/*
This program 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.
This program 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 this program. If not, see .
Code by Andy Piper, ported from betaflight vtx_tramp
*/
#pragma once
#include
#include
#ifndef AP_TRAMP_ENABLED
#define AP_TRAMP_ENABLED OSD_ENABLED && BOARD_FLASH_SIZE>1024 && !HAL_MINIMIZE_FEATURES
#endif
#if AP_TRAMP_ENABLED
#include
#include
#include
#include "AP_VideoTX.h"
#define VTX_TRAMP_POWER_COUNT 5
#define VTX_TRAMP_MIN_FREQUENCY_MHZ 5000 //min freq in MHz
#define VTX_TRAMP_MAX_FREQUENCY_MHZ 5999 //max freq in MHz
// Maximum number of requests sent to try a config change
// Some VTX fail to respond to every request (like Matek FCHUB-VTX) so
// we sometimes need multiple retries to get the VTX to respond.
#define VTX_TRAMP_MAX_RETRIES (20)
// Race lock - settings can't be changed
#define TRAMP_CONTROL_RACE_LOCK (0x01)
class AP_Tramp
{
public:
AP_Tramp();
~AP_Tramp() {}
/* Do not allow copies */
AP_Tramp(const AP_Tramp &other) = delete;
AP_Tramp &operator=(const AP_Tramp&) = delete;
static AP_Tramp *get_singleton(void) {
return singleton;
}
bool init(void);
void update();
uint16_t get_current_actual_power();
uint16_t get_current_temp();
private:
uint8_t checksum(uint8_t *buf);
// Check if race lock is enabled
bool is_race_lock_enabled(void) {
return cur_control_mode & TRAMP_CONTROL_RACE_LOCK;
}
void send_command(uint8_t cmd, uint16_t param);
char handle_response();
void reset_receiver();
char receive_response();
void send_query(uint8_t cmd);
void process_requests();
bool is_device_ready();
void set_frequency(uint16_t freq);
void set_power(uint16_t power);
void set_pit_mode(uint8_t onoff);
// serial interface
AP_HAL::UARTDriver *port; // UART used to send data to Tramp VTX
//Pointer to singleton
static AP_Tramp* singleton;
const static uint16_t TRAMP_BUF_SIZE = 16;
// Serial transmit and receive buffers
uint8_t request_buffer[TRAMP_BUF_SIZE];
uint8_t response_buffer[TRAMP_BUF_SIZE];
// Module state machine
enum class TrampStatus {
// Offline - device hasn't responded yet
TRAMP_STATUS_OFFLINE = 0,
// Init - fetching current settings from device
TRAMP_STATUS_INIT,
// Online - device is ready and being monitored - freq/power/pitmode
TRAMP_STATUS_ONLINE_MONITOR_FREQPWRPIT,
// Online - device is ready and being monitored - temperature
TRAMP_STATUS_ONLINE_MONITOR_TEMP,
// Online - device is ready and config has just been updated
TRAMP_STATUS_ONLINE_CONFIG
};
TrampStatus status = TrampStatus::TRAMP_STATUS_OFFLINE;
void set_status(TrampStatus stat);
// Device limits, read from device during init
struct {
uint32_t rf_freq_min;
uint32_t rf_freq_max;
uint32_t rf_power_max;
} device_limits;
uint16_t cur_act_power; // Actual power
int16_t cur_temp;
uint8_t cur_control_mode;
// Retry count
uint8_t retry_count = VTX_TRAMP_MAX_RETRIES;
// Receive state machine
enum class ReceiveState {
S_WAIT_LEN = 0, // Waiting for a packet len
S_WAIT_CODE, // Waiting for a response code
S_DATA, // Waiting for rest of the packet.
};
ReceiveState receive_state = ReceiveState::S_WAIT_LEN;
// Receive buffer index
int16_t receive_pos;
// Last action time
uint32_t last_time_us;
};
#endif