Zephyr API Documentation
3.7.0
A Scalable Open Source RTOS
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Typedefs | |
typedef void(* | uart_irq_callback_user_data_t) (const struct device *dev, void *user_data) |
Define the application callback function signature for uart_irq_callback_user_data_set() function. | |
typedef void(* | uart_irq_config_func_t) (const struct device *dev) |
For configuring IRQ on each individual UART device. | |
Functions | |
static int | uart_fifo_fill (const struct device *dev, const uint8_t *tx_data, int size) |
Fill FIFO with data. | |
static int | uart_fifo_fill_u16 (const struct device *dev, const uint16_t *tx_data, int size) |
Fill FIFO with wide data. | |
static int | uart_fifo_read (const struct device *dev, uint8_t *rx_data, const int size) |
Read data from FIFO. | |
static int | uart_fifo_read_u16 (const struct device *dev, uint16_t *rx_data, const int size) |
Read wide data from FIFO. | |
void | uart_irq_tx_enable (const struct device *dev) |
Enable TX interrupt in IER. | |
void | uart_irq_tx_disable (const struct device *dev) |
Disable TX interrupt in IER. | |
static int | uart_irq_tx_ready (const struct device *dev) |
Check if UART TX buffer can accept a new char. | |
void | uart_irq_rx_enable (const struct device *dev) |
Enable RX interrupt. | |
void | uart_irq_rx_disable (const struct device *dev) |
Disable RX interrupt. | |
static int | uart_irq_tx_complete (const struct device *dev) |
Check if UART TX block finished transmission. | |
static int | uart_irq_rx_ready (const struct device *dev) |
Check if UART RX buffer has a received char. | |
void | uart_irq_err_enable (const struct device *dev) |
Enable error interrupt. | |
void | uart_irq_err_disable (const struct device *dev) |
Disable error interrupt. | |
int | uart_irq_is_pending (const struct device *dev) |
Check if any IRQs is pending. | |
int | uart_irq_update (const struct device *dev) |
Start processing interrupts in ISR. | |
static int | uart_irq_callback_user_data_set (const struct device *dev, uart_irq_callback_user_data_t cb, void *user_data) |
Set the IRQ callback function pointer. | |
static int | uart_irq_callback_set (const struct device *dev, uart_irq_callback_user_data_t cb) |
Set the IRQ callback function pointer (legacy). | |
typedef void(* uart_irq_callback_user_data_t) (const struct device *dev, void *user_data) |
#include <zephyr/drivers/uart.h>
Define the application callback function signature for uart_irq_callback_user_data_set() function.
dev | UART device instance. |
user_data | Arbitrary user data. |
typedef void(* uart_irq_config_func_t) (const struct device *dev) |
#include <zephyr/drivers/uart.h>
For configuring IRQ on each individual UART device.
dev | UART device instance. |
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inlinestatic |
#include <zephyr/drivers/uart.h>
Fill FIFO with data.
This function is expected to be called from UART interrupt handler (ISR), if uart_irq_tx_ready() returns true. Result of calling this function not from an ISR is undefined (hardware-dependent). Likewise, not calling this function from an ISR if uart_irq_tx_ready() returns true may lead to undefined behavior, e.g. infinite interrupt loops. It's mandatory to test return value of this function, as different hardware has different FIFO depth (oftentimes just 1).
dev | UART device instance. |
tx_data | Data to transmit. |
size | Number of bytes to send. |
-ENOSYS | if this function is not supported |
-ENOTSUP | If API is not enabled. |
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inlinestatic |
#include <zephyr/drivers/uart.h>
Fill FIFO with wide data.
This function is expected to be called from UART interrupt handler (ISR), if uart_irq_tx_ready() returns true. Result of calling this function not from an ISR is undefined (hardware-dependent). Likewise, not calling this function from an ISR if uart_irq_tx_ready() returns true may lead to undefined behavior, e.g. infinite interrupt loops. It's mandatory to test return value of this function, as different hardware has different FIFO depth (oftentimes just 1).
dev | UART device instance. |
tx_data | Wide data to transmit. |
size | Number of datum to send. |
-ENOSYS | If this function is not implemented |
-ENOTSUP | If API is not enabled. |
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inlinestatic |
#include <zephyr/drivers/uart.h>
Read data from FIFO.
This function is expected to be called from UART interrupt handler (ISR), if uart_irq_rx_ready() returns true. Result of calling this function not from an ISR is undefined (hardware-dependent). It's unspecified whether "RX ready" condition as returned by uart_irq_rx_ready() is level- or edge- triggered. That means that once uart_irq_rx_ready() is detected, uart_fifo_read() must be called until it reads all available data in the FIFO (i.e. until it returns less data than was requested).
dev | UART device instance. |
rx_data | Data container. |
size | Container size. |
-ENOSYS | If this function is not implemented. |
-ENOTSUP | If API is not enabled. |
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inlinestatic |
#include <zephyr/drivers/uart.h>
Read wide data from FIFO.
This function is expected to be called from UART interrupt handler (ISR), if uart_irq_rx_ready() returns true. Result of calling this function not from an ISR is undefined (hardware-dependent). It's unspecified whether "RX ready" condition as returned by uart_irq_rx_ready() is level- or edge- triggered. That means that once uart_irq_rx_ready() is detected, uart_fifo_read() must be called until it reads all available data in the FIFO (i.e. until it returns less data than was requested).
dev | UART device instance. |
rx_data | Wide data container. |
size | Container size. |
-ENOSYS | If this function is not implemented. |
-ENOTSUP | If API is not enabled. |
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inlinestatic |
#include <zephyr/drivers/uart.h>
Set the IRQ callback function pointer (legacy).
This sets up the callback for IRQ. When an IRQ is triggered, the specified function will be called with the device pointer.
dev | UART device instance. |
cb | Pointer to the callback function. |
0 | On success. |
-ENOSYS | If this function is not implemented. |
-ENOTSUP | If API is not enabled. |
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inlinestatic |
#include <zephyr/drivers/uart.h>
Set the IRQ callback function pointer.
This sets up the callback for IRQ. When an IRQ is triggered, the specified function will be called with specified user data. See description of uart_irq_update() for the requirements on ISR.
dev | UART device instance. |
cb | Pointer to the callback function. |
user_data | Data to pass to callback function. |
0 | On success. |
-ENOSYS | If this function is not implemented. |
-ENOTSUP | If API is not enabled. |
void uart_irq_err_disable | ( | const struct device * | dev | ) |
void uart_irq_err_enable | ( | const struct device * | dev | ) |
int uart_irq_is_pending | ( | const struct device * | dev | ) |
#include <zephyr/drivers/uart.h>
Check if any IRQs is pending.
dev | UART device instance. |
1 | If an IRQ is pending. |
0 | If an IRQ is not pending. |
-ENOSYS | If this function is not implemented. |
-ENOTSUP | If API is not enabled. |
void uart_irq_rx_disable | ( | const struct device * | dev | ) |
void uart_irq_rx_enable | ( | const struct device * | dev | ) |
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inlinestatic |
#include <zephyr/drivers/uart.h>
Check if UART RX buffer has a received char.
Check if UART RX buffer has at least one pending character (i.e. uart_fifo_read() will succeed and return non-zero). This function must be called in a UART interrupt handler, or its result is undefined. Before calling this function in the interrupt handler, uart_irq_update() must be called once per the handler invocation. It's unspecified whether condition as returned by this function is level- or edge- triggered (i.e. if this function returns true when RX FIFO is non-empty, or when a new char was received since last call to it). See description of uart_fifo_read() for implication of this.
dev | UART device instance. |
1 | If a received char is ready. |
0 | If a received char is not ready. |
-ENOSYS | If this function is not implemented. |
-ENOTSUP | If API is not enabled. |
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inlinestatic |
#include <zephyr/drivers/uart.h>
Check if UART TX block finished transmission.
Check if any outgoing data buffered in UART TX block was fully transmitted and TX block is idle. When this condition is true, UART device (or whole system) can be power off. Note that this function is not useful to check if UART TX can accept more data, use uart_irq_tx_ready() for that. This function must be called in a UART interrupt handler, or its result is undefined. Before calling this function in the interrupt handler, uart_irq_update() must be called once per the handler invocation.
dev | UART device instance. |
1 | If nothing remains to be transmitted. |
0 | If transmission is not completed. |
-ENOSYS | If this function is not implemented. |
-ENOTSUP | If API is not enabled. |
void uart_irq_tx_disable | ( | const struct device * | dev | ) |
void uart_irq_tx_enable | ( | const struct device * | dev | ) |
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inlinestatic |
#include <zephyr/drivers/uart.h>
Check if UART TX buffer can accept a new char.
Check if UART TX buffer can accept at least one character for transmission (i.e. uart_fifo_fill() will succeed and return non-zero). This function must be called in a UART interrupt handler, or its result is undefined. Before calling this function in the interrupt handler, uart_irq_update() must be called once per the handler invocation.
dev | UART device instance. |
1 | If TX interrupt is enabled and at least one char can be written to UART. |
0 | If device is not ready to write a new byte. |
-ENOSYS | If this function is not implemented. |
-ENOTSUP | If API is not enabled. |
int uart_irq_update | ( | const struct device * | dev | ) |
#include <zephyr/drivers/uart.h>
Start processing interrupts in ISR.
This function should be called the first thing in the ISR. Calling uart_irq_rx_ready(), uart_irq_tx_ready(), uart_irq_tx_complete() allowed only after this.
The purpose of this function is:
dev | UART device instance. |
1 | On success. |
-ENOSYS | If this function is not implemented. |
-ENOTSUP | If API is not enabled. |