mirror of
https://github.com/ByteWelder/Tactility.git
synced 2026-02-18 19:03:16 +00:00
74127a5f6c
- Add kernel support for SPI driver - Add kernel support for UART driver - Implemented ESP32 UART kernel driver - Update existing UART-related code in Tactility to use new kernel driver - Remove UART from tt::hal::Configuration - Remove tt_hal_uart functionality but keep functions for now - Update devicetrees for UART changes - Kernel mutex and recursive mutex: improved locking API design - Other kernel improvements - Added device_exists_of_type() and device_find_by_name()
116 lines
3.8 KiB
C++
116 lines
3.8 KiB
C++
// SPDX-License-Identifier: Apache-2.0
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#include <tactility/drivers/uart_controller.h>
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#include <tactility/error.h>
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#include <tactility/device.h>
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#include <tactility/time.h>
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#define UART_DRIVER_API(driver) ((struct UartControllerApi*)driver->api)
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extern "C" {
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error_t uart_controller_read_byte(struct Device* device, uint8_t* out, TickType_t timeout) {
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const auto* driver = device_get_driver(device);
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return UART_DRIVER_API(driver)->read_byte(device, out, timeout);
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}
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error_t uart_controller_write_byte(struct Device* device, uint8_t out, TickType_t timeout) {
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const auto* driver = device_get_driver(device);
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return UART_DRIVER_API(driver)->write_byte(device, out, timeout);
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}
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error_t uart_controller_write_bytes(struct Device* device, const uint8_t* buffer, size_t buffer_size, TickType_t timeout) {
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const auto* driver = device_get_driver(device);
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return UART_DRIVER_API(driver)->write_bytes(device, buffer, buffer_size, timeout);
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}
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error_t uart_controller_read_bytes(struct Device* device, uint8_t* buffer, size_t buffer_size, TickType_t timeout) {
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const auto* driver = device_get_driver(device);
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return UART_DRIVER_API(driver)->read_bytes(device, buffer, buffer_size, timeout);
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}
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error_t uart_controller_read_until(struct Device* device, uint8_t* buffer, size_t buffer_size, uint8_t until_byte, bool add_null_terminator, size_t* bytes_read, TickType_t timeout) {
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size_t read_count = 0;
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TickType_t start_time = get_ticks();
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uint8_t* buffer_write_ptr = buffer;
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uint8_t* buffer_limit = buffer + buffer_size;
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if (add_null_terminator) {
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buffer_limit--;
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}
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TickType_t timeout_left = timeout;
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error_t result = ERROR_NONE;
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while (buffer_write_ptr < buffer_limit) {
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result = uart_controller_read_byte(device, buffer_write_ptr, timeout_left);
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if (result != ERROR_NONE) {
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break;
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}
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read_count++;
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if (*buffer_write_ptr == until_byte) {
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if (add_null_terminator) {
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buffer_write_ptr++;
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*buffer_write_ptr = 0x00U;
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}
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break;
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}
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buffer_write_ptr++;
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TickType_t now = get_ticks();
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if (now > (start_time + timeout)) {
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result = ERROR_TIMEOUT;
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break;
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} else {
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timeout_left = timeout - (now - start_time);
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}
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}
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if (bytes_read != nullptr) {
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*bytes_read = read_count;
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}
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return result;
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}
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error_t uart_controller_get_available(struct Device* device, size_t* available) {
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const auto* driver = device_get_driver(device);
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return UART_DRIVER_API(driver)->get_available(device, available);
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}
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error_t uart_controller_set_config(struct Device* device, const struct UartConfig* config) {
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const auto* driver = device_get_driver(device);
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return UART_DRIVER_API(driver)->set_config(device, config);
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}
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error_t uart_controller_get_config(struct Device* device, struct UartConfig* config) {
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const auto* driver = device_get_driver(device);
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return UART_DRIVER_API(driver)->get_config(device, config);
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}
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error_t uart_controller_open(struct Device* device) {
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const auto* driver = device_get_driver(device);
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return UART_DRIVER_API(driver)->open(device);
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}
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error_t uart_controller_close(struct Device* device) {
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const auto* driver = device_get_driver(device);
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return UART_DRIVER_API(driver)->close(device);
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}
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bool uart_controller_is_open(struct Device* device) {
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const auto* driver = device_get_driver(device);
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return UART_DRIVER_API(driver)->is_open(device);
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}
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error_t uart_controller_flush_input(struct Device* device) {
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const auto* driver = device_get_driver(device);
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return UART_DRIVER_API(driver)->flush_input(device);
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}
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const struct DeviceType UART_CONTROLLER_TYPE {
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.name = "uart-controller"
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};
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}
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