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

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/*
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* SPDX-FileCopyrightText: 2021-2022 Espressif Systems (Shanghai) CO LTD
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*
* SPDX-License-Identifier: Apache-2.0
*/
/*
Tests for the spi sio mode
*/
#include <esp_types.h>
#include <stdio.h>
#include <stdlib.h>
#include <malloc.h>
#include <string.h>
#include "sdkconfig.h"
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "freertos/semphr.h"
#include "freertos/queue.h"
#include "unity.h"
#include "driver/spi_master.h"
#include "driver/spi_slave.h"
#include "esp_heap_caps.h"
#include "esp_log.h"
#include "soc/spi_periph.h"
#include "test_utils.h"
#include "test/test_common_spi.h"
#include "soc/gpio_periph.h"
#include "hal/spi_ll.h"
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#if (TEST_SPI_PERIPH_NUM >= 2)
//These will be only enabled on chips with 2 or more SPI peripherals
/********************************************************************************
* Test SIO
********************************************************************************/
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#if CONFIG_IDF_TARGET_ESP32
#define MASTER_DIN_SIGNAL HSPID_IN_IDX
#else
#define MASTER_DIN_SIGNAL FSPID_IN_IDX
#endif
static void inner_connect(spi_bus_config_t bus)
{
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//Master MOSI(spid_out) output to `mosi_num`
spitest_gpio_output_sel(bus.mosi_io_num, FUNC_GPIO, spi_periph_signal[TEST_SPI_HOST].spid_out);
//Slave MOSI(spid_in) input to `mosi_num`
spitest_gpio_input_sel(bus.mosi_io_num, FUNC_GPIO, spi_periph_signal[TEST_SLAVE_HOST].spid_in);
//Master MOSI input(spid_in) to `miso_num`, due to SIO mode, we use Master's `spid_in` to receive data
spitest_gpio_input_sel(bus.miso_io_num, FUNC_GPIO, spi_periph_signal[TEST_SPI_HOST].spid_in);
//Slave MISO output(spiq_out)
spitest_gpio_output_sel(bus.miso_io_num, FUNC_GPIO, spi_periph_signal[TEST_SLAVE_HOST].spiq_out);
//Force this signal goes through gpio matrix
GPIO.func_in_sel_cfg[MASTER_DIN_SIGNAL].sig_in_sel = 1;
}
TEST_CASE("SPI Single Board Test SIO", "[spi]")
{
//Master init
spi_device_handle_t spi;
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spi_bus_config_t bus_cfg = SPI_BUS_TEST_DEFAULT_CONFIG();
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TEST_ESP_OK(spi_bus_initialize(TEST_SPI_HOST, &bus_cfg, SPI_DMA_DISABLED));
spi_device_interface_config_t dev_cfg = SPI_DEVICE_TEST_DEFAULT_CONFIG();
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dev_cfg.flags = SPI_DEVICE_HALFDUPLEX | SPI_DEVICE_3WIRE;
dev_cfg.clock_speed_hz = 4 * 1000 * 1000;
TEST_ESP_OK(spi_bus_add_device(TEST_SPI_HOST, &dev_cfg, &spi));
//Slave init
bus_cfg.flags = 0;
spi_slave_interface_config_t slv_cfg = SPI_SLAVE_TEST_DEFAULT_CONFIG();
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TEST_ESP_OK(spi_slave_initialize(TEST_SLAVE_HOST, &bus_cfg, &slv_cfg, SPI_DMA_DISABLED));
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same_pin_func_sel(bus_cfg, dev_cfg, 0);
inner_connect(bus_cfg);
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WORD_ALIGNED_ATTR uint8_t master_rx_buffer[320];
WORD_ALIGNED_ATTR uint8_t slave_rx_buffer[320];
spi_transaction_t mst_trans;
spi_slave_transaction_t slv_trans;
spi_slave_transaction_t *ret;
for (int i = 0; i < 8; i ++) {
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int tlen = i * 2 + 1;
int rlen = 9 - i;
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ESP_LOGI("spi", "=========== TEST(%d) Master TX, Slave RX ==========", i);
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//Slave RX
memset(&slv_trans, 0x0, sizeof(spi_slave_transaction_t));
memset(slave_rx_buffer, 0x66, sizeof(slave_rx_buffer));
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slv_trans.length = tlen * 8;
slv_trans.rx_buffer = slave_rx_buffer + tlen * 8;
TEST_ESP_OK(spi_slave_queue_trans(TEST_SLAVE_HOST, &slv_trans, portMAX_DELAY));
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//Master TX
memset(&mst_trans, 0x0, sizeof(spi_transaction_t));
mst_trans.length = tlen * 8;
mst_trans.tx_buffer = spitest_master_send;
TEST_ESP_OK(spi_device_transmit(spi, &mst_trans));
TEST_ESP_OK(spi_slave_get_trans_result(TEST_SLAVE_HOST, &ret, portMAX_DELAY));
TEST_ASSERT(ret == &slv_trans);
ESP_LOG_BUFFER_HEXDUMP("master tx", mst_trans.tx_buffer, tlen, ESP_LOG_INFO);
ESP_LOG_BUFFER_HEXDUMP("slave rx", slv_trans.rx_buffer, tlen, ESP_LOG_INFO);
TEST_ASSERT_EQUAL_HEX8_ARRAY(mst_trans.tx_buffer, slv_trans.rx_buffer, tlen);
ESP_LOGI("spi", "=========== TEST(%d) Master RX, Slave TX ==========", i);
//Slave TX
memset(&slv_trans, 0x0, sizeof(spi_slave_transaction_t));
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slv_trans.length = rlen * 8;
slv_trans.tx_buffer = spitest_slave_send + rlen * 8;
TEST_ESP_OK(spi_slave_queue_trans(TEST_SLAVE_HOST, &slv_trans, portMAX_DELAY));
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//Master RX
memset(&mst_trans, 0x0, sizeof(spi_transaction_t));
memset(master_rx_buffer, 0x66, sizeof(master_rx_buffer));
mst_trans.rxlength = rlen * 8;
mst_trans.rx_buffer = master_rx_buffer;
TEST_ESP_OK(spi_device_transmit(spi, &mst_trans));
TEST_ESP_OK(spi_slave_get_trans_result(TEST_SLAVE_HOST, &ret, portMAX_DELAY));
TEST_ASSERT(ret == &slv_trans);
ESP_LOG_BUFFER_HEXDUMP("slave tx", slv_trans.tx_buffer, rlen, ESP_LOG_INFO);
ESP_LOG_BUFFER_HEXDUMP("master rx", mst_trans.rx_buffer, rlen, ESP_LOG_INFO);
TEST_ASSERT_EQUAL_HEX8_ARRAY(slv_trans.tx_buffer, mst_trans.rx_buffer, rlen);
}
spi_slave_free(TEST_SLAVE_HOST);
master_free_device_bus(spi);
}
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#endif //#if (TEST_SPI_PERIPH_NUM >= 2)
/********************************************************************************
* Test SIO Master
* SIO Slave is not suported, and one unit test is limited to one feature, so,,,
* sio master test can be splited to singal-input and single-output
*
* for single-output: master slave
* cs-----cs ------------- cs
* clk----clk ------------- clk
* d------mosi------------- mosi
* q miso------------- miso
* master can get input on mosi pin after output finish in sio mode, but in this
* case, master can get no data from slave, so check assert on the slave.
*
* ------------------------------------------------------------------------------
* for single-input: master slave
* cs-----cs ------------- cs
* clk----clk ------------- clk
* d-\ mosi------------- mosi
* q \\--miso------------- miso
* In this case, master can get input data from slave after output finish, but
* slave can get no data from master due to internal broke, besides output data
* from both master and slave on miso line will get conflict in master's output
* frame.
********************************************************************************/
#define TRANS_LEN 1024
#define MAX_TRANS_BUFF 64
#define TEST_NUM 8
WORD_ALIGNED_ATTR uint8_t sio_master_rx_buff[TRANS_LEN];
WORD_ALIGNED_ATTR uint8_t sio_slave_rx_buff [TRANS_LEN];
void test_sio_master_trans(bool sio_master_in)
{
spi_device_handle_t dev_0;
uint8_t *master_tx_max = heap_caps_calloc(TRANS_LEN * 2, 1, MALLOC_CAP_DMA);
TEST_ASSERT_NOT_NULL_MESSAGE(master_tx_max, "malloc failed, exit.\n");
// write somethin to a long buffer for test long transmition
for (uint16_t i = 0; i < TRANS_LEN; i++) {
master_tx_max[i] = i;
master_tx_max[TRANS_LEN * 2 - i - 1] = i;
}
spi_bus_config_t bus_cfg = SPI_BUS_TEST_DEFAULT_CONFIG();
if (sio_master_in) {
// normally, spi read data from port Q and write data to port D
// test master input from port D (output default.), so link port D (normally named mosi) to miso pin.
bus_cfg.mosi_io_num = bus_cfg.miso_io_num;
printf("\n====================Test sio master input====================\n");
} else {
printf("\n============Test sio master output, data checked by slave.=============\n");
}
bus_cfg.miso_io_num = -1;
TEST_ESP_OK(spi_bus_initialize(TEST_SPI_HOST, &bus_cfg, SPI_DMA_CH_AUTO));
spi_device_interface_config_t dev_cfg = SPI_DEVICE_TEST_DEFAULT_CONFIG();
dev_cfg.flags = SPI_DEVICE_HALFDUPLEX | SPI_DEVICE_3WIRE;
dev_cfg.clock_speed_hz = 1 * 1000 * 1000;
TEST_ESP_OK(spi_bus_add_device(TEST_SPI_HOST, &dev_cfg, &dev_0));
printf("CS:CLK:MO:MI: %d\t%d\t%d\t%d\n", dev_cfg.spics_io_num, bus_cfg.sclk_io_num, bus_cfg.mosi_io_num, bus_cfg.miso_io_num);
unity_send_signal("Master ready");
for (int i = 0; i < TEST_NUM; i ++) {
spi_transaction_t trans = {};
if (sio_master_in) {
// master input only section
trans.rxlength = (i + 1) * 8 * 8;
// test a huge data for last transmition
if (i >= TEST_NUM - 1) {
trans.rxlength = TRANS_LEN * 8;
}
trans.rx_buffer = sio_master_rx_buff;
trans.length = 0;
trans.tx_buffer = NULL;
memset(sio_master_rx_buff, 0, sizeof(sio_master_rx_buff));
} else {
// master output only section
trans.length = MAX_TRANS_BUFF / (i + 1) * 8;
// test a huge data for last transmition
if (i >= TEST_NUM - 1) {
trans.length = TRANS_LEN * 8;
}
trans.tx_buffer = master_tx_max;
trans.rxlength = 0;
trans.rx_buffer = NULL;
// use some differnt data
trans.tx_buffer += (i % 2) ? TRANS_LEN : 0;
}
//get signal
unity_wait_for_signal("Slave ready");
TEST_ESP_OK(spi_device_transmit(dev_0, &trans));
if (sio_master_in) {
ESP_LOG_BUFFER_HEXDUMP("master rx", trans.rx_buffer, trans.rxlength / 8, ESP_LOG_INFO);
TEST_ASSERT_EQUAL_HEX8_ARRAY(master_tx_max + i, trans.rx_buffer, trans.rxlength / 8);
} else {
printf("%d master output\n", trans.length / 8);
ESP_LOG_BUFFER_HEXDUMP("master tx", trans.tx_buffer, trans.length / 8, ESP_LOG_INFO);
}
}
free(master_tx_max);
master_free_device_bus(dev_0);
}
void test_sio_slave_emulate(bool sio_master_in)
{
uint8_t *slave_tx_max = heap_caps_calloc(TRANS_LEN * 2, 1, MALLOC_CAP_DMA);
TEST_ASSERT_NOT_NULL_MESSAGE(slave_tx_max, "malloc failed, exit.\n");
// write somethin to a long buffer for test long transmition
for (uint16_t i = 0; i < TRANS_LEN; i++) {
slave_tx_max[i] = i;
slave_tx_max[TRANS_LEN * 2 - i - 1] = i;
}
if (sio_master_in) {
printf("\n==================Test sio master input.================\n");
} else {
printf("\n==================Test sio master output.=================\n");
}
spi_bus_config_t bus_cfg = SPI_BUS_TEST_DEFAULT_CONFIG();
spi_slave_interface_config_t slv_cfg = SPI_SLAVE_TEST_DEFAULT_CONFIG();
#if CONFIG_IDF_TARGET_ESP32
// esp32 use different pin for slave in current runner
bus_cfg.mosi_io_num = spi_periph_signal[TEST_SLAVE_HOST].spid_iomux_pin;
bus_cfg.miso_io_num = spi_periph_signal[TEST_SLAVE_HOST].spiq_iomux_pin;
bus_cfg.sclk_io_num = spi_periph_signal[TEST_SLAVE_HOST].spiclk_iomux_pin;
slv_cfg.spics_io_num = spi_periph_signal[TEST_SLAVE_HOST].spics0_iomux_pin;
#endif
TEST_ESP_OK(spi_slave_initialize(TEST_SLAVE_HOST, &bus_cfg, &slv_cfg, SPI_DMA_CH_AUTO));
printf("CS:CLK:MO:MI: %d\t%d\t%d\t%d\n", slv_cfg.spics_io_num, bus_cfg.sclk_io_num, bus_cfg.mosi_io_num, bus_cfg.miso_io_num);
unity_wait_for_signal("Master ready");
for (int i = 0; i < TEST_NUM; i++) {
spi_slave_transaction_t trans = {};
if (sio_master_in) {
// slave output only section
trans.length = (i + 1) * 8 * 8;
// test a huge data for last transmition
if (i >= TEST_NUM - 1) {
trans.length = TRANS_LEN * 8;
}
trans.tx_buffer = slave_tx_max + i;
trans.rx_buffer = NULL;
} else {
// slave input only section
trans.length = MAX_TRANS_BUFF / (i + 1) * 8;
// test a huge data for last transmition
if (i >= TEST_NUM - 1) {
trans.length = TRANS_LEN * 8;
}
trans.tx_buffer = NULL;
trans.rx_buffer = sio_slave_rx_buff;
memset(sio_slave_rx_buff, 0, sizeof(sio_slave_rx_buff));
}
TEST_ESP_OK(spi_slave_queue_trans(TEST_SLAVE_HOST, &trans, portMAX_DELAY));
unity_send_signal("Slave ready");
spi_slave_transaction_t *p_slave_ret;
TEST_ESP_OK(spi_slave_get_trans_result(TEST_SLAVE_HOST, &p_slave_ret, portMAX_DELAY));
if (sio_master_in) {
ESP_LOG_BUFFER_HEXDUMP("Slave tx", trans.tx_buffer, trans.length / 8, ESP_LOG_INFO);
} else {
ESP_LOG_BUFFER_HEXDUMP("Slave rx", trans.rx_buffer, trans.length / 8, ESP_LOG_INFO);
TEST_ASSERT_EQUAL_HEX8_ARRAY(slave_tx_max + TRANS_LEN * (i % 2), trans.rx_buffer, trans.length / 8);
}
}
free(slave_tx_max);
spi_slave_free(TEST_SLAVE_HOST);
}
void test_master_run(void)
{
test_sio_master_trans(false);
test_sio_master_trans(true);
}
void test_slave_run(void)
{
test_sio_slave_emulate(false);
test_sio_slave_emulate(true);
}
TEST_CASE_MULTIPLE_DEVICES("SPI_Master:Test_SIO_Mode_Multi_Board", "[spi_ms][test_env=Example_SPI_Multi_device]", test_master_run, test_slave_run);