sakura fan
SAKURA Internet IoT Beta Communication Module Library for mbed
Dependents: SakuraIO_Standard SakuraIO_FirmwareUpdate
SakuraIO.h
- Committer:
- sakurafan
- Date:
- 2016-11-13
- Revision:
- 0:f3b80b2bdb14
File content as of revision 0:f3b80b2bdb14:
/* SAKURA Internet IoT Communication Module Library for mbed
*
* Copyright (c) SAKURA Internet Inc.
* The MIT License (MIT)
* https://github.com/sakura-internet/SakuraIOArduino
*
* https://iot.sakura.ad.jp/
*
* Porting to mbed by sakurafan. 2016
*/
#ifndef _SAKURAIO_H_
#define _SAKURAIO_H_
#include "mbed.h"
#include "commands.h"
class SakuraIO
{
protected:
virtual void begin(){}
virtual void end(){}
virtual void sendByte(uint8_t data){}
//virtual void finishSending(){}
virtual uint8_t startReceive(uint8_t length){return length;};
virtual uint8_t receiveByte(){return 0x00;}
virtual uint8_t receiveByte(bool stop){return 0x00;}
//virtual void finishReceiving(){}
uint8_t executeCommand(uint8_t cmd,uint8_t requestLength, uint8_t *request, uint8_t *responseLength, uint8_t *response);
uint8_t enqueueTxRaw(uint8_t ch, uint8_t type, uint8_t length, uint8_t *data, uint64_t offset);
public:
uint8_t getConnectionStatus();
uint8_t getSignalQuarity();
uint64_t getUnixtime();
uint8_t echoback(uint8_t length, uint8_t *data, uint8_t *response);
uint16_t getADC(uint8_t channel);
uint8_t enqueueTx(uint8_t ch, int32_t value, uint64_t offset);
uint8_t enqueueTx(uint8_t ch, uint32_t value, uint64_t offset);
uint8_t enqueueTx(uint8_t ch, int64_t value, uint64_t offset);
uint8_t enqueueTx(uint8_t ch, uint64_t value, uint64_t offset);
uint8_t enqueueTx(uint8_t ch, float value, uint64_t offset);
uint8_t enqueueTx(uint8_t ch, double value, uint64_t offset);
uint8_t enqueueTx(uint8_t ch, uint8_t value[8], uint64_t offset);
uint8_t enqueueTx(uint8_t ch, int32_t value);
uint8_t enqueueTx(uint8_t ch, uint32_t value);
uint8_t enqueueTx(uint8_t ch, int64_t value);
uint8_t enqueueTx(uint8_t ch, uint64_t value);
uint8_t enqueueTx(uint8_t ch, float value);
uint8_t enqueueTx(uint8_t ch, double value);
uint8_t enqueueTx(uint8_t ch, uint8_t value[8]);
uint8_t getTxQueueLength(uint8_t *available, uint8_t *queued);
uint8_t clearTx();
uint8_t getTxStatus(uint8_t *queue, uint8_t *immediate);
uint8_t send();
uint8_t dequeueRx(uint8_t *ch, uint8_t *type, uint8_t *value, int64_t *offset);
uint8_t peekRx(uint8_t *ch, uint8_t *type, uint8_t *value, int64_t *offset);
uint8_t getRxQueueLength(uint8_t *available, uint8_t *queued);
uint8_t clearRx();
uint16_t getProductID();
uint8_t getUniqueID(char *data);
uint8_t getFirmwareVersion(char *data);
uint8_t unlock();
uint8_t updateFirmware();
uint8_t getFirmwareUpdateStatus();
uint8_t reset();
};
class SakuraIO_SPI : public SakuraIO
{
protected:
SPI _spi;
DigitalOut _cs;
virtual void begin();
virtual void end();
virtual void sendByte(uint8_t data);
virtual uint8_t receiveByte(bool stop);
virtual uint8_t receiveByte();
public:
SakuraIO_SPI(SPI &spi, PinName cs);
SakuraIO_SPI(PinName mosi, PinName miso, PinName sck, PinName cs);
};
class SakuraIO_I2C : public SakuraIO
{
protected:
I2C _i2c;
int _length;
virtual void begin();
virtual void end();
virtual void sendByte(uint8_t data);
virtual uint8_t startReceive(uint8_t length);
virtual uint8_t receiveByte(bool stop);
virtual uint8_t receiveByte();
uint8_t mode;
public:
SakuraIO_I2C (I2C &i2c);
SakuraIO_I2C (PinName sda, PinName scl);
};
#endif // _SAKURAIO_H_