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792cfef50b
git-svn-id: svn://svn.openpilot.org/OpenPilot/trunk@207 ebee16cc-31ac-478f-84a7-5cbb03baadba
603 lines
20 KiB
C
603 lines
20 KiB
C
/**
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******************************************************************************
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*
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* @file pios_spi.c
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* @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2010.
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* Parts by Thorsten Klose (tk@midibox.org) (tk@midibox.org)
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* @brief Hardware Abstraction Layer for SPI ports of STM32
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* @see The GNU Public License (GPL) Version 3
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* @defgroup PIOS_SPI SPI Functions
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* @notes
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* J19 provides two RCLK (alias Chip Select) lines.<BR>
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* It's a software emulated SPI, therefore the selected spi_prescaler has no
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* effect! Bytes are transfered so fast as possible. The usage of
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* PIOS_SPI_PIN_DRIVER_STRONG is strongly recommended ;)<BR>
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* DMA transfers are not supported by the emulation, so that
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* PIOS_SPI_TransferBlock() will consume CPU time (but the callback handling does work).
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*
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* Note that additional chip select lines can be easily added by using
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* the remaining free GPIOs of the core module. Shared SPI ports should be
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* arbitrated with (FreeRTOS based) Mutexes to avoid collisions!
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* @{
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*
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*****************************************************************************/
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/*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful, but
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* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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* for more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with this program; if not, write to the Free Software Foundation, Inc.,
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* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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#include <pios.h>
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#if !defined(PIOS_DONT_USE_SPI)
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/* Local variables */
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static void (*spi_callback[PIOS_SPI_NUM])(void);
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static uint8_t tx_dummy_byte;
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static uint8_t rx_dummy_byte;
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/**
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* Initialises SPI pins
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* \param[in] mode currently only mode 0 supported
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* \return < 0 if initialisation failed
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*/
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int32_t PIOS_SPI_Init(void)
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{
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DMA_InitTypeDef DMA_InitStructure;
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DMA_StructInit(&DMA_InitStructure);
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NVIC_InitTypeDef NVIC_InitStructure;
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#if (PIOS_SPI0_ENABLED)
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/* SPI0 */
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/* Disable callback function */
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spi_callback[0] = NULL;
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/* Set RC pin(s) to 1 */
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PIOS_SPI_RC_PinSet(0, 1); // spi, rc_pin, pin_value
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/* IO configuration */
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PIOS_SPI_IO_Init(0, PIOS_SPI_PIN_DRIVER_WEAK_OD);
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/* Enable SPI peripheral clock (APB2 == high speed) */
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RCC_APB2PeriphClockCmd(RCC_APB2Periph_SPI1, ENABLE);
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/* Enable DMA1 clock */
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RCC_AHBPeriphClockCmd(RCC_AHBPeriph_DMA1, ENABLE);
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/* DMA Configuration for SPI Rx Event */
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DMA_Cmd(PIOS_SPI0_DMA_RX_PTR, DISABLE);
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DMA_InitStructure.DMA_PeripheralBaseAddr = (uint32_t)&PIOS_SPI0_PTR->DR;
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DMA_InitStructure.DMA_MemoryBaseAddr = 0; /* Will be configured later */
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DMA_InitStructure.DMA_DIR = DMA_DIR_PeripheralSRC;
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DMA_InitStructure.DMA_BufferSize = 0; /* Will be configured later */
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DMA_InitStructure.DMA_PeripheralInc = DMA_PeripheralInc_Disable;
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DMA_InitStructure.DMA_MemoryInc = DMA_MemoryInc_Enable;
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DMA_InitStructure.DMA_PeripheralDataSize = DMA_PeripheralDataSize_Byte;
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DMA_InitStructure.DMA_MemoryDataSize = DMA_MemoryDataSize_Byte;
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DMA_InitStructure.DMA_Mode = DMA_Mode_Normal;
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DMA_InitStructure.DMA_Priority = DMA_Priority_Medium;
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DMA_InitStructure.DMA_M2M = DMA_M2M_Disable;
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DMA_Init(PIOS_SPI0_DMA_RX_PTR, &DMA_InitStructure);
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/* DMA Configuration for SPI Tx Event */
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/* (partly re-using previous DMA setup) */
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DMA_Cmd(PIOS_SPI0_DMA_TX_PTR, DISABLE);
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DMA_InitStructure.DMA_MemoryBaseAddr = 0; /* Will be configured later */
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DMA_InitStructure.DMA_BufferSize = 0; /* Will be configured later */
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DMA_InitStructure.DMA_DIR = DMA_DIR_PeripheralDST;
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DMA_InitStructure.DMA_MemoryInc = DMA_MemoryInc_Enable;
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DMA_Init(PIOS_SPI0_DMA_TX_PTR, &DMA_InitStructure);
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/* Initial SPI peripheral configuration */
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PIOS_SPI_TransferModeInit(0, PIOS_SPI_MODE_CLK1_PHASE1, PIOS_SPI_PRESCALER_128);
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/* Enable SPI */
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SPI_Cmd(PIOS_SPI0_PTR, ENABLE);
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/* Enable SPI interrupts to DMA */
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SPI_I2S_DMACmd(PIOS_SPI0_PTR, SPI_I2S_DMAReq_Tx | SPI_I2S_DMAReq_Rx, ENABLE);
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/* Configure DMA interrupt */
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NVIC_InitStructure.NVIC_IRQChannel = PIOS_SPI0_DMA_IRQ_CHANNEL;
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NVIC_InitStructure.NVIC_IRQChannelPreemptionPriority = PIOS_SPI_IRQ_DMA_PRIORITY;
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NVIC_InitStructure.NVIC_IRQChannelSubPriority = 0;
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NVIC_InitStructure.NVIC_IRQChannelCmd = ENABLE;
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NVIC_Init(&NVIC_InitStructure);
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#endif
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#if (PIOS_SPI1_ENABLED)
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/* SPI1 */
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/* Disable callback function */
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spi_callback[1] = NULL;
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/* Set RC pin(s) to 1 */
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PIOS_SPI_RC_PinSet(1, 1); /* spi, pin_value */
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/* IO configuration */
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PIOS_SPI_IO_Init(1, PIOS_SPI_PIN_DRIVER_WEAK_OD);
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/* Enable SPI peripheral clock (APB1 == slow speed) */
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RCC_APB1PeriphClockCmd(RCC_APB1Periph_SPI2, ENABLE);
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/* Enable DMA1 clock */
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RCC_AHBPeriphClockCmd(RCC_AHBPeriph_DMA1, ENABLE);
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/* DMA Configuration for SPI Rx Event */
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DMA_Cmd(PIOS_SPI1_DMA_RX_PTR, DISABLE);
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DMA_InitStructure.DMA_PeripheralBaseAddr = (uint32_t)&PIOS_SPI1_PTR->DR;
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DMA_InitStructure.DMA_MemoryBaseAddr = 0; // will be configured later
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DMA_InitStructure.DMA_DIR = DMA_DIR_PeripheralSRC;
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DMA_InitStructure.DMA_BufferSize = 0; // will be configured later
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DMA_InitStructure.DMA_PeripheralInc = DMA_PeripheralInc_Disable;
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DMA_InitStructure.DMA_MemoryInc = DMA_MemoryInc_Enable;
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DMA_InitStructure.DMA_PeripheralDataSize = DMA_PeripheralDataSize_Byte;
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DMA_InitStructure.DMA_MemoryDataSize = DMA_MemoryDataSize_Byte;
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DMA_InitStructure.DMA_Mode = DMA_Mode_Normal;
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DMA_InitStructure.DMA_Priority = DMA_Priority_Medium;
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DMA_InitStructure.DMA_M2M = DMA_M2M_Disable;
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DMA_Init(PIOS_SPI1_DMA_RX_PTR, &DMA_InitStructure);
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/* DMA Configuration for SPI Tx Event */
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/* (partly re-using previous DMA setup) */
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DMA_Cmd(PIOS_SPI1_DMA_TX_PTR, DISABLE);
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DMA_InitStructure.DMA_MemoryBaseAddr = 0; // will be configured later
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DMA_InitStructure.DMA_BufferSize = 0; // will be configured later
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DMA_InitStructure.DMA_DIR = DMA_DIR_PeripheralDST;
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DMA_InitStructure.DMA_MemoryInc = DMA_MemoryInc_Enable;
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DMA_Init(PIOS_SPI1_DMA_TX_PTR, &DMA_InitStructure);
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/* Initial SPI peripheral configuration */
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PIOS_SPI_TransferModeInit(1, PIOS_SPI_MODE_CLK1_PHASE1, PIOS_SPI_PRESCALER_128);
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/* Enable SPI */
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SPI_Cmd(PIOS_SPI1_PTR, ENABLE);
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/* Enable SPI interrupts to DMA */
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SPI_I2S_DMACmd(PIOS_SPI1_PTR, SPI_I2S_DMAReq_Tx | SPI_I2S_DMAReq_Rx, ENABLE);
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/* Configure DMA interrupt */
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NVIC_InitStructure.NVIC_IRQChannel = PIOS_SPI1_DMA_IRQ_CHANNEL;
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NVIC_InitStructure.NVIC_IRQChannelPreemptionPriority = PIOS_SPI_IRQ_DMA_PRIORITY; /* defined in PIOS_irq.h */
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NVIC_InitStructure.NVIC_IRQChannelSubPriority = 0;
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NVIC_InitStructure.NVIC_IRQChannelCmd = ENABLE;
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NVIC_Init(&NVIC_InitStructure);
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#endif
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/* No error */
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return 0;
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}
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/**
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* (Re-)initializes SPI IO Pins
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* By default, all output pins are configured with weak open drain drivers for 2 MHz
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* \param[in] spi SPI number (0, 1 or 2)
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* \param[in] spi_pin_driver configures the driver strength:
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* <UL>
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* <LI>PIOS_SPI_PIN_DRIVER_STRONG: Configures outputs for up to 50 MHz
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* <LI>PIOS_SPI_PIN_DRIVER_STRONG_OD: Configures outputs as open drain
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* for up to 50 MHz (allows voltage shifting via pull-resistors)
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* <LI>PIOS_SPI_PIN_DRIVER_WEAK: Configures outputs for up to 2 MHz (better EMC)
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* <LI>PIOS_SPI_PIN_DRIVER_WEAK_OD: Configures outputs as open drain for
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* up to 2 MHz (allows voltage shifting via pull-resistors)
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* </UL>
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* \return 0 if no error
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* \return -1 if disabled SPI port selected
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* \return -2 if unsupported SPI port selected
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* \return -3 if unsupported pin driver mode
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*/
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int32_t PIOS_SPI_IO_Init(uint8_t spi, SPIPinDriverTypeDef spi_pin_driver)
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{
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/* Init GPIO structure */
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GPIO_InitTypeDef GPIO_InitStructure;
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GPIO_StructInit(&GPIO_InitStructure);
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/* Select pin driver and output mode */
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uint32_t af_mode;
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uint32_t gp_mode;
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switch(spi_pin_driver) {
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case PIOS_SPI_PIN_DRIVER_STRONG:
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GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
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af_mode = GPIO_Mode_AF_PP;
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gp_mode = GPIO_Mode_Out_PP;
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break;
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case PIOS_SPI_PIN_DRIVER_STRONG_OD:
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GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
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af_mode = GPIO_Mode_AF_OD;
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gp_mode = GPIO_Mode_Out_OD;
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break;
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case PIOS_SPI_PIN_DRIVER_WEAK:
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GPIO_InitStructure.GPIO_Speed = GPIO_Speed_2MHz;
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af_mode = GPIO_Mode_AF_PP;
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gp_mode = GPIO_Mode_Out_PP;
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break;
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case PIOS_SPI_PIN_DRIVER_WEAK_OD:
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GPIO_InitStructure.GPIO_Speed = GPIO_Speed_2MHz;
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af_mode = GPIO_Mode_AF_OD;
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gp_mode = GPIO_Mode_Out_OD;
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break;
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default:
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/* Unsupported pin driver mode */
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return -3;
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}
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switch(spi) {
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case 0:
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/* SCLK and DOUT are outputs assigned to alternate functions */
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GPIO_InitStructure.GPIO_Mode = af_mode;
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GPIO_InitStructure.GPIO_Pin = PIOS_SPI0_SCLK_PIN;
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GPIO_Init(PIOS_SPI0_SCLK_PORT, &GPIO_InitStructure);
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GPIO_InitStructure.GPIO_Pin = PIOS_SPI0_MOSI_PIN;
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GPIO_Init(PIOS_SPI0_MOSI_PORT, &GPIO_InitStructure);
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/* RCLK outputs assigned to GPIO */
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GPIO_InitStructure.GPIO_Mode = gp_mode;
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GPIO_InitStructure.GPIO_Pin = PIOS_SPI0_RCLK1_PIN;
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GPIO_Init(PIOS_SPI0_RCLK1_PORT, &GPIO_InitStructure);
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/* DIN is input with pull-up */
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GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
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GPIO_InitStructure.GPIO_Pin = PIOS_SPI0_MISO_PIN;
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GPIO_Init(PIOS_SPI0_MISO_PORT, &GPIO_InitStructure);
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break;
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case 1:
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/* SCLK and DOUT are outputs assigned to alternate functions */
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GPIO_InitStructure.GPIO_Mode = af_mode;
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GPIO_InitStructure.GPIO_Pin = PIOS_SPI1_SCLK_PIN;
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GPIO_Init(PIOS_SPI1_SCLK_PORT, &GPIO_InitStructure);
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GPIO_InitStructure.GPIO_Pin = PIOS_SPI1_MOSI_PIN;
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GPIO_Init(PIOS_SPI1_MOSI_PORT, &GPIO_InitStructure);
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/* RCLK outputs assigned to GPIO */
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GPIO_InitStructure.GPIO_Mode = gp_mode;
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GPIO_InitStructure.GPIO_Pin = PIOS_SPI1_RCLK1_PIN;
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GPIO_Init(PIOS_SPI1_RCLK1_PORT, &GPIO_InitStructure);
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/* DIN is input with pull-up */
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GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IPU;
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GPIO_InitStructure.GPIO_Pin = PIOS_SPI1_MISO_PIN;
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GPIO_Init(PIOS_SPI1_MISO_PORT, &GPIO_InitStructure);
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break;
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default:
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/* Unsupported SPI port */
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return -2;
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}
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/* No error */
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return 0;
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}
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/**
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* (Re-)initialises SPI peripheral transfer mode
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* By default, all SPI peripherals are configured with
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* PIOS_SPI_MODE_CLK1_PHASE1 and PIOS_SPI_PRESCALER_128
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*
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* \param[in] spi SPI number (0 or 1)
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* \param[in] spi_mode configures clock and capture phase:
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* <UL>
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* <LI>PIOS_SPI_MODE_CLK0_PHASE0: Idle level of clock is 0, data captured at rising edge
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* <LI>PIOS_SPI_MODE_CLK0_PHASE1: Idle level of clock is 0, data captured at falling edge
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* <LI>PIOS_SPI_MODE_CLK1_PHASE0: Idle level of clock is 1, data captured at falling edge
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* <LI>PIOS_SPI_MODE_CLK1_PHASE1: Idle level of clock is 1, data captured at rising edge
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* </UL>
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* \param[in] spi_prescaler configures the SPI speed:
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* <UL>
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* <LI>PIOS_SPI_PRESCALER_2: sets clock rate 27.7~ nS @ 72 MHz (36 MBit/s) (only supported for spi==0, spi1 uses 4 instead)
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* <LI>PIOS_SPI_PRESCALER_4: sets clock rate 55.5~ nS @ 72 MHz (18 MBit/s)
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* <LI>PIOS_SPI_PRESCALER_8: sets clock rate 111.1~ nS @ 72 MHz (9 MBit/s)
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* <LI>PIOS_SPI_PRESCALER_16: sets clock rate 222.2~ nS @ 72 MHz (4.5 MBit/s)
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* <LI>PIOS_SPI_PRESCALER_32: sets clock rate 444.4~ nS @ 72 MHz (2.25 MBit/s)
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* <LI>PIOS_SPI_PRESCALER_64: sets clock rate 888.8~ nS @ 72 MHz (1.125 MBit/s)
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* <LI>PIOS_SPI_PRESCALER_128: sets clock rate 1.7~ nS @ 72 MHz (0.562 MBit/s)
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* <LI>PIOS_SPI_PRESCALER_256: sets clock rate 3.5~ nS @ 72 MHz (0.281 MBit/s)
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* </UL>
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* \return 0 if no error
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* \return -1 if disabled SPI port selected
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* \return -2 if unsupported SPI port selected
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* \return -3 if invalid spi_prescaler selected
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* \return -4 if invalid spi_mode selected
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*/
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int32_t PIOS_SPI_TransferModeInit(uint8_t spi, SPIModeTypeDef spi_mode, SPIPrescalerTypeDef spi_prescaler)
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{
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/* SPI configuration */
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SPI_InitTypeDef SPI_InitStructure;
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SPI_InitStructure.SPI_Direction = SPI_Direction_2Lines_FullDuplex;
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SPI_InitStructure.SPI_Mode = SPI_Mode_Master;
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SPI_InitStructure.SPI_DataSize = SPI_DataSize_8b;
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SPI_InitStructure.SPI_NSS = SPI_NSS_Soft;
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SPI_InitStructure.SPI_FirstBit = SPI_FirstBit_MSB;
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SPI_InitStructure.SPI_CRCPolynomial = 7;
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switch(spi_mode) {
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case PIOS_SPI_MODE_CLK0_PHASE0:
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SPI_InitStructure.SPI_CPOL = SPI_CPOL_Low;
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SPI_InitStructure.SPI_CPHA = SPI_CPHA_1Edge;
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break;
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case PIOS_SPI_MODE_CLK0_PHASE1:
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SPI_InitStructure.SPI_CPOL = SPI_CPOL_Low;
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SPI_InitStructure.SPI_CPHA = SPI_CPHA_2Edge;
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break;
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case PIOS_SPI_MODE_CLK1_PHASE0:
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SPI_InitStructure.SPI_CPOL = SPI_CPOL_High;
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SPI_InitStructure.SPI_CPHA = SPI_CPHA_1Edge;
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break;
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case PIOS_SPI_MODE_CLK1_PHASE1:
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SPI_InitStructure.SPI_CPOL = SPI_CPOL_High;
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SPI_InitStructure.SPI_CPHA = SPI_CPHA_2Edge;
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break;
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default:
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/* Invalid SPI clock/phase mode */
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return -4;
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}
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if(spi_prescaler >= 8) {
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/* Invalid prescaler selected */
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return -3;
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}
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switch(spi) {
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case 0: {
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uint16_t prev_cr1 = PIOS_SPI0_PTR->CR1;
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/* SPI1 perpipheral is located in APB2 domain and clocked at full speed */
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/* therefore we have to add +1 to the prescaler */
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SPI_InitStructure.SPI_BaudRatePrescaler = ((uint16_t)spi_prescaler&7) << 3;
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SPI_Init(PIOS_SPI0_PTR, &SPI_InitStructure);
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if((prev_cr1 ^ PIOS_SPI0_PTR->CR1) & 3) {
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/* CPOL and CPHA located at bit #1 and #0 */
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/* clock configuration has been changed - we should send a dummy byte */
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/* before the application activates chip select. */
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/* this solves a dependency between SDCard and ENC28J60 driver */
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PIOS_SPI_TransferByte(spi, 0xff);
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}
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} break;
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case 1: {
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uint16_t prev_cr1 = PIOS_SPI0_PTR->CR1;
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/* SPI2 perpipheral is located in APB1 domain and clocked at half speed */
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if(spi_prescaler == 0) {
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SPI_InitStructure.SPI_BaudRatePrescaler = SPI_BaudRatePrescaler_2;
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} else {
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SPI_InitStructure.SPI_BaudRatePrescaler = (((uint16_t)spi_prescaler&7)-1) << 3;
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}
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SPI_Init(PIOS_SPI1_PTR, &SPI_InitStructure);
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if((prev_cr1 ^ PIOS_SPI0_PTR->CR1) & 3) {
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/* CPOL and CPHA located at bit #1 and #0 */
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/* clock configuration has been changed - we should send a dummy byte */
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/* before the application activates chip select. */
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/* this solves a dependency between SDCard and ENC28J60 driver */
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PIOS_SPI_TransferByte(spi, 0xff);
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}
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} break;
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default:
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/* Unsupported SPI port */
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return -2;
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}
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/* No error */
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return 0;
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}
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/**
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* Controls the RC (Register Clock alias Chip Select) pin of a SPI port
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* \param[in] spi SPI number (0 or 1)
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* \param[in] pin_value 0 or 1
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* \return 0 if no error
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* \return -1 if disabled SPI port selected
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* \return -2 if unsupported SPI port selected
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*/
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int32_t PIOS_SPI_RC_PinSet(uint8_t spi, uint8_t pin_value)
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{
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switch(spi) {
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case 0:
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if(pin_value) {
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PIOS_SPI0_RCLK1_PORT->BSRR = PIOS_SPI0_RCLK1_PIN;
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} else {
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PIOS_SPI0_RCLK1_PORT->BRR = PIOS_SPI0_RCLK1_PIN;
|
|
}
|
|
break;
|
|
|
|
case 1:
|
|
if(pin_value) {
|
|
PIOS_SPI1_RCLK1_PORT->BSRR = PIOS_SPI1_RCLK1_PIN;
|
|
} else {
|
|
PIOS_SPI1_RCLK1_PORT->BRR = PIOS_SPI1_RCLK1_PIN;
|
|
}
|
|
|
|
break;
|
|
|
|
default:
|
|
/* Unsupported SPI port */
|
|
return -2;
|
|
}
|
|
|
|
/* No error */
|
|
return 0;
|
|
}
|
|
|
|
|
|
/**
|
|
* Transfers a byte to SPI output and reads back the return value from SPI input
|
|
* \param[in] spi SPI number (0 or 1)
|
|
* \param[in] b the byte which should be transfered
|
|
* \return >= 0: the read byte
|
|
* \return -1 if disabled SPI port selected
|
|
* \return -2 if unsupported SPI port selected
|
|
* \return -3 if unsupported SPI mode configured via PIOS_SPI_TransferModeInit()
|
|
*/
|
|
int32_t PIOS_SPI_TransferByte(uint8_t spi, uint8_t b)
|
|
{
|
|
SPI_TypeDef *spi_ptr;
|
|
|
|
switch(spi) {
|
|
case 0:
|
|
spi_ptr = PIOS_SPI0_PTR;
|
|
break;
|
|
|
|
case 1:
|
|
spi_ptr = PIOS_SPI1_PTR;
|
|
break;
|
|
|
|
default:
|
|
/* Unsupported SPI port */
|
|
return -2;
|
|
}
|
|
|
|
/* Send byte */
|
|
spi_ptr->DR = b;
|
|
|
|
if(spi_ptr->SR); /* Dummy read due to undocumented pipelining issue :-/ */
|
|
/* TK: without this read (which can be done to any bus location) we could sporadically */
|
|
/* get the status byte at the moment where DR is written. Accordingly, the busy bit */
|
|
/* will be 0. */
|
|
/* you won't see this dummy read in STM drivers, as they never have a DR write */
|
|
/* followed by SR read, or as they are using SPI1/SPI2 pointers, which results into */
|
|
/* some additional CPU instructions between strh/ldrh accesses. */
|
|
/* We use a bus access instead of NOPs to avoid any risk for back-to-back transactions */
|
|
/* over AHB (if SPI1/SPI2 pointers are used, there is still a risk for such a scenario, */
|
|
/* e.g. if DMA loads the bus!) */
|
|
|
|
/* Wait until SPI transfer finished */
|
|
while(spi_ptr->SR & SPI_I2S_FLAG_BSY);
|
|
|
|
/* Return received byte */
|
|
return spi_ptr->DR;
|
|
}
|
|
|
|
|
|
/**
|
|
* Transfers a block of bytes via DMA.
|
|
* \param[in] spi SPI number (0 or 1)
|
|
* \param[in] send_buffer pointer to buffer which should be sent.<BR>
|
|
* If NULL, 0xff (all-one) will be sent.
|
|
* \param[in] receive_buffer pointer to buffer which should get the received values.<BR>
|
|
* If NULL, received bytes will be discarded.
|
|
* \param[in] len number of bytes which should be transfered
|
|
* \param[in] callback pointer to callback function which will be executed
|
|
* from DMA channel interrupt once the transfer is finished.
|
|
* If NULL, no callback function will be used, and PIOS_SPI_TransferBlock() will
|
|
* block until the transfer is finished.
|
|
* \return >= 0 if no error during transfer
|
|
* \return -1 if disabled SPI port selected
|
|
* \return -2 if unsupported SPI port selected
|
|
* \return -3 if function has been called during an ongoing DMA transfer
|
|
*/
|
|
int32_t PIOS_SPI_TransferBlock(uint8_t spi, uint8_t *send_buffer, uint8_t *receive_buffer, uint16_t len, void *callback)
|
|
{
|
|
DMA_Channel_TypeDef *dma_tx_ptr, *dma_rx_ptr;
|
|
|
|
switch(spi) {
|
|
case 0:
|
|
dma_tx_ptr = PIOS_SPI0_DMA_TX_PTR;
|
|
dma_rx_ptr = PIOS_SPI0_DMA_RX_PTR;
|
|
break;
|
|
|
|
case 1:
|
|
dma_tx_ptr = PIOS_SPI1_DMA_TX_PTR;
|
|
dma_rx_ptr = PIOS_SPI1_DMA_RX_PTR;
|
|
break;
|
|
|
|
default:
|
|
/* Unsupported SPI port */
|
|
return -2;
|
|
}
|
|
|
|
/* Exit if ongoing transfer */
|
|
if(dma_rx_ptr->CNDTR) {
|
|
return -3;
|
|
}
|
|
|
|
/* Set callback function */
|
|
spi_callback[spi] = callback;
|
|
|
|
/* Configure Rx channel */
|
|
DMA_Cmd(dma_rx_ptr, DISABLE);
|
|
if(receive_buffer != NULL) {
|
|
/* Enable memory addr. increment - bytes written into receive buffer */
|
|
dma_rx_ptr->CMAR = (uint32_t)receive_buffer;
|
|
dma_rx_ptr->CCR |= DMA_MemoryInc_Enable;
|
|
} else {
|
|
/* Disable memory addr. increment - bytes written into dummy buffer */
|
|
rx_dummy_byte = 0xff;
|
|
dma_rx_ptr->CMAR = (uint32_t)&rx_dummy_byte;
|
|
dma_rx_ptr->CCR &= ~DMA_MemoryInc_Enable;
|
|
}
|
|
dma_rx_ptr->CNDTR = len;
|
|
DMA_Cmd(dma_rx_ptr, ENABLE);
|
|
|
|
/* Configure Tx channel */
|
|
DMA_Cmd(dma_tx_ptr, DISABLE);
|
|
if(send_buffer != NULL) {
|
|
/* Enable memory addr. increment - bytes read from send buffer */
|
|
dma_tx_ptr->CMAR = (uint32_t)send_buffer;
|
|
dma_tx_ptr->CCR |= DMA_MemoryInc_Enable;
|
|
} else {
|
|
/* Disable memory addr. increment - bytes read from dummy buffer */
|
|
tx_dummy_byte = 0xff;
|
|
dma_tx_ptr->CMAR = (uint32_t)&tx_dummy_byte;
|
|
dma_tx_ptr->CCR &= ~DMA_MemoryInc_Enable;
|
|
}
|
|
dma_tx_ptr->CNDTR = len;
|
|
|
|
/* Enable DMA interrupt if callback function active */
|
|
DMA_ITConfig(dma_rx_ptr, DMA_IT_TC, (callback != NULL) ? ENABLE : DISABLE);
|
|
|
|
/* Start DMA transfer */
|
|
DMA_Cmd(dma_tx_ptr, ENABLE);
|
|
|
|
/* Wait until all bytes have been transmitted/received */
|
|
while(dma_rx_ptr->CNDTR);
|
|
|
|
/* No error */
|
|
return 0;
|
|
}
|
|
|
|
|
|
/**
|
|
* Called when callback function has been defined and SPI transfer has finished
|
|
*/
|
|
PIOS_SPI0_DMA_IRQHANDLER_FUNC
|
|
{
|
|
DMA_ClearFlag(PIOS_SPI0_DMA_RX_IRQ_FLAGS);
|
|
|
|
if(spi_callback[0] != NULL) {
|
|
spi_callback[0]();
|
|
}
|
|
}
|
|
|
|
PIOS_SPI1_DMA_IRQHANDLER_FUNC
|
|
{
|
|
DMA_ClearFlag(PIOS_SPI1_DMA_RX_IRQ_FLAGS);
|
|
|
|
if(spi_callback[1] != NULL) {
|
|
spi_callback[1]();
|
|
}
|
|
}
|
|
|
|
#endif
|