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Fix I2C recovery ESP32 esp-idf (#2438)
Co-authored-by: Maurice Makaay <mmakaay1@xs4all.net>
This commit is contained in:
parent
49f46a7cdd
commit
5c06cd8eb3
3 changed files with 137 additions and 44 deletions
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@ -12,6 +12,7 @@ static const char *const TAG = "i2c.arduino";
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void ArduinoI2CBus::setup() {
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recover_();
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#ifdef USE_ESP32
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static uint8_t next_bus_num = 0;
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if (next_bus_num == 0)
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@ -109,11 +110,19 @@ ErrorCode ArduinoI2CBus::writev(uint8_t address, WriteBuffer *buffers, size_t cn
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void ArduinoI2CBus::recover_() {
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ESP_LOGI(TAG, "Performing I2C bus recovery");
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// Activate the pull up resistor on the SCL pin. This should make the
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// signal on the line HIGH. If SCL is pulled low on the I2C bus however,
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// then some device is interfering with the SCL line. In that case,
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// the I2C bus cannot be recovered.
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// For the upcoming operations, target for a 100kHz toggle frequency.
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// This is the maximum frequency for I2C running in standard-mode.
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// The actual frequency will be lower, because of the additional
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// function calls that are done, but that is no problem.
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const auto half_period_usec = 1000000 / 100000 / 2;
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// Activate input and pull up resistor for the SCL pin.
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pinMode(scl_pin_, INPUT_PULLUP); // NOLINT
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// This should make the signal on the line HIGH. If SCL is pulled low
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// on the I2C bus however, then some device is interfering with the SCL
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// line. In that case, the I2C bus cannot be recovered.
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delayMicroseconds(half_period_usec);
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if (digitalRead(scl_pin_) == LOW) { // NOLINT
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ESP_LOGE(TAG, "Recovery failed: SCL is held LOW on the I2C bus");
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recovery_result_ = RECOVERY_FAILED_SCL_LOW;
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@ -125,25 +134,13 @@ void ArduinoI2CBus::recover_() {
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// device that held the bus LOW should release it sometime within
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// those nine clocks."
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// We don't really have to detect if SDA is stuck low. We'll simply send
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// nine clock pulses here, just in case SDA is stuck.
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// nine clock pulses here, just in case SDA is stuck. Actual checks on
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// the SDA line status will be done after the clock pulses.
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// Use a 100kHz toggle frequency (i.e. the maximum frequency for I2C
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// running in standard-mode). The resulting frequency will be lower,
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// because of the additional function calls that are done, but that
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// is no problem.
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const auto half_period_usec = 1000000 / 100000 / 2;
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// Make sure that switching to mode OUTPUT will make SCL low, just in
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// case other code has setup the pin to output a HIGH signal.
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// Make sure that switching to output mode will make SCL low, just in
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// case other code has setup the pin for a HIGH signal.
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digitalWrite(scl_pin_, LOW); // NOLINT
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// Activate the pull up resistor for SDA, so after the clock pulse cycle
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// we can verify if SDA is pulled high. Also make sure that switching to
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// mode OUTPUT will make SDA low.
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pinMode(sda_pin_, INPUT_PULLUP); // NOLINT
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digitalWrite(sda_pin_, LOW); // NOLINT
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ESP_LOGI(TAG, "Sending 9 clock pulses to drain any stuck device output");
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delayMicroseconds(half_period_usec);
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for (auto i = 0; i < 9; i++) {
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// Release pull up resistor and switch to output to make the signal LOW.
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@ -171,6 +168,11 @@ void ArduinoI2CBus::recover_() {
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}
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}
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// Activate input and pull resistor for the SDA pin, so we can verify
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// that SDA is pulled HIGH in the following step.
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pinMode(sda_pin_, INPUT_PULLUP); // NOLINT
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digitalWrite(sda_pin_, LOW); // NOLINT
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// By now, any stuck device ought to have sent all remaining bits of its
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// transation, meaning that it should have freed up the SDA line, resulting
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// in SDA being pulled up.
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@ -191,10 +193,9 @@ void ArduinoI2CBus::recover_() {
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// out of this state.
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// SCL and SDA are already high at this point, so we can generate a START
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// condition by making the SDA signal LOW.
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ESP_LOGI(TAG, "Generate START condition to reset bus logic of I2C devices");
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delayMicroseconds(half_period_usec);
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pinMode(sda_pin_, INPUT); // NOLINT
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pinMode(sda_pin_, OUTPUT); // NOLINT
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delayMicroseconds(half_period_usec);
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// From the specification:
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// "A START condition immediately followed by a STOP condition (void
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@ -202,7 +203,7 @@ void ArduinoI2CBus::recover_() {
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// operate properly under this condition."
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// Finally, we'll bring the I2C bus into a starting state by generating
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// a STOP condition.
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ESP_LOGI(TAG, "Generate STOP condition to finalize recovery");
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delayMicroseconds(half_period_usec);
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pinMode(sda_pin_, INPUT); // NOLINT
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pinMode(sda_pin_, INPUT_PULLUP); // NOLINT
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@ -43,6 +43,17 @@ void IDFI2CBus::dump_config() {
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ESP_LOGCONFIG(TAG, " SDA Pin: GPIO%u", this->sda_pin_);
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ESP_LOGCONFIG(TAG, " SCL Pin: GPIO%u", this->scl_pin_);
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ESP_LOGCONFIG(TAG, " Frequency: %u Hz", this->frequency_);
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switch (this->recovery_result_) {
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case RECOVERY_COMPLETED:
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ESP_LOGCONFIG(TAG, " Recovery: bus successfully recovered");
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break;
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case RECOVERY_FAILED_SCL_LOW:
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ESP_LOGCONFIG(TAG, " Recovery: failed, SCL is held low on the bus");
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break;
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case RECOVERY_FAILED_SDA_LOW:
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ESP_LOGCONFIG(TAG, " Recovery: failed, SDA is held low on the bus");
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break;
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}
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if (this->scan_) {
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ESP_LOGI(TAG, "Scanning i2c bus for active devices...");
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uint8_t found = 0;
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@ -144,39 +155,113 @@ ErrorCode IDFI2CBus::writev(uint8_t address, WriteBuffer *buffers, size_t cnt) {
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return ERROR_OK;
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}
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/// Perform I2C bus recovery, see:
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/// https://www.nxp.com/docs/en/user-guide/UM10204.pdf
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/// https://www.analog.com/media/en/technical-documentation/application-notes/54305147357414AN686_0.pdf
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void IDFI2CBus::recover_() {
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// Perform I2C bus recovery, see
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// https://www.analog.com/media/en/technical-documentation/application-notes/54305147357414AN686_0.pdf
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// or see the linux kernel implementation, e.g.
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// https://elixir.bootlin.com/linux/v5.14.6/source/drivers/i2c/i2c-core-base.c#L200
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ESP_LOGI(TAG, "Performing I2C bus recovery");
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// try to get about 100kHz toggle frequency
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const auto half_period_usec = 1000000 / 100000 / 2;
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const auto recover_scl_periods = 9;
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const gpio_num_t scl_pin = static_cast<gpio_num_t>(scl_pin_);
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const gpio_num_t sda_pin = static_cast<gpio_num_t>(sda_pin_);
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// configure scl as output
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gpio_config_t conf{};
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conf.pin_bit_mask = 1ULL << static_cast<uint32_t>(scl_pin_);
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conf.mode = GPIO_MODE_OUTPUT;
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conf.pull_up_en = GPIO_PULLUP_DISABLE;
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conf.pull_down_en = GPIO_PULLDOWN_DISABLE;
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conf.intr_type = GPIO_INTR_DISABLE;
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// For the upcoming operations, target for a 60kHz toggle frequency.
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// 1000kHz is the maximum frequency for I2C running in standard-mode,
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// but lower frequencies are not a problem.
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// Note: the timing that is used here is chosen manually, to get
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// results that are close to the timing that can be archieved by the
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// implementation for the Arduino framework.
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const auto half_period_usec = 7;
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gpio_config(&conf);
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// set scl high
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// Configure SCL pin for open drain input/output, with a pull up resistor.
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gpio_set_level(scl_pin, 1);
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gpio_config_t scl_config{};
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scl_config.pin_bit_mask = 1ULL << scl_pin_;
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scl_config.mode = GPIO_MODE_INPUT_OUTPUT_OD;
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scl_config.pull_up_en = GPIO_PULLUP_ENABLE;
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scl_config.pull_down_en = GPIO_PULLDOWN_DISABLE;
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scl_config.intr_type = GPIO_INTR_DISABLE;
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gpio_config(&scl_config);
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// in total generate 9 falling-rising edges
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for (auto i = 0; i < recover_scl_periods; i++) {
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// Configure SDA pin for open drain input/output, with a pull up resistor.
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gpio_set_level(sda_pin, 1);
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gpio_config_t sda_conf{};
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sda_conf.pin_bit_mask = 1ULL << sda_pin_;
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sda_conf.mode = GPIO_MODE_INPUT_OUTPUT_OD;
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sda_conf.pull_up_en = GPIO_PULLUP_ENABLE;
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sda_conf.pull_down_en = GPIO_PULLDOWN_DISABLE;
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sda_conf.intr_type = GPIO_INTR_DISABLE;
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gpio_config(&sda_conf);
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// If SCL is pulled low on the I2C bus, then some device is interfering
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// with the SCL line. In that case, the I2C bus cannot be recovered.
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delayMicroseconds(half_period_usec);
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if (gpio_get_level(scl_pin) == 0) {
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ESP_LOGE(TAG, "Recovery failed: SCL is held LOW on the I2C bus");
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recovery_result_ = RECOVERY_FAILED_SCL_LOW;
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return;
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}
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// From the specification:
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// "If the data line (SDA) is stuck LOW, send nine clock pulses. The
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// device that held the bus LOW should release it sometime within
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// those nine clocks."
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// We don't really have to detect if SDA is stuck low. We'll simply send
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// nine clock pulses here, just in case SDA is stuck. Actual checks on
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// the SDA line status will be done after the clock pulses.
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for (auto i = 0; i < 9; i++) {
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gpio_set_level(scl_pin, 0);
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delayMicroseconds(half_period_usec);
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gpio_set_level(scl_pin, 1);
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delayMicroseconds(half_period_usec);
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// When SCL is kept LOW at this point, we might be looking at a device
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// that applies clock stretching. Wait for the release of the SCL line,
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// but not forever. There is no specification for the maximum allowed
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// time. We'll stick to 500ms here.
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auto wait = 20;
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while (wait-- && gpio_get_level(scl_pin) == 0) {
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delay(25);
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}
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if (gpio_get_level(scl_pin) == 0) {
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ESP_LOGE(TAG, "Recovery failed: SCL is held LOW during clock pulse cycle");
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recovery_result_ = RECOVERY_FAILED_SCL_LOW;
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return;
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}
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}
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// By now, any stuck device ought to have sent all remaining bits of its
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// transation, meaning that it should have freed up the SDA line, resulting
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// in SDA being pulled up.
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if (gpio_get_level(sda_pin) == 0) {
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ESP_LOGE(TAG, "Recovery failed: SDA is held LOW after clock pulse cycle");
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recovery_result_ = RECOVERY_FAILED_SDA_LOW;
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return;
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}
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// From the specification:
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// "I2C-bus compatible devices must reset their bus logic on receipt of
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// a START or repeated START condition such that they all anticipate
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// the sending of a target address, even if these START conditions are
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// not positioned according to the proper format."
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// While the 9 clock pulses from above might have drained all bits of a
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// single byte within a transaction, a device might have more bytes to
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// transmit. So here we'll generate a START condition to snap the device
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// out of this state.
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// SCL and SDA are already high at this point, so we can generate a START
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// condition by making the SDA signal LOW.
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delayMicroseconds(half_period_usec);
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gpio_set_level(sda_pin, 0);
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// From the specification:
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// "A START condition immediately followed by a STOP condition (void
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// message) is an illegal format. Many devices however are designed to
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// operate properly under this condition."
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// Finally, we'll bring the I2C bus into a starting state by generating
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// a STOP condition.
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delayMicroseconds(half_period_usec);
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gpio_set_level(sda_pin, 1);
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recovery_result_ = RECOVERY_COMPLETED;
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}
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} // namespace i2c
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@ -9,6 +9,12 @@
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namespace esphome {
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namespace i2c {
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enum RecoveryCode {
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RECOVERY_FAILED_SCL_LOW,
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RECOVERY_FAILED_SDA_LOW,
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RECOVERY_COMPLETED,
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};
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class IDFI2CBus : public I2CBus, public Component {
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public:
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void setup() override;
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@ -26,6 +32,7 @@ class IDFI2CBus : public I2CBus, public Component {
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private:
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void recover_();
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RecoveryCode recovery_result_;
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protected:
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i2c_port_t port_;
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