Crash_Override/OVMS3-idf
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OVMS3-idf/components/driver/test/test_spi_master.c
michael fcd0f52e21 test(spi_master): add test case for 3 DMA issues with internal connection by gpio mux. 
3 issues are:
1. RX buffer not aligned (start and end)
2. not setting rx_buffer
3. setting rx_length != length

also add spi release code here.
2017-09-27 10:44:28 +08:00

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/*
Tests for the spi_master device driver
*/
#include <esp_types.h>
#include <stdio.h>
#include <stdlib.h>
#include <malloc.h>
#include <string.h>
#include "rom/ets_sys.h"
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "freertos/semphr.h"
#include "freertos/queue.h"
#include "freertos/xtensa_api.h"
#include "unity.h"
#include "driver/spi_master.h"
#include "soc/dport_reg.h"
#include "soc/spi_reg.h"
#include "soc/spi_struct.h"
#include "esp_heap_caps.h"
static void check_spi_pre_n_for(int clk, int pre, int n)
{
esp_err_t ret;
spi_device_handle_t handle;
spi_device_interface_config_t devcfg={
.command_bits=0,
.address_bits=0,
.dummy_bits=0,
.clock_speed_hz=clk,
.duty_cycle_pos=128,
.mode=0,
.spics_io_num=21,
.queue_size=3
};
char sendbuf[16]="";
spi_transaction_t t;
memset(&t, 0, sizeof(t));
ret=spi_bus_add_device(HSPI_HOST, &devcfg, &handle);
TEST_ASSERT(ret==ESP_OK);
t.length=16*8;
t.tx_buffer=sendbuf;
ret=spi_device_transmit(handle, &t);
printf("Checking clk rate %dHz. expect pre %d n %d, got pre %d n %d\n", clk, pre, n, SPI2.clock.clkdiv_pre+1, SPI2.clock.clkcnt_n+1);
TEST_ASSERT(SPI2.clock.clkcnt_n+1==n);
TEST_ASSERT(SPI2.clock.clkdiv_pre+1==pre);
ret=spi_bus_remove_device(handle);
TEST_ASSERT(ret==ESP_OK);
}
TEST_CASE("SPI Master clockdiv calculation routines", "[spi]")
{
spi_bus_config_t buscfg={
.mosi_io_num=4,
.miso_io_num=26,
.sclk_io_num=25,
.quadwp_io_num=-1,
.quadhd_io_num=-1
};
esp_err_t ret;
ret=spi_bus_initialize(HSPI_HOST, &buscfg, 1);
TEST_ASSERT(ret==ESP_OK);
check_spi_pre_n_for(26000000, 1, 3);
check_spi_pre_n_for(20000000, 1, 4);
check_spi_pre_n_for(8000000, 1, 10);
check_spi_pre_n_for(800000, 2, 50);
check_spi_pre_n_for(100000, 16, 50);
check_spi_pre_n_for(333333, 4, 60);
check_spi_pre_n_for(900000, 2, 44);
check_spi_pre_n_for(1, 8192, 64); //Actually should generate the minimum clock speed, 152Hz
check_spi_pre_n_for(26000000, 1, 3);
ret=spi_bus_free(HSPI_HOST);
TEST_ASSERT(ret==ESP_OK);
}
static spi_device_handle_t setup_spi_bus(int clkspeed, bool dma) {
spi_bus_config_t buscfg={
.mosi_io_num=4,
.miso_io_num=26,
.sclk_io_num=25,
.quadwp_io_num=-1,
.quadhd_io_num=-1,
.max_transfer_sz=4096*3
};
spi_device_interface_config_t devcfg={
.command_bits=0,
.address_bits=0,
.dummy_bits=0,
.clock_speed_hz=clkspeed,
.duty_cycle_pos=128,
.mode=0,
.spics_io_num=21,
.queue_size=3,
};
esp_err_t ret;
spi_device_handle_t handle;
printf("THIS TEST NEEDS A JUMPER BETWEEN IO4 AND IO26\n");
ret=spi_bus_initialize(HSPI_HOST, &buscfg, dma?1:0);
TEST_ASSERT(ret==ESP_OK);
ret=spi_bus_add_device(HSPI_HOST, &devcfg, &handle);
TEST_ASSERT(ret==ESP_OK);
printf("Bus/dev inited.\n");
return handle;
}
static void spi_test(spi_device_handle_t handle, int num_bytes) {
esp_err_t ret;
int x;
srand(num_bytes);
char *sendbuf=heap_caps_malloc(num_bytes, MALLOC_CAP_DMA);
char *recvbuf=heap_caps_malloc(num_bytes, MALLOC_CAP_DMA);
for (x=0; x<num_bytes; x++) {
sendbuf[x]=rand()&0xff;
recvbuf[x]=0x55;
}
spi_transaction_t t;
memset(&t, 0, sizeof(t));
t.length=num_bytes*8;
t.tx_buffer=sendbuf;
t.rx_buffer=recvbuf;
t.addr=0xA00000000000000FL;
t.cmd=0x55;
printf("Transmitting %d bytes...\n", num_bytes);
ret=spi_device_transmit(handle, &t);
TEST_ASSERT(ret==ESP_OK);
srand(num_bytes);
for (x=0; x<num_bytes; x++) {
if (sendbuf[x]!=(rand()&0xff)) {
printf("Huh? Sendbuf corrupted at byte %d\n", x);
TEST_ASSERT(0);
}
if (sendbuf[x]!=recvbuf[x]) break;
}
if (x!=num_bytes) {
int from=x-16;
if (from<0) from=0;
printf("Error at %d! Sent vs recved: (starting from %d)\n" , x, from);
for (int i=0; i<32; i++) {
if (i+from<num_bytes) printf("%02X ", sendbuf[from+i]);
}
printf("\n");
for (int i=0; i<32; i++) {
if (i+from<num_bytes) printf("%02X ", recvbuf[from+i]);
}
printf("\n");
// TEST_ASSERT(0);
}
printf("Success!\n");
free(sendbuf);
free(recvbuf);
}
static void destroy_spi_bus(spi_device_handle_t handle) {
esp_err_t ret;
ret=spi_bus_remove_device(handle);
TEST_ASSERT(ret==ESP_OK);
ret=spi_bus_free(HSPI_HOST);
TEST_ASSERT(ret==ESP_OK);
}
#define TEST_LEN 111
TEST_CASE("SPI Master test", "[spi][ignore]")
{
printf("Testing bus at 80KHz\n");
spi_device_handle_t handle=setup_spi_bus(80000, true);
spi_test(handle, 16); //small
spi_test(handle, 21); //small, unaligned
spi_test(handle, 36); //aligned
spi_test(handle, 128); //aligned
spi_test(handle, 129); //unaligned
spi_test(handle, 4096-2); //multiple descs, edge case 1
spi_test(handle, 4096-1); //multiple descs, edge case 2
spi_test(handle, 4096*3); //multiple descs
destroy_spi_bus(handle);
printf("Testing bus at 80KHz, non-DMA\n");
handle=setup_spi_bus(80000, false);
spi_test(handle, 4); //aligned
spi_test(handle, 16); //small
spi_test(handle, 21); //small, unaligned
destroy_spi_bus(handle);
printf("Testing bus at 26MHz\n");
handle=setup_spi_bus(20000000, true);
spi_test(handle, 128); //DMA, aligned
spi_test(handle, 4096*3); //DMA, multiple descs
destroy_spi_bus(handle);
printf("Testing bus at 900KHz\n");
handle=setup_spi_bus(9000000, true);
spi_test(handle, 128); //DMA, aligned
spi_test(handle, 4096*3); //DMA, multiple descs
destroy_spi_bus(handle);
}
TEST_CASE("SPI Master test, interaction of multiple devs", "[spi][ignore]") {
esp_err_t ret;
spi_device_interface_config_t devcfg={
.command_bits=0,
.address_bits=0,
.dummy_bits=0,
.clock_speed_hz=1000000,
.duty_cycle_pos=128,
.mode=0,
.spics_io_num=23,
.queue_size=3,
};
spi_device_handle_t handle1=setup_spi_bus(80000, true);
spi_device_handle_t handle2;
spi_bus_add_device(HSPI_HOST, &devcfg, &handle2);
printf("Sending to dev 1\n");
spi_test(handle1, 7);
printf("Sending to dev 1\n");
spi_test(handle1, 15);
printf("Sending to dev 2\n");
spi_test(handle2, 15);
printf("Sending to dev 1\n");
spi_test(handle1, 32);
printf("Sending to dev 2\n");
spi_test(handle2, 32);
printf("Sending to dev 1\n");
spi_test(handle1, 63);
printf("Sending to dev 2\n");
spi_test(handle2, 63);
printf("Sending to dev 1\n");
spi_test(handle1, 5000);
printf("Sending to dev 2\n");
spi_test(handle2, 5000);
ret=spi_bus_remove_device(handle2);
TEST_ASSERT(ret==ESP_OK);
destroy_spi_bus(handle1);
}
TEST_CASE("SPI Master no response when switch from host1 (HSPI) to host2 (VSPI)", "[spi]")
{
//spi config
spi_bus_config_t bus_config;
spi_device_interface_config_t device_config;
spi_device_handle_t spi;
spi_host_device_t host;
int dma = 1;
memset(&bus_config, 0, sizeof(spi_bus_config_t));
memset(&device_config, 0, sizeof(spi_device_interface_config_t));
bus_config.miso_io_num = -1;
bus_config.mosi_io_num = 26;
bus_config.sclk_io_num = 25;
bus_config.quadwp_io_num = -1;
bus_config.quadhd_io_num = -1;
device_config.clock_speed_hz = 50000;
device_config.mode = 0;
device_config.spics_io_num = -1;
device_config.queue_size = 1;
device_config.flags = SPI_DEVICE_TXBIT_LSBFIRST | SPI_DEVICE_RXBIT_LSBFIRST;
struct spi_transaction_t transaction = {
.flags = SPI_TRANS_USE_TXDATA | SPI_TRANS_USE_RXDATA,
.length = 16,
.rx_buffer = NULL,
.tx_data = {0x04, 0x00}
};
//initialize for first host
host = 1;
TEST_ASSERT(spi_bus_initialize(host, &bus_config, dma) == ESP_OK);
TEST_ASSERT(spi_bus_add_device(host, &device_config, &spi) == ESP_OK);
printf("before first xmit\n");
TEST_ASSERT(spi_device_transmit(spi, &transaction) == ESP_OK);
printf("after first xmit\n");
TEST_ASSERT(spi_bus_remove_device(spi) == ESP_OK);
TEST_ASSERT(spi_bus_free(host) == ESP_OK);
//for second host and failed before
host = 2;
TEST_ASSERT(spi_bus_initialize(host, &bus_config, dma) == ESP_OK);
TEST_ASSERT(spi_bus_add_device(host, &device_config, &spi) == ESP_OK);
printf("before second xmit\n");
// the original version (bit mis-written) stucks here.
TEST_ASSERT(spi_device_transmit(spi, &transaction) == ESP_OK);
// test case success when see this.
printf("after second xmit\n");
TEST_ASSERT(spi_bus_remove_device(spi) == ESP_OK);
TEST_ASSERT(spi_bus_free(host) == ESP_OK);
}
IRAM_ATTR static uint32_t data_iram[320];
DRAM_ATTR static uint32_t data_dram[320];
//force to place in code area.
static const uint32_t data_drom[320] = {0};
#define PIN_NUM_MISO 25
#define PIN_NUM_MOSI 23
#define PIN_NUM_CLK 19
#define PIN_NUM_CS 22
#define PIN_NUM_DC 21
#define PIN_NUM_RST 18
#define PIN_NUM_BCKL 5
TEST_CASE("SPI Master DMA test, TX and RX in different regions", "[spi]")
{
uint32_t data_rxdram[320];
esp_err_t ret;
spi_device_handle_t spi;
spi_bus_config_t buscfg={
.miso_io_num=PIN_NUM_MISO,
.mosi_io_num=PIN_NUM_MOSI,
.sclk_io_num=PIN_NUM_CLK,
.quadwp_io_num=-1,
.quadhd_io_num=-1
};
spi_device_interface_config_t devcfg={
.clock_speed_hz=10000000, //Clock out at 10 MHz
.mode=0, //SPI mode 0
.spics_io_num=PIN_NUM_CS, //CS pin
.queue_size=7, //We want to be able to queue 7 transactions at a time
.pre_cb=NULL, //Specify pre-transfer callback to handle D/C line
};
//Initialize the SPI bus
ret=spi_bus_initialize(HSPI_HOST, &buscfg, 1);
TEST_ASSERT(ret==ESP_OK);
//Attach the LCD to the SPI bus
ret=spi_bus_add_device(HSPI_HOST, &devcfg, &spi);
TEST_ASSERT(ret==ESP_OK);
static spi_transaction_t trans[6];
int x;
printf("iram: %p, dram: %p, drom: %p\n", data_iram, data_dram, data_drom);
memset(trans, 0, 6*sizeof(spi_transaction_t));
trans[0].length = 320*8,
trans[0].tx_buffer = data_iram;
trans[0].rx_buffer = data_rxdram;
trans[1].length = 320*8,
trans[1].tx_buffer = data_dram;
trans[1].rx_buffer = data_rxdram;
trans[2].length = 320*8,
trans[2].tx_buffer = data_drom;
trans[2].rx_buffer = data_rxdram;
trans[3].length = 320*8,
trans[3].tx_buffer = data_drom;
trans[3].rx_buffer = data_iram;
trans[4].length = 320*8,
trans[4].rxlength = 8*4;
trans[4].tx_buffer = data_drom;
trans[4].flags = SPI_TRANS_USE_RXDATA;
trans[5].length = 8*4;
trans[5].flags = SPI_TRANS_USE_RXDATA | SPI_TRANS_USE_TXDATA;
//Queue all transactions.
for (x=0; x<6; x++) {
ret=spi_device_queue_trans(spi,&trans[x], portMAX_DELAY);
TEST_ASSERT(ret==ESP_OK);
}
for (x=0; x<6; x++) {
spi_transaction_t* ptr;
ret=spi_device_get_trans_result(spi,&ptr, portMAX_DELAY);
TEST_ASSERT(ret==ESP_OK);
TEST_ASSERT(ptr = trans+x);
}
TEST_ASSERT(spi_bus_remove_device(spi) == ESP_OK);
TEST_ASSERT(spi_bus_free(HSPI_HOST) == ESP_OK);
}
static inline void int_connect( uint32_t gpio, uint32_t sigo, uint32_t sigi )
{
gpio_matrix_out( gpio, sigo, false, false );
gpio_matrix_in( gpio, sigi, false );
}
//this part tests 3 DMA issues in master mode, full-duplex in IDF2.1
// 1. RX buffer not aligned (start and end)
// 2. not setting rx_buffer
// 3. setting rx_length != length
TEST_CASE("SPI Master DMA test: length, start, not aligned", "[spi]")
{
uint8_t tx_buf[320]={0x12, 0x34, 0x56, 0x78, 0x9a, 0xbc, 0xde, 0xf0, 0xaa, 0xcc, 0xff, 0xee, 0x55, 0x77, 0x88, 0x43};
uint8_t rx_buf[320];
esp_err_t ret;
spi_device_handle_t spi;
spi_bus_config_t buscfg={
.miso_io_num=PIN_NUM_MISO,
.mosi_io_num=PIN_NUM_MOSI,
.sclk_io_num=PIN_NUM_CLK,
.quadwp_io_num=-1,
.quadhd_io_num=-1
};
spi_device_interface_config_t devcfg={
.clock_speed_hz=10*1000*1000, //Clock out at 10 MHz
.mode=0, //SPI mode 0
.spics_io_num=PIN_NUM_CS, //CS pin
.queue_size=7, //We want to be able to queue 7 transactions at a time
.pre_cb=NULL,
};
//Initialize the SPI bus
ret=spi_bus_initialize(HSPI_HOST, &buscfg, 1);
TEST_ASSERT(ret==ESP_OK);
//Attach the LCD to the SPI bus
ret=spi_bus_add_device(HSPI_HOST, &devcfg, &spi);
TEST_ASSERT(ret==ESP_OK);
//do internal connection
int_connect( PIN_NUM_MOSI, HSPID_OUT_IDX, HSPIQ_IN_IDX );
memset(rx_buf, 0x66, 320);
for ( int i = 0; i < 8; i ++ ) {
memset( rx_buf, 0x66, sizeof(rx_buf));
spi_transaction_t t = {};
t.length = 8*(i+1);
t.rxlength = 0;
t.tx_buffer = tx_buf+2*i;
t.rx_buffer = rx_buf + i;
if ( i == 1 ) {
//test set no start
t.rx_buffer = NULL;
} else if ( i == 2 ) {
//test rx length != tx_length
t.rxlength = t.length - 8;
}
spi_device_transmit( spi, &t );
for( int i = 0; i < 16; i ++ ) {
printf("%02X ", rx_buf[i]);
}
printf("\n");
if ( i == 1 ) {
// no rx, skip check
} else if ( i == 2 ) {
//test rx length = tx length-1
TEST_ASSERT( memcmp(t.tx_buffer, t.rx_buffer, t.length/8-1)==0 );
} else {
//normal check
TEST_ASSERT( memcmp(t.tx_buffer, t.rx_buffer, t.length/8)==0 );
}
}
TEST_ASSERT(spi_bus_remove_device(spi) == ESP_OK);
TEST_ASSERT(spi_bus_free(HSPI_HOST) == ESP_OK);
}
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