/** * \internal * \brief Setup function: Send data by polling & receive with interrupt. * * This function registers and enables callback for buffer receive * completed operation. * * \param test Current test case. */ static void setup_buffer_polled_write_interrupt_read_test (const struct test_case *test) { /* Register & enable callback for buffer reception */ spi_register_callback(&slave, user_spi_callback, SPI_CALLBACK_BUFFER_RECEIVED); spi_enable_callback(&slave, SPI_CALLBACK_BUFFER_RECEIVED); }
//! [conf_callback] void configure_spi_master_callbacks(void) { //! [reg_callback] spi_register_callback(&spi_master_instance, callback_spi_master, SPI_CALLBACK_BUFFER_TRANSCEIVED); //! [reg_callback] //! [en_callback] spi_enable_callback(&spi_master_instance, SPI_CALLBACK_BUFFER_TRANSCEIVED); //! [en_callback] }
/*---------------------------------------------------------------------------*/ PROCESS_THREAD(mainProcess, ev, data) { PROCESS_BEGIN(); GPIO_SET_OUTPUT(GPIO_A_BASE, 0xf8); GPIO_SET_OUTPUT(GPIO_B_BASE, 0x0f); GPIO_SET_OUTPUT(GPIO_C_BASE, 0x02); GPIO_CLR_PIN(GPIO_A_BASE, 0xf8); GPIO_CLR_PIN(GPIO_B_BASE, 0x07); GPIO_SET_PIN(EDISON_WAKEUP_BASE, EDISON_WAKEUP_PIN_MASK); // edison WAKEUP GPIO_SET_INPUT(RESET_PORT_BASE, RESET_PIN_MASK); // reset ioc_set_over(RESET_PORT, RESET_PIN, IOC_OVERRIDE_PUE); leds_off(LEDS_RED); leds_off(LEDS_GREEN); leds_off(LEDS_BLUE); // RESET interrupt, active low GPIO_DETECT_EDGE(RESET_PORT_BASE, RESET_PIN_MASK); GPIO_DETECT_FALLING(RESET_PORT_BASE, RESET_PIN_MASK); GPIO_TRIGGER_SINGLE_EDGE(RESET_PORT_BASE, RESET_PIN_MASK); gpio_register_callback(resetcallBack, RESET_PORT, RESET_PIN); GPIO_ENABLE_INTERRUPT(RESET_PORT_BASE, RESET_PIN_MASK); nvic_interrupt_enable(RESET_NVIC_PORT); GPIO_CLR_PIN(TRIUMVI_DATA_READY_PORT_BASE, TRIUMVI_DATA_READY_MASK); // SPI CS interrupt GPIO_DETECT_EDGE(SPI0_CS_PORT_BASE, SPI0_CS_PIN_MASK); GPIO_DETECT_RISING(SPI0_CS_PORT_BASE, SPI0_CS_PIN_MASK); GPIO_TRIGGER_SINGLE_EDGE(SPI0_CS_PORT_BASE, SPI0_CS_PIN_MASK); gpio_register_callback(spiCScallBack, SPI0_CS_PORT, SPI0_CS_PIN); GPIO_ENABLE_INTERRUPT(SPI0_CS_PORT_BASE, SPI0_CS_PIN_MASK); // SPI interface spix_slave_init(SPIDEV); spix_txdma_enable(SPIDEV); spi_register_callback(spiFIFOcallBack); spix_interrupt_enable(SPIDEV, SSI_IM_RXIM_M); // RX FIFO half full nvic_interrupt_enable(NVIC_INT_SSI0); // uDMA SPI0 TX udma_channel_disable(CC2538_SPI0_TX_DMA_CHAN); udma_channel_prio_set_default(CC2538_SPI0_TX_DMA_CHAN); udma_channel_use_primary(CC2538_SPI0_TX_DMA_CHAN); udma_channel_use_single(CC2538_SPI0_TX_DMA_CHAN); udma_channel_mask_clr(CC2538_SPI0_TX_DMA_CHAN); udma_set_channel_dst(CC2538_SPI0_TX_DMA_CHAN, SPI0DR); udma_set_channel_assignment(CC2538_SPI0_TX_DMA_CHAN, UDMA_CH11_SSI0TX); simple_network_set_callback(&rf_rx_handler); //NETSTACK_RADIO.off(); process_start(&decryptProcess, NULL); process_start(&spiProcess, NULL); while (1){ PROCESS_YIELD(); // buffer is not empty, spi is not in use //if ((spiInUse==0) && (spix_busy(SPIDEV)==0) && ((triumviAvailIDX!=triumviFullIDX) || (triumviRXBufFull==1))){ if ((spiInUse==0) && ((triumviAvailIDX!=triumviFullIDX) || (triumviRXBufFull==1))){ GPIO_SET_PIN(TRIUMVI_DATA_READY_PORT_BASE, TRIUMVI_DATA_READY_MASK); if (triumviRXBufFull==1){ resetCnt += 1; if (resetCnt==RESET_THRESHOLD){ watchdog_reboot(); } } #ifdef LED_DEBUG leds_off(LEDS_RED); leds_off(LEDS_GREEN); leds_off(LEDS_BLUE); #endif } // Fail safe, CC2538 missing some SPI commands, reset spi state else if (triumviRXBufFull==1){ spiState = SPI_RESET; process_poll(&spiProcess); #ifdef LED_DEBUG leds_off(LEDS_RED); leds_off(LEDS_GREEN); leds_on(LEDS_BLUE); #endif } } PROCESS_END(); }