/* * Copyright (c) 2006-2025 RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2025-11-13 CYFS Add standardized utest documentation block */ /** * Test Case Name: UART Non-Blocking Receive Echo Test * * Test Objectives: * - Demonstrate non-blocking receive behavior paired with blocking transmit output * - Verify APIs: rt_device_find, rt_device_open with RT_DEVICE_FLAG_RX_NON_BLOCKING, * rt_device_read (non-blocking), rt_device_write, rt_device_close * * Test Scenarios: * - **Scenario 1 (Interactive Echo / uart_test_nonblocking_rx):** * 1. Restart UART in RX non-blocking / TX blocking mode. * 2. Prompt user (or loopback peer) to send data while issuing countdown markers to MSH. * 3. Perform successive non-blocking reads of varying sizes (256/128 bytes), echoing captured data back and logging totals. * * Verification Metrics: * - Each read returns immediately with available data (may be zero); totals accumulate without overflow. * - Function returns RT_TRUE after final log, indicating no failures during sequence. * * Dependencies: * - Requires `RT_UTEST_SERIAL_V2` with loopback or user-provided input on `RT_SERIAL_TC_DEVICE_NAME`. * - UART driver must support non-blocking reads and reversible open/close. * * Expected Results: * - No assertions triggered; terminal displays countdown prompts and mirrored input. * - Utest harness prints `[ PASSED ] [ result ] testcase (components.drivers.serial.v2.uart_nonblocking_rx)`. */ #include #include #include "utest.h" #ifdef RT_UTEST_SERIAL_V2 static rt_bool_t nonblock_read(rt_device_t uart_dev) { rt_size_t total_length, recv_length; char uart_read_buffer[1024], log_buffer[64]; /* make sure device is closed and reopen it */ while (rt_device_close(uart_dev) != -RT_ERROR); rt_device_open(uart_dev, RT_DEVICE_FLAG_TX_BLOCKING | RT_DEVICE_FLAG_RX_NON_BLOCKING); rt_sprintf(log_buffer, "\nNONBLOCKING READ BEGIN, PLEASE SEND SOME DATAS\n"); rt_device_write(uart_dev, 0, log_buffer, rt_strlen(log_buffer)); total_length = 0; rt_device_write(uart_dev, 0, "5\n", 2); recv_length = 0; recv_length = rt_device_read(uart_dev, -1, uart_read_buffer, 256); rt_device_write(uart_dev, 0, uart_read_buffer, 256); total_length += recv_length; rt_sprintf(log_buffer, "\nnonblock : %d bytes read, total: %d \n", recv_length, total_length); rt_device_write(uart_dev, 0, log_buffer, rt_strlen(log_buffer)); rt_device_write(uart_dev, 0, "4\n", 2); recv_length = 0; recv_length = rt_device_read(uart_dev, -1, uart_read_buffer, 256); rt_device_write(uart_dev, 0, uart_read_buffer, 256); total_length += recv_length; rt_sprintf(log_buffer, "\nnonblock : %d bytes read , total: %d \n", recv_length, total_length); rt_device_write(uart_dev, 0, log_buffer, rt_strlen(log_buffer)); rt_device_write(uart_dev, 0, "3\n", 2); recv_length = 0; recv_length = rt_device_read(uart_dev, -1, uart_read_buffer, 256); rt_device_write(uart_dev, 0, uart_read_buffer, 256); total_length += recv_length; rt_sprintf(log_buffer, "\nnonblock : %d bytes read, total: %d \n", recv_length, total_length); rt_device_write(uart_dev, 0, log_buffer, rt_strlen(log_buffer)); rt_device_write(uart_dev, 0, "2\n", 2); recv_length = 0; recv_length = rt_device_read(uart_dev, -1, uart_read_buffer, 128); rt_device_write(uart_dev, 0, uart_read_buffer, 128); total_length += recv_length; rt_sprintf(log_buffer, "\nnonblock : %d bytes read , total: %d \n", recv_length, total_length); rt_device_write(uart_dev, 0, log_buffer, rt_strlen(log_buffer)); rt_device_write(uart_dev, 0, "1\n", 2); recv_length = 0; recv_length = rt_device_read(uart_dev, -1, uart_read_buffer, 128); rt_device_write(uart_dev, 0, uart_read_buffer, 128); total_length += recv_length; rt_sprintf(log_buffer, "\nnonblock : %d bytes read , total: %d \n", recv_length, total_length); rt_device_write(uart_dev, 0, log_buffer, rt_strlen(log_buffer)); rt_sprintf(log_buffer, "BLOCKING READ END"); rt_device_write(uart_dev, 0, log_buffer, rt_strlen(log_buffer)); return RT_TRUE; } static void uart_test_nonblocking_rx(void) { rt_device_t uart_dev; uart_dev = rt_device_find(RT_SERIAL_TC_DEVICE_NAME); uassert_not_null(uart_dev); uassert_true(nonblock_read(uart_dev)); } static rt_err_t utest_tc_init(void) { return RT_EOK; } static rt_err_t utest_tc_cleanup(void) { rt_device_t uart_dev = rt_device_find(RT_SERIAL_TC_DEVICE_NAME); while (rt_device_close(uart_dev) != -RT_ERROR); return RT_EOK; } static void testcase(void) { UTEST_UNIT_RUN(uart_test_nonblocking_rx); } UTEST_TC_EXPORT(testcase, "components.drivers.serial.v2.uart_nonblocking_rx", utest_tc_init, utest_tc_cleanup, 10); #endif