DIY-Multiprotocol-TX-Module/Multiprotocol/Multiprotocol_STM32.h

/*
 This project is free software: you can redistribute it and/or modify
 it under the terms of the GNU General Public License as published by
 the Free Software Foundation, either version 3 of the License, or
 (at your option) any later version.

 Multiprotocol is distributed in the hope that it will be useful,
 but WITHOUT ANY WARRANTY; without even the implied warranty of
 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 GNU General Public License for more details.

 You should have received a copy of the GNU General Public License
 along with Multiprotocol.  If not, see <http://www.gnu.org/licenses/>.
 */
 

//******************
// Protocols
//******************
enum PROTOCOLS
{
	MODE_SERIAL = 0,		// Serial commands
	MODE_FLYSKY = 1,		// =>A7105
	MODE_HUBSAN = 2,		// =>A7105
	MODE_FRSKY = 3,			// =>CC2500
	MODE_HISKY = 4,			// =>NRF24L01
	MODE_V2X2 = 5,			// =>NRF24L01
	MODE_DSM2 = 6,			// =>CYRF6936
	MODE_DEVO =7,			// =>CYRF6936
	MODE_YD717 = 8,			// =>NRF24L01
	MODE_KN  = 9,			// =>NRF24L01
	MODE_SYMAX = 10,		// =>NRF24L01
	MODE_SLT = 11,			// =>NRF24L01
	MODE_CX10 = 12,			// =>NRF24L01
	MODE_CG023 = 13,		// =>NRF24L01
	MODE_BAYANG = 14,		// =>NRF24L01
	MODE_FRSKYX = 15,		// =>CC2500
	MODE_ESKY = 16,			// =>NRF24L01
	MODE_MT99XX=17,			// =>NRF24L01
	MODE_MJXQ=18,			// =>NRF24L01
	MODE_SHENQI=19,			// =>NRF24L01
	MODE_FY326=20,			// =>NRF24L01
	MODE_SFHSS=21,			// =>CC2500
	MODE_J6PRO=22,			// =>CYRF6936
	MODE_FQ777=23,			// =>NRF24L01
	MODE_ASSAN=24			// =>NRF24L01
};

enum Flysky
{
	Flysky=0,
	V9X9=1,
	V6X6=2,
	V912=3
};
enum Hisky
{
	Hisky=0,
	HK310=1
};
enum DSM2{
	DSM2=0,
	DSMX=1
};
enum YD717
{       			
	YD717=0,
	SKYWLKR=1,
	SYMAX4=2,
	XINXUN=3,
	NIHUI=4
};
enum KN
{
	WLTOYS=0,
	FEILUN=1
};
enum SYMAX
{
	SYMAX=0,
	SYMAX5C=1
};
enum CX10
{
    CX10_GREEN = 0,
    CX10_BLUE=1,		// also compatible with CX10-A, CX12
    DM007=2,
	Q282=3,
	JC3015_1=4,
	JC3015_2=5,
	MK33041=6,
	Q242=7
};
enum CG023
{
    CG023 = 0,
    YD829 = 1,
    H8_3D = 2
};
enum MT99XX
{
	MT99	= 0,
	H7		= 1,
	YZ		= 2,
	LS              = 3
};
enum MJXQ
{
	WLH08	= 0,
	X600	= 1,
	X800	= 2,
	H26D	= 3
};

enum FRSKYX
{
	CH_16	= 0,
	CH_8	= 1,
};

#define NONE 		0
#define P_HIGH		1
#define P_LOW		0
#define AUTOBIND	1
#define NO_AUTOBIND	0



//*******************
//***   Pinouts   ***
//*******************

#if defined STM32_board
//********************
#define BIND_pin PA0
#define LED_pin  PA1						
//
#define PPM_pin PA8	//PPM  5V tolerant													
//
#define S1_pin PA4	//dial switch pins	
#define S2_pin PA5							
#define S3_pin PA6
#define S4_pin PA7	
//
#define CTRL1 PB4	//PE1						
#define CTRL2 PB5  //PE2
//CS pins
#define CC25_CSN_pin PB6//CC2500
#define NRF_CSN_pin  PB7//NRF24L01
#define CYRF_RST_pin PB8//CYRF RESET
#define CS_pin       PB9//A7105
#define CYRF_CSN_pin PB12//CYRF CSN
//SPI pins	
#define SCK_pin PB13//SCK
#define SDO_pin PB14//MISO	
#define SDI_pin PB15//MOSI							
//
#define TX_INV_pin PB3
#define RX_INV_pin PB1
//
#define CTRL1_on  digitalWrite(CTRL1,HIGH)
#define CTRL1_off digitalWrite(CTRL1,LOW)
//
#define CTRL2_on  digitalWrite(CTRL2,HIGH)
#define CTRL2_off digitalWrite(CTRL2,LOW)

#define RS_HI digitalWrite(CYRF_RST_pin,HIGH)				//reset pin cyrf 
#define RS_LO digitalWrite(CYRF_RST_pin,LOW)


#define  CS_on digitalWrite(CS_pin,HIGH)			
#define  CS_off digitalWrite(CS_pin,LOW)		

#define  SCK_on digitalWrite(SCK_pin,HIGH)			
#define  SCK_off digitalWrite(SCK_pin,LOW)		

#define  SDI_on digitalWrite(SDI_pin,HIGH)			
#define  SDI_off digitalWrite(SDI_pin,LOW)		

#define  SDI_1 (digitalRead(SDI_pin)==HIGH)	
#define  SDI_0 (digitalRead(SDI_pin)==LOW)			

#define CC25_CSN_on digitalWrite(CC25_CSN_pin,HIGH)		
#define CC25_CSN_off digitalWrite(CC25_CSN_pin,LOW)	

#define NRF_CSN_on digitalWrite(NRF_CSN_pin,HIGH)		
#define NRF_CSN_off digitalWrite(NRF_CSN_pin,LOW)	

#define CYRF_CSN_on digitalWrite(CYRF_CSN_pin,HIGH)		
#define CYRF_CSN_off digitalWrite(CYRF_CSN_pin,LOW)

#define CYRF_RST_HI digitalWrite(CYRF_RST_pin,HIGH)	//reset cyrf 
#define CYRF_RST_LO digitalWrite(CYRF_RST_pin,LOW)	//

#define  SDO_1 (digitalRead(SDO_pin)==HIGH)		
#define  SDO_0 (digitalRead(SDO_pin)==LOW)	

#define TX_INV_on digitalWrite(TX_INV_pin,HIGH)		
#define TX_INV_off digitalWrite(TX_INV_pin,LOW)

#define RX_INV_on digitalWrite(RX_INV_pin,HIGH)		
#define RX_INV_off digitalWrite(RX_INV_pin,LOW)

#define LED_ON  digitalWrite(LED_pin,HIGH)
#define LED_OFF  digitalWrite(LED_pin,LOW)
#define LED_TOGGLE  digitalWrite(LED_pin ,!digitalRead(LED_pin))
#define LED_SET_OUTPUT pinMode(LED_pin,OUTPUT)
#define IS_LED_on  ( digitalRead(LED_pin)==HIGH)

#define cli() noInterrupts()
#define sei() interrupts()
#define _delay_us(x) delayMicroseconds(x)
#define delayMilliseconds(x) delay(x)
//
#endif



// Macros
#define NOP() __asm__ __volatile__("nop")
#define BV(bit) (1 << bit)

//Serial flags definition
#define RX_FLAG_on			protocol_flags |= _BV(0)
#define RX_FLAG_off			protocol_flags &= ~_BV(0)
#define IS_RX_FLAG_on		( ( protocol_flags & _BV(0) ) !=0 )
//
#define CHANGE_PROTOCOL_FLAG_on		protocol_flags |= _BV(1)
#define CHANGE_PROTOCOL_FLAG_off		protocol_flags &= ~_BV(1)
#define IS_CHANGE_PROTOCOL_FLAG_on	( ( protocol_flags & _BV(1) ) !=0 )
//
#define POWER_FLAG_on		protocol_flags |= _BV(2)
#define POWER_FLAG_off		protocol_flags &= ~_BV(2)
#define IS_POWER_FLAG_on	( ( protocol_flags & _BV(2) ) !=0 )
//
#define RANGE_FLAG_on		protocol_flags |= _BV(3)
#define RANGE_FLAG_off		protocol_flags &= ~_BV(3)
#define IS_RANGE_FLAG_on	( ( protocol_flags & _BV(3) ) !=0 )
//
#define AUTOBIND_FLAG_on	protocol_flags |= _BV(4)
#define AUTOBIND_FLAG_off	protocol_flags &= ~_BV(4)
#define IS_AUTOBIND_FLAG_on	( ( protocol_flags & _BV(4) ) !=0 )
//
#define BIND_BUTTON_FLAG_on		protocol_flags |= _BV(5)
#define BIND_BUTTON_FLAG_off	protocol_flags &= ~_BV(5)
#define IS_BIND_BUTTON_FLAG_on	( ( protocol_flags & _BV(5) ) !=0 )

//PPM RX OK
#define PPM_FLAG_off			protocol_flags &= ~_BV(6)
#define PPM_FLAG_on			protocol_flags |= _BV(6)
#define IS_PPM_FLAG_on		( ( protocol_flags & _BV(6) ) !=0 )

//Bind flag for blinking
#define BIND_IN_PROGRESS	protocol_flags &= ~_BV(7)
#define BIND_DONE			protocol_flags |= _BV(7)
#define IS_BIND_DONE_on		( ( protocol_flags & _BV(7) ) !=0 )

#define BAD_PROTO_off		protocol_flags2 &= ~_BV(0)
#define BAD_PROTO_on		protocol_flags2 |= _BV(0)
#define IS_BAD_PROTO_on		( ( protocol_flags2 & _BV(0) ) !=0 )

#define RX_DONOTUPDTAE_off	protocol_flags2 &= ~_BV(1)
#define RX_DONOTUPDTAE_on	protocol_flags2 |= _BV(1)
#define IS_RX_DONOTUPDTAE_on	( ( protocol_flags2 & _BV(1) ) !=0 )

#define RX_MISSED_BUFF_off	protocol_flags2 &= ~_BV(2)
#define RX_MISSED_BUFF_on	protocol_flags2 |= _BV(2)
#define IS_RX_MISSED_BUFF_on	( ( protocol_flags2 & _BV(2) ) !=0 )




#define IS_BIND_BUTTON_on	(digitalRead(BIND_pin)==0x00)

#define BLINK_BIND_TIME	100
#define BLINK_SERIAL_TIME	500
#define BLINK_BAD_PROTO_TIME_LOW	1000
#define BLINK_BAD_PROTO_TIME_HIGH	50

//AUX flags definition
#define Servo_AUX1	Servo_AUX & _BV(0)
#define Servo_AUX2	Servo_AUX & _BV(1)
#define Servo_AUX3	Servo_AUX & _BV(2)
#define Servo_AUX4	Servo_AUX & _BV(3)
#define Servo_AUX5	Servo_AUX & _BV(4)
#define Servo_AUX6	Servo_AUX & _BV(5)
#define Servo_AUX7	Servo_AUX & _BV(6)
#define Servo_AUX8	Servo_AUX & _BV(7)

#define GET_FLAG(ch, mask) ( ch ? mask : 0)

//************************
//***  Power settings  ***
//************************
enum {
	TXPOWER_100uW,
	TXPOWER_300uW,
	TXPOWER_1mW,
	TXPOWER_3mW,
	TXPOWER_10mW,
	TXPOWER_30mW,
	TXPOWER_100mW,
	TXPOWER_150mW
};

// A7105 power
//	Power amp is ~+16dBm so:
enum A7105_POWER
{
	A7105_POWER_0 = 0x00<<3 | 0x00,	// TXPOWER_100uW  = -23dBm == PAC=0 TBG=0
	A7105_POWER_1 = 0x00<<3 | 0x01,	// TXPOWER_300uW  = -20dBm == PAC=0 TBG=1
	A7105_POWER_2 = 0x00<<3 | 0x02,	// TXPOWER_1mW    = -16dBm == PAC=0 TBG=2
	A7105_POWER_3 = 0x00<<3 | 0x04,	// TXPOWER_3mW    = -11dBm == PAC=0 TBG=4
	A7105_POWER_4 = 0x01<<3 | 0x05,	// TXPOWER_10mW   =  -6dBm == PAC=1 TBG=5
	A7105_POWER_5 = 0x02<<3 | 0x07,	// TXPOWER_30mW   =   0dBm == PAC=2 TBG=7
	A7105_POWER_6 = 0x03<<3 | 0x07,	// TXPOWER_100mW  =   1dBm == PAC=3 TBG=7
	A7105_POWER_7 = 0x03<<3 | 0x07	// TXPOWER_150mW  =   1dBm == PAC=3 TBG=7
};
#define A7105_HIGH_POWER	A7105_POWER_7
#define	A7105_LOW_POWER		A7105_POWER_3
#define	A7105_RANGE_POWER	A7105_POWER_0
#define	A7105_BIND_POWER	A7105_POWER_0

// NRF Power
// Power setting is 0..3 for nRF24L01
// Claimed power amp for nRF24L01 from eBay is 20dBm. 
enum NRF_POWER
{						//      Raw            w 20dBm PA
	NRF_POWER_0 = 0x00,	// 0 : -18dBm  (16uW)   2dBm (1.6mW)
	NRF_POWER_1 = 0x01,	// 1 : -12dBm  (60uW)   8dBm   (6mW)
	NRF_POWER_2 = 0x02,	// 2 :  -6dBm (250uW)  14dBm  (25mW)
	NRF_POWER_3 = 0x03	// 3 :   0dBm   (1mW)  20dBm (100mW)
};
#define NRF_HIGH_POWER		NRF_POWER_2
#define	NRF_LOW_POWER		NRF_POWER_1
#define	NRF_RANGE_POWER		NRF_POWER_0
#define	NRF_BIND_POWER		NRF_POWER_0

// CC2500 power output from the chip itself
// The numbers do not take into account any outside amplifier
enum CC2500_POWER
{
	CC2500_POWER_0  = 0x00,	// –55dbm or less
	CC2500_POWER_1  = 0x50,	// -30dbm
	CC2500_POWER_2  = 0x44, // –28dbm
	CC2500_POWER_3  = 0xC0, // –26dbm
	CC2500_POWER_4  = 0x84, // –24dbm
	CC2500_POWER_5  = 0x81, // –22dbm
	CC2500_POWER_6  = 0x46, // –20dbm
	CC2500_POWER_7  = 0x93, // –18dbm
	CC2500_POWER_8  = 0x55, // –16dbm
	CC2500_POWER_9  = 0x8D, // –14dbm
	CC2500_POWER_10 = 0xC6,	// -12dbm
	CC2500_POWER_11 = 0x97,	// -10dbm
	CC2500_POWER_12 = 0x6E,	//  -8dbm
	CC2500_POWER_13 = 0x7F,	//  -6dbm
	CC2500_POWER_14 = 0xA9,	//  -4dbm
	CC2500_POWER_15 = 0xBB,	//  -2dbm
	CC2500_POWER_16 = 0xFE,	//   0dbm
	CC2500_POWER_17 = 0xFF	//  +1dbm
};
#define CC2500_HIGH_POWER	CC2500_POWER_16
#define CC2500_LOW_POWER	CC2500_POWER_13
#define CC2500_RANGE_POWER	CC2500_POWER_1
#define CC2500_BIND_POWER	CC2500_POWER_1

// CYRF power
enum CYRF_POWER
{
	CYRF_POWER_0 = 0x00,	// -35dbm
	CYRF_POWER_1 = 0x01,	// -30dbm
	CYRF_POWER_2 = 0x02,	// -24dbm
	CYRF_POWER_3 = 0x03,	// -18dbm
	CYRF_POWER_4 = 0x04,	// -13dbm
	CYRF_POWER_5 = 0x05,	//  -5dbm
	CYRF_POWER_6 = 0x06,	//   0dbm
	CYRF_POWER_7 = 0x07		//  +4dbm
};
#define CYRF_HIGH_POWER		CYRF_POWER_7
#define	CYRF_LOW_POWER		CYRF_POWER_3
#define	CYRF_RANGE_POWER	CYRF_POWER_1	// 1/30 of the full power distance
#define	CYRF_BIND_POWER		CYRF_POWER_0

enum TXRX_State {
	TXRX_OFF,
	TX_EN,
	RX_EN
};

// Packet ack status values
enum {
	PKT_PENDING = 0,
	PKT_ACKED,
	PKT_TIMEOUT
};

//*******************
//***  CRC Table  ***
//*******************



//****************************************
//*** MULTI protocol serial definition ***
//****************************************
/*
**************************
16 channels serial protocol
**************************
Serial: 100000 Baud 8e2      _ xxxx xxxx p --
  Total of 26 bytes
  Stream[0]   = 0x55
   header
  Stream[1]   = sub_protocol|BindBit|RangeCheckBit|AutoBindBit;
   sub_protocol is 0..31 (bits 0..4)
   =>	Reserved	0
					Flysky		1
					Hubsan		2
					Frsky		3
					Hisky		4
					V2x2		5
					DSM2		6
					Devo		7
					YD717		8
					KN			9
					SymaX		10
					SLT			11
					CX10		12
					CG023		13
					Bayang		14
					FrskyX		15
					ESky		16
					MT99XX		17
					MJXQ		18
					SHENQI		19
					FY326		20
					SFHSS		21
   BindBit=>		0x80	1=Bind/0=No
   AutoBindBit=>	0x40	1=Yes /0=No
   RangeCheck=>		0x20	1=Yes /0=No
  Stream[2]   = RxNum | Power | Type;
   RxNum value is 0..15 (bits 0..3)
   Type is 0..7 <<4     (bit 4..6)
		sub_protocol==Flysky
			Flysky	0
			V9x9	1
			V6x6	2
			V912	3
		sub_protocol==Hisky
			Hisky	0
			HK310	1
		sub_protocol==DSM2
			DSM2	0
			DSMX	1
		sub_protocol==YD717
			YD717	0
			SKYWLKR	1
			SYMAX4	2
			XINXUN	3
			NIHUI	4
		sub_protocol==KN
			WLTOYS	0
			FEILUN	1
		sub_protocol==SYMAX
			SYMAX	0
			SYMAX5C	1
		sub_protocol==CX10
			CX10_GREEN	0
			CX10_BLUE	1	// also compatible with CX10-A, CX12
			DM007		2
			Q282		3
			JC3015_1	4
			JC3015_2	5
			MK33041		6
			Q242		7
		sub_protocol==CG023
			CG023		0
			YD829		1
			H8_3D		2
		sub_protocol==MT99XX
			MT99		0
			H7			1
			YZ			2
		sub_protocol==MJXQ
			WLH08		0
			X600		1
			X800		2
			H26D		3
		sub_protocol==FRSKYX
			CH_16		0
			CH_8		1
   Power value => 0x80	0=High/1=Low
  Stream[3]   = option_protocol;
   option_protocol value is -127..127
  Stream[4] to [25] = Channels
   16 Channels on 11 bits (0..2047)
	0		-125%
    204		-100%
	1024	   0%
	1843	+100%
	2047	+125%
   Channels bits are concatenated to fit in 22 bytes like in SBUS protocol
*/