esp-idf/components/driver/test/test_uart.c

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#include <string.h>
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#include <sys/param.h>
#include "unity.h"
#include "test_utils.h" // unity_send_signal
#include "driver/uart.h" // for the uart driver access
#include "esp_log.h"
#include "esp_system.h" // for uint32_t esp_random()
#if !TEMPORARY_DISABLED_FOR_TARGETS(ESP32S3)
#define UART_TAG "Uart"
#define UART_NUM1 (UART_NUM_1)
#define BUF_SIZE (100)
#define UART1_RX_PIN (22)
#define UART1_TX_PIN (23)
#define UART_BAUD_11520 (11520)
#define UART_BAUD_115200 (115200)
#define TOLERANCE (0.02) //baud rate error tolerance 2%.
// RTS for RS485 Half-Duplex Mode manages DE/~RE
#define UART1_RTS_PIN (18)
// Number of packets to be send during test
#define PACKETS_NUMBER (10)
// Wait timeout for uart driver
#define PACKET_READ_TICS (1000 / portTICK_RATE_MS)
static void uart_config(uint32_t baud_rate, bool use_ref_tick)
{
uart_config_t uart_config = {
.baud_rate = baud_rate,
.data_bits = UART_DATA_8_BITS,
.parity = UART_PARITY_DISABLE,
.stop_bits = UART_STOP_BITS_1,
.flow_ctrl = UART_HW_FLOWCTRL_DISABLE,
};
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uart_config.source_clk = use_ref_tick ? UART_SCLK_REF_TICK : UART_SCLK_APB;
uart_driver_install(UART_NUM1, BUF_SIZE * 2, BUF_SIZE * 2, 20, NULL, 0);
uart_param_config(UART_NUM1, &uart_config);
TEST_ESP_OK(uart_set_loop_back(UART_NUM1, true));
}
static volatile bool exit_flag;
static void test_task(void *pvParameters)
{
xSemaphoreHandle *sema = (xSemaphoreHandle *) pvParameters;
char* data = (char *) malloc(256);
while (exit_flag == false) {
uart_tx_chars(UART_NUM1, data, 256);
// The uart_wait_tx_done() function does not block anything if ticks_to_wait = 0.
uart_wait_tx_done(UART_NUM1, 0);
}
free(data);
xSemaphoreGive(*sema);
vTaskDelete(NULL);
}
static void test_task2(void *pvParameters)
{
while (exit_flag == false) {
// This task obstruct a setting tx_done_sem semaphore in the UART interrupt.
// It leads to waiting the ticks_to_wait time in uart_wait_tx_done() function.
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uart_disable_tx_intr(UART_NUM1);
}
vTaskDelete(NULL);
}
TEST_CASE("test uart_wait_tx_done is not blocked when ticks_to_wait=0", "[uart]")
{
uart_config(UART_BAUD_11520, false);
xSemaphoreHandle exit_sema = xSemaphoreCreateBinary();
exit_flag = false;
xTaskCreate(test_task, "tsk1", 2048, &exit_sema, 5, NULL);
xTaskCreate(test_task2, "tsk2", 2048, NULL, 5, NULL);
printf("Waiting for 5 sec\n");
vTaskDelay(5000 / portTICK_PERIOD_MS);
exit_flag = true;
if (xSemaphoreTake(exit_sema, 1000 / portTICK_PERIOD_MS) == pdTRUE) {
vSemaphoreDelete(exit_sema);
} else {
TEST_FAIL_MESSAGE("uart_wait_tx_done is blocked");
}
TEST_ESP_OK(uart_driver_delete(UART_NUM1));
}
TEST_CASE("test uart get baud-rate", "[uart]")
{
uint32_t baud_rate1 = 0;
uint32_t baud_rate2 = 0;
printf("init uart%d, use reftick, baud rate : %d\n", (int)UART_NUM1, (int)UART_BAUD_11520);
uart_config(UART_BAUD_11520, true);
uart_get_baudrate(UART_NUM1, &baud_rate1);
printf("init uart%d, unuse reftick, baud rate : %d\n", (int)UART_NUM1, (int)UART_BAUD_115200);
uart_config(UART_BAUD_115200, false);
uart_get_baudrate(UART_NUM1, &baud_rate2);
printf("get baud rate when use reftick: %d\n", (int)baud_rate1);
printf("get baud rate when don't use reftick: %d\n", (int)baud_rate2);
uart_driver_delete(UART_NUM1);
TEST_ASSERT_UINT32_WITHIN(UART_BAUD_11520 * TOLERANCE, UART_BAUD_11520, baud_rate1);
TEST_ASSERT_UINT32_WITHIN(UART_BAUD_115200 * TOLERANCE, UART_BAUD_115200, baud_rate2);
ESP_LOGI(UART_TAG, "get baud-rate test passed ....\n");
}
TEST_CASE("test uart tx data with break", "[uart]")
{
const int buf_len = 200;
const int send_len = 128;
const int brk_len = 10;
char *psend = (char *)malloc(buf_len);
TEST_ASSERT_NOT_NULL(psend);
memset(psend, '0', buf_len);
uart_config(UART_BAUD_115200, false);
printf("Uart%d send %d bytes with break\n", UART_NUM1, send_len);
uart_write_bytes_with_break(UART_NUM1, (const char *)psend, send_len, brk_len);
uart_wait_tx_done(UART_NUM1, (portTickType)portMAX_DELAY);
//If the code is running here, it means the test passed, otherwise it will crash due to the interrupt wdt timeout.
printf("Send data with break test passed\n");
free(psend);
uart_driver_delete(UART_NUM1);
}
static void uart_word_len_set_get_test(int uart_num)
{
printf("uart word len set and get test\n");
uart_word_length_t word_length_set = 0;
uart_word_length_t word_length_get = 0;
for (int i = 0; i < UART_DATA_BITS_MAX; i++) {
word_length_set = UART_DATA_5_BITS + i;
TEST_ESP_OK(uart_set_word_length(uart_num, word_length_set));
TEST_ESP_OK(uart_get_word_length(uart_num, &word_length_get));
TEST_ASSERT_EQUAL(word_length_set, word_length_get);
}
}
static void uart_stop_bit_set_get_test(int uart_num)
{
printf("uart stop bit set and get test\n");
uart_stop_bits_t stop_bit_set = 0;
uart_stop_bits_t stop_bit_get = 0;
for (int i = UART_STOP_BITS_1; i < UART_STOP_BITS_MAX; i++) {
stop_bit_set = i;
TEST_ESP_OK(uart_set_stop_bits(uart_num, stop_bit_set));
TEST_ESP_OK(uart_get_stop_bits(uart_num, &stop_bit_get));
TEST_ASSERT_EQUAL(stop_bit_set, stop_bit_get);
}
}
static void uart_parity_set_get_test(int uart_num)
{
printf("uart parity set and get test\n");
uart_parity_t parity_set[3] = {
UART_PARITY_DISABLE,
UART_PARITY_EVEN,
UART_PARITY_ODD,
};
uart_parity_t parity_get = 0;
for (int i = 0; i < 3; i++) {
TEST_ESP_OK(uart_set_parity(uart_num, parity_set[i]));
TEST_ESP_OK(uart_get_parity(uart_num, &parity_get));
TEST_ASSERT_EQUAL(parity_set[i], parity_get);
}
}
static void uart_hw_flow_set_get_test(int uart_num)
{
printf("uart hw flow control set and get test\n");
uart_hw_flowcontrol_t flowcontrol_set = 0;
uart_hw_flowcontrol_t flowcontrol_get = 0;
for (int i = 0; i < UART_HW_FLOWCTRL_DISABLE; i++) {
TEST_ESP_OK(uart_set_hw_flow_ctrl(uart_num, flowcontrol_set, 20));
TEST_ESP_OK(uart_get_hw_flow_ctrl(uart_num, &flowcontrol_get));
TEST_ASSERT_EQUAL(flowcontrol_set, flowcontrol_get);
}
}
static void uart_wakeup_set_get_test(int uart_num)
{
printf("uart wake up set and get test\n");
int wake_up_set = 0;
int wake_up_get = 0;
for (int i = 3; i < 0x3ff; i++) {
wake_up_set = i;
TEST_ESP_OK(uart_set_wakeup_threshold(uart_num, wake_up_set));
TEST_ESP_OK(uart_get_wakeup_threshold(uart_num, &wake_up_get));
TEST_ASSERT_EQUAL(wake_up_set, wake_up_get);
}
}
TEST_CASE("uart general API test", "[uart]")
{
const int uart_num = UART_NUM1;
uart_config_t uart_config = {
.baud_rate = 115200,
.data_bits = UART_DATA_8_BITS,
.parity = UART_PARITY_DISABLE,
.stop_bits = UART_STOP_BITS_1,
.flow_ctrl = UART_HW_FLOWCTRL_DISABLE,
.source_clk = UART_SCLK_APB,
};
uart_param_config(uart_num, &uart_config);
uart_word_len_set_get_test(uart_num);
uart_stop_bit_set_get_test(uart_num);
uart_parity_set_get_test(uart_num);
uart_hw_flow_set_get_test(uart_num);
uart_wakeup_set_get_test(uart_num);
}
static void uart_write_task(void *param)
{
int uart_num = (int)param;
uint8_t *tx_buf = (uint8_t *)malloc(1024);
if(tx_buf == NULL) {
TEST_FAIL_MESSAGE("tx buffer malloc fail");
}
for(int i = 1; i < 1023; i++) {
tx_buf[i] = (i & 0xff);
}
for(int i = 0; i < 1024; i++) {
//d[0] and d[1023] are header
tx_buf[0] = (i & 0xff);
tx_buf[1023] = ((~i) & 0xff);
uart_write_bytes(uart_num, (const char*)tx_buf, 1024);
uart_wait_tx_done(uart_num, (TickType_t)portMAX_DELAY);
}
free(tx_buf);
vTaskDelete(NULL);
}
TEST_CASE("uart read write test", "[uart]")
{
const int uart_num = UART_NUM1;
uint8_t *rd_data = (uint8_t *)malloc(1024);
if(rd_data == NULL) {
TEST_FAIL_MESSAGE("rx buffer malloc fail");
}
uart_config_t uart_config = {
.baud_rate = 2000000,
.data_bits = UART_DATA_8_BITS,
.parity = UART_PARITY_DISABLE,
.stop_bits = UART_STOP_BITS_1,
.flow_ctrl = UART_HW_FLOWCTRL_DISABLE,
.source_clk = UART_SCLK_APB,
};
TEST_ESP_OK(uart_driver_install(uart_num, BUF_SIZE * 2, 0, 20, NULL, 0));
TEST_ESP_OK(uart_param_config(uart_num, &uart_config));
TEST_ESP_OK(uart_set_loop_back(uart_num, true));
TEST_ESP_OK(uart_wait_tx_done(uart_num, portMAX_DELAY));
vTaskDelay(1 / portTICK_PERIOD_MS); // make sure last byte has flushed from TX FIFO
TEST_ESP_OK(uart_flush_input(uart_num));
xTaskCreate(uart_write_task, "uart_write_task", 2048 * 4, (void *)uart_num, UNITY_FREERTOS_PRIORITY - 1, NULL);
int len_tmp = 0;
int rd_len = 1024;
for (int i = 0; i < 1024; i++) {
rd_len = 1024;
memset(rd_data, 0, 1024);
while (rd_len) {
len_tmp = uart_read_bytes(uart_num, rd_data + 1024 - rd_len, rd_len, (TickType_t)1000);
if (len_tmp < 0) {
TEST_FAIL_MESSAGE("read timeout, uart read write test fail");
}
rd_len -= len_tmp;
}
TEST_ASSERT_EQUAL_HEX8_MESSAGE((i & 0xff), rd_data[0], "uart data header check error index 0");
TEST_ASSERT_EQUAL_HEX8_MESSAGE((~i) & 0xff, rd_data[1023], "uart data header check error index 1023");
for (int j = 1; j < 1023; j++) {
TEST_ASSERT_EQUAL_HEX8_MESSAGE(j & 0xff, rd_data[j], "uart data check error");
}
}
uart_wait_tx_done(uart_num, (TickType_t)portMAX_DELAY);
uart_driver_delete(uart_num);
free(rd_data);
}
TEST_CASE("uart tx with ringbuffer test", "[uart]")
{
const int uart_num = UART_NUM1;
uint8_t *rd_data = (uint8_t *)malloc(1024);
uint8_t *wr_data = (uint8_t *)malloc(1024);
if(rd_data == NULL || wr_data == NULL) {
TEST_FAIL_MESSAGE("buffer malloc fail");
}
uart_config_t uart_config = {
.baud_rate = 2000000,
.data_bits = UART_DATA_8_BITS,
.parity = UART_PARITY_DISABLE,
.stop_bits = UART_STOP_BITS_1,
.flow_ctrl = UART_HW_FLOWCTRL_CTS_RTS,
.rx_flow_ctrl_thresh = 120,
.source_clk = UART_SCLK_APB,
};
uart_wait_tx_idle_polling(uart_num);
TEST_ESP_OK(uart_param_config(uart_num, &uart_config));
TEST_ESP_OK(uart_driver_install(uart_num, 1024 * 2, 1024 *2, 20, NULL, 0));
TEST_ESP_OK(uart_set_loop_back(uart_num, true));
for (int i = 0; i < 1024; i++) {
wr_data[i] = i;
rd_data[i] = 0;
}
uart_write_bytes(uart_num, (const char*)wr_data, 1024);
uart_wait_tx_done(uart_num, (TickType_t)portMAX_DELAY);
uart_read_bytes(uart_num, rd_data, 1024, (TickType_t)1000);
TEST_ASSERT_EQUAL_HEX8_ARRAY(wr_data, rd_data, 1024);
TEST_ESP_OK(uart_driver_delete(uart_num));
free(rd_data);
free(wr_data);
}
#endif