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178 lines
7.6 KiB
C++
178 lines
7.6 KiB
C++
/// @file weikai_i2c.cpp
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/// @brief WeiKai component family - classes implementation
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/// @date Last Modified: 2024/04/06 14:43:31
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/// @details The classes declared in this file can be used by the Weikai family
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#include "weikai_i2c.h"
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namespace esphome {
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namespace weikai_i2c {
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static const char *const TAG = "weikai_i2c";
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/// @brief Display a buffer in hexadecimal format (32 hex values / line).
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void print_buffer(const uint8_t *data, size_t length) {
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char hex_buffer[100];
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hex_buffer[(3 * 32) + 1] = 0;
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for (size_t i = 0; i < length; i++) {
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snprintf(&hex_buffer[3 * (i % 32)], sizeof(hex_buffer), "%02X ", data[i]);
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if (i % 32 == 31) {
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ESP_LOGVV(TAG, " %s", hex_buffer);
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}
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}
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if (length % 32) {
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// null terminate if incomplete line
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hex_buffer[3 * (length % 32) + 2] = 0;
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ESP_LOGVV(TAG, " %s", hex_buffer);
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}
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}
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static const char *const REG_TO_STR_P0[16] = {"GENA", "GRST", "GMUT", "SPAGE", "SCR", "LCR", "FCR", "SIER",
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"SIFR", "TFCNT", "RFCNT", "FSR", "LSR", "FDAT", "FWCR", "RS485"};
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static const char *const REG_TO_STR_P1[16] = {"GENA", "GRST", "GMUT", "SPAGE", "BAUD1", "BAUD0", "PRES", "RFTL",
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"TFTL", "FWTH", "FWTL", "XON1", "XOFF1", "SADR", "SAEN", "RTSDLY"};
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using namespace weikai;
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// method to print a register value as text: used in the log messages ...
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const char *reg_to_str(int reg, bool page1) {
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if (reg == WKREG_GPDAT) {
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return "GPDAT";
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} else if (reg == WKREG_GPDIR) {
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return "GPDIR";
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} else {
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return page1 ? REG_TO_STR_P1[reg & 0x0F] : REG_TO_STR_P0[reg & 0x0F];
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}
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}
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enum RegType { REG = 0, FIFO = 1 }; ///< Register or FIFO
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/// @brief Computes the I²C bus's address used to access the component
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/// @param base_address the base address of the component - set by the A1 A0 pins
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/// @param channel (0-3) the UART channel
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/// @param fifo (0-1) 0 = access to internal register, 1 = direct access to fifo
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/// @return the i2c address to use
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inline uint8_t i2c_address(uint8_t base_address, uint8_t channel, RegType fifo) {
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// the address of the device is:
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// +----+----+----+----+----+----+----+----+
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// | 0 | A1 | A0 | 1 | 0 | C1 | C0 | F |
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// +----+----+----+----+----+----+----+----+
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// where:
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// - A1,A0 is the address read from A1,A0 switch
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// - C1,C0 is the channel number (in practice only 00 or 01)
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// - F is: 0 when accessing register, one when accessing FIFO
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uint8_t const addr = base_address | channel << 1 | fifo << 0;
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return addr;
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}
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///////////////////////////////////////////////////////////////////////////////
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// The WeikaiRegisterI2C methods
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///////////////////////////////////////////////////////////////////////////////
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uint8_t WeikaiRegisterI2C::read_reg() const {
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uint8_t value = 0x00;
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WeikaiComponentI2C *comp_i2c = static_cast<WeikaiComponentI2C *>(this->comp_);
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uint8_t address = i2c_address(comp_i2c->base_address_, this->channel_, REG);
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comp_i2c->set_i2c_address(address);
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auto error = comp_i2c->read_register(this->register_, &value, 1);
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if (error == i2c::NO_ERROR) {
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this->comp_->status_clear_warning();
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ESP_LOGVV(TAG, "WeikaiRegisterI2C::read_reg() @%02X reg=%s ch=%u I2C_code:%d, buf=%02X", address,
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reg_to_str(this->register_, comp_i2c->page1()), this->channel_, (int) error, value);
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} else { // error
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this->comp_->status_set_warning();
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ESP_LOGE(TAG, "WeikaiRegisterI2C::read_reg() @%02X reg=%s ch=%u I2C_code:%d, buf=%02X", address,
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reg_to_str(this->register_, comp_i2c->page1()), this->channel_, (int) error, value);
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}
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return value;
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}
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void WeikaiRegisterI2C::read_fifo(uint8_t *data, size_t length) const {
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WeikaiComponentI2C *comp_i2c = static_cast<WeikaiComponentI2C *>(this->comp_);
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uint8_t address = i2c_address(comp_i2c->base_address_, this->channel_, FIFO);
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comp_i2c->set_i2c_address(address);
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auto error = comp_i2c->read(data, length);
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if (error == i2c::NO_ERROR) {
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this->comp_->status_clear_warning();
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#ifdef ESPHOME_LOG_HAS_VERY_VERBOSE
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ESP_LOGVV(TAG, "WeikaiRegisterI2C::read_fifo() @%02X ch=%d I2C_code:%d len=%d buffer", address, this->channel_,
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(int) error, length);
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print_buffer(data, length);
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#endif
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} else { // error
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this->comp_->status_set_warning();
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ESP_LOGE(TAG, "WeikaiRegisterI2C::read_fifo() @%02X reg=N/A ch=%d I2C_code:%d len=%d buf=%02X...", address,
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this->channel_, (int) error, length, data[0]);
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}
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}
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void WeikaiRegisterI2C::write_reg(uint8_t value) {
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WeikaiComponentI2C *comp_i2c = static_cast<WeikaiComponentI2C *>(this->comp_);
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uint8_t address = i2c_address(comp_i2c->base_address_, this->channel_, REG); // update the i2c bus
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comp_i2c->set_i2c_address(address);
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auto error = comp_i2c->write_register(this->register_, &value, 1);
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if (error == i2c::NO_ERROR) {
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this->comp_->status_clear_warning();
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ESP_LOGVV(TAG, "WK2168Reg::write_reg() @%02X reg=%s ch=%d I2C_code:%d buf=%02X", address,
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reg_to_str(this->register_, comp_i2c->page1()), this->channel_, (int) error, value);
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} else { // error
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this->comp_->status_set_warning();
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ESP_LOGE(TAG, "WK2168Reg::write_reg() @%02X reg=%s ch=%d I2C_code:%d buf=%d", address,
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reg_to_str(this->register_, comp_i2c->page1()), this->channel_, (int) error, value);
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}
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}
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void WeikaiRegisterI2C::write_fifo(uint8_t *data, size_t length) {
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WeikaiComponentI2C *comp_i2c = static_cast<WeikaiComponentI2C *>(this->comp_);
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uint8_t address = i2c_address(comp_i2c->base_address_, this->channel_, FIFO); // set fifo flag
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comp_i2c->set_i2c_address(address);
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auto error = comp_i2c->write(data, length);
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if (error == i2c::NO_ERROR) {
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this->comp_->status_clear_warning();
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#ifdef ESPHOME_LOG_HAS_VERY_VERBOSE
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ESP_LOGVV(TAG, "WK2168Reg::write_fifo() @%02X ch=%d I2C_code:%d len=%d buffer", address, this->channel_,
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(int) error, length);
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print_buffer(data, length);
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#endif
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} else { // error
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this->comp_->status_set_warning();
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ESP_LOGE(TAG, "WK2168Reg::write_fifo() @%02X reg=N/A, ch=%d I2C_code:%d len=%d, buf=%02X...", address,
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this->channel_, (int) error, length, data[0]);
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}
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}
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///////////////////////////////////////////////////////////////////////////////
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// The WeikaiComponentI2C methods
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///////////////////////////////////////////////////////////////////////////////
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void WeikaiComponentI2C::setup() {
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// before any manipulation we store the address to base_address_ for future use
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this->base_address_ = this->address_;
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ESP_LOGCONFIG(TAG, "Setting up wk2168_i2c: %s with %d UARTs at @%02X ...", this->get_name(), this->children_.size(),
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this->base_address_);
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// enable all channels
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this->reg(WKREG_GENA, 0) = GENA_C1EN | GENA_C2EN | GENA_C3EN | GENA_C4EN;
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// reset all channels
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this->reg(WKREG_GRST, 0) = GRST_C1RST | GRST_C2RST | GRST_C3RST | GRST_C4RST;
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// initialize the spage register to page 0
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this->reg(WKREG_SPAGE, 0) = 0;
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this->page1_ = false;
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// we setup our children channels
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for (auto *child : this->children_) {
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child->setup_channel();
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}
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}
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void WeikaiComponentI2C::dump_config() {
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ESP_LOGCONFIG(TAG, "Initialization of %s with %d UARTs completed", this->get_name(), this->children_.size());
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ESP_LOGCONFIG(TAG, " Crystal: %" PRIu32, this->crystal_);
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if (test_mode_)
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ESP_LOGCONFIG(TAG, " Test mode: %d", test_mode_);
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ESP_LOGCONFIG(TAG, " Transfer buffer size: %d", XFER_MAX_SIZE);
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this->address_ = this->base_address_; // we restore the base_address before display (less confusing)
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LOG_I2C_DEVICE(this);
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for (auto *child : this->children_) {
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child->dump_channel();
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}
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}
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} // namespace weikai_i2c
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} // namespace esphome
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