gomaomao/DIY-Multiprotocol-TX-Module
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DIY-Multiprotocol-TX-Module/Multiprotocol/Hontai_nrf24l01.ino

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/*
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/>.
*/
#if defined(HONTAI_NRF24L01_INO)
#include "iface_nrf24l01.h"
#define HONTAI_BIND_COUNT 80
#define HONTAI_PACKET_PERIOD 13500
#define FQ777_951_PACKET_PERIOD 10000
#define HONTAI_INITIAL_WAIT 500
#define HONTAI_BIND_PACKET_SIZE 10
#define HONTAI_PACKET_SIZE 12
#define HONTAI_RF_BIND_CHANNEL 0
enum{
HONTAI_FLAG_FLIP = 0x01,
HONTAI_FLAG_PICTURE = 0x02,
HONTAI_FLAG_VIDEO = 0x04,
HONTAI_FLAG_HEADLESS = 0x08,
HONTAI_FLAG_RTH = 0x10,
HONTAI_FLAG_CALIBRATE = 0x20,
};
// proudly swiped from http://www.drdobbs.com/implementing-the-ccitt-cyclical-redundan/199904926
#define HONTAI_POLY 0x8408
static void __attribute__((unused)) crc16(uint8_t *data_p, uint8_t length)
{
uint16_t crc = 0xffff;
length -= 2;
do
{
for (uint8_t i = 0, data = (uint8_t)*data_p++;
i < 8;
i++, data >>= 1)
{
if ((crc & 0x01) ^ (data & 0x01))
crc = (crc >> 1) ^ HONTAI_POLY;
else
crc >>= 1;
}
} while (--length);
crc = ~crc;
*data_p++ = crc & 0xff;
*data_p = crc >> 8;
}
static void __attribute__((unused)) HONTAI_send_packet(uint8_t bind)
{
if (bind)
{
memcpy(packet, rx_tx_addr, 5);
memset(&packet[5], 0, 3);
}
else
{
memset(packet,0,HONTAI_PACKET_SIZE);
packet[3] = convert_channel_16b_limit(THROTTLE, 0, 127) << 1; // Throttle
packet[4] = convert_channel_16b_limit(AILERON, 63, 0); // Aileron
packet[5] = convert_channel_16b_limit(ELEVATOR, 0, 63); // Elevator
packet[6] = convert_channel_16b_limit(RUDDER, 0, 63); // Rudder
if(sub_protocol == X5C1)
packet[7] = convert_channel_16b_limit(AILERON, 0, 63)-31; // Aileron trim
else
packet[7] = convert_channel_16b_limit(AILERON, 0, 32)-16; // Aileron trim
packet[8] = convert_channel_16b_limit(RUDDER, 0, 32)-16; // Rudder trim
if (sub_protocol == X5C1)
packet[9] = convert_channel_16b_limit(ELEVATOR, 0, 63)-31; // Elevator trim
else
packet[9] = convert_channel_16b_limit(ELEVATOR, 0, 32)-16; // Elevator trim
switch(sub_protocol)
{
case HONTAI:
packet[0] = 0x0B;
packet[3] |= GET_FLAG(CH7_SW, 0x01); // Picture
packet[4] |= GET_FLAG(CH10_SW, 0x80) // RTH
| GET_FLAG(CH9_SW, 0x40); // Headless
packet[5] |= GET_FLAG(CH11_SW, 0x80) // Calibrate
| GET_FLAG(CH5_SW, 0x40); // Flip
packet[6] |= GET_FLAG(CH8_SW, 0x80); // Video
break;
case JJRCX1:
packet[0] = GET_FLAG(CH6_SW, 0x02); // Arm
packet[3] |= GET_FLAG(CH7_SW, 0x01); // Picture
packet[4] |= 0x80; // unknown
packet[5] |= GET_FLAG(CH11_SW, 0x80) // Calibrate
| GET_FLAG(CH5_SW, 0x40); // Flip
packet[6] |= GET_FLAG(CH8_SW, 0x80); // Video
packet[8] = 0xC0 // high rate, no rudder trim
| GET_FLAG(CH10_SW, 0x02) // RTH
| GET_FLAG(CH9_SW, 0x01); // Headless
break;
case X5C1:
packet[0] = 0x0B;
packet[3] |= GET_FLAG(CH7_SW, 0x01); // Picture
packet[4] = 0x80 // unknown
| GET_FLAG(CH6_SW, 0x40); // Lights
packet[5] |= GET_FLAG(CH11_SW, 0x80) // Calibrate
| GET_FLAG(CH5_SW, 0x40); // Flip
packet[6] |= GET_FLAG(CH8_SW, 0x80); // Video
packet[8] = 0xC0 // high rate, no rudder trim
| GET_FLAG(CH10_SW, 0x02) // RTH
| GET_FLAG(CH9_SW, 0x01); // Headless
break;
case FQ777_951:
packet[0] = GET_FLAG(CH7_SW, 0x01) // Picture
| GET_FLAG(CH8_SW, 0x02); // Video
packet[3] |= GET_FLAG(CH5_SW, 0x01); // Flip
packet[4] |= 0xC0; // High rate (mid=0xa0, low=0x60)
packet[5] |= GET_FLAG(CH11_SW, 0x80); // Calibrate
packet[6] |= GET_FLAG(CH9_SW, 0x40); // Headless
break;
}
}
crc16(packet, bind ? HONTAI_BIND_PACKET_SIZE:HONTAI_PACKET_SIZE);
// Power on, TX mode, 2byte CRC
if(sub_protocol == JJRCX1)
NRF24L01_SetTxRxMode(TX_EN);
else
XN297_Configure(_BV(NRF24L01_00_EN_CRC) | _BV(NRF24L01_00_CRCO) | _BV(NRF24L01_00_PWR_UP));
NRF24L01_WriteReg(NRF24L01_05_RF_CH, bind ? HONTAI_RF_BIND_CHANNEL : hopping_frequency[hopping_frequency_no++]);
hopping_frequency_no %= 3;
NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70);
NRF24L01_FlushTx();
if(sub_protocol == JJRCX1)
NRF24L01_WritePayload(packet, bind ? HONTAI_BIND_PACKET_SIZE:HONTAI_PACKET_SIZE);
else
XN297_WritePayload(packet, bind ? HONTAI_BIND_PACKET_SIZE:HONTAI_PACKET_SIZE);
NRF24L01_SetPower();
}
static void __attribute__((unused)) HONTAI_init()
{
NRF24L01_Initialize();
NRF24L01_SetTxRxMode(TX_EN);
if(sub_protocol == JJRCX1)
NRF24L01_WriteRegisterMulti(NRF24L01_10_TX_ADDR, (uint8_t*)"\xd2\xb5\x99\xb3\x4a", 5);
else
XN297_SetTXAddr((const uint8_t*)"\xd2\xb5\x99\xb3\x4a", 5);
NRF24L01_FlushTx();
NRF24L01_FlushRx();
NRF24L01_WriteReg(NRF24L01_07_STATUS, 0x70); // Clear data ready, data sent, and retransmit
NRF24L01_WriteReg(NRF24L01_01_EN_AA, 0x00); // No Auto Acknowldgement on all data pipes
NRF24L01_SetBitrate(NRF24L01_BR_1M); // 1Mbps
NRF24L01_SetPower();
NRF24L01_Activate(0x73); // Activate feature register
if(sub_protocol == JJRCX1)
{
NRF24L01_WriteReg(NRF24L01_04_SETUP_RETR, 0xff); // JJRC uses dynamic payload length
NRF24L01_WriteReg(NRF24L01_1C_DYNPD, 0x3f); // match other stock settings even though AA disabled...
NRF24L01_WriteReg(NRF24L01_1D_FEATURE, 0x07);
}
else
{
NRF24L01_WriteReg(NRF24L01_04_SETUP_RETR, 0x00); // no retransmits
NRF24L01_WriteReg(NRF24L01_1C_DYNPD, 0x00); // Disable dynamic payload length on all pipes
NRF24L01_WriteReg(NRF24L01_1D_FEATURE, 0x00);
}
NRF24L01_Activate(0x73); // Deactivate feature register
}
const uint8_t PROGMEM HONTAI_hopping_frequency_nonels[][3] = {
{0x05, 0x19, 0x28}, // Hontai
{0x0a, 0x1e, 0x2d}}; // JJRC X1
const uint8_t PROGMEM HONTAI_addr_vals[4][16] = {
{0x24, 0x26, 0x2a, 0x2c, 0x32, 0x34, 0x36, 0x4a, 0x4c, 0x4e, 0x54, 0x56, 0x5a, 0x64, 0x66, 0x6a},
{0x92, 0x94, 0x96, 0x9a, 0xa4, 0xa6, 0xac, 0xb2, 0xb4, 0xb6, 0xca, 0xcc, 0xd2, 0xd4, 0xd6, 0xda},
{0x93, 0x95, 0x99, 0x9b, 0xa5, 0xa9, 0xab, 0xad, 0xb3, 0xb5, 0xc9, 0xcb, 0xcd, 0xd3, 0xd5, 0xd9},
{0x25, 0x29, 0x2b, 0x2d, 0x33, 0x35, 0x49, 0x4b, 0x4d, 0x59, 0x5b, 0x65, 0x69, 0x6b, 0x6d, 0x6e}};
static void __attribute__((unused)) HONTAI_init2()
{
uint8_t data_tx_addr[5];
//TX address
data_tx_addr[0] = pgm_read_byte_near( &HONTAI_addr_vals[0][ rx_tx_addr[3] & 0x0f]);
data_tx_addr[1] = pgm_read_byte_near( &HONTAI_addr_vals[1][(rx_tx_addr[3] >> 4) & 0x0f]);
data_tx_addr[2] = pgm_read_byte_near( &HONTAI_addr_vals[2][ rx_tx_addr[4] & 0x0f]);
data_tx_addr[3] = pgm_read_byte_near( &HONTAI_addr_vals[3][(rx_tx_addr[4] >> 4) & 0x0f]);
data_tx_addr[4] = 0x24;
if(sub_protocol == JJRCX1)
NRF24L01_WriteRegisterMulti(NRF24L01_10_TX_ADDR, data_tx_addr, sizeof(data_tx_addr));
else
XN297_SetTXAddr(data_tx_addr, sizeof(data_tx_addr));
//Hopping frequency table
for(uint8_t i=0;i<3;i++)
hopping_frequency[i]=pgm_read_byte_near( &HONTAI_hopping_frequency_nonels[sub_protocol == JJRCX1?1:0][i] );
hopping_frequency_no=0;
}
static void __attribute__((unused)) HONTAI_initialize_txid()
{
rx_tx_addr[4] = rx_tx_addr[2];
if(sub_protocol == HONTAI || sub_protocol == FQ777_951)
{
rx_tx_addr[0] = 0x4c; // first three bytes some kind of model id? - set same as stock tx
rx_tx_addr[1] = 0x4b;
rx_tx_addr[2] = 0x3a;
}
else
{
rx_tx_addr[0] = 0x4b; // JJRC X1
rx_tx_addr[1] = 0x59;
rx_tx_addr[2] = 0x3a;
}
}
uint16_t HONTAI_callback()
{
if(bind_counter!=0)
{
HONTAI_send_packet(1);
bind_counter--;
if (bind_counter == 0)
{
HONTAI_init2();
BIND_DONE;
}
}
else
HONTAI_send_packet(0);
return sub_protocol == FQ777_951 ? FQ777_951_PACKET_PERIOD : HONTAI_PACKET_PERIOD;
}
uint16_t initHONTAI()
{
BIND_IN_PROGRESS; // autobind protocol
bind_counter = HONTAI_BIND_COUNT;
HONTAI_initialize_txid();
HONTAI_init();
return HONTAI_INITIAL_WAIT;
}
#endif
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