mirror of
https://github.com/RobTillaart/Arduino.git
synced 2024-10-03 18:09:02 -04:00
425 lines
9.7 KiB
C++
425 lines
9.7 KiB
C++
//
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// FILE: I2C_24LC1025.cpp
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// AUTHOR: Rob Tillaart
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// VERSION: 0.2.3
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// PURPOSE: I2C_24LC1025 library for Arduino with EEPROM I2C_24LC1025 et al.
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// URL: https://github.com/RobTillaart/I2C_24LC1025
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#include "I2C_24LC1025.h"
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// I2C buffer needs max 2 bytes for EEPROM address
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// 1 byte for EEPROM register address is available in transmit buffer
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#if defined(ESP32) || defined(ESP8266)
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#define I2C_BUFFERSIZE 128
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#else
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#define I2C_BUFFERSIZE 30 // AVR, STM
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#endif
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////////////////////////////////////////////////////////////////////
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//
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// PUBLIC FUNCTIONS
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//
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I2C_24LC1025::I2C_24LC1025(uint8_t deviceAddress, TwoWire * wire)
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{
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_deviceAddress = deviceAddress;
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_deviceSize = I2C_DEVICESIZE_24LC1025;
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_pageSize = I2C_PAGESIZE_24LC1025;
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_wire = wire;
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}
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#if defined(ESP8266) || defined(ESP32)
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bool I2C_24LC1025::begin(uint8_t sda, uint8_t scl)
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{
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if ((sda < 255) && (scl < 255))
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{
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_wire->begin(sda, scl);
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}
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else
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{
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_wire->begin();
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}
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_lastWrite = 0;
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return isConnected();
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}
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#endif
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#if defined(PICO_RP2040)
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bool I2C_24LC1025::begin(uint8_t sda, uint8_t scl)
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{
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if ((sda < 255) && (scl < 255))
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{
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_wire->setSCL(scl);
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_wire->setSDA(sda);
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_wire->begin();
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}
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_lastWrite = 0;
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return isConnected();
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}
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#endif
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bool I2C_24LC1025::begin()
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{
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_wire->begin();
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_lastWrite = 0;
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return isConnected();
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}
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bool I2C_24LC1025::isConnected()
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{
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_wire->beginTransmission(_deviceAddress);
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return (_wire->endTransmission() == 0);
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}
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/////////////////////////////////////////////////////////////
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//
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// WRITE SECTION
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//
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// returns I2C status, 0 = OK
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int I2C_24LC1025::writeByte(const uint32_t memoryAddress, const uint8_t data)
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{
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int rv = _WriteBlock(memoryAddress, &data, 1);
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return rv;
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}
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// returns I2C status, 0 = OK
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int I2C_24LC1025::setBlock(const uint32_t memoryAddress, const uint8_t data, const uint32_t length)
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{
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uint8_t buffer[I2C_BUFFERSIZE];
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for (uint8_t i = 0; i < I2C_BUFFERSIZE; i++)
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{
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buffer[i] = data;
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}
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int rv = _pageBlock(memoryAddress, buffer, length, false);
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return rv;
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}
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// returns I2C status, 0 = OK
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int I2C_24LC1025::writeBlock(const uint32_t memoryAddress, const uint8_t * buffer, const uint32_t length)
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{
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int rv = _pageBlock(memoryAddress, buffer, length, true);
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return rv;
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}
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/////////////////////////////////////////////////////////////
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//
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// READ SECTION
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//
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// returns the value stored in memoryAddress
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uint8_t I2C_24LC1025::readByte(const uint32_t memoryAddress)
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{
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uint8_t rdata;
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_ReadBlock(memoryAddress, &rdata, 1);
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return rdata;
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}
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// returns bytes read.
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uint32_t I2C_24LC1025::readBlock(const uint32_t memoryAddress, uint8_t * buffer, const uint32_t length)
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{
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uint32_t addr = memoryAddress;
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uint32_t len = length;
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uint32_t rv = 0;
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if ((addr < 0x10000) && ((addr + len) > 0x10000))
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{
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uint32_t sublen = 0x10000 - addr;
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rv = readBlock(addr, (uint8_t *) buffer, sublen);
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rv += readBlock(0x10000, (uint8_t *) &buffer[sublen], len - sublen);
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return rv;
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}
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while (len > 0)
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{
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uint8_t cnt = I2C_BUFFERSIZE;
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if (cnt > len) cnt = len;
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rv += _ReadBlock(addr, buffer, cnt);
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addr += cnt;
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buffer += cnt;
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len -= cnt;
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yield(); // For OS scheduling
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}
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return rv;
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}
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/////////////////////////////////////////////////////////////
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//
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// UPDATE SECTION
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//
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// returns 0 == OK
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int I2C_24LC1025::updateByte(const uint32_t memoryAddress, const uint8_t data)
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{
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if (data == readByte(memoryAddress)) return 0;
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return writeByte(memoryAddress, data);
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}
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// returns bytes written.
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uint32_t I2C_24LC1025::updateBlock(const uint32_t memoryAddress, const uint8_t * buffer, const uint32_t length)
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{
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uint32_t addr = memoryAddress;
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uint32_t len = length;
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uint32_t rv = 0;
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while (len > 0)
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{
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uint8_t buf[I2C_BUFFERSIZE];
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uint8_t cnt = I2C_BUFFERSIZE;
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if (cnt > len) cnt = len;
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rv += _ReadBlock(addr, buf, cnt);
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if (memcmp(buffer, buf, cnt) != 0)
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{
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_pageBlock(addr, buffer, cnt, true);
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}
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addr += cnt;
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buffer += cnt;
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len -= cnt;
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yield(); // For OS scheduling
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}
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return rv;
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}
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/////////////////////////////////////////////////////////////
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//
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// VERIFY SECTION
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//
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// return false if write or verify failed.
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bool I2C_24LC1025::writeByteVerify(const uint32_t memoryAddress, const uint8_t value)
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{
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if (writeByte(memoryAddress, value) != 0 ) return false;
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uint8_t data = readByte(memoryAddress);
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return (data == value);
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}
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// return false if write or verify failed.
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bool I2C_24LC1025::writeBlockVerify(const uint32_t memoryAddress, const uint8_t * buffer, const uint32_t length)
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{
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if (writeBlock(memoryAddress, buffer, length) != 0) return false;
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uint8_t data[length];
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if (readBlock(memoryAddress, data, length) != length) return false;
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return memcmp(data, buffer, length) == 0;
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}
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// return false if write or verify failed.
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bool I2C_24LC1025::setBlockVerify(const uint32_t memoryAddress, const uint8_t value, const uint32_t length)
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{
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if (setBlock(memoryAddress, value, length) != 0) return false;
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uint8_t data[length];
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if (readBlock(memoryAddress, data, length) != length) return false;
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for (uint32_t i = 0; i < length; i++)
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{
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if (data[i] != value) return false;
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}
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return true;
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}
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// return false if write or verify failed.
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bool I2C_24LC1025::updateByteVerify(const uint32_t memoryAddress, const uint8_t value)
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{
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if (updateByte(memoryAddress, value) != 0 ) return false;
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uint8_t data = readByte(memoryAddress);
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return (data == value);
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}
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// return false if write or verify failed.
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bool I2C_24LC1025::updateBlockVerify(const uint32_t memoryAddress, const uint8_t * buffer, const uint32_t length)
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{
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if (updateBlock(memoryAddress, buffer, length) != length) return false;
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uint8_t data[length];
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if (readBlock(memoryAddress, data, length) != length) return false;
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return memcmp(data, buffer, length) == 0;
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}
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////////////////////////////////////////////////////////////////////
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//
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// METADATA SECTION
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//
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uint32_t I2C_24LC1025::getDeviceSize()
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{
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return _deviceSize;
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}
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uint8_t I2C_24LC1025::getPageSize()
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{
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return _pageSize;
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}
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uint32_t I2C_24LC1025::getLastWrite()
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{
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return _lastWrite;
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}
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void I2C_24LC1025::setExtraWriteCycleTime(uint8_t ms)
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{
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_extraTWR = ms;
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}
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uint8_t I2C_24LC1025::getExtraWriteCycleTime()
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{
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return _extraTWR;
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}
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////////////////////////////////////////////////////////////////////
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//
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// PRIVATE
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//
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// _pageBlock aligns buffer to page boundaries for writing.
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// and to I2C buffer size
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// returns 0 = OK otherwise error
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int I2C_24LC1025::_pageBlock(uint32_t memoryAddress, const uint8_t * buffer, const uint16_t length, const bool incrBuffer)
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{
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uint32_t addr = memoryAddress;
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uint16_t len = length;
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while (len > 0)
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{
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uint8_t bytesUntilPageBoundary = this->_pageSize - addr % this->_pageSize;
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uint8_t cnt = I2C_BUFFERSIZE;
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if (cnt > len) cnt = len;
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if (cnt > bytesUntilPageBoundary) cnt = bytesUntilPageBoundary;
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int rv = _WriteBlock(addr, buffer, cnt);
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if (rv != 0) return rv;
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addr += cnt;
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if (incrBuffer) buffer += cnt;
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len -= cnt;
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}
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return 0;
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}
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void I2C_24LC1025::_beginTransmission(uint32_t memoryAddress)
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{
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// chapter 5+6 - datasheet - need three bytes for address
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_actualAddress = _deviceAddress;
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if (memoryAddress >= 0x10000) _actualAddress |= 0x04; // addresbit 16
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// Wait until EEPROM gives ACK again.
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// this is a bit faster than the hardcoded 5 milliSeconds // chapter 7
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// TWR = WriteCycleTime
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uint32_t waitTime = I2C_WRITEDELAY + _extraTWR * 1000UL; // do the math once.
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while ((micros() - _lastWrite) <= waitTime)
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{
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_wire->beginTransmission(_actualAddress);
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if (_wire->endTransmission() == 0) break;
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yield();
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delayMicroseconds(50);
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}
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uint16_t memAddr = (memoryAddress & 0xFFFF);
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_wire->beginTransmission(_actualAddress); // device address + bit 16
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_wire->write((memAddr >> 8) & 0xFF); // highByte
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_wire->write(memAddr & 0xFF); // lowByte
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}
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// pre: length <= this->_pageSize && length <= I2C_BUFFERSIZE;
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// returns 0 = OK otherwise error
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int I2C_24LC1025::_WriteBlock(uint32_t memoryAddress, const uint8_t * buffer, const uint8_t length)
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{
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_waitEEReady();
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this->_beginTransmission(memoryAddress);
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_wire->write(buffer, length);
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int rv = _wire->endTransmission();
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_lastWrite = micros();
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yield();
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// if (rv != 0)
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// {
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// if (_debug)
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// {
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// Serial.print("mem addr w: ");
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// Serial.print(memoryAddress, HEX);
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// Serial.print("\t");
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// Serial.println(rv);
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// }
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// return -(abs(rv)); // error
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// }
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return rv;
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}
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// pre: buffer is large enough to hold length bytes
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// returns bytes read
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uint8_t I2C_24LC1025::_ReadBlock(uint32_t memoryAddress, uint8_t * buffer, const uint8_t length)
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{
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_waitEEReady();
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// _beginTransmissinon sets actual address !!!
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this->_beginTransmission(memoryAddress);
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int rv = _wire->endTransmission();
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if (rv != 0)
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{
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// if (_debug)
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// {
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// Serial.print("mem addr r: ");
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// Serial.print(memoryAddress, HEX);
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// Serial.print("\t");
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// Serial.println(rv);
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// }
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return 0; // error
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}
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// readBytes will always be equal or smaller to length
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uint8_t readBytes = _wire->requestFrom(_actualAddress, length);
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uint8_t cnt = 0;
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while (cnt < readBytes)
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{
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buffer[cnt++] = _wire->read();
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yield();
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}
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return readBytes;
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}
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void I2C_24LC1025::_waitEEReady()
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{
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// Wait until EEPROM gives ACK again.
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// this is a bit faster than the hardcoded 5 milliSeconds
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// TWR = WriteCycleTime
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uint32_t waitTime = I2C_WRITEDELAY + _extraTWR * 1000UL;
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while ((micros() - _lastWrite) <= waitTime)
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{
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_wire->beginTransmission(_deviceAddress);
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int x = _wire->endTransmission();
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if (x == 0) return;
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yield();
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}
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return;
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}
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// -- END OF FILE --
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