect();
|
|
if (waitNotBusy(SD_WRITE_TIMEOUT)) {
|
|
spiSend(STOP_TRAN_TOKEN);
|
|
success = waitNotBusy(SD_WRITE_TIMEOUT);
|
|
}
|
|
else
|
|
error(SD_CARD_ERROR_STOP_TRAN);
|
|
|
|
chipDeselect();
|
|
return success;
|
|
}
|
|
|
|
#endif // SDSUPPORT
|