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mbed-os/drivers/SPI.h

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/* mbed Microcontroller Library
* Copyright (c) 2006-2015 ARM Limited
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef MBED_SPI_H
#define MBED_SPI_H
#include "platform/platform.h"
#if defined (DEVICE_SPI) || defined(DOXYGEN_ONLY)
#include "platform/PlatformMutex.h"
#include "hal/spi_api.h"
#include "platform/SingletonPtr.h"
#include "platform/NonCopyable.h"
#if DEVICE_SPI_ASYNCH
#include "platform/CThunk.h"
#include "hal/dma_api.h"
#include "platform/CircularBuffer.h"
#include "platform/FunctionPointer.h"
#include "platform/Transaction.h"
#endif
namespace mbed {
/** \addtogroup drivers */
/** A SPI Master, used for communicating with SPI slave devices.
*
* The default format is set to 8-bits, mode 0, and a clock frequency of 1MHz.
*
* Most SPI devices will also require Chip Select and Reset signals. These
* can be controlled using DigitalOut pins.
*
* @note Synchronization level: Thread safe
*
* Example of how to send a byte to a SPI slave and record the response:
* @code
* #include "mbed.h"
*
* SPI device(SPI_MOSI, SPI_MISO, SPI_SCLK)
*
* DigitalOut chip_select(SPI_CS);
*
* int main() {
* device.lock();
* chip_select = 0;
*
* int response = device.write(0xFF);
*
* chip_select = 1;
* device.unlock();
* }
* @endcode
*
* Example using hardware Chip Select line:
* @code
* #include "mbed.h"
*
* SPI device(SPI_MOSI, SPI_MISO, SPI_SCLK, SPI_CS)
*
* int main() {
* device.lock();
* int response = device.write(0xFF);
* device.unlock();
* }
* @endcode
* @ingroup drivers
*/
class SPI : private NonCopyable<SPI> {
public:
/** Create a SPI master connected to the specified pins.
*
* @note You can specify mosi or miso as NC if not used.
*
* @param mosi SPI Master Out, Slave In pin.
* @param miso SPI Master In, Slave Out pin.
* @param sclk SPI Clock pin.
* @param ssel SPI Chip Select pin.
*/
SPI(PinName mosi, PinName miso, PinName sclk, PinName ssel = NC);
virtual ~SPI();
/** Configure the data transmission format.
*
* @param bits Number of bits per SPI frame (4 - 16).
* @param mode Clock polarity and phase mode (0 - 3).
*
* @code
* mode | POL PHA
* -----+--------
* 0 | 0 0
* 1 | 0 1
* 2 | 1 0
* 3 | 1 1
* @endcode
*/
void format(int bits, int mode = 0);
/** Set the SPI bus clock frequency.
*
* @param hz Clock frequency in Hz (default = 1MHz).
*/
void frequency(int hz = 1000000);
/** Write to the SPI Slave and return the response.
*
* @param value Data to be sent to the SPI slave.
*
* @return Response from the SPI slave.
*/
virtual int write(int value);
/** Write to the SPI Slave and obtain the response.
*
* The total number of bytes sent and received will be the maximum of
* tx_length and rx_length. The bytes written will be padded with the
* value 0xff.
*
* @param tx_buffer Pointer to the byte-array of data to write to the device.
* @param tx_length Number of bytes to write, may be zero.
* @param rx_buffer Pointer to the byte-array of data to read from the device.
* @param rx_length Number of bytes to read, may be zero.
* @return
* The number of bytes written and read from the device. This is
* maximum of tx_length and rx_length.
*/
virtual int write(const char *tx_buffer, int tx_length, char *rx_buffer, int rx_length);
/** Acquire exclusive access to this SPI bus.
*/
virtual void lock(void);
/** Release exclusive access to this SPI bus.
*/
virtual void unlock(void);
/** Set default write data.
* SPI requires the master to send some data during a read operation.
* Different devices may require different default byte values.
* For example: A SD Card requires default bytes to be 0xFF.
*
* @param data Default character to be transmitted during a read operation.
*/
void set_default_write_value(char data);
#if DEVICE_SPI_ASYNCH
/** Start non-blocking SPI transfer using 8bit buffers.
*
* This function locks the deep sleep until any event has occurred.
*
* @param tx_buffer The TX buffer with data to be transfered. If NULL is passed,
* the default SPI value is sent.
* @param tx_length The length of TX buffer in bytes.
* @param rx_buffer The RX buffer which is used for received data. If NULL is passed,
* received data are ignored.
* @param rx_length The length of RX buffer in bytes.
* @param callback The event callback function.
* @param event The event mask of events to modify. @see spi_api.h for SPI events.
*
* @return Operation result.
* @retval 0 If the transfer has started.
* @retval -1 If SPI peripheral is busy.
*/
template<typename Type>
int transfer(const Type *tx_buffer, int tx_length, Type *rx_buffer, int rx_length, const event_callback_t &callback, int event = SPI_EVENT_COMPLETE)
{
if (spi_active(&_spi)) {
return queue_transfer(tx_buffer, tx_length, rx_buffer, rx_length, sizeof(Type) * 8, callback, event);
}
start_transfer(tx_buffer, tx_length, rx_buffer, rx_length, sizeof(Type) * 8, callback, event);
return 0;
}
/** Abort the on-going SPI transfer, and continue with transfers in the queue, if any.
*/
void abort_transfer();
/** Clear the queue of transfers.
*/
void clear_transfer_buffer();
/** Clear the queue of transfers and abort the on-going transfer.
*/
void abort_all_transfers();
/** Configure DMA usage suggestion for non-blocking transfers.
*
* @param usage The usage DMA hint for peripheral.
*
* @return Result of the operation.
* @retval 0 The usage was set.
* @retval -1 Usage cannot be set as there is an ongoing transaction.
*/
int set_dma_usage(DMAUsage usage);
protected:
/** SPI interrupt handler.
*/
void irq_handler_asynch(void);
/** Start the transfer or put it on the queue.
*
* @param tx_buffer The TX buffer with data to be transfered. If NULL is passed,
* the default SPI value is sent
* @param tx_length The length of TX buffer in bytes.
* @param rx_buffer The RX buffer which is used for received data. If NULL is passed,
* received data are ignored.
* @param rx_length The length of RX buffer in bytes.
* @param bit_width The buffers element width in bits.
* @param callback The event callback function.
* @param event The event mask of events to modify.
*
* @return Operation success.
* @retval 0 A transfer was started or added to the queue.
* @retval -1 Transfer can't be added because queue is full.
*/
int transfer(const void *tx_buffer, int tx_length, void *rx_buffer, int rx_length, unsigned char bit_width, const event_callback_t &callback, int event);
/** Put a transfer on the transfer queue.
*
* @param tx_buffer The TX buffer with data to be transfered. If NULL is passed,
* the default SPI value is sent.
* @param tx_length The length of TX buffer in bytes.
* @param rx_buffer The RX buffer which is used for received data. If NULL is passed,
* received data are ignored.
* @param rx_length The length of RX buffer in bytes.
* @param bit_width The buffers element width in bits.
* @param callback The event callback function.
* @param event The event mask of events to modify.
*
* @return Operation success.
* @retval 0 A transfer was added to the queue.
* @retval -1 Transfer can't be added because queue is full.
*/
int queue_transfer(const void *tx_buffer, int tx_length, void *rx_buffer, int rx_length, unsigned char bit_width, const event_callback_t &callback, int event);
/** Configure a callback, SPI peripheral, and initiate a new transfer.
*
* @param tx_buffer The TX buffer with data to be transfered. If NULL is passed,
* the default SPI value is sent.
* @param tx_length The length of TX buffer in bytes.
* @param rx_buffer The RX buffer which is used for received data. If NULL is passed,
* received data are ignored.
* @param rx_length The length of RX buffer in bytes.
* @param bit_width The buffers element width.
* @param callback The event callback function.
* @param event The event mask of events to modify.
*/
void start_transfer(const void *tx_buffer, int tx_length, void *rx_buffer, int rx_length, unsigned char bit_width, const event_callback_t &callback, int event);
#if !defined(DOXYGEN_ONLY)
private:
/** Lock deep sleep only if it is not yet locked */
void lock_deep_sleep();
/** Unlock deep sleep in case it is locked */
void unlock_deep_sleep();
#if TRANSACTION_QUEUE_SIZE_SPI
/** Start a new transaction.
*
* @param data Transaction data.
*/
void start_transaction(transaction_t *data);
/** Dequeue a transaction and start the transfer if there was one pending.
*/
void dequeue_transaction();
/* Queue of pending transfers */
static CircularBuffer<Transaction<SPI>, TRANSACTION_QUEUE_SIZE_SPI> _transaction_buffer;
#endif
#endif //!defined(DOXYGEN_ONLY)
#endif //DEVICE_SPI_ASYNCH
#if !defined(DOXYGEN_ONLY)
protected:
/* Internal SPI object identifying the resources */
spi_t _spi;
#if DEVICE_SPI_ASYNCH
/* Interrupt */
CThunk<SPI> _irq;
/* Interrupt handler callback */
event_callback_t _callback;
/* Current preferred DMA mode @see dma_api.h */
DMAUsage _usage;
/* Current sate of the sleep manager */
bool _deep_sleep_locked;
#endif
/* Take over the physical SPI and apply our settings (thread safe) */
void aquire(void);
/* Current user of the SPI */
static SPI *_owner;
/* Used by lock and unlock for thread safety */
static SingletonPtr<PlatformMutex> _mutex;
/* Size of the SPI frame */
int _bits;
/* Clock polairy and phase */
int _mode;
/* Clock frequency */
int _hz;
/* Default character used for NULL transfers */
char _write_fill;
private:
/** Private acquire function without locking/unlocking.
* Implemented in order to avoid duplicate locking and boost performance.
*/
void _acquire(void);
#endif //!defined(DOXYGEN_ONLY)
};
} // namespace mbed
#endif
#endif
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