arduino-esp32/libraries/SPI/src/SPI.cpp

/* 
 SPI.cpp - SPI library for esp8266

 Copyright (c) 2015 Hristo Gochkov. All rights reserved.
 This file is part of the esp8266 core for Arduino environment.
 
 This library is free software; you can redistribute it and/or
 modify it under the terms of the GNU Lesser General Public
 License as published by the Free Software Foundation; either
 version 2.1 of the License, or (at your option) any later version.

 This library is distributed in the hope that it will be useful,
 but WITHOUT ANY WARRANTY; without even the implied warranty of
 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 Lesser General Public License for more details.

 You should have received a copy of the GNU Lesser General Public
 License along with this library; if not, write to the Free Software
 Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
 */

#include "SPI.h"

SPIClass::SPIClass(uint8_t spi_bus)
    :_spi_num(spi_bus)
    ,_spi(NULL)
    ,_use_hw_ss(false)
    ,_sck(-1)
    ,_miso(-1)
    ,_mosi(-1)
    ,_ss(-1)
    ,_div(0)
    ,_freq(1000000)
    , _inTransaction(false)
{}

void SPIClass::begin(int8_t sck, int8_t miso, int8_t mosi, int8_t ss)
{
    if(_spi) {
        return;
    }

    if(!_div) {
        _div = spiFrequencyToClockDiv(_freq);
    }

    _spi = spiStartBus(_spi_num, _div, SPI_MODE0, SPI_MSBFIRST);
    if(!_spi) {
        return;
    }

    _sck = sck;
    _miso = miso;
    _mosi = mosi;
    _ss = ss;

    spiAttachSCK(_spi, _sck);
    spiAttachMISO(_spi, _miso);
    spiAttachMOSI(_spi, _mosi);

}

void SPIClass::end()
{
    if(!_spi) {
        return;
    }
    spiDetachSCK(_spi, _sck);
    spiDetachMISO(_spi, _miso);
    spiDetachMOSI(_spi, _mosi);
    setHwCs(false);
    spiStopBus(_spi);
    _spi = NULL;
}

void SPIClass::setHwCs(bool use)
{
    if(use && !_use_hw_ss) {
        spiAttachSS(_spi, 0, _ss);
        spiSSEnable(_spi);
    } else if(_use_hw_ss) {
        spiSSDisable(_spi);
        spiDetachSS(_spi, _ss);
    }
    _use_hw_ss = use;
}

void SPIClass::setFrequency(uint32_t freq)
{
    //check if last freq changed
    uint32_t cdiv = spiGetClockDiv(_spi);
    if(_freq != freq || _div != cdiv) {
        _freq = freq;
        _div = spiFrequencyToClockDiv(_freq);
        spiSetClockDiv(_spi, _div);
    }
}

void SPIClass::setClockDivider(uint32_t clockDiv)
{
    _div = clockDiv;
    spiSetClockDiv(_spi, _div);
}

void SPIClass::setDataMode(uint8_t dataMode)
{
    spiSetDataMode(_spi, dataMode);
}

void SPIClass::setBitOrder(uint8_t bitOrder)
{
    spiSetBitOrder(_spi, bitOrder);
}

void SPIClass::beginTransaction(SPISettings settings)
{
    //check if last freq changed
    uint32_t cdiv = spiGetClockDiv(_spi);
    if(_freq != settings._clock || _div != cdiv) {
        _freq = settings._clock;
        _div = spiFrequencyToClockDiv(_freq);
    }
    spiTransaction(_spi, _div, settings._dataMode, settings._bitOrder);
    _inTransaction = true;
}

void SPIClass::endTransaction()
{
    if(_inTransaction){
        spiEndTransaction(_spi);
        _inTransaction = false;
    }
}

void SPIClass::write(uint8_t data)
{
    if(_inTransaction){
        return spiWriteByteNL(_spi, data);
    }
    spiWriteByte(_spi, data);
}

uint8_t SPIClass::transfer(uint8_t data)
{
    if(_inTransaction){
        return spiTransferByteNL(_spi, data);
    }
    return spiTransferByte(_spi, data);
}

void SPIClass::write16(uint16_t data)
{
    if(_inTransaction){
        return spiWriteShortNL(_spi, data);
    }
    spiWriteWord(_spi, data);
}

uint16_t SPIClass::transfer16(uint16_t data)
{
    if(_inTransaction){
        return spiTransferShortNL(_spi, data);
    }
    return spiTransferWord(_spi, data);
}

void SPIClass::write32(uint32_t data)
{
    if(_inTransaction){
        return spiWriteLongNL(_spi, data);
    }
    spiWriteLong(_spi, data);
}

uint32_t SPIClass::transfer32(uint32_t data)
{
    if(_inTransaction){
        return spiTransferLongNL(_spi, data);
    }
    return spiTransferLong(_spi, data);
}

void SPIClass::transferBits(uint32_t data, uint32_t * out, uint8_t bits)
{
    if(_inTransaction){
        return spiTransferBitsNL(_spi, data, out, bits);
    }
    spiTransferBits(_spi, data, out, bits);
}

/**
 * @param data uint8_t *
 * @param size uint32_t
 */
void SPIClass::writeBytes(uint8_t * data, uint32_t size)
{
    if(_inTransaction){
        return spiWriteNL(_spi, data, size);
    }
    spiSimpleTransaction(_spi);
    spiWriteNL(_spi, data, size);
    spiEndTransaction(_spi);
}

/**
 * @param data void *
 * @param size uint32_t
 */
void SPIClass::writePixels(const void * data, uint32_t size)
{
    if(_inTransaction){
        return spiWritePixelsNL(_spi, data, size);
    }
    spiSimpleTransaction(_spi);
    spiWritePixelsNL(_spi, data, size);
    spiEndTransaction(_spi);
}

/**
 * @param data uint8_t * data buffer. can be NULL for Read Only operation
 * @param out  uint8_t * output buffer. can be NULL for Write Only operation
 * @param size uint32_t
 */
void SPIClass::transferBytes(uint8_t * data, uint8_t * out, uint32_t size)
{
    if(_inTransaction){
        return spiTransferBytesNL(_spi, data, out, size);
    }
    spiTransferBytes(_spi, data, out, size);
}

/**
 * @param data uint8_t *
 * @param size uint8_t  max for size is 64Byte
 * @param repeat uint32_t
 */
void SPIClass::writePattern(uint8_t * data, uint8_t size, uint32_t repeat)
{
    if(size > 64) {
        return;    //max Hardware FIFO
    }

    uint32_t byte = (size * repeat);
    uint8_t r = (64 / size);

    while(byte) {
        if(byte > 64) {
            writePattern_(data, size, r);
            byte -= 64;
        } else {
            writePattern_(data, size, (byte / size));
            byte = 0;
        }
    }
}

void SPIClass::writePattern_(uint8_t * data, uint8_t size, uint8_t repeat)
{
    uint8_t bytes = (size * repeat);
    uint8_t buffer[64];
    uint8_t * bufferPtr = &buffer[0];
    uint8_t * dataPtr;
    uint8_t dataSize = bytes;
    for(uint8_t i = 0; i < repeat; i++) {
        dataSize = size;
        dataPtr = data;
        while(dataSize--) {
            *bufferPtr = *dataPtr;
            dataPtr++;
            bufferPtr++;
        }
    }

    writeBytes(&buffer[0], bytes);
}

SPIClass SPI(VSPI);
initial import 2016-10-06 13:21:30 +02:00			`/*`
			`SPI.cpp - SPI library for esp8266`

			`Copyright (c) 2015 Hristo Gochkov. All rights reserved.`
			`This file is part of the esp8266 core for Arduino environment.`

			`This library is free software; you can redistribute it and/or`
			`modify it under the terms of the GNU Lesser General Public`
			`License as published by the Free Software Foundation; either`
			`version 2.1 of the License, or (at your option) any later version.`

			`This library is distributed in the hope that it will be useful,`
			`but WITHOUT ANY WARRANTY; without even the implied warranty of`
			`MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU`
			`Lesser General Public License for more details.`

			`You should have received a copy of the GNU Lesser General Public`
			`License along with this library; if not, write to the Free Software`
			`Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA`
			`*/`

			`#include "SPI.h"`

			`SPIClass::SPIClass(uint8_t spi_bus)`
			`:_spi_num(spi_bus)`
			`,_spi(NULL)`
			`,_use_hw_ss(false)`
			`,_sck(-1)`
			`,_miso(-1)`
			`,_mosi(-1)`
			`,_ss(-1)`
			`,_div(0)`
			`,_freq(1000000)`
SPI implement transaction locking Use transactions to skip mutex locks for reads and writes 2017-02-14 03:15:34 +01:00			`, _inTransaction(false)`
initial import 2016-10-06 13:21:30 +02:00			`{}`

			`void SPIClass::begin(int8_t sck, int8_t miso, int8_t mosi, int8_t ss)`
			`{`
			`if(_spi) {`
			`return;`
			`}`

			`if(!_div) {`
			`_div = spiFrequencyToClockDiv(_freq);`
			`}`

			`_spi = spiStartBus(_spi_num, _div, SPI_MODE0, SPI_MSBFIRST);`
			`if(!_spi) {`
			`return;`
			`}`

			`_sck = sck;`
			`_miso = miso;`
			`_mosi = mosi;`
			`_ss = ss;`

			`spiAttachSCK(_spi, _sck);`
			`spiAttachMISO(_spi, _miso);`
			`spiAttachMOSI(_spi, _mosi);`

			`}`

			`void SPIClass::end()`
			`{`
			`if(!_spi) {`
			`return;`
			`}`
			`spiDetachSCK(_spi, _sck);`
			`spiDetachMISO(_spi, _miso);`
			`spiDetachMOSI(_spi, _mosi);`
			`setHwCs(false);`
			`spiStopBus(_spi);`
			`_spi = NULL;`
			`}`

			`void SPIClass::setHwCs(bool use)`
			`{`
			`if(use && !_use_hw_ss) {`
			`spiAttachSS(_spi, 0, _ss);`
			`spiSSEnable(_spi);`
			`} else if(_use_hw_ss) {`
			`spiSSDisable(_spi);`
			`spiDetachSS(_spi, _ss);`
			`}`
			`_use_hw_ss = use;`
			`}`

			`void SPIClass::setFrequency(uint32_t freq)`
			`{`
			`//check if last freq changed`
			`uint32_t cdiv = spiGetClockDiv(_spi);`
			`if(_freq != freq \|\| _div != cdiv) {`
			`_freq = freq;`
			`_div = spiFrequencyToClockDiv(_freq);`
			`spiSetClockDiv(_spi, _div);`
			`}`
			`}`

			`void SPIClass::setClockDivider(uint32_t clockDiv)`
			`{`
			`_div = clockDiv;`
			`spiSetClockDiv(_spi, _div);`
			`}`

			`void SPIClass::setDataMode(uint8_t dataMode)`
			`{`
			`spiSetDataMode(_spi, dataMode);`
			`}`

			`void SPIClass::setBitOrder(uint8_t bitOrder)`
			`{`
			`spiSetBitOrder(_spi, bitOrder);`
			`}`

SPI implement transaction locking Use transactions to skip mutex locks for reads and writes 2017-02-14 03:15:34 +01:00			`void SPIClass::beginTransaction(SPISettings settings)`
			`{`
			`//check if last freq changed`
			`uint32_t cdiv = spiGetClockDiv(_spi);`
			`if(_freq != settings._clock \|\| _div != cdiv) {`
			`_freq = settings._clock;`
			`_div = spiFrequencyToClockDiv(_freq);`
			`}`
			`spiTransaction(_spi, _div, settings._dataMode, settings._bitOrder);`
			`_inTransaction = true;`
			`}`

			`void SPIClass::endTransaction()`
			`{`
			`if(_inTransaction){`
			`spiEndTransaction(_spi);`
			`_inTransaction = false;`
			`}`
			`}`

initial import 2016-10-06 13:21:30 +02:00			`void SPIClass::write(uint8_t data)`
			`{`
SPI implement transaction locking Use transactions to skip mutex locks for reads and writes 2017-02-14 03:15:34 +01:00			`if(_inTransaction){`
			`return spiWriteByteNL(_spi, data);`
			`}`
initial import 2016-10-06 13:21:30 +02:00			`spiWriteByte(_spi, data);`
			`}`

			`uint8_t SPIClass::transfer(uint8_t data)`
			`{`
SPI implement transaction locking Use transactions to skip mutex locks for reads and writes 2017-02-14 03:15:34 +01:00			`if(_inTransaction){`
			`return spiTransferByteNL(_spi, data);`
			`}`
Optimize SPI transfers to take one lock and do not return until completed 2017-02-01 01:13:56 +01:00			`return spiTransferByte(_spi, data);`
initial import 2016-10-06 13:21:30 +02:00			`}`

			`void SPIClass::write16(uint16_t data)`
			`{`
SPI implement transaction locking Use transactions to skip mutex locks for reads and writes 2017-02-14 03:15:34 +01:00			`if(_inTransaction){`
			`return spiWriteShortNL(_spi, data);`
			`}`
initial import 2016-10-06 13:21:30 +02:00			`spiWriteWord(_spi, data);`
			`}`

			`uint16_t SPIClass::transfer16(uint16_t data)`
			`{`
SPI implement transaction locking Use transactions to skip mutex locks for reads and writes 2017-02-14 03:15:34 +01:00			`if(_inTransaction){`
			`return spiTransferShortNL(_spi, data);`
			`}`
Optimize SPI transfers to take one lock and do not return until completed 2017-02-01 01:13:56 +01:00			`return spiTransferWord(_spi, data);`
initial import 2016-10-06 13:21:30 +02:00			`}`

			`void SPIClass::write32(uint32_t data)`
			`{`
SPI implement transaction locking Use transactions to skip mutex locks for reads and writes 2017-02-14 03:15:34 +01:00			`if(_inTransaction){`
			`return spiWriteLongNL(_spi, data);`
			`}`
initial import 2016-10-06 13:21:30 +02:00			`spiWriteLong(_spi, data);`
			`}`

			`uint32_t SPIClass::transfer32(uint32_t data)`
			`{`
SPI implement transaction locking Use transactions to skip mutex locks for reads and writes 2017-02-14 03:15:34 +01:00			`if(_inTransaction){`
			`return spiTransferLongNL(_spi, data);`
			`}`
Optimize SPI transfers to take one lock and do not return until completed 2017-02-01 01:13:56 +01:00			`return spiTransferLong(_spi, data);`
initial import 2016-10-06 13:21:30 +02:00			`}`

			`void SPIClass::transferBits(uint32_t data, uint32_t * out, uint8_t bits)`
			`{`
SPI implement transaction locking Use transactions to skip mutex locks for reads and writes 2017-02-14 03:15:34 +01:00			`if(_inTransaction){`
			`return spiTransferBitsNL(_spi, data, out, bits);`
			`}`
initial import 2016-10-06 13:21:30 +02:00			`spiTransferBits(_spi, data, out, bits);`
			`}`

			`/**`
			`* @param data uint8_t *`
			`* @param size uint32_t`
			`*/`
			`void SPIClass::writeBytes(uint8_t * data, uint32_t size)`
			`{`
SPI implement transaction locking Use transactions to skip mutex locks for reads and writes 2017-02-14 03:15:34 +01:00			`if(_inTransaction){`
			`return spiWriteNL(_spi, data, size);`
			`}`
			`spiSimpleTransaction(_spi);`
			`spiWriteNL(_spi, data, size);`
			`spiEndTransaction(_spi);`
initial import 2016-10-06 13:21:30 +02:00			`}`

Add helper for sending 16bit color buffers 2017-02-14 10:58:04 +01:00			`/**`
			`* @param data void *`
			`* @param size uint32_t`
			`*/`
			`void SPIClass::writePixels(const void * data, uint32_t size)`
			`{`
			`if(_inTransaction){`
			`return spiWritePixelsNL(_spi, data, size);`
			`}`
			`spiSimpleTransaction(_spi);`
			`spiWritePixelsNL(_spi, data, size);`
			`spiEndTransaction(_spi);`
			`}`

initial import 2016-10-06 13:21:30 +02:00			`/**`
			`* @param data uint8_t * data buffer. can be NULL for Read Only operation`
			`* @param out uint8_t * output buffer. can be NULL for Write Only operation`
			`* @param size uint32_t`
			`*/`
			`void SPIClass::transferBytes(uint8_t * data, uint8_t * out, uint32_t size)`
			`{`
SPI implement transaction locking Use transactions to skip mutex locks for reads and writes 2017-02-14 03:15:34 +01:00			`if(_inTransaction){`
			`return spiTransferBytesNL(_spi, data, out, size);`
			`}`
initial import 2016-10-06 13:21:30 +02:00			`spiTransferBytes(_spi, data, out, size);`
			`}`

			`/**`
			`* @param data uint8_t *`
			`* @param size uint8_t max for size is 64Byte`
			`* @param repeat uint32_t`
			`*/`
			`void SPIClass::writePattern(uint8_t * data, uint8_t size, uint32_t repeat)`
			`{`
			`if(size > 64) {`
			`return; //max Hardware FIFO`
			`}`

			`uint32_t byte = (size * repeat);`
			`uint8_t r = (64 / size);`

			`while(byte) {`
			`if(byte > 64) {`
			`writePattern_(data, size, r);`
			`byte -= 64;`
			`} else {`
			`writePattern_(data, size, (byte / size));`
			`byte = 0;`
			`}`
			`}`
			`}`

			`void SPIClass::writePattern_(uint8_t * data, uint8_t size, uint8_t repeat)`
			`{`
			`uint8_t bytes = (size * repeat);`
			`uint8_t buffer[64];`
			`uint8_t * bufferPtr = &buffer[0];`
			`uint8_t * dataPtr;`
			`uint8_t dataSize = bytes;`
			`for(uint8_t i = 0; i < repeat; i++) {`
			`dataSize = size;`
			`dataPtr = data;`
			`while(dataSize--) {`
			`bufferPtr = dataPtr;`
			`dataPtr++;`
			`bufferPtr++;`
			`}`
			`}`

			`writeBytes(&buffer[0], bytes);`
			`}`

			`SPIClass SPI(VSPI);`