diff --git a/examples/platform/silabs/efr32/rs911x/hal/efx_spi.c b/examples/platform/silabs/efr32/rs911x/hal/efx_spi.c index b4b869551c8ac3..3c3b99c73647e5 100644 --- a/examples/platform/silabs/efr32/rs911x/hal/efx_spi.c +++ b/examples/platform/silabs/efr32/rs911x/hal/efx_spi.c @@ -118,7 +118,7 @@ void sl_wfx_host_gpio_init(void) NVIC_SetPriority(GPIO_EVEN_IRQn, WFX_SPI_NVIC_PRIORITY); NVIC_SetPriority(GPIO_ODD_IRQn, WFX_SPI_NVIC_PRIORITY); spi_enabled = true; - SILABS_LOG("%s completed.", __func__) + SILABS_LOG("%s completed.", __func__); } /***************************************************************** @@ -141,7 +141,7 @@ void sl_wfx_host_reset_chip(void) // Delay for 3ms vTaskDelay(pdMS_TO_TICKS(3)); - SILABS_LOG("%s completed.", __func__) + SILABS_LOG("%s completed.", __func__); } /***************************************************************** @@ -166,23 +166,23 @@ void rsi_hal_board_init(void) /* Reset of Wifi chip */ sl_wfx_host_reset_chip(); - SILABS_LOG("%s completed.", __func__) + SILABS_LOG("%s completed.", __func__); } #if defined(EFR32MG24) sl_status_t sl_wfx_host_spi_cs_assert() { - SILABS_LOG("%s started.", __func__) + SILABS_LOG("%s started.", __func__); configASSERT(spi_sem_sync_hdl); if (xSemaphoreTake(spi_sem_sync_hdl, portMAX_DELAY) != pdTRUE) { - SILABS_LOG("%s errored.", __func__) + SILABS_LOG("%s errored.", __func__); return SL_STATUS_TIMEOUT; } // if (spi_enabled) // { // SPIDRV_DeInit(SL_SPIDRV_HANDLE); - // SILABS_LOG("%s did deinit.", __func__) + // SILABS_LOG("%s did deinit.", __func__); // spi_enabled = false; // } if (!spi_enabled) // Reduce SPIDRV_Init @@ -191,13 +191,13 @@ sl_status_t sl_wfx_host_spi_cs_assert() spi_enabled = true; } GPIO_PinOutClear(SL_SPIDRV_EUSART_EXP_CS_PORT, SL_SPIDRV_EUSART_EXP_CS_PIN); - SILABS_LOG("%s completed.", __func__) + SILABS_LOG("%s completed.", __func__); return SL_STATUS_OK; } sl_status_t sl_wfx_host_spi_cs_deassert() { - SILABS_LOG("%s started.", __func__) + SILABS_LOG("%s started.", __func__); if (spi_enabled) { SPIDRV_DeInit(SL_SPIDRV_HANDLE); @@ -207,27 +207,27 @@ sl_status_t sl_wfx_host_spi_cs_deassert() // TODO: should be done by deinit, check once. GPIO->EUSARTROUTE[SL_SPIDRV_EUSART_EXP_PERIPHERAL_NO].ROUTEEN = 0; xSemaphoreGive(spi_sem_sync_hdl); - SILABS_LOG("%s completed.", __func__) + SILABS_LOG("%s completed.", __func__); return SL_STATUS_OK; } void sl_wfx_host_spiflash_cs_assert() { - SILABS_LOG("%s started.", __func__) + SILABS_LOG("%s started.", __func__); GPIO_PinOutClear(SL_MX25_FLASH_SHUTDOWN_CS_PORT, SL_MX25_FLASH_SHUTDOWN_CS_PIN); - SILABS_LOG("%s completed.", __func__) + SILABS_LOG("%s completed.", __func__); } void sl_wfx_host_spiflash_cs_deassert() { - SILABS_LOG("%s started.", __func__) + SILABS_LOG("%s started.", __func__); GPIO_PinOutSet(SL_MX25_FLASH_SHUTDOWN_CS_PORT, SL_MX25_FLASH_SHUTDOWN_CS_PIN); - SILABS_LOG("%s completed.", __func__) + SILABS_LOG("%s completed.", __func__); } void sl_wfx_host_pre_bootloader_spi_transfer() { - SILABS_LOG("%s started.", __func__) + SILABS_LOG("%s started.", __func__); if (xSemaphoreTake(spi_sem_sync_hdl, portMAX_DELAY) != pdTRUE) { return; @@ -240,22 +240,22 @@ void sl_wfx_host_pre_bootloader_spi_transfer() bootloader_init(); // bootloader_init takes care of SPIDRV_Init() sl_wfx_host_spiflash_cs_assert(); - SILABS_LOG("%s completed.", __func__) + SILABS_LOG("%s completed.", __func__); } void sl_wfx_host_post_bootloader_spi_transfer() { - SILABS_LOG("%s started.", __func__) + SILABS_LOG("%s started.", __func__); bootloader_deinit(); GPIO->USARTROUTE[0].ROUTEEN = 0; sl_wfx_host_spiflash_cs_deassert(); xSemaphoreGive(spi_sem_sync_hdl); - SILABS_LOG("%s completed.", __func__) + SILABS_LOG("%s completed.", __func__); } void sl_wfx_host_pre_lcd_spi_transfer() { - SILABS_LOG("%s started.", __func__) + SILABS_LOG("%s started.", __func__); if (xSemaphoreTake(spi_sem_sync_hdl, portMAX_DELAY) != pdTRUE) { return; @@ -267,17 +267,17 @@ void sl_wfx_host_pre_lcd_spi_transfer() } sl_memlcd_refresh(sl_memlcd_get()); // sl_memlcd_refresh takes care of SPIDRV_Init() - SILABS_LOG("%s completed.", __func__) + SILABS_LOG("%s completed.", __func__); } void sl_wfx_host_post_lcd_spi_transfer() { - SILABS_LOG("%s started.", __func__) + SILABS_LOG("%s started.", __func__); USART_Enable(SL_MEMLCD_SPI_PERIPHERAL, usartDisable); CMU_ClockEnable(SPI_CLOCK(SL_MEMLCD_SPI_PERIPHERAL_NO), false); GPIO->USARTROUTE[SL_MEMLCD_SPI_PERIPHERAL_NO].ROUTEEN = 0; xSemaphoreGive(spi_sem_sync_hdl); - SILABS_LOG("%s completed.", __func__) + SILABS_LOG("%s completed.", __func__); } #endif /* EFR32MG24 */ @@ -316,7 +316,7 @@ static void spi_dmaTransfertComplete(SPIDRV_HandleData_t * pxHandle, Ecode_t tra **************************************************************************/ int16_t rsi_spi_transfer(uint8_t * tx_buf, uint8_t * rx_buf, uint16_t xlen, uint8_t mode) { - SILABS_LOG("%s started.", __func__) + SILABS_LOG("%s started.", __func__); #if defined(EFR32MG24) sl_wfx_host_spi_cs_assert(); #endif /* EFR32MG24 */ @@ -325,7 +325,7 @@ int16_t rsi_spi_transfer(uint8_t * tx_buf, uint8_t * rx_buf, uint16_t xlen, uint */ if (xlen <= MIN_XLEN || (tx_buf == NULL && rx_buf == NULL)) { - SILABS_LOG("%s error.", __func__) + SILABS_LOG("%s error.", __func__); return RSI_ERROR_INVALID_PARAM; } @@ -383,6 +383,6 @@ int16_t rsi_spi_transfer(uint8_t * tx_buf, uint8_t * rx_buf, uint16_t xlen, uint #if defined(EFR32MG24) sl_wfx_host_spi_cs_deassert(); #endif /* EFR32MG24 */ - SILABS_LOG("%s completed.", __func__) + SILABS_LOG("%s completed.", __func__); return rsiError; }