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spi_controller.h
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spi_controller.h
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/**
* Copyright (c) 2011-2013, Regents of the University of California
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* - Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* - Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* - Neither the name of the University of California, Berkeley nor the names
* of its contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
*
* Master Mode SPI Controller for the dsPIC33F
*
* by Humphrey Hu
*
* Usage:
* This module serves as a wrapper for DMA-enabled SPI. Data is transferred
* and received in "transactions," which can be started and ended with the
* respective function calls.
*
* Buffer and port configuration is in spi_controller.c
*
* Ex:
* spi1BeginTransaction();
* // Transfer/Receive methods here
* spi1EndTransaction();
*
* Data transfer and reception methods come in synchronous single-byte
* and asynchronous mass-transfer varieties:
*
* The synchronous methods return once the data (a single byte) has been
* read/written, and is useful for small transactions where the overhead of
* buffering is prohibitive, or when timing is critical.
*
* The asynchronous methods return once the target data has been buffered,
* and continue the transaction in the background without using processor
* resources. Once the transaction is complete, the registered callback is
* executed with a interrupt source flag. This method of transfer is useful
* for large transactions where transferring the data synchronously would
* consume too much processor time.
*/
#ifndef __SPI_CONTROLLER_H
#define __SPI_CONTROLLER_H
#define SPIC_NUM_PORTS (2)
/** Interrupt sources */
typedef enum {
SPIC_TRANS_SUCCESS, /** Successful transceive */
SPIC_TRANS_TIMEOUT, /** Transceive timeout */
} SpicIrqSrc;
/**
* Interrupt handler type that must be registered to the driver.
* The handler is called on interrupts with the source as the parameter.
*/
typedef void (*SpicIrqHandler) (unsigned int irq_cause);
/**
* Set up the SPI-DMA module for use.
*
* This must be run before module port access methods can be used.
*/
//TODO(rqou): Make non-PIC specific
void spicSetupChannel1(unsigned char cs, unsigned int spiCon1);
void spicSetupChannel2(unsigned char cs, unsigned int spiCon1);
/**
* Set the interrupt handler for port 1.
*
* @param handler Function pointer to interrupt handler
*/
void spic1SetCallback(unsigned char cs, SpicIrqHandler handler);
/**
* Begin a transaction on port 1.
*
* Acquires and locks the port, and then sets the appropriate chip select line
* levels as defined in spi_controller.c
*
* This function blocks if there is an ongoing transaction, returning
* after it has acquired the port. Note that this can result in deadlocks
* if used improperly.
*
* This function returns 0 on success and something else on error.
*/
int spic1BeginTransaction(unsigned char cs);
/**
* End a transaction on port 1.
*/
void spic1EndTransaction(void);
/**
* Resets port 1.
*
* Use this when a deadlock is detected. This function cancels the current
* transaction and restores the port to its default state.
*/
void spic1Reset(void);
/**
* Transmit a byte on port 1 during a transaction.
*
* @param data Byte of data to send
* @return Byte read from SPI bus
*/
unsigned char spic1Transmit(unsigned char data);
/**
* Receive a byte on port 1 by writing a NULL byte.
*
* @return Byte read from SPI bus
*/
unsigned char spic1Receive(void);
/**
* Transmit the contents of a buffer on port 1 via DMA
*
* This method copies the buffer contents into port 1's transmit buffer, so the buffer
* can be volatile. Since this method uses DMA, it returns before the write is completed.
*
* @param len Number of bytes to write
* @param buff Array of data or NULL to write all NULL bytes
* @param timeout Number of milliseconds to wait before transaction timeout
* @return Number of bytes saved to buffer
*/
unsigned int spic1MassTransmit(unsigned int len, unsigned char *buff, unsigned int timeout);
/**
* Read the contents of port 1's DMA buffer
*
* Copies the contents of port 1's DMA receive buffer into another buffer. This should be
* preceded by a DMA transmit.
*
* @param len Number of bytes to read
* @param buff Buffer to write into
* @return Number of bytes read out of buffer
*/
unsigned int spic1ReadBuffer(unsigned int len, unsigned char *buff);
/**
* Set the interrupt handler for port 2.
*
* @param handler Function pointer to interrupt handler
*/
void spic2SetCallback(unsigned char cs, SpicIrqHandler);
/**
* Begin a transaction on port 2.
*
* Acquires and locks the port, and then sets the appropriate chip select line
* levels as defined in spi_controller.c
*
* This function blocks if there is an ongoing transaction, returning
* after it has acquired the port. Note that this can result in deadlocks
* if used improperly.
*
* This function returns 0 on success and something else on error.
*/
int spic2BeginTransaction(unsigned char cs);
/**
* End a transaction on port 2.
*/
void spic2EndTransaction(void);
void spic2cs2EndTransaction(void);
/**
* Resets port 2.
*
* Use this when a deadlock is detected. This function cancels the current
* transaction and restores the port to its default state.
*/
void spic2Reset(void);
/**
* Transmit a byte on port 2 during a transaction.
*
* @param data Byte of data to send
* @return Byte read from SPI bus
*/
unsigned char spic2Transmit(unsigned char data);
/**
* Receive a byte on port 2 by writing a NULL byte.
*
* @return Byte read from SPI bus
*/
unsigned char spic2Receive(void);
/**
* Transmit the contents of a buffer on port 2 via DMA
*
* This method copies the buffer contents into port 2's transmit buffer, so the buffer
* can be volatile. Since this method uses DMA, it returns before the write is completed.
*
* @param len Number of bytes to write
* @param buff Array of data or NULL to write all NULL bytes
* @param timeout Number of milliseconds to wait before transaction timeout
* @return Number of bytes saved to buffer
*/
unsigned int spic2MassTransmit(unsigned int len, unsigned char *buff, unsigned int timeout);
/**
* Read the contents of port 2's DMA buffer
*
* Copies the contents of port 2's DMA receive buffer into another buffer. This should be
* preceded by a DMA transmit.
*
* @param len Number of bytes to read
* @param buff Buffer to write into
* @return Number of bytes read out of buffer
*/
unsigned int spic2ReadBuffer(unsigned int len, unsigned char *buff);
#endif // __SPI_CONTROLLER_H