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Merge pull request #62 from vjmuzik/master

Add more transfer functions for Teensy 4.x
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Paul Stoffregen pirms 4 gadiem
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2 mainītis faili ar 93 papildinājumiem un 0 dzēšanām
  1. +81
    -0
      SPI.cpp
  2. +12
    -0
      SPI.h

+ 81
- 0
SPI.cpp Parādīt failu

@@ -1715,6 +1715,87 @@ void SPIClass::transfer(const void * buf, void * retbuf, size_t count)
}
}

void SPIClass::transfer16(const void * buf, void * retbuf, size_t count)
{
if (count == 0) return;
uint16_t *p_write = (uint16_t*)buf;
uint16_t *p_read = (uint16_t*)retbuf;
size_t count_read = count;
uint32_t tcr = port().TCR;
port().TCR = (tcr & 0xfffff000) | LPSPI_TCR_FRAMESZ(15); // turn on 16 bit mode

// Lets clear the reader queue
port().CR = LPSPI_CR_RRF | LPSPI_CR_MEN; // clear the queue and make sure still enabled.

while (count > 0) {
// Push out the next byte;
port().TDR = p_write? *p_write++ : _transferWriteFill;
count--; // how many bytes left to output.
// Make sure queue is not full before pushing next byte out
do {
if ((port().RSR & LPSPI_RSR_RXEMPTY) == 0) {
uint16_t b = port().RDR; // Read any pending RX bytes in
if (p_read) *p_read++ = b;
count_read--;
}
} while ((port().SR & LPSPI_SR_TDF) == 0) ;

}

// now lets wait for all of the read bytes to be returned...
while (count_read) {
if ((port().RSR & LPSPI_RSR_RXEMPTY) == 0) {
uint16_t b = port().RDR; // Read any pending RX bytes in
if (p_read) *p_read++ = b;
count_read--;
}
}
port().TCR = tcr; // restore back
}

void SPIClass::transfer32(const void * buf, void * retbuf, size_t count)
{
if (count == 0) return;
uint32_t *p_write = (uint32_t*)buf;
uint32_t *p_read = (uint32_t*)retbuf;
size_t count_read = count;
uint32_t tcr = port().TCR;
port().TCR = (tcr & 0xfffff000) | LPSPI_TCR_FRAMESZ(31); // turn on 32 bit mode

// Lets clear the reader queue
port().CR = LPSPI_CR_RRF | LPSPI_CR_MEN; // clear the queue and make sure still enabled.

while (count > 0) {
// Push out the next byte;
port().TDR = p_write? ((*p_write) << 16) | ((*p_write) >> 16) : _transferWriteFill;
p_write++;
count--; // how many bytes left to output.
// Make sure queue is not full before pushing next byte out
do {
if ((port().RSR & LPSPI_RSR_RXEMPTY) == 0) {
uint32_t b = port().RDR; // Read any pending RX bytes in
if (p_read) *p_read++ = b;
count_read--;
}
} while ((port().SR & LPSPI_SR_TDF) == 0) ;

}

// now lets wait for all of the read bytes to be returned...
while (count_read) {
if ((port().RSR & LPSPI_RSR_RXEMPTY) == 0) {
uint32_t b = port().RDR; // Read any pending RX bytes in
if (p_read) *p_read++ = b;
count_read--;
}
}
port().TCR = tcr; // restore back
}


void SPIClass::end() {
// only do something if we have begun

+ 12
- 0
SPI.h Parādīt failu

@@ -1254,10 +1254,22 @@ public:
port().TCR = tcr; // restore back
return port().RDR;
}
uint32_t transfer32(uint32_t data) {
uint32_t tcr = port().TCR;
port().TCR = (tcr & 0xfffff000) | LPSPI_TCR_FRAMESZ(31); // turn on 32 bit mode
port().TDR = data; // output 32 bit data.
while ((port().RSR & LPSPI_RSR_RXEMPTY)) ; // wait while the RSR fifo is empty...
port().TCR = tcr; // restore back
return port().RDR;
}

void inline transfer(void *buf, size_t count) {transfer(buf, buf, count);}
void inline transfer16(void *buf, size_t count) {transfer16(buf, buf, count);}
void inline transfer32(void *buf, size_t count) {transfer32(buf, buf, count);}
void setTransferWriteFill(uint8_t ch ) {_transferWriteFill = ch;}
void transfer(const void * buf, void * retbuf, size_t count);
void transfer16(const void * buf, void * retbuf, size_t count);
void transfer32(const void * buf, void * retbuf, size_t count);

// Asynch support (DMA )
#ifdef SPI_HAS_TRANSFER_ASYNC

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