/**************************************************************************//** * @file * @brief SPI implementation of Board Control interface * This implementation use the USART2 SPI interface to control board * control registers. It works * @author Energy Micro AS * @version 1.7.3 ****************************************************************************** * @section License * (C) Copyright 2010 Energy Micro AS, http://www.energymicro.com ****************************************************************************** * * This source code is the property of Energy Micro AS. The source and compiled * code may only be used on Energy Micro "EFM32" microcontrollers. * * This copyright notice may not be removed from the source code nor changed. * * DISCLAIMER OF WARRANTY/LIMITATION OF REMEDIES: Energy Micro AS has no * obligation to support this Software. Energy Micro AS is providing the * Software "AS IS", with no express or implied warranties of any kind, * including, but not limited to, any implied warranties of merchantability * or fitness for any particular purpose or warranties against infringement * of any proprietary rights of a third party. * * Energy Micro AS will not be liable for any consequential, incidental, or * special damages, or any other relief, or for any claim by any third party, * arising from your use of this Software. * *****************************************************************************/ /***************************************************************************//** * @addtogroup BSP * @{ ******************************************************************************/ #include #include "efm32.h" #include "efm32_usart.h" #include "efm32_gpio.h" #include "efm32_cmu.h" #include "dvk.h" #include "dvk_bcregisters.h" #ifdef _EFM32_TINY_FAMILY /* USART used for SPI access */ #define USART_USED USART0 #define USART_CLK cmuClock_USART0 /* GPIO pins used, please refer to DVK user guide. */ #define PIN_SPIBUS_CONNECT 13 #define PORT_SPIBUS_CONNECT gpioPortC #define PIN_SPI_TX 10 #define PORT_SPI_TX gpioPortE #define PIN_SPI_RX 11 #define PORT_SPI_RX gpioPortE #define PIN_SPI_CLK 12 #define PORT_SPI_CLK gpioPortE #define PIN_SPI_CS 13 #define PORT_SPI_CS gpioPortE #else /* USART used for SPI access */ #define USART_USED USART2 #define USART_CLK cmuClock_USART2 /* GPIO pins used, please refer to DVK user guide. */ #define PIN_SPIBUS_CONNECT 13 #define PORT_SPIBUS_CONNECT gpioPortC #define PIN_EBIBUS_CONNECT 12 #define PORT_EBIBUS_CONNECT gpioPortC #define PIN_SPI_TX 2 #define PORT_SPI_TX gpioPortC #define PIN_SPI_RX 3 #define PORT_SPI_RX gpioPortC #define PIN_SPI_CLK 4 #define PORT_SPI_CLK gpioPortC #define PIN_SPI_CS 5 #define PORT_SPI_CS gpioPortC #endif static volatile uint16_t *lastAddr = NULL; /**************************************************************************//** * @brief Initializes SPI interface for access to FPGA registers * for board control *****************************************************************************/ static void spiInit(void) { USART_InitSync_TypeDef init = USART_INITSYNC_DEFAULT; /* Enable module clocks */ CMU_ClockEnable(cmuClock_GPIO, true); CMU_ClockEnable(cmuClock_HFPER, true); CMU_ClockEnable(USART_CLK, true); /* Configure SPI bus connect pins, DOUT set to 0, disable EBI */ GPIO_PinModeSet(PORT_SPIBUS_CONNECT, PIN_SPIBUS_CONNECT, gpioModePushPull, 0); GPIO_PinModeSet(PORT_EBIBUS_CONNECT, PIN_EBIBUS_CONNECT, gpioModePushPull, 1); /* Configure SPI pins */ GPIO_PinModeSet(PORT_SPI_TX, PIN_SPI_TX, gpioModePushPull, 0); GPIO_PinModeSet(PORT_SPI_RX, PIN_SPI_RX, gpioModePushPull, 0); GPIO_PinModeSet(PORT_SPI_CLK, PIN_SPI_CLK, gpioModePushPull, 0); /* Keep CS high to not activate slave */ GPIO_PinModeSet(PORT_SPI_CS, PIN_SPI_CS, gpioModePushPull, 1); /* Configure to use SPI master with manual CS */ /* For now, configure SPI for worst case 32MHz clock in order to work for all */ /* configurations. */ init.refFreq = 32000000; init.baudrate = 7000000; USART_InitSync(USART_USED, &init); /* Enable pins at default location */ USART_USED->ROUTE = USART_ROUTE_TXPEN | USART_ROUTE_RXPEN | USART_ROUTE_CLKPEN; } /**************************************************************************//** * @brief Disables GPIO pins and USART from FPGA register access *****************************************************************************/ static void spiDisable(void) { USART_Reset(USART_USED); /* Disable LCD_SELECT */ GPIO_PinModeSet(gpioPortD, 13, gpioModeDisabled, 0); /* Disable SPI pins */ GPIO_PinModeSet(PORT_SPIBUS_CONNECT, 13, gpioModeDisabled, 0); GPIO_PinModeSet(PORT_SPIBUS_CONNECT, 12, gpioModeDisabled, 0); GPIO_PinModeSet(PORT_SPI_TX, PIN_SPI_TX, gpioModeDisabled, 0); GPIO_PinModeSet(PORT_SPI_RX, PIN_SPI_RX, gpioModeDisabled, 0); GPIO_PinModeSet(PORT_SPI_CLK, PIN_SPI_CLK, gpioModeDisabled, 0); GPIO_PinModeSet(PORT_SPI_CS, PIN_SPI_CS, gpioModeDisabled, 0); /* Disable USART clock - we can't disable GPIO or HFPER as we don't know who else * might be using it */ CMU_ClockEnable(USART_CLK, false); } /**************************************************************************//** * @brief Perform SPI Transfer *****************************************************************************/ static uint16_t spiAccess(uint8_t spiaddr, uint8_t rw, uint16_t spidata) { uint16_t tmp; GPIO_PinOutClear(PORT_SPI_CS, PIN_SPI_CS); /* For every byte sent, one is received */ /* Write SPI address */ USART_Tx(USART_USED, (spiaddr & 0x3) | rw << 3); /* Just ignore data read back */ USART_Rx(USART_USED); /* SPI data LSB */ USART_Tx(USART_USED, spidata & 0xFF); tmp = (uint16_t)USART_Rx(USART_USED); /* SPI data MSB */ USART_Tx(USART_USED, spidata >> 8); tmp |= (uint16_t)USART_Rx(USART_USED) << 8; GPIO_PinOutSet(PORT_SPI_CS, PIN_SPI_CS); return tmp; } /**************************************************************************//** * @brief Performs SPI write to FPGA register * @param spiadr Address of register * @param spidata Data to write *****************************************************************************/ static void spiWrite(uint8_t spiadr, uint16_t spidata) { spiAccess(spiadr, 0, spidata); } /**************************************************************************//** * @brief Performs SPI read from FPGA register * @param spiadr Address of register * @param spidata Dummy data *****************************************************************************/ static uint16_t spiRead(uint8_t spiadr, uint16_t spidata) { return spiAccess(spiadr, 1, spidata); } /**************************************************************************//** * @brief Initializes DVK register access * @return true on success, false on failure *****************************************************************************/ bool DVK_SPI_init(void) { uint16_t spiMagic; spiInit(); /* Read "board control Magic" register to verify SPI is up and running */ /* if not FPGA is configured to be in EBI mode */ spiMagic = DVK_SPI_readRegister(BC_MAGIC); if(spiMagic != BC_MAGIC_VALUE) { return false; } else { return true; } } /**************************************************************************//** * @brief Disable and free up resources used by SPI board control access *****************************************************************************/ void DVK_SPI_disable(void) { spiDisable(); } /**************************************************************************//** * @brief Perform read from DVK board control register * @param addr Address of register to read from *****************************************************************************/ uint16_t DVK_SPI_readRegister(volatile uint16_t *addr) { uint16_t data; if (addr != lastAddr) { spiWrite(0x00, 0xFFFF & ((uint32_t) addr)); /*LSBs of address*/ spiWrite(0x01, 0xFF & ((uint32_t) addr >> 16)); /*MSBs of address*/ spiWrite(0x02, (0x0C000000 & (uint32_t) addr) >> 26); /*Chip select*/ } /* Read twice */ data = spiRead(0x03, 0); data = spiRead(0x03, 0); lastAddr = addr; return data; } /**************************************************************************//** * @brief Perform write to DVK board control register * @param addr Address of register to write to * @param data 16-bit to write into register *****************************************************************************/ void DVK_SPI_writeRegister(volatile uint16_t *addr, uint16_t data) { if (addr != lastAddr) { spiWrite(0x00, 0xFFFF & ((uint32_t) addr)); /*LSBs of address*/ spiWrite(0x01, 0xFF & ((uint32_t) addr >> 16)); /*MSBs of address*/ spiWrite(0x02, (0x0C000000 & (uint32_t) addr) >> 26); /*Chip select*/ } spiWrite(0x03, data); /*Data*/ lastAddr = addr; } /** @} (end group BSP) */