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T4: Support legacy (pre SPI.transaction) methods

The code would fail if the user did an SPI.transfer without calling SPI.beginTransaction.

So begin now calls beginTransaction with default parameters.

Also put in an implemention for SPI.setClockDivider as well as SPI.setDataMode

They appear to work OK...  Tried to do with out changing any of the current functionality other than to call begin/end transaction in begin to get to a stable state.
main
Kurt Eckhardt 5 vuotta sitten
vanhempi
commit
cdb4628d85
2 muutettua tiedostoa jossa 61 lisäystä ja 7 poistoa
  1. +54
    -0
      SPI.cpp
  2. +7
    -7
      SPI.h

+ 54
- 0
SPI.cpp Näytä tiedosto

@@ -1307,8 +1307,49 @@ void SPIClass::begin()
// Lets initialize the Transmit FIFO watermark to FIFO size - 1...
// BUGBUG:: I assume queue of 16 for now...
port().FCR = LPSPI_FCR_TXWATER(15);

// We should initialize the SPI to be in a known default state.
beginTransaction(SPISettings());
endTransaction();
}

void SPIClass::setClockDivider_noInline(uint32_t clk) {
// Again depreciated, but...
hardware().clock_gate_register |= hardware().clock_gate_mask;
if (clk != _clock) {
static const uint32_t clk_sel[4] = {664615384, // PLL3 PFD1
720000000, // PLL3 PFD0
528000000, // PLL2
396000000}; // PLL2 PFD2

// First save away the new settings..
_clock = clk;

uint32_t cbcmr = CCM_CBCMR;
uint32_t clkhz = clk_sel[(cbcmr >> 4) & 0x03] / (((cbcmr >> 26 ) & 0x07 ) + 1); // LPSPI peripheral clock
uint32_t d, div;
d = _clock ? clkhz/_clock : clkhz;

if (d && clkhz/d > _clock) d++;
if (d > 257) d= 257; // max div
if (d > 2) {
div = d-2;
} else {
div =0;
}

_ccr = LPSPI_CCR_SCKDIV(div) | LPSPI_CCR_DBT(div/2);

}
//Serial.printf("SPI.setClockDivider_noInline CCR:%x TCR:%x\n", _ccr, port().TCR);
port().CR = 0;
port().CFGR1 = LPSPI_CFGR1_MASTER | LPSPI_CFGR1_SAMPLE;
port().CCR = _ccr;
port().CR = LPSPI_CR_MEN;
}


uint8_t SPIClass::pinIsChipSelect(uint8_t pin)
{
for (unsigned int i = 0; i < sizeof(hardware().cs_pin); i++) {
@@ -1389,6 +1430,19 @@ void SPIClass::setDataMode(uint8_t dataMode)
{
hardware().clock_gate_register |= hardware().clock_gate_mask;
//SPCR = (SPCR & ~SPI_MODE_MASK) | dataMode;

// Handle Data Mode
uint32_t tcr = port().TCR & ~(LPSPI_TCR_CPOL | LPSPI_TCR_CPHA);

if (dataMode & 0x08) tcr |= LPSPI_TCR_CPOL;

// Note: On T3.2 when we set CPHA it also updated the timing. It moved the
// PCS to SCK Delay Prescaler into the After SCK Delay Prescaler
if (dataMode & 0x04) tcr |= LPSPI_TCR_CPHA;

// Save back out
port().TCR = tcr;

}

void _spi_dma_rxISR0(void) {SPI.dma_rxisr();}

+ 7
- 7
SPI.h Näytä tiedosto

@@ -1283,19 +1283,19 @@ public:
// beginTransaction() to configure SPI settings.
void setClockDivider(uint8_t clockDiv) {
if (clockDiv == SPI_CLOCK_DIV2) {
//setClockDivider_noInline(SPISettings(12000000, MSBFIRST, SPI_MODE0).ctar);
setClockDivider_noInline(12000000);
} else if (clockDiv == SPI_CLOCK_DIV4) {
//setClockDivider_noInline(SPISettings(4000000, MSBFIRST, SPI_MODE0).ctar);
setClockDivider_noInline(4000000);
} else if (clockDiv == SPI_CLOCK_DIV8) {
//setClockDivider_noInline(SPISettings(2000000, MSBFIRST, SPI_MODE0).ctar);
setClockDivider_noInline(2000000);
} else if (clockDiv == SPI_CLOCK_DIV16) {
//setClockDivider_noInline(SPISettings(1000000, MSBFIRST, SPI_MODE0).ctar);
setClockDivider_noInline(1000000);
} else if (clockDiv == SPI_CLOCK_DIV32) {
//setClockDivider_noInline(SPISettings(500000, MSBFIRST, SPI_MODE0).ctar);
setClockDivider_noInline(500000);
} else if (clockDiv == SPI_CLOCK_DIV64) {
//setClockDivider_noInline(SPISettings(250000, MSBFIRST, SPI_MODE0).ctar);
setClockDivider_noInline(250000);
} else { /* clockDiv == SPI_CLOCK_DIV128 */
//setClockDivider_noInline(SPISettings(125000, MSBFIRST, SPI_MODE0).ctar);
setClockDivider_noInline(125000);
}
}
void setClockDivider_noInline(uint32_t clk);

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