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STM32F1: Sync SPI changes from maple master (#15266)
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20fbb751f1
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02d400e413
@ -178,8 +178,7 @@ void SPIClass::end() {
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// FIXME [0.1.0] remove this once you have an interrupt based driver
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volatile uint16_t rx __attribute__((unused)) = spi_rx_reg(_currentSetting->spi_d);
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}
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while (!spi_is_tx_empty(_currentSetting->spi_d)) { /* nada */ }
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while (spi_is_busy(_currentSetting->spi_d)) { /* nada */ }
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waitSpiTxEnd(_currentSetting->spi_d);
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spi_peripheral_disable(_currentSetting->spi_d);
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// added for DMA callbacks.
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@ -297,8 +296,7 @@ void SPIClass::write(uint16_t data) {
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* This almost doubles the speed of this function.
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*/
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spi_tx_reg(_currentSetting->spi_d, data); // write the data to be transmitted into the SPI_DR register (this clears the TXE flag)
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while (!spi_is_tx_empty(_currentSetting->spi_d)) { /* nada */ } // "5. Wait until TXE=1 ..."
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while (spi_is_busy(_currentSetting->spi_d)) { /* nada */ } // "... and then wait until BSY=0 before disabling the SPI."
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waitSpiTxEnd(_currentSetting->spi_d);
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}
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void SPIClass::write16(uint16_t data) {
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@ -306,8 +304,7 @@ void SPIClass::write16(uint16_t data) {
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spi_tx_reg(_currentSetting->spi_d, data>>8); // write high byte
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while (!spi_is_tx_empty(_currentSetting->spi_d)) { /* nada */ } // Wait until TXE=1
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spi_tx_reg(_currentSetting->spi_d, data); // write low byte
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while (!spi_is_tx_empty(_currentSetting->spi_d)) { /* nada */ } // Wait until TXE=1
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while (spi_is_busy(_currentSetting->spi_d)) { /* nada */ } // wait until BSY=0
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waitSpiTxEnd(_currentSetting->spi_d);
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}
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void SPIClass::write(uint16_t data, uint32_t n) {
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@ -323,16 +320,14 @@ void SPIClass::write(uint16_t data, uint32_t n) {
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void SPIClass::write(const void *data, uint32_t length) {
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spi_dev * spi_d = _currentSetting->spi_d;
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spi_tx(spi_d, data, length); // data can be array of bytes or words
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while (!spi_is_tx_empty(spi_d)) { /* nada */ } // "5. Wait until TXE=1 ..."
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while (spi_is_busy(spi_d)) { /* nada */ } // "... and then wait until BSY=0 before disabling the SPI."
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waitSpiTxEnd(spi_d);
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}
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uint8_t SPIClass::transfer(uint8_t byte) const {
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spi_dev * spi_d = _currentSetting->spi_d;
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spi_rx_reg(spi_d); // read any previous data
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spi_tx_reg(spi_d, byte); // Write the data item to be transmitted into the SPI_DR register
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while (!spi_is_tx_empty(spi_d)) { /* nada */ } // "5. Wait until TXE=1 ..."
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while (spi_is_busy(spi_d)) { /* nada */ } // "... and then wait until BSY=0 before disabling the SPI."
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waitSpiTxEnd(spi_d);
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return (uint8)spi_rx_reg(spi_d); // "... and read the last received data."
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}
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@ -342,12 +337,10 @@ uint16_t SPIClass::transfer16(uint16_t data) const {
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spi_dev * spi_d = _currentSetting->spi_d;
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spi_rx_reg(spi_d); // read any previous data
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spi_tx_reg(spi_d, data>>8); // write high byte
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while (!spi_is_tx_empty(spi_d)) { /* nada */ } // wait until TXE=1
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while (spi_is_busy(spi_d)) { /* nada */ } // wait until BSY=0
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waitSpiTxEnd(spi_d); // wait until TXE=1 and then wait until BSY=0
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uint16_t ret = spi_rx_reg(spi_d)<<8; // read and shift high byte
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spi_tx_reg(spi_d, data); // write low byte
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while (!spi_is_tx_empty(spi_d)) { /* nada */ } // wait until TXE=1
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while (spi_is_busy(spi_d)) { /* nada */ } // wait until BSY=0
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waitSpiTxEnd(spi_d); // wait until TXE=1 and then wait until BSY=0
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ret += spi_rx_reg(spi_d); // read low byte
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return ret;
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}
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@ -400,8 +393,7 @@ uint8_t SPIClass::dmaTransferRepeat(uint16_t length) {
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if ((millis() - m) > DMA_TIMEOUT) { b = 2; break; }
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}
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while (!spi_is_tx_empty(_currentSetting->spi_d)) { /* nada */ } // "5. Wait until TXE=1 ..."
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while (spi_is_busy(_currentSetting->spi_d)) { /* nada */ } // "... and then wait until BSY=0 before disabling the SPI."
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waitSpiTxEnd(_currentSetting->spi_d); // until TXE=1 and BSY=0
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spi_tx_dma_disable(_currentSetting->spi_d);
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spi_rx_dma_disable(_currentSetting->spi_d);
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dma_disable(_currentSetting->spiDmaDev, _currentSetting->spiTxDmaChannel);
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@ -456,8 +448,7 @@ uint8_t SPIClass::dmaSendRepeat(uint16_t length) {
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// Avoid interrupts and just loop waiting for the flag to be set.
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if ((millis() - m) > DMA_TIMEOUT) { b = 2; break; }
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}
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while (!spi_is_tx_empty(_currentSetting->spi_d)) { /* nada */ } // "5. Wait until TXE=1 ..."
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while (spi_is_busy(_currentSetting->spi_d)) { /* nada */ } // "... and then wait until BSY=0 before disabling the SPI."
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waitSpiTxEnd(_currentSetting->spi_d); // until TXE=1 and BSY=0
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spi_tx_dma_disable(_currentSetting->spi_d);
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dma_disable(_currentSetting->spiDmaDev, _currentSetting->spiTxDmaChannel);
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dma_clear_isr_bits(_currentSetting->spiDmaDev, _currentSetting->spiTxDmaChannel);
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@ -480,9 +471,7 @@ uint8_t SPIClass::dmaSendAsync(const void * transmitBuf, uint16_t length, bool m
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//delayMicroseconds(10);
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if ((millis() - m) > DMA_TIMEOUT) { b = 2; break; }
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}
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while (!spi_is_tx_empty(_currentSetting->spi_d)) { /* nada */ } // "5. Wait until TXE=1 ..."
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while (spi_is_busy(_currentSetting->spi_d)) { /* nada */ } // "... and then wait until BSY=0 before disabling the SPI."
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waitSpiTxEnd(_currentSetting->spi_d); // until TXE=1 and BSY=0
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spi_tx_dma_disable(_currentSetting->spi_d);
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dma_disable(_currentSetting->spiDmaDev, _currentSetting->spiTxDmaChannel);
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_currentSetting->state = SPI_STATE_READY;
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@ -572,8 +561,7 @@ void SPIClass::onTransmit(void(*callback)(void)) {
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* during the initial setup and only set the callback to EventCallback if they are set.
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*/
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void SPIClass::EventCallback() {
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while (!spi_is_tx_empty(_currentSetting->spi_d)) { /* nada */ } // "5. Wait until TXE=1 ..."
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while (spi_is_busy(_currentSetting->spi_d)) { /* nada */ } // "... and then wait until BSY=0"
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waitSpiTxEnd(_currentSetting->spi_d);
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switch (_currentSetting->state) {
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case SPI_STATE_TRANSFER:
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while (spi_is_rx_nonempty(_currentSetting->spi_d)) { /* nada */ }
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@ -406,4 +406,12 @@ private:
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*/
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};
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/**
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* @brief Wait until TXE (tx empty) flag is set and BSY (busy) flag unset.
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*/
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static inline void waitSpiTxEnd(spi_dev *spi_d) {
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while (spi_is_tx_empty(spi_d) == 0) { /* nada */ } // wait until TXE=1
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while (spi_is_busy(spi_d) != 0) { /* nada */ } // wait until BSY=0
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}
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extern SPIClass SPI;
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