/*
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/>.
*/
// compatible with E012 and E015
#if defined(E01X_CYRF6936_INO)
#include "iface_hs6200.h"
//Protocols constants
#define E01X_BIND_COUNT 500
#define E01X_INITIAL_WAIT 500
#define E01X_ADDRESS_LENGTH 5
#define E012_PACKET_PERIOD 4525
#define E012_RF_BIND_CHANNEL 0x3c
#define E012_NUM_RF_CHANNELS 4
#define E012_PACKET_SIZE 15
//#define E015_FORCE_ID
#define E015_PACKET_PERIOD 9000
#define E015_RF_CHANNEL 0x2d // 2445 MHz
#define E015_PACKET_SIZE 10
#define E015_BIND_PACKET_SIZE 9
//Channels
#define E01X_ARM_SW CH5_SW
#define E016H_STOP_SW CH5_SW
#define E01X_FLIP_SW CH6_SW
#define E01X_LED_SW CH7_SW
#define E01X_HEADLESS_SW CH8_SW
#define E01X_RTH_SW CH9_SW
// E012 flags packet[1]
#define E012_FLAG_FLIP 0x40
#define E012_FLAG_HEADLESS 0x10
#define E012_FLAG_RTH 0x04
// E012 flags packet[7]
#define E012_FLAG_EXPERT 0x02
// E015 flags packet[6]
#define E015_FLAG_DISARM 0x80
#define E015_FLAG_ARM 0x40
// E015 flags packet[7]
#define E015_FLAG_FLIP 0x80
#define E015_FLAG_HEADLESS 0x10
#define E015_FLAG_RTH 0x08
#define E015_FLAG_LED 0x04
#define E015_FLAG_EXPERT 0x02
#define E015_FLAG_INTERMEDIATE 0x01
static void __attribute__((unused)) E015_check_arming()
{
uint8_t arm_channel = E01X_ARM_SW;
if (arm_channel != arm_channel_previous)
{
arm_channel_previous = arm_channel;
if (arm_channel)
{
armed = 1;
arm_flags ^= E015_FLAG_ARM;
}
else
{
armed = 0;
arm_flags ^= E015_FLAG_DISARM;
}
}
}
static void __attribute__((unused)) E01X_send_packet()
{
if(sub_protocol==E012)
{
packet_length=E012_PACKET_SIZE;
packet[0] = rx_tx_addr[1];
if(IS_BIND_IN_PROGRESS)
{
rf_ch_num = E012_RF_BIND_CHANNEL;
packet[1] = 0xaa;
memcpy(&packet[2], hopping_frequency, E012_NUM_RF_CHANNELS);
memcpy(&packet[6], rx_tx_addr, E01X_ADDRESS_LENGTH);
}
else
{
rf_ch_num = hopping_frequency[hopping_frequency_no++];
hopping_frequency_no %= E012_NUM_RF_CHANNELS;
packet[1] = 0x01
| GET_FLAG(E01X_RTH_SW, E012_FLAG_RTH)
| GET_FLAG(E01X_HEADLESS_SW, E012_FLAG_HEADLESS)
| GET_FLAG(E01X_FLIP_SW, E012_FLAG_FLIP);
packet[2] = convert_channel_16b_limit(AILERON, 0xc8, 0x00); // aileron
packet[3] = convert_channel_16b_limit(ELEVATOR, 0x00, 0xc8); // elevator
packet[4] = convert_channel_16b_limit(RUDDER, 0xc8, 0x00); // rudder
packet[5] = convert_channel_16b_limit(THROTTLE, 0x00, 0xc8); // throttle
packet[6] = 0xaa;
packet[7] = E012_FLAG_EXPERT; // rate (0-2)
packet[8] = 0x00;
packet[9] = 0x00;
packet[10]= 0x00;
}
packet[11] = 0x00;
packet[12] = 0x00;
packet[13] = 0x56;
packet[14] = rx_tx_addr[2];
}
else
{ // E015
rf_ch_num = E015_RF_CHANNEL;
if(IS_BIND_IN_PROGRESS)
{
packet[0] = 0x18;
packet[1] = 0x04;
packet[2] = 0x06;
// data phase address
memcpy(&packet[3], rx_tx_addr, E01X_ADDRESS_LENGTH);
packet[8] = 0x63; // unknown calculation
// checksum
//packet[8] = packet[3];
//for(uint8_t i=4; i<8; i++)
// packet[8] += packet[i];
packet_length=E015_BIND_PACKET_SIZE;
}
else
{
E015_check_arming();
packet[0] = convert_channel_16b_limit(THROTTLE, 0, 225); // throttle
packet[1] = convert_channel_16b_limit(RUDDER, 225, 0); // rudder
packet[2] = convert_channel_16b_limit(AILERON, 0, 225); // aileron
packet[3] = convert_channel_16b_limit(ELEVATOR, 225, 0); // elevator
packet[4] = 0x20; // elevator trim
packet[5] = 0x20; // aileron trim
packet[6] = arm_flags;
packet[7] = E015_FLAG_EXPERT
| GET_FLAG(E01X_FLIP_SW, E015_FLAG_FLIP)
| GET_FLAG(E01X_LED_SW, E015_FLAG_LED)
| GET_FLAG(E01X_HEADLESS_SW,E015_FLAG_HEADLESS)
| GET_FLAG(E01X_RTH_SW, E015_FLAG_RTH);
packet[8] = 0;
// checksum
packet[9] = packet[0];
for(uint8_t i=1; i<9; i++)
packet[9] += packet[i];
packet_length=E015_PACKET_SIZE;
}
}
HS6200_RFChannel(rf_ch_num);
HS6200_SetPower();
delayMicroseconds(270); // Wait for RF channel to settle
HS6200_SendPayload(packet, packet_length);
}
static void __attribute__((unused)) E01X_RF_init()
{
HS6200_Init(true); // CRC enabled
if(sub_protocol==E012)
HS6200_SetTXAddr((uint8_t *)"\x55\x42\x9C\x8F\xC9", E01X_ADDRESS_LENGTH);
else //E015
HS6200_SetTXAddr((uint8_t *)"\x62\x54\x79\x38\x53", E01X_ADDRESS_LENGTH);
}
uint16_t E01X_callback()
{
#ifdef MULTI_SYNC
telemetry_set_input_sync(packet_period);
#endif
if(bind_counter)
{
bind_counter--;
if (bind_counter == 0)
{
HS6200_SetTXAddr(rx_tx_addr, E01X_ADDRESS_LENGTH);
BIND_DONE;
}
}
E01X_send_packet();
return packet_period;
}
static void __attribute__((unused)) E012_initialize_txid()
{
// rf channels
uint32_t lfsr=random(0xfefefefe);
for(uint8_t i=0; i<E012_NUM_RF_CHANNELS; i++)
{
hopping_frequency[i] = 0x10 + ((lfsr & 0xff) % 0x32);
lfsr>>=8;
}
}
void E01X_init()
{
BIND_IN_PROGRESS;
if(sub_protocol==E012)
{
E012_initialize_txid();
packet_period=E012_PACKET_PERIOD;
}
else //E015
{
#ifdef E015_FORCE_ID
rx_tx_addr[0] = 0x06;
rx_tx_addr[1] = 0xC6;
rx_tx_addr[2] = 0xB7;
rx_tx_addr[3] = 0x56;
rx_tx_addr[4] = 0x8A;
#endif
//force the sum to give 0x63 since the id calculation is unknown
uint8_t sum=0x63;
for(uint8_t i=0; i < 4; i++)
sum -= rx_tx_addr[i];
rx_tx_addr[4] = sum;
packet_period=E015_PACKET_PERIOD;
armed = 0;
arm_flags = 0;
arm_channel_previous = E01X_ARM_SW;
}
E01X_RF_init();
bind_counter = E01X_BIND_COUNT;
hopping_frequency_no = 0;
}
#endif