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gpio/uart_demo/uart_helper-new.txt
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272
gpio/uart_demo/uart_helper-new.txt
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/**
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* UartHelper is a utility class that helps with reading lines of data from a UART.
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* It uses a stream buffer to receive data from the UART ISR, and a worker thread
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* to dequeue data from the stream buffer and process it. The worker thread uses
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* a ring buffer to hold data until a delimiter is found, at which point the line
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* is extracted and the process_line callback is invoked.
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*
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* @author CodeAllNight
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*/
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#include <furi_hal.h>
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#include "ring_buffer.h"
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/**
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* Callback invoked when a line is read from the UART.
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*/
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typedef void (*ProcessLine)(FuriString* line, void* context);
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/**
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* UartHelper is a utility class that helps with reading lines of data from a UART.
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*/
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typedef struct {
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// UART bus & channel to use
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FuriHalBus uart_bus;
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FuriHalSerialHandle* serial_handle;
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bool uart_init_by_app;
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// Stream buffer to hold incoming data (worker will dequeue and process)
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FuriStreamBuffer* rx_stream;
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// Worker thread that dequeues data from the stream buffer and processes it
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FuriThread* worker_thread;
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// Buffer to hold data until a delimiter is found
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RingBuffer* ring_buffer;
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// Callback to invoke when a line is read
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ProcessLine process_line;
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void* context;
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} UartHelper;
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/**
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* WorkerEventFlags are used to signal the worker thread to exit or to process data.
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* Each flag is a bit in a 32-bit integer, so we can use the FuriThreadFlags API to
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* wait for either flag to be set.
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*/
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typedef enum {
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WorkerEventDataWaiting = 1 << 0, // bit flag 0 - data is waiting to be processed
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WorkerEventExiting = 1 << 1, // bit flag 1 - worker thread is exiting
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} WorkerEventFlags;
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/**
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* Invoked when a byte of data is received on the UART bus. This function
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* adds the byte to the stream buffer and sets the WorkerEventDataWaiting flag.
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*
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* @param handle Serial handle
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* @param event FuriHalSerialRxEvent
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* @param context UartHelper instance
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*/
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static void uart_helper_received_byte_callback(
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FuriHalSerialHandle* handle,
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FuriHalSerialRxEvent event,
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void* context) {
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UartHelper* helper = context;
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if(event == FuriHalSerialRxEventData) {
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uint8_t data = furi_hal_serial_async_rx(handle);
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furi_stream_buffer_send(helper->rx_stream, (void*)&data, 1, 0);
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furi_thread_flags_set(furi_thread_get_id(helper->worker_thread), WorkerEventDataWaiting);
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}
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}
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/**
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* Worker thread that dequeues data from the stream buffer and processes it. When
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* a delimiter is found in the data, the line is extracted and the process_line callback
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* is invoked. This thread will exit when the WorkerEventExiting flag is set.
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*
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* @param context UartHelper instance
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* @return 0
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*/
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static int32_t uart_helper_worker(void* context) {
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UartHelper* helper = context;
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FuriString* line = furi_string_alloc();
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uint32_t events;
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do {
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events = furi_thread_flags_wait(
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WorkerEventDataWaiting | WorkerEventExiting, FuriFlagWaitAny, FuriWaitForever);
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if(events & WorkerEventDataWaiting) {
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size_t length_read = 0;
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do {
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// We will read out of the stream into this temporary read_buffer in chunks
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// of up to 32 bytes. A tricker implementation would be to read directly
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// into our ring_buffer, avoiding the extra copy.
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uint8_t read_buffer[32];
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size_t available = ring_buffer_available(helper->ring_buffer);
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if(available == 0) {
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// In our case, the buffer is large enough to hold the entire response,
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// so we should never hit this case & data loss is fine in the
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// exceptional case.
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// If loosing data is unacceptable, you could transfer the buffer into
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// a string and prepend that to the response, or you could increase the
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// size of the buffer.
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// Buffer is full, so data loss will happen at beginning of string!
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// We read one byte (hopefully the delimiter).
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available = 1;
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}
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// We will read up to 32 bytes, but no more than the available space in the
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// ring buffer.
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size_t request_bytes = available < COUNT_OF(read_buffer) ? available :
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COUNT_OF(read_buffer);
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// hasDelim will be true if at least one delimiter was found in the data.
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bool hasDelim = false;
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// Read up to 32 bytes from the stream buffer into our temporary read_buffer.
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length_read =
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furi_stream_buffer_receive(helper->rx_stream, read_buffer, request_bytes, 0);
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// Add the data to the ring buffer, check for delimiters, and process lines.
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if(length_read > 0) {
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// Add the data to the ring buffer. If at least one delimiter is found,
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// hasDelim will be true.
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hasDelim = ring_buffer_add(helper->ring_buffer, read_buffer, length_read);
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if(hasDelim) {
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size_t index;
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do {
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// Find the next delimiter in the ring buffer.
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index = ring_buffer_find_delim(helper->ring_buffer);
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// If a delimiter was found, extract the line and process it.
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if(index != FURI_STRING_FAILURE) {
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// Extract the line from the ring buffer, advancing the read
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// pointer to the next byte after the delimiter.
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ring_buffer_extract_line(helper->ring_buffer, index, line);
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// Invoke the callback to process the line.
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if(helper->process_line) {
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helper->process_line(line, helper->context);
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}
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}
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} while(index != FURI_STRING_FAILURE);
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}
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}
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// Keep reading until we have read all of the data from the stream buffer.
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} while(length_read > 0);
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}
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// Keep processing data until the WorkerEventExiting flag is set.
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} while((events & WorkerEventExiting) != WorkerEventExiting);
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furi_string_free(line);
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return 0;
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}
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UartHelper* uart_helper_alloc() {
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// rx_buffer_size should be large enough to hold the entire response from the device.
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const size_t rx_buffer_size = 2048;
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// worker_stack_size should be large enough stack for the worker thread (including functions it calls).
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const size_t worker_stack_size = 1024;
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// uart_baud is the default baud rate for the UART.
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const uint32_t uart_baud = 115200;
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// The uart_helper uses USART1.
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UartHelper* helper = malloc(sizeof(UartHelper));
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helper->uart_bus = FuriHalBusUSART1;
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helper->serial_handle = furi_hal_serial_control_acquire(FuriHalSerialIdUsart);
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// Typically the UART is already enabled and will assert if you try to enable again.
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helper->uart_init_by_app = !furi_hal_bus_is_enabled(helper->uart_bus);
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if(helper->uart_init_by_app) {
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furi_hal_serial_init(helper->serial_handle, uart_baud);
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} else {
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// If UART is already initialized, disable the console so it doesn't write to the UART.
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// furi_hal_console_disable();
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}
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// process_line callback gets invoked when a line is read. By default the callback is not set.
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helper->process_line = NULL;
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// Set the baud rate for the UART
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furi_hal_serial_set_br(helper->serial_handle, uart_baud);
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// When a byte of data is received, it will be appended to the rx_stream. A worker thread
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// will dequeue the data from the rx_stream.
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helper->rx_stream = furi_stream_buffer_alloc(rx_buffer_size, 1);
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// The worker thread will remove the data from the rx_stream and copy it into the ring_buffer.
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// The worker thread will then process the data in the ring_buffer, invoking the process_line
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// callback whenever a delimiter is found in the data.
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helper->ring_buffer = ring_buffer_alloc();
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// worker_thread is the routine that will process data from the rx_stream.
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helper->worker_thread =
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furi_thread_alloc_ex("UartHelperWorker", worker_stack_size, uart_helper_worker, helper);
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furi_thread_start(helper->worker_thread);
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// Set the callback to invoke when data is received.
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furi_hal_serial_async_rx_start(
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helper->serial_handle, uart_helper_received_byte_callback, helper, false);
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return helper;
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}
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void uart_helper_set_delimiter(UartHelper* helper, char delimiter, bool include_delimiter) {
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// Update the delimiter character and flag to determine if delimiter should be part
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// of the response to the process_line callback.
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ring_buffer_set_delimiter(helper->ring_buffer, delimiter, include_delimiter);
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}
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void uart_helper_set_callback(UartHelper* helper, ProcessLine process_line, void* context) {
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// Set the process_line callback and context.
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helper->process_line = process_line;
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helper->context = context;
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}
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void uart_helper_set_baud_rate(UartHelper* helper, uint32_t baud_rate) {
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// Update the baud rate for the UART.
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furi_hal_serial_set_br(helper->serial_handle, baud_rate);
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ring_buffer_clear(helper->ring_buffer);
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}
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void uart_helper_send(UartHelper* helper, const char* data, size_t length) {
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// Transmit data via UART TX.
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furi_hal_serial_tx(helper->serial_handle, (uint8_t*)data, length);
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}
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void uart_helper_send_string(UartHelper* helper, FuriString* string) {
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const char* str = furi_string_get_cstr(string);
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// UTF-8 strings can have character counts different then lengths!
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// Count the bytes until a null is encountered.
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size_t length = 0;
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while(str[length] != 0) {
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length++;
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}
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// Transmit data
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uart_helper_send(helper, str, length);
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}
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void uart_helper_free(UartHelper* helper) {
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// Signal that we want the worker to exit. It may be doing other work.
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furi_thread_flags_set(furi_thread_get_id(helper->worker_thread), WorkerEventExiting);
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// Wait for the worker_thread to complete it's work and release its resources.
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furi_thread_join(helper->worker_thread);
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// Free the worker_thread.
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furi_thread_free(helper->worker_thread);
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furi_hal_serial_control_release(helper->serial_handle);
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// If the UART was initialized by the application, deinitialize it, otherwise re-enable the console.
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if(helper->uart_init_by_app) {
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furi_hal_serial_deinit(helper->serial_handle);
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} else {
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// furi_hal_console_enable();
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}
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// Free the rx_stream and ring_buffer.
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furi_stream_buffer_free(helper->rx_stream);
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ring_buffer_free(helper->ring_buffer);
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free(helper);
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}
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