I am having quite a frustrating time trying to make SPI drivers compile into a 52811 project I already started, so I thought I'd back off, and try to just get an SPI example project running (simulated) on the 52840-DK
Of course there are exactly zero example projects for SPI that are even supplied in the SDK to target 52811 in emulated mode on a 52840-DK (Not a great look...) so I've jumped in to modify nrf_spim for p10056 into p10056e.
now first up, this example uses SPI instance 3 while the 52811 only has instances 0 and 1... so I modified this in the 52840 project, and got that at least compiling... (mod sdk_config.h to target instance 1 and turn off extended features.., them modified main.c to call for instance 0 instead of 3, and not use the dcx version of the transfer function and comment out references to extended features in the peripheral setup... ) all good - that compiles. I also modified the example to use port pins that actually exist on the 52811 (and are the actual pins I want to use on the custom board some day when I'm no longer stuck on such a basic fundamental simple thing as compiling an example project form the SDK for such a simple commonly usef peripheral as SPI)
Then to do the compile target transfer... I tried to follow the project migration instructions from nordic, and think I did OK (discovered a whole pile of things for Segger Embedded Studio project migration that are completely missed in the official migration instructions... like the whole soft FPU, linker heap size, stack size, etc - but hey at least the differences were in existing projects that had 10056 and 10056e targets available so that was something!)
But now I'm stuck with some complaint about "BSP_BUTTON_ACTION_LONG_PUSH" not being defined in bsp.c, this is caused because of something called BSP_DEFINES_ONLY being set to 1 somewhere (segger embedded studio "go to definition" function can't find it, but hey... the compiler and the live code highlighter sure can!), which causes the button action define I'm missing to never be made... BUT different rules in a section of bsp.c cause code that relies on that define to be enabled... hence the fail to compile.... I can go in and modify the preprocessor commands so that the problematic code lines also get killed when the define they are referencing gets killed, but then I get more flow-on errors in bsp.c
And with this, quite frankly, I'm not convinced now that it's even possible to target an SPI example project port to either a real 52811 or an emulated one on the SDK.. at least without some surgery inside the SDK. Which makes me wonder if nordic themselves, letalone anyone else, has even used the SPI peripherals in a 52811 yet...
So anyway - if you take this attached stuff and drop it into SDK15.3/examples/peripheral/nfx_spim then load up the project with segger embedded studio, you can also have all the fun I'm having... I'd be very happy to see an example of an SPI peripheral master being configured to run on an 82511 (or at least emulated!) if anyone can see something I might have missed?
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#include "nrfx_spim.h"
#include "app_util_platform.h"
#include "nrf_gpio.h"
#include "nrf_delay.h"
#include "boards.h"
#include "app_error.h"
#include <string.h>
#include "nrf_log.h"
#include "nrf_log_ctrl.h"
#include "nrf_log_default_backends.h"
#define NRFX_SPIM_SCK_PIN 18
#define NRFX_SPIM_MOSI_PIN 14
#define NRFX_SPIM_MISO_PIN 17
#define NRFX_SPIM_SS_PIN 12
//#define NRFX_SPIM_DCX_PIN 30
#define SPI_INSTANCE 0 /**< SPI instance index. */
static const nrfx_spim_t spi = NRFX_SPIM_INSTANCE(SPI_INSTANCE); /**< SPI instance. */
static volatile bool spi_xfer_done; /**< Flag used to indicate that SPI instance completed the transfer. */
#define TEST_STRING "Nordic123456789012345678901234567890"
static uint8_t m_tx_buf[] = TEST_STRING; /**< TX buffer. */
static uint8_t m_rx_buf[sizeof(TEST_STRING) + 1]; /**< RX buffer. */
static const uint8_t m_length = sizeof(m_tx_buf); /**< Transfer length. */
void spim_event_handler(nrfx_spim_evt_t const * p_event,
void * p_context)
{
spi_xfer_done = true;
NRF_LOG_INFO("Transfer completed.");
if (m_rx_buf[0] != 0)
{
NRF_LOG_INFO(" Received:");
NRF_LOG_HEXDUMP_INFO(m_rx_buf, strlen((const char *)m_rx_buf));
}
}
int main(void)
{
bsp_board_init(BSP_INIT_LEDS);
APP_ERROR_CHECK(NRF_LOG_INIT(NULL));
NRF_LOG_DEFAULT_BACKENDS_INIT();
nrfx_spim_xfer_desc_t xfer_desc = NRFX_SPIM_XFER_TRX(m_tx_buf, m_length, m_rx_buf, m_length);
nrfx_spim_config_t spi_config = NRFX_SPIM_DEFAULT_CONFIG;
spi_config.frequency = NRF_SPIM_FREQ_1M;
spi_config.ss_pin = NRFX_SPIM_SS_PIN;
spi_config.miso_pin = NRFX_SPIM_MISO_PIN;
spi_config.mosi_pin = NRFX_SPIM_MOSI_PIN;
spi_config.sck_pin = NRFX_SPIM_SCK_PIN;
//spi_config.dcx_pin = NRFX_SPIM_DCX_PIN;
//spi_config.use_hw_ss = true;
spi_config.ss_active_high = false;
APP_ERROR_CHECK(nrfx_spim_init(&spi, &spi_config, spim_event_handler, NULL));
NRF_LOG_INFO("NRFX SPIM example started.");
while (1)
{
// Reset rx buffer and transfer done flag
memset(m_rx_buf, 0, m_length);
spi_xfer_done = false;
//APP_ERROR_CHECK(nrfx_spim_xfer_dcx(&spi, &xfer_desc, 0, 15));
APP_ERROR_CHECK(nrfx_spim_xfer(&spi, &xfer_desc, 0));
while (!spi_xfer_done)
{
__WFE();
}
NRF_LOG_FLUSH();
bsp_board_led_invert(BSP_BOARD_LED_0);
nrf_delay_ms(200);
}
}
