spi/spi.hpp

201 lines
4.5 KiB
C++

/*
* Copyright (c) by BlackMark 2016-2017
* Date 17/09/2017
* Version 1.4
*/
#ifndef SPI_H
#define SPI_H
#include "../inout/inout.h"
#include <avr/io.h>
class SPI {
public:
enum class ClockDiv {
CLKDIV_4 = 0,
CLKDIV_16 = 1,
CLKDIV_64 = 2,
CLKDIV_128 = 3,
CLKDIV_2X_2 = 4,
CLKDIV_2X_8 = 5,
CLKDIV_2X_32 = 6,
CLKDIV_2X_64 = 7
};
enum class Mode { MODE_0 = 0, MODE_1 = 1, MODE_2 = 2, MODE_3 = 3 };
private:
static void setCPOL(bool bCPOL);
static void setCPHA(bool bCPHA);
static constexpr InOut::Pin sm_enmSCK = InOut::Pin::P_B5;
static constexpr InOut::Pin sm_enmMISO = InOut::Pin::P_B4;
static constexpr InOut::Pin sm_enmMOSI = InOut::Pin::P_B3;
static constexpr InOut::Pin sm_enmSS = InOut::Pin::P_B2;
static InOutPin sm_cSCK;
static InOutPin sm_cMISO;
static InOutPin sm_cMOSI;
static InOutPin sm_cSS;
public:
static void init(ClockDiv enmClockDiv = ClockDiv::CLKDIV_128, Mode enmMode = Mode::MODE_0, bool bMaster = true,
bool bLSBFirst = false, bool bMISOPullup = false);
static void deinit();
static void setClockDiv(ClockDiv enmClockDiv);
static void setMode(Mode enmMode);
static void setMaster(bool bMaster);
static void setBitOrder(bool bLSBFirst);
static uint8_t transfer(uint8_t ui8Data);
static void select(bool bSelect);
};
#endif
//////////////////////////////////////////////////////////////////////////
InOutPin SPI::sm_cSCK;
InOutPin SPI::sm_cMISO;
InOutPin SPI::sm_cMOSI;
InOutPin SPI::sm_cSS;
//////////////////////////////////////////////////////////////////////////
void SPI::setCPOL(bool bCPOL)
{
if (bCPOL) {
SPCR |= (1 << CPOL);
} else {
SPCR &= ~(1 << CPOL);
}
}
//////////////////////////////////////////////////////////////////////////
void SPI::setCPHA(bool bCPHA)
{
if (bCPHA) {
SPCR |= (1 << CPHA);
} else {
SPCR &= ~(1 << CPHA);
}
}
//////////////////////////////////////////////////////////////////////////
void SPI::init(ClockDiv enmClockDiv /* = ClockDiv::CLKDIV_128 */, Mode enmMode /* = Mode::MODE_0 */,
bool bMaster /* = true */, bool bLSBFirst /* = false */, bool bMISOPullup /* = false */)
{
sm_cSCK.setPin(sm_enmSCK);
sm_cMISO.setPin(sm_enmMISO);
sm_cMOSI.setPin(sm_enmMOSI);
sm_cSS.setPin(sm_enmSS);
if (bMaster) {
sm_cSS.write(true);
sm_cSCK.setDirection(InOut::Dir::D_OUT, false);
sm_cMISO.setDirection(InOut::Dir::D_IN, bMISOPullup);
sm_cMOSI.setDirection(InOut::Dir::D_OUT, false);
sm_cSS.setDirection(InOut::Dir::D_OUT, false);
} else {
sm_cSCK.setDirection(InOut::Dir::D_IN, false);
sm_cMISO.setDirection(InOut::Dir::D_OUT, false);
sm_cMOSI.setDirection(InOut::Dir::D_IN, false);
sm_cSS.setDirection(InOut::Dir::D_IN, true);
}
setClockDiv(enmClockDiv);
setMode(enmMode);
setMaster(bMaster);
setBitOrder(bLSBFirst);
SPCR |= (1 << SPE);
}
//////////////////////////////////////////////////////////////////////////
void SPI::deinit()
{
SPCR = 0;
sm_cSCK.setDirection(InOut::Dir::D_IN, false);
sm_cMISO.setDirection(InOut::Dir::D_IN, false);
sm_cMOSI.setDirection(InOut::Dir::D_IN, false);
sm_cSS.setDirection(InOut::Dir::D_IN, false);
}
//////////////////////////////////////////////////////////////////////////
void SPI::setClockDiv(ClockDiv enmClockDiv)
{
uint8_t ui8ClockDiv = static_cast<uint8_t>(enmClockDiv);
if (ui8ClockDiv & 1) {
SPCR |= (1 << SPR0);
} else {
SPCR &= ~(1 << SPR0);
}
if (ui8ClockDiv & (1 << 1)) {
SPCR |= (1 << SPR1);
} else {
SPCR &= ~(1 << SPR1);
}
if (ui8ClockDiv & (1 << 2)) {
SPSR |= (1 << SPI2X);
} else {
SPSR &= ~(1 << SPI2X);
}
}
//////////////////////////////////////////////////////////////////////////
void SPI::setMode(Mode enmMode)
{
if (enmMode == Mode::MODE_0 || enmMode == Mode::MODE_1) {
setCPOL(false);
} else {
setCPOL(true);
}
if (enmMode == Mode::MODE_0 || enmMode == Mode::MODE_2) {
setCPHA(false);
} else {
setCPHA(true);
}
}
//////////////////////////////////////////////////////////////////////////
void SPI::setMaster(bool bMaster)
{
if (bMaster) {
SPCR |= (1 << MSTR);
} else {
SPCR &= ~(1 << MSTR);
}
}
//////////////////////////////////////////////////////////////////////////
void SPI::setBitOrder(bool bLSBFirst)
{
if (bLSBFirst) {
SPCR |= (1 << DORD);
} else {
SPCR &= ~(1 << DORD);
}
}
//////////////////////////////////////////////////////////////////////////
uint8_t SPI::transfer(uint8_t ui8Data)
{
SPDR = ui8Data;
while (!(SPSR & (1 << SPIF)))
;
return SPDR;
}
//////////////////////////////////////////////////////////////////////////
void SPI::select(bool bSelect)
{
sm_cSS.write(!bSelect);
}