Unverified Commit a069764d authored by James Armstrong's avatar James Armstrong Committed by GitHub

Add setMode function HardwareSerial.c to set the esp32 uart mode for use with...

Add setMode function HardwareSerial.c to set the esp32 uart mode for use with RS485 auto RTS (#7935)

* Added setMode function to set the esp32 uart mode

Used to set the esp32 uart mode for use with RS485 Half Duplex and the auto RTS pin mode. This will set/clear the RTS pin output to control the RE/DE pin on most RS485 chips.

* Add Success (bool) return in some functions

* Add Success (bool) return code to some functions

* Add Success (bool) return to some functions

* Add Success (bool) return to some functions

* Fix uartSetRxTimeout return type

---------
Co-authored-by: default avatarRodrigo Garcia <rodrigo.garcia@espressif.com>
parent 50269f6e
......@@ -233,7 +233,7 @@ void HardwareSerial::onReceive(OnReceiveCb function, bool onlyOnTimeout)
// A low value of FIFO Full bytes will consume more CPU time within the ISR
// A high value of FIFO Full bytes will make the application wait longer to have byte available for the Stkech in a streaming scenario
// Both RX FIFO Full and RX Timeout may affect when onReceive() will be called
void HardwareSerial::setRxFIFOFull(uint8_t fifoBytes)
bool HardwareSerial::setRxFIFOFull(uint8_t fifoBytes)
{
HSERIAL_MUTEX_LOCK();
// in case that onReceive() shall work only with RX Timeout, FIFO shall be high
......@@ -242,14 +242,15 @@ void HardwareSerial::setRxFIFOFull(uint8_t fifoBytes)
fifoBytes = 120;
log_w("OnReceive is set to Timeout only, thus FIFO Full is now 120 bytes.");
}
uartSetRxFIFOFull(_uart, fifoBytes); // Set new timeout
bool retCode = uartSetRxFIFOFull(_uart, fifoBytes); // Set new timeout
if (fifoBytes > 0 && fifoBytes < SOC_UART_FIFO_LEN - 1) _rxFIFOFull = fifoBytes;
HSERIAL_MUTEX_UNLOCK();
return retCode;
}
// timout is calculates in time to receive UART symbols at the UART baudrate.
// the estimation is about 11 bits per symbol (SERIAL_8N1)
void HardwareSerial::setRxTimeout(uint8_t symbols_timeout)
bool HardwareSerial::setRxTimeout(uint8_t symbols_timeout)
{
HSERIAL_MUTEX_LOCK();
......@@ -258,9 +259,10 @@ void HardwareSerial::setRxTimeout(uint8_t symbols_timeout)
_rxTimeout = symbols_timeout;
if (!symbols_timeout) _onReceiveTimeout = false; // only when RX timeout is disabled, we also must disable this flag
uartSetRxTimeout(_uart, _rxTimeout); // Set new timeout
bool retCode = uartSetRxTimeout(_uart, _rxTimeout); // Set new timeout
HSERIAL_MUTEX_UNLOCK();
return retCode;
}
void HardwareSerial::eventQueueReset()
......@@ -548,15 +550,16 @@ void HardwareSerial::setRxInvert(bool invert)
}
// negative Pin value will keep it unmodified
void HardwareSerial::setPins(int8_t rxPin, int8_t txPin, int8_t ctsPin, int8_t rtsPin)
bool HardwareSerial::setPins(int8_t rxPin, int8_t txPin, int8_t ctsPin, int8_t rtsPin)
{
if(_uart == NULL) {
log_e("setPins() shall be called after begin() - nothing done\n");
return;
return false;
}
// uartSetPins() checks if pins are valid for each function and for the SoC
if (uartSetPins(_uart, rxPin, txPin, ctsPin, rtsPin)) {
// uartSetPins() checks if pins are valid for each function and for the SoC
bool retCode = uartSetPins(_uart, rxPin, txPin, ctsPin, rtsPin);
if (retCode) {
_txPin = _txPin >= 0 ? txPin : _txPin;
_rxPin = _rxPin >= 0 ? rxPin : _rxPin;
_rtsPin = _rtsPin >= 0 ? rtsPin : _rtsPin;
......@@ -564,12 +567,19 @@ void HardwareSerial::setPins(int8_t rxPin, int8_t txPin, int8_t ctsPin, int8_t r
} else {
log_e("Error when setting Serial port Pins. Invalid Pin.\n");
}
return retCode;
}
// Enables or disables Hardware Flow Control using RTS and/or CTS pins (must use setAllPins() before)
void HardwareSerial::setHwFlowCtrlMode(uint8_t mode, uint8_t threshold)
bool HardwareSerial::setHwFlowCtrlMode(uint8_t mode, uint8_t threshold)
{
return uartSetHwFlowCtrlMode(_uart, mode, threshold);
}
// Sets the uart mode in the esp32 uart for use with RS485 modes (HwFlowCtrl must be disabled and RTS pin set)
bool HardwareSerial::setMode(uint8_t mode)
{
uartSetHwFlowCtrlMode(_uart, mode, threshold);
return uartSetMode(_uart, mode);
}
size_t HardwareSerial::setRxBufferSize(size_t new_size) {
......
......@@ -80,13 +80,13 @@ public:
// Examples: Maximum for 11 bits symbol is 92 (SERIAL_8N2, SERIAL_8E1, SERIAL_8O1, etc), Maximum for 10 bits symbol is 101 (SERIAL_8N1).
// For example symbols_timeout=1 defines a timeout equal to transmission time of one symbol (~11 bit) on current baudrate.
// For a baudrate of 9600, SERIAL_8N1 (10 bit symbol) and symbols_timeout = 3, the timeout would be 3 / (9600 / 10) = 3.125 ms
void setRxTimeout(uint8_t symbols_timeout);
bool setRxTimeout(uint8_t symbols_timeout);
// setRxFIFOFull(uint8_t fifoBytes) will set the number of bytes that will trigger UART_INTR_RXFIFO_FULL interrupt and fill up RxRingBuffer
// This affects some functions such as Serial::available() and Serial.read() because, in a UART flow of receiving data, Serial internal
// RxRingBuffer will be filled only after these number of bytes arrive or a RX Timeout happens.
// This parameter can be set to 1 in order to receive byte by byte, but it will also consume more CPU time as the ISR will be activates often.
void setRxFIFOFull(uint8_t fifoBytes);
bool setRxFIFOFull(uint8_t fifoBytes);
// onReceive will setup a callback that will be called whenever an UART interruption occurs (UART_INTR_RXFIFO_FULL or UART_INTR_RXFIFO_TOUT)
// UART_INTR_RXFIFO_FULL interrupt triggers at UART_FULL_THRESH_DEFAULT bytes received (defined as 120 bytes by default in IDF)
......@@ -161,10 +161,11 @@ public:
// Negative Pin Number will keep it unmodified, thus this function can set individual pins
// SetPins shall be called after Serial begin()
void setPins(int8_t rxPin, int8_t txPin, int8_t ctsPin = -1, int8_t rtsPin = -1);
bool setPins(int8_t rxPin, int8_t txPin, int8_t ctsPin = -1, int8_t rtsPin = -1);
// Enables or disables Hardware Flow Control using RTS and/or CTS pins (must use setAllPins() before)
void setHwFlowCtrlMode(uint8_t mode = HW_FLOWCTRL_CTS_RTS, uint8_t threshold = 64); // 64 is half FIFO Length
bool setHwFlowCtrlMode(uint8_t mode = HW_FLOWCTRL_CTS_RTS, uint8_t threshold = 64); // 64 is half FIFO Length
// Used to set RS485 modes such as UART_MODE_RS485_HALF_DUPLEX for Auto RTS function on ESP32
bool setMode(uint8_t mode);
size_t setRxBufferSize(size_t new_size);
size_t setTxBufferSize(size_t new_size);
......
......@@ -160,13 +160,16 @@ bool uartSetPins(uart_t* uart, int8_t rxPin, int8_t txPin, int8_t ctsPin, int8_t
}
//
void uartSetHwFlowCtrlMode(uart_t *uart, uint8_t mode, uint8_t threshold) {
bool uartSetHwFlowCtrlMode(uart_t *uart, uint8_t mode, uint8_t threshold) {
if(uart == NULL) {
return;
return false;
}
// IDF will issue corresponding error message when mode or threshold are wrong and prevent crashing
// IDF will check (mode > HW_FLOWCTRL_CTS_RTS || threshold >= SOC_UART_FIFO_LEN)
uart_set_hw_flow_ctrl(uart->num, (uart_hw_flowcontrol_t) mode, threshold);
UART_MUTEX_LOCK();
bool retCode = (ESP_OK == uart_set_hw_flow_ctrl(uart->num, (uart_hw_flowcontrol_t) mode, threshold));
UART_MUTEX_UNLOCK();
return retCode;
}
......@@ -244,26 +247,28 @@ void uartSetFastReading(uart_t* uart)
}
void uartSetRxTimeout(uart_t* uart, uint8_t numSymbTimeout)
bool uartSetRxTimeout(uart_t* uart, uint8_t numSymbTimeout)
{
if(uart == NULL) {
return;
return false;
}
UART_MUTEX_LOCK();
uart_set_rx_timeout(uart->num, numSymbTimeout);
bool retCode = (ESP_OK == uart_set_rx_timeout(uart->num, numSymbTimeout));
UART_MUTEX_UNLOCK();
return retCode;
}
void uartSetRxFIFOFull(uart_t* uart, uint8_t numBytesFIFOFull)
bool uartSetRxFIFOFull(uart_t* uart, uint8_t numBytesFIFOFull)
{
if(uart == NULL) {
return;
return false;
}
UART_MUTEX_LOCK();
uart_set_rx_full_threshold(uart->num, numBytesFIFOFull);
bool retCode = (ESP_OK == uart_set_rx_full_threshold(uart->num, numBytesFIFOFull));
UART_MUTEX_UNLOCK();
return retCode;
}
void uartEnd(uart_t* uart)
......@@ -518,6 +523,21 @@ void uart_install_putc()
}
}
// Routines that take care of UART mode in the HardwareSerial Class code
// used to set UART_MODE_RS485_HALF_DUPLEX auto RTS for TXD for ESP32 chips
bool uartSetMode(uart_t *uart, uint8_t mode)
{
if (uart == NULL || uart->num >= SOC_UART_NUM)
{
return false;
}
UART_MUTEX_LOCK();
bool retCode = (ESP_OK == uart_set_mode(uart->num, mode));
UART_MUTEX_UNLOCK();
return retCode;
}
void uartSetDebug(uart_t* uart)
{
if(uart == NULL || uart->num >= SOC_UART_NUM) {
......
......@@ -58,6 +58,15 @@ extern "C" {
#define HW_FLOWCTRL_CTS 0x2 // use only CTS PIN for HW Flow Control
#define HW_FLOWCTRL_CTS_RTS 0x3 // use both CTS and RTS PIN for HW Flow Control
// These are Hardware Uart Modes possible usage
// equivalent to UDF enum uart_mode_t from
// https://github.com/espressif/esp-idf/blob/master/components/hal/include/hal/uart_types.h#L34-L40
#define MODE_UART 0x00 // mode: regular UART mode
#define MODE_RS485_HALF_DUPLEX 0x01 // mode: half duplex RS485 UART mode control by RTS pin
#define MODE_IRDA 0x02 // mode: IRDA UART mode
#define MODE_RS485_COLLISION_DETECT 0x03 // mode: RS485 collision detection UART mode (used for test purposes)
#define MODE_RS485_APP_CTRL 0x04
struct uart_struct_t;
typedef struct uart_struct_t uart_t;
......@@ -83,8 +92,8 @@ void uartSetBaudRate(uart_t* uart, uint32_t baud_rate);
uint32_t uartGetBaudRate(uart_t* uart);
void uartSetRxInvert(uart_t* uart, bool invert);
void uartSetRxTimeout(uart_t* uart, uint8_t numSymbTimeout);
void uartSetRxFIFOFull(uart_t* uart, uint8_t numBytesFIFOFull);
bool uartSetRxTimeout(uart_t* uart, uint8_t numSymbTimeout);
bool uartSetRxFIFOFull(uart_t* uart, uint8_t numBytesFIFOFull);
void uartSetFastReading(uart_t* uart);
void uartSetDebug(uart_t* uart);
......@@ -97,7 +106,11 @@ bool uartSetPins(uart_t* uart, int8_t rxPin, int8_t txPin, int8_t ctsPin, int8_t
void uartDetachPins(uart_t* uart, int8_t rxPin, int8_t txPin, int8_t ctsPin, int8_t rtsPin);
// Enables or disables HW Flow Control function -- needs also to set CTS and/or RTS pins
void uartSetHwFlowCtrlMode(uart_t *uart, uint8_t mode, uint8_t threshold);
bool uartSetHwFlowCtrlMode(uart_t *uart, uint8_t mode, uint8_t threshold);
// Used to set RS485 function -- needs to disable HW Flow Control and set RTS pin to use
// RTS pin becomes RS485 half duplex RE/DE
bool uartSetMode(uart_t *uart, uint8_t mode);
void uartStartDetectBaudrate(uart_t *uart);
unsigned long uartDetectBaudrate(uart_t *uart);
......
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