LCD Baseshield GSOE GSOF
Dependents: WebserverGSOE_Schnaiter HC05__TI4_RP5_Schnaiter
SoftwareI2C.cpp
- Committer:
- jack1930
- Date:
- 2021-03-12
- Revision:
- 9:b08c2ffb9253
- Parent:
- 8:3bac0faac335
File content as of revision 9:b08c2ffb9253:
/* * mbed Library to use a software master i2c interface on any GPIO pins * Copyright (c) 2012 Christopher Pepper * Released under the MIT License: http://mbed.org/license/mit */ #include "SoftwareI2C.h" /** * @brief Initializes interface * @param sda GPIO pin to use as I2C SDA * @param scl GPIO pin to use as I2C SCL */ SoftwareI2C::SoftwareI2C(PinName sda, PinName scl) : _sda(sda) , _scl(scl) { _scl.output(); _scl.mode(OpenDrain); _sda.output(); _sda.mode(OpenDrain); _device_address = 0; if (HAL_GetDEVID () ==0x437) _frequency_delay = 20;//3; else _frequency_delay = 60;//3; initialise(); } SoftwareI2C::~SoftwareI2C() { } /** * @brief Read 1 or more bytes from the I2C slave * @param device_address The address of the device to read from * @param data An allocated array to read the data into * @param data_bytes Number of bytes to read (must be equal to or less then the allocated memory in data) */ void SoftwareI2C::read(uint8_t device_address, uint8_t* data, uint8_t data_bytes) { if (data == 0 || data_bytes == 0) return; __disable_irq(); device_address = device_address | 0x01; start(); putByte(device_address); getAck(); for (int x = 0; x < data_bytes; ++x) { data[x] = getByte(); if ( x < (data_bytes -1)) { //ack all but the final byte giveAck(); } } stop(); __enable_irq(); } /** * @brief Write 1 or more bytes to the I2C slave * @param device_address The address of the device to write to * @param data An array to write the data from * @param data_bytes Number of bytes to write from array */ void SoftwareI2C::write(uint8_t device_address, uint8_t* data, uint8_t data_bytes) { if (data == 0 || data_bytes == 0) return; __disable_irq(); device_address = device_address & 0xFE; start(); putByte(device_address); getAck(); for ( int x = 0; x < data_bytes; ++x ) { putByte(data[x]); getAck(); } stop(); __enable_irq(); } /** * @brief Write 1 byte to the I2C slave * @param device_address The address of the device to write to * @param byte The data to write */ void SoftwareI2C::write(uint8_t device_address, uint8_t byte) { device_address = device_address & 0xFE; start(); putByte(device_address); getAck(); putByte(byte); getAck(); stop(); } /** * @brief Read 1 or more bytes from the I2C slave at the specified memory address * @param device_address The address of the device to read from * @param start_address The memory address to read from * @param data The allocated array to read into * @param data_bytes The number of bytes to read */ void SoftwareI2C::randomRead(uint8_t device_address, uint8_t start_address, uint8_t* data, uint8_t data_bytes) { if (data == 0 || data_bytes == 0) return; device_address = device_address & 0xFE; start(); putByte(device_address); if (!getAck()) { return; } putByte(start_address); if (!getAck()) { return; } device_address=device_address | 0x01; start(); putByte(device_address); if (!getAck()) { return; } for ( int x = 0; x < data_bytes; ++x) { data[x] = getByte(); if (x != (data_bytes - 1)) giveAck(); } stop(); } /** * @brief Write 1 byte to the I2C slave at the specified memory address * @param device_address The address of the device to write to * @param start_address The memory address to write to * @param byte The data to write */ void SoftwareI2C::randomWrite(uint8_t device_address, uint8_t start_address, uint8_t byte) { device_address = device_address & 0xFE; start(); putByte(device_address); getAck(); putByte(start_address); getAck(); putByte(byte); getAck(); stop(); } /** * @brief Write 1 or more bytes to the I2C slave at the specified memory address * @param device_address The address of the device to write to * @param start_address The memory address to write to * @param data The data to write * @param data_bytes The number of bytes to write */ void SoftwareI2C::randomWrite(uint8_t device_address, uint8_t start_address, uint8_t* data, uint8_t data_bytes) { if (data == 0 || data_bytes == 0) return; device_address = device_address & 0xFE; start(); putByte(device_address); getAck(); putByte(start_address); getAck(); for ( int x = 0; x <= data_bytes; ++x ) { putByte(data[x]); getAck(); } stop(); } /** * @brief Read 2 bytes from the I2C slave at the specified memory address and return them as an 16bit unsigned integer * @param device_address The address of the device to read from * @param start_address The memory address to read from * @return MSB 16bit unsigned integer */ uint16_t SoftwareI2C::read16(uint8_t device_address, uint8_t start_address) { uint8_t short_array[2] = {0, 0}; randomRead(device_address, start_address, short_array, 2 ); uint16_t value = 0; value = short_array[0] << 8; value |= short_array[1]; return value; } /** * @brief Read 3 bytes from the I2C slave at the specified memory address and return them as an 32bit unsigned integer * @param device_address The address of the device to read from * @param start_address The memory address to read from * @return MSB 32bit unsigned integer */ uint32_t SoftwareI2C::read24(uint8_t device_address, uint8_t start_address) { uint8_t value_array[4] = {0, 0, 0}; randomRead(device_address, start_address, value_array, 3 ); uint32_t value = 0; value = value_array[0] << 16; value |= value_array[1] << 8; value |= value_array[2]; return value; } /** * @brief Read 4 bytes from the I2C slave at the specified memory address and return them as an 32bit unsigned integer * @param device_address The address of the device to read from * @param start_address The memory address to read from * @return MSB 32bit unsigned integer */ uint32_t SoftwareI2C::read32(uint8_t device_address, uint8_t start_address) { uint8_t value_array[4] = {0, 0, 0, 0}; randomRead(device_address, start_address, value_array, 4 ); uint32_t value = 0; value = value_array[0] << 24; value |= value_array[1] << 16; value |= value_array[2] << 8; value |= value_array[3]; return value; }