This class provides simplified I2C access to a Microchip 24LCxx Serial EEPROM device: - Rename the class (C2424 -> C24) - Add EraseMemoryArea method - Add DumpMemoryArea method only accessible in DEBUG mode - Add 'const' qualifier in parameters
Fork of 24LCxx_I2C by
Diff: 24LCxx_I2C.cpp
- Revision:
- 0:21c698aa86f6
- Child:
- 1:bdf87ab4cdb8
diff -r 000000000000 -r 21c698aa86f6 24LCxx_I2C.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/24LCxx_I2C.cpp Wed Oct 17 07:15:33 2012 +0000 @@ -0,0 +1,477 @@ +/* mbed simplified access to Microchip 24LCxx Serial EEPROM devices (I2C) + * Copyright (c) 2010-2012 ygarcia, MIT License + * + * Permission is hereby granted, free of charge, to any person obtaining a copy of this software + * and associated documentation files (the "Software"), to deal in the Software without restriction, + * including without limitation the rights to use, copy, modify, merge, publish, distribute, + * sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is + * furnished to do so, subject to the following conditions: + * + * The above copyright notice and this permission notice shall be included in all copies or + * substantial portions of the Software. + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING + * BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND + * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, + * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, + * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. + */ +#include <iostream> +#include <sstream> + +#include "24LCxx_I2C.h" + +namespace _24LCXX_I2C { + + unsigned char C24LCXX_I2C::I2CMouduleRefCounter = 0; + + C24LCXX_I2C::C24LCXX_I2C(const PinName p_sda, const PinName p_scl, const unsigned char p_address, const PinName p_wp, const int p_frequency) : _internalId("") { + DEBUG_ENTER("C24LCXX_I2C") + + if (C24LCXX_I2C::I2CMouduleRefCounter != 0) { + error("C24LCXX_I2C: Wrong params"); + } +#ifdef __DEBUG + std::ostringstream out(std::ostringstream::out); + out << "C24LCXX_I2C #" << C24LCXX_I2C::I2CMouduleRefCounter; + _internalId.assign(out.str()); + DEBUG("C24LCXX_I2C: _internalId='%s'", _internalId.c_str()) +#endif // __DEBUG + _i2cInstance = new I2C(p_sda, p_scl, "24LCxx_I2C"); + C24LCXX_I2C::I2CMouduleRefCounter += 1; + DEBUG_ENTER("C24LCXX_I2C: refCounter=%d", C24LCXX_I2C::I2CMouduleRefCounter) + + _slaveAddress = (p_address << 1) | 0xa0; // Slave address format is: 1 0 1 0 A3 A2 A1 R/W + DEBUG("C24LCXX_I2C: I2C slave adress: 0x%02x", _slaveAddress) + _i2cInstance->frequency(p_frequency); // Set the frequency of the I2C interface + if (p_wp != NC) { + DEBUG("C24LCXX_I2C: WP managed"); + _wp = new DigitalOut(p_wp); + _wp->write(0); // Disable write protect + } else { + DEBUG("C24LCXX_I2C: WP not managed"); + _wp = NULL; // Not used + } + + DEBUG_LEAVE("C24LCXX_I2C") + } + + C24LCXX_I2C::~C24LCXX_I2C() { + DEBUG_ENTER("~C24LCXX_I2C") + + // Release I2C instance + DEBUG_ENTER("~C24LCXX_I2C: refCounter=%d", C24LCXX_I2C::I2CMouduleRefCounter) + C24LCXX_I2C::I2CMouduleRefCounter -= 1; + if (C24LCXX_I2C::I2CMouduleRefCounter == 0) { + delete _i2cInstance; + _i2cInstance = NULL; + } + // Release _wp if required + if (_wp != NULL) { + _wp->write(0); + delete _wp; + } + + DEBUG_LEAVE("~C24LCXX_I2C") + } + + bool C24LCXX_I2C::WriteProtect(const bool p_writeProtect) { + if (_wp != NULL) { + DEBUG("WP set to: %x", (int)p_writeProtect) + _wp->write((int)(p_writeProtect)); + return true; + } + + return false; + } + + bool C24LCXX_I2C::EraseMemoryArea(const short p_startAddress, const int p_count, const unsigned char p_pattern) { + DEBUG_ENTER("C24LCXX_I2C::EraseMemoryArea: 0x%02x - %d - 0x%02x", p_startAddress, p_count, p_pattern) + + std::vector<unsigned char> eraseBuffer(p_count, p_pattern); + return Write(p_startAddress, eraseBuffer, false); + } + + bool C24LCXX_I2C::Write(const short p_address, const unsigned char p_byte) { + DEBUG_ENTER("C24LCXX_I2C::Write (byte): Memory address: 0x%02x - 0x%02x", p_address, p_byte) + + // 1.Prepare buffer + char i2cBuffer[3]; // Memory address + one byte of data + // 1.1. Memory address + short address = p_address + 1; // Index start to 1 + i2cBuffer[0] = (unsigned char)(address >> 8); + DEBUG("C24LCXX_I2C::Write (byte): pI2CBuffer[0]: 0x%02x", i2cBuffer[0]) + i2cBuffer[1] = (unsigned char)((unsigned char)address & 0xff); + DEBUG("C24LCXX_I2C::Write (byte): pI2CBuffer[1]: 0x%02x", i2cBuffer[1]) + // 1.2. Datas + i2cBuffer[2] = p_byte; + DEBUG("C24LCXX_I2C::Write (byte): value=0x%02x", i2cBuffer[2]) + + // 2. Send I2C start + I2C address + Memory Address + Datas + I2C stop + int result = _i2cInstance->write(_slaveAddress, i2cBuffer, 3); + wait(0.02); + + DEBUG_LEAVE("C24LCXX_I2C::Write (byte) %x", (bool)(result == 0)) + return (bool)(result == 0); + } + + bool C24LCXX_I2C::Write(const short p_address, const short p_short, const C24LCXX_I2C::Mode p_mode) { + DEBUG_ENTER("C24LCXX_I2C::Write (short): Memory address:0x%02x, Mode:%d", p_address, p_mode) + + // 1.Prepare buffer + char i2cBuffer[4]; // Memory address + one short (2 bytes) + // 1.1. Memory address + short address = p_address + 1; // Index start to 1 + i2cBuffer[0] = (unsigned char)(address >> 8); + DEBUG("C24LCXX_I2C::Write (short): pI2CBuffer[0]: 0x%02x", i2cBuffer[0]) + i2cBuffer[1] = (unsigned char)((unsigned char)address & 0xff); + DEBUG("C24LCXX_I2C::Write (short): pI2CBuffer[1]: 0x%02x", i2cBuffer[1]) + // 1.2. Datas + if (p_mode == BigEndian) { + i2cBuffer[2] = (unsigned char)(p_short >> 8); + i2cBuffer[3] = (unsigned char)((unsigned char)p_short & 0xff); + } else { + i2cBuffer[2] = (unsigned char)((unsigned char)p_short & 0xff); + i2cBuffer[3] = (unsigned char)(p_short >> 8); + } + DEBUG("C24LCXX_I2C::Write (short): value=0x%02x%02x", i2cBuffer[2], i2cBuffer[3]) + + // 2. Send I2C start + I2C address + Memory Address + Datas + I2C stop + int result = _i2cInstance->write(_slaveAddress, i2cBuffer, 4); + wait(0.02); + + DEBUG_LEAVE("C24LCXX_I2C::Write (short) %x", (bool)(result == 0)) + return (bool)(result == 0); + } + + bool C24LCXX_I2C::Write(const short p_address, const int p_int, const C24LCXX_I2C::Mode p_mode) { + DEBUG_ENTER("C24LCXX_I2C::Write (int): Memory address:0x%02x, Mode:%d", p_address, p_mode) + + // 1.Prepare buffer + char i2cBuffer[6]; // Memory address + one integer (4 bytes) + // 1.1. Memory address + short address = p_address + 1; // Index start to 1 + i2cBuffer[0] = (unsigned char)(address >> 8); + DEBUG("C24LCXX_I2C::Write (int): pI2CBuffer[0]: 0x%02x", i2cBuffer[0]) + i2cBuffer[1] = (unsigned char)((unsigned char)address & 0xff); + DEBUG("C24LCXX_I2C::Write (int): pI2CBuffer[1]: 0x%02x", i2cBuffer[1]) + // 1.2. Datas + if (p_mode == BigEndian) { + i2cBuffer[2] = (unsigned char)(p_int >> 24); + i2cBuffer[3] = (unsigned char)(p_int >> 16); + i2cBuffer[4] = (unsigned char)(p_int >> 8); + i2cBuffer[5] = (unsigned char)((unsigned char)p_int & 0xff); + } else { + i2cBuffer[2] = (unsigned char)((unsigned char)p_int & 0xff); + i2cBuffer[3] = (unsigned char)(p_int >> 8); + i2cBuffer[4] = (unsigned char)(p_int >> 16); + i2cBuffer[5] = (unsigned char)(p_int >> 24); + } + DEBUG("C24LCXX_I2C::Write (int): value=0x%02x%02x%02x%02x", i2cBuffer[2], i2cBuffer[3], i2cBuffer[4], i2cBuffer[5]) + + // 2. Send I2C start + I2C address + Memory Address + Datas + I2C stop + int result = _i2cInstance->write(_slaveAddress, i2cBuffer, 6); + wait(0.02); + + DEBUG_LEAVE("C24LCXX_I2C::Write (int) %x", (bool)(result == 0)) + return (bool)(result == 0); + } + + bool C24LCXX_I2C::Write(const short p_address, const std::string & p_string, const bool p_storeLength, const int p_length2write) { + DEBUG_ENTER("C24LCXX_I2C::Write (std::string)") + return Write(p_address, p_string.c_str(), p_storeLength, p_length2write); + } + + bool C24LCXX_I2C::Write(const short p_address, const std::vector<unsigned char> & p_datas, const bool p_storeLength, const int p_length2write) { + DEBUG_ENTER("C24LCXX_I2C::Write (std::vector)") + + int length = (p_length2write == -1) ? p_datas.size() : p_length2write; + unsigned char array[length]; + std::copy(p_datas.begin(), p_datas.end(), array); + bool result = Write(p_address, array, p_storeLength, length); + wait(0.02); + + DEBUG_LEAVE("C24LCXX_I2C::Write (std::vector): %d", result) + return result; + } + + bool C24LCXX_I2C::Write(const short p_address, const char *p_datas, const bool p_storeLength, const int p_length2write) { + DEBUG_ENTER("C24LCXX_I2C::Write (char *): Memory address: 0x%02x - %x - %d", p_address, p_storeLength, p_length2write) + + // 1.Prepare buffer + int length = (p_length2write == -1) ? strlen(p_datas) : p_length2write; + if (p_storeLength) { + length += 4; // Add four bytes for the length as integer + } + DEBUG("C24LCXX_I2C::Write (char *): length:%d", length) + + char i2cBuffer[2 + length]; + // 1.1. Memory address + short address = p_address + 1; + i2cBuffer[0] = (unsigned char)(address >> 8); + DEBUG("C24LCXX_I2C::Write (char *): pI2CBuffer[0]: 0x%02x", i2cBuffer[0]) + i2cBuffer[1] = (unsigned char)((unsigned char)address & 0xff); + DEBUG("C24LCXX_I2C::Write (char *): pI2CBuffer[1]: 0x%02x", i2cBuffer[1]) + // 1.2. Datas + if (p_storeLength) { + // Fill the length + i2cBuffer[2] = (unsigned char)(length >> 24); + i2cBuffer[3] = (unsigned char)(length >> 16); + i2cBuffer[4] = (unsigned char)(length >> 8); + i2cBuffer[5] = (unsigned char)((unsigned char)length & 0xff); + for (int i = 0; i < length - 4; i++) { + i2cBuffer[6 + i] = *(p_datas + i); + } + } else { // The length was not stored + for (int i = 0; i < length; i++) { + i2cBuffer[2 + i] = *(p_datas + i); + } + } + + // 2. Send I2C start + I2C address + Memory Address + Datas + I2C stop + int result = _i2cInstance->write(_slaveAddress, i2cBuffer, 2 + length); + wait(0.02); + + DEBUG_LEAVE("C24LCXX_I2C::Write (char *) %x", (bool)(result == 0)) + return (bool)(result == 0); + } + + bool C24LCXX_I2C::Write(const short p_address, const unsigned char *p_datas, const bool p_storeLength, const int p_length2write) { + DEBUG_ENTER("C24LCXX_I2C::Write (byte *): Memory address: 0x%02x - %x - %d", p_address, p_storeLength, p_length2write) + return Write(p_address, (const char *)p_datas, p_storeLength, p_length2write); + } + + bool C24LCXX_I2C::Read(const short p_address, unsigned char * p_byte) { + DEBUG_ENTER("C24LCXX_I2C::Read (byte): Memory address:0x%02x", p_address) + + // 1.Prepare buffer + char i2cBuffer[2]; + // 1.1. Memory address + i2cBuffer[0] = (unsigned char)(p_address >> 8); + DEBUG("C24LCXX_I2C::Read (byte): pI2CBuffer[0]: 0x%02x", i2cBuffer[0]) + i2cBuffer[1] = (unsigned char)((unsigned char)p_address & 0xff); + DEBUG("C24LCXX_I2C::Read (byte): pI2CBuffer[1]: 0x%02x", i2cBuffer[1]) + + // 2. Send I2C start + memory address + if (_i2cInstance->write(_slaveAddress, i2cBuffer, 2, true) == 0) { + wait(0.02); + DEBUG("C24LCXX_I2C::Read (byte): Write memory done") + // 2. Read data + I2C stop + int result = _i2cInstance->read(_slaveAddress, (char *)p_byte, 1); + wait(0.02); + + DEBUG_LEAVE("C24LCXX_I2C::Read (byte): %x", (bool)(result == 0)) + return (bool)(result == 0); + } + + DEBUG_LEAVE("C24LCXX_I2C::Read (byte) (false)") + return false; + } + + bool C24LCXX_I2C::Read(const short p_address, short *p_short, const C24LCXX_I2C::Mode p_mode) { + DEBUG_ENTER("C24LCXX_I2C::Read (short): Memory address:0x%02x, Mode:%d", p_address, p_mode) + + // 1.Prepare buffer + char i2cBuffer[2]; + // 1.1. Memory address + i2cBuffer[0] = (unsigned char)(p_address >> 8); + DEBUG("C24LCXX_I2C::Read (short): pI2CBuffer[0]: 0x%02x", i2cBuffer[0]) + i2cBuffer[1] = (unsigned char)((unsigned char)p_address & 0xff); + DEBUG("C24LCXX_I2C::Read (short): pI2CBuffer[1]: 0x%02x", i2cBuffer[1]) + + // 2. Send I2C start + memory address + if (_i2cInstance->write(_slaveAddress, i2cBuffer, 2, true) == 0) { + wait(0.02); + DEBUG("C24LCXX_I2C::Read (short): Write memory done") + // 2. Read data + I2C stop + int result = _i2cInstance->read(_slaveAddress, i2cBuffer, 2); + if (result == 0) { +DEBUG("C24LCXX_I2C::Read (short): value: 0x%02x - 0x%02x", i2cBuffer[0], i2cBuffer[1]) + if (p_mode == BigEndian) { + *p_short = (short)(i2cBuffer[0] << 8 | i2cBuffer[1]); + } else { + *p_short = (short)(i2cBuffer[1] << 8 | i2cBuffer[0]); + } + + DEBUG_LEAVE("C24LCXX_I2C::Read (short): 0x%04x", *p_short) + return true; + } + } + + DEBUG_LEAVE("C24LCXX_I2C::Read (short) (false)") + return false; + } + + bool C24LCXX_I2C::Read(const short p_address, int *p_int, const C24LCXX_I2C::Mode p_mode) { + DEBUG_ENTER("C24LCXX_I2C::Read (int): Memory address:0x%02x, Mode:%d", p_address, p_mode) + + // 1.Prepare buffer + char i2cBuffer[4]; + // 1.1. Memory address + i2cBuffer[0] = (unsigned char)(p_address >> 8); + DEBUG("C24LCXX_I2C::Read (int): pI2CBuffer[0]: 0x%02x", i2cBuffer[0]) + i2cBuffer[1] = (unsigned char)((unsigned char)p_address & 0xff); + DEBUG("C24LCXX_I2C::Read (int): pI2CBuffer[1]: 0x%02x", i2cBuffer[1]) + + // 2. Send I2C start + memory address + if (_i2cInstance->write(_slaveAddress, i2cBuffer, 2, true) == 0) { + wait(0.02); + DEBUG("C24LCXX_I2C::Read (int): Write memory done") + // 2. Read data + I2C stop + int result = _i2cInstance->read(_slaveAddress, i2cBuffer, 4); + if (result == 0) { +DEBUG("C24LCXX_I2C::Read (int): value: 0x%02x - 0x%02x - 0x%02x - 0x%02x", i2cBuffer[0], i2cBuffer[1], i2cBuffer[2], i2cBuffer[3]) + wait(0.02); + if (p_mode == BigEndian) { + *p_int = (int)(i2cBuffer[0] << 24 | i2cBuffer[1] << 16 | i2cBuffer[2] << 8 | i2cBuffer[3]); + } else { + *p_int = (int)(i2cBuffer[3] << 24 | i2cBuffer[2] << 16 | i2cBuffer[1] << 8 | i2cBuffer[0]); + } + + DEBUG_LEAVE("C24LCXX_I2C::Read (int): %d", *p_int) + return true; + } + + DEBUG_LEAVE("C24LCXX_I2C::Read (int):false") + return false; + } + + DEBUG_LEAVE("C24LCXX_I2C::Read (int) (false)") + return false; + } + + bool C24LCXX_I2C::Read(const short p_address, std::vector<unsigned char> & p_datas, const bool p_readLengthFirst, const int p_length2write) { + DEBUG_ENTER("C24LCXX_I2C::Read (vector): Memory address:0x%02x, readLength:%01x, Length:%d", p_address, p_readLengthFirst, p_length2write) + + // 1.Prepare buffer + short address = p_address; + int length = 0; + if (p_readLengthFirst) { + if (!Read(address, &length)) { // Read the length in big endian mode + DEBUG_LEAVE("C24LCXX_I2C::Read (vector) Failed to read length") + return false; + } + DEBUG("C24LCXX_I2C::Read (vector): length= %d", length) + if (length == 0) { + return true; + } + address += 4; // Skip the length value + length -= 4; // length is the size of (string length + string) + } else { + if (p_length2write == -1) { + length = p_datas.size(); + } else { + length = p_length2write; + } + } + DEBUG("C24LCXX_I2C::Read (vector): length= %d", length) + + // 2. Memory address + char i2cBuffer[2]; + i2cBuffer[0] = (unsigned char)(address >> 8); + DEBUG("C24LCXX_I2C::Read (vector): pI2CBuffer[0]: 0x%02x", i2cBuffer[0]) + i2cBuffer[1] = (unsigned char)((unsigned char)address & 0xff); + DEBUG("C24LCXX_I2C::Read (vector): pI2CBuffer[1]: 0x%02x", i2cBuffer[1]) + + // 3. Send I2C start + memory address + if (_i2cInstance->write(_slaveAddress, i2cBuffer, 2, true) == 0) { + wait(0.02); + DEBUG("C24LCXX_I2C::Read (vector): Write memory done") + // 4. read data + I2C stop + unsigned char buffer[length]; + int result = _i2cInstance->read(_slaveAddress, (char *)buffer, length); + wait(0.02); + if (result == 0) { + p_datas.assign(buffer, buffer + length); + + DEBUG_LEAVE("C24LCXX_I2C::Read (vector): %x", (bool)(result == 0)) + return (bool)(result == 0); + } + } + + DEBUG_LEAVE("C24LCXX_I2C::Read (vector) (false)") + return false; + } + + bool C24LCXX_I2C::Read(const short p_address, std::string & p_string, const bool p_readLengthFirst, const int p_length2write) { + DEBUG_ENTER("C24LCXX_I2C::Read (string): Memory address:0x%02x, readLength:%01x, Length:%d", p_address, p_readLengthFirst, p_length2write) + +/* std::vector<unsigned char> datas; + if (Read(p_address, datas, p_readLengthFirst, p_length2write) == true) { + p_string.assign((char *)datas.begin(), datas.size()); + + return true; + } + + DEBUG_LEAVE("C24LCXX_I2C::Read (string) (false)") + return false; +*/ + + // 1.Prepare buffer + short address = p_address; + int length = -1; + if (p_readLengthFirst) { // The string was stored with its length + if (!Read(address, &length)) { // Read the length as integer in big endian mode + DEBUG_ERROR("C24LCXX_I2C::Read (string): Failed to read length") + return false; + } + wait(0.02); + DEBUG("C24LCXX_I2C::Read (string): length=%d", length) + if (length == 0) { + DEBUG_ERROR("C24LCXX_I2C::Read (string): empty") + return true; + } + address += 4; // Skip the length value size + length -= 4; // length is the size of (string length + string) + } else { // The string length is provided by p_length2write parameter + if (p_length2write == -1) { + length = p_string.size(); + } else { + length = p_length2write; + p_string.resize(p_length2write); + } + } + DEBUG("C24LCXX_I2C::Read (string): Address=0x%02x - Length=%d", address, length) + + // 2. Memory address + char i2cBuffer[2]; + i2cBuffer[0] = (unsigned char)(address >> 8); + DEBUG("C24LCXX_I2C::Read (string): pI2CBuffer[0]: 0x%02x", i2cBuffer[0]) + i2cBuffer[1] = (unsigned char)((unsigned char)address & 0xff); + DEBUG("C24LCXX_I2C::Read (string): pI2CBuffer[1]: 0x%02x", i2cBuffer[1]) + + // 3. Send I2C start + memory address with repeat start + if (_i2cInstance->write(_slaveAddress, i2cBuffer, 2, true) == 0) { + wait(0.02); + DEBUG("C24LCXX_I2C::Read (string): Write memory done") + // 4. Read data + I2C stop + char buffer[length]; + int result = _i2cInstance->read(_slaveAddress, (char *)buffer, length); + if (result == 0) { + p_string.assign(buffer, length); + + return true; + } + } + + DEBUG_LEAVE("C24LCXX_I2C::Read (string) (false)") + return false; + } + +#if defined(__DEBUG) + void C24LCXX_I2C::DumpMemoryArea(const int p_address, const int p_count) { + DEBUG_ENTER("C24LCXX_I2C::DumpMemoryArea: %d - %d", p_address, p_count) + + DEBUG("C24LCXX_I2C::DumpMemoryArea: Reading datas..."); + std::vector<unsigned char> datas(p_count); + if (!Read(p_address, datas, false)) { // Read bytes, including the lenght indication, buffer size is not set before the call + std::cout << "C24LCXX_I2C::DumpMemoryArea: read failed\r" << std::endl; + } else { + std::cout << "C24LCXX_I2C::DumpMemoryArea: Read bytes:\r" << std::endl; + HEXADUMP(&datas[0], p_count); + std::cout << "\r" << std::endl; + } + } +#endif // _DEBUG + +} // End of namespace _24LCXX_I2C