arduino-esp32/cores/esp32/esp32-hal-spi.h

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// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef MAIN_ESP32_HAL_SPI_H_
#define MAIN_ESP32_HAL_SPI_H_
#ifdef __cplusplus
extern "C" {
#endif
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#include <stdint.h>
#include <stdbool.h>
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#define SPI_HAS_TRANSACTION
#define FSPI 1 //SPI bus attached to the flash (can use the same data lines but different SS)
#define HSPI 2 //SPI bus normally mapped to pins 12 - 15, but can be matrixed to any pins
#define VSPI 3 //SPI bus normally attached to pins 5, 18, 19 and 23, but can be matrixed to any pins
// This defines are not representing the real Divider of the ESP32
// the Defines match to an AVR Arduino on 16MHz for better compatibility
#define SPI_CLOCK_DIV2 0x00101001 //8 MHz
#define SPI_CLOCK_DIV4 0x00241001 //4 MHz
#define SPI_CLOCK_DIV8 0x004c1001 //2 MHz
#define SPI_CLOCK_DIV16 0x009c1001 //1 MHz
#define SPI_CLOCK_DIV32 0x013c1001 //500 KHz
#define SPI_CLOCK_DIV64 0x027c1001 //250 KHz
#define SPI_CLOCK_DIV128 0x04fc1001 //125 KHz
#define SPI_MODE0 0
#define SPI_MODE1 1
#define SPI_MODE2 2
#define SPI_MODE3 3
#define SPI_CS0 0
#define SPI_CS1 1
#define SPI_CS2 2
#define SPI_CS_MASK_ALL 0x7
#define SPI_LSBFIRST 0
#define SPI_MSBFIRST 1
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struct spi_struct_t;
typedef struct spi_struct_t spi_t;
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spi_t * spiStartBus(uint8_t spi_num, uint32_t freq, uint8_t dataMode, uint8_t bitOrder);
void spiStopBus(spi_t * spi);
//Attach/Detach Signal Pins
void spiAttachSCK(spi_t * spi, int8_t sck);
void spiAttachMISO(spi_t * spi, int8_t miso);
void spiAttachMOSI(spi_t * spi, int8_t mosi);
void spiDetachSCK(spi_t * spi, int8_t sck);
void spiDetachMISO(spi_t * spi, int8_t miso);
void spiDetachMOSI(spi_t * spi, int8_t mosi);
//Attach/Detach SS pin to SPI_CSx signal
void spiAttachSS(spi_t * spi, uint8_t cs_num, int8_t ss);
void spiDetachSS(spi_t * spi, int8_t ss);
//Enable/Disable SPI_CSx pins
void spiEnableSSPins(spi_t * spi, uint8_t cs_mask);
void spiDisableSSPins(spi_t * spi, uint8_t cs_mask);
//Enable/Disable hardware control of SPI_CSx pins
void spiSSEnable(spi_t * spi);
void spiSSDisable(spi_t * spi);
//Activate enabled SPI_CSx pins
void spiSSSet(spi_t * spi);
//Deactivate enabled SPI_CSx pins
void spiSSClear(spi_t * spi);
void spiWaitReady(spi_t * spi);
uint32_t spiGetClockDiv(spi_t * spi);
void spiSetClockDiv(spi_t * spi, uint32_t clockDiv);
uint8_t spiGetDataMode(spi_t * spi);
void spiSetDataMode(spi_t * spi, uint8_t dataMode);
uint8_t spiGetBitOrder(spi_t * spi);
void spiSetBitOrder(spi_t * spi, uint8_t bitOrder);
void spiWrite(spi_t * spi, uint32_t *data, uint8_t len);
void spiWriteByte(spi_t * spi, uint8_t data);
void spiWriteWord(spi_t * spi, uint16_t data);
void spiWriteLong(spi_t * spi, uint32_t data);
void spiRead(spi_t * spi, uint32_t *out, uint8_t len);
uint8_t spiReadByte(spi_t * spi);
uint16_t spiReadWord(spi_t * spi);
uint32_t spiReadLong(spi_t * spi);
void spiTransferBits(spi_t * spi, uint32_t data, uint32_t * out, uint8_t bits);
void spiTransferBytes(spi_t * spi, uint8_t * data, uint8_t * out, uint32_t size);
uint32_t spiFrequencyToClockDiv(uint32_t freq);
uint32_t spiClockDivToFrequency(uint32_t freq);
#ifdef __cplusplus
}
#endif
#endif /* MAIN_ESP32_HAL_SPI_H_ */