ardupilot/libraries/SITL/SIM_FETtecOneWireESC.h

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2021-06-28 19:24:15 -03:00
/*
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 <http://www.gnu.org/licenses/>.
*/
/*
Simulator for the FETtecOneWire ESCs
./Tools/autotest/sim_vehicle.py --gdb --debug -v ArduCopter -A --serial5=sim:fetteconewireesc --speedup=1 --console
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param set SERIAL5_PROTOCOL 38
param set SERIAL5_BAUD 500000
param set SERVO_FTW_MASK 15
param set SIM_FTOWESC_ENA 1
reboot
param fetch
#param set SIM_FTOWESC_FM 1 # fail mask
./Tools/autotest/autotest.py --gdb --debug build.ArduCopter fly.ArduCopter.FETtecESC
*/
#pragma once
#include <AP_Param/AP_Param.h>
#include "SITL_Input.h"
#include "SIM_SerialDevice.h"
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#include <stdio.h>
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#define SIM_FTW_DEBUGGING 0
#if SIM_FTW_DEBUGGING
#define simfet_debug(fmt, args ...) do {::fprintf(stderr,"SIMFET: %s:%d: " fmt "\n", __FUNCTION__, __LINE__, ## args); } while(0)
#else
#define simfet_debug(fmt, args ...)
#endif
namespace SITL {
class FETtecOneWireESC : public SerialDevice {
public:
FETtecOneWireESC();
// update state
void update(const class Aircraft &aircraft);
static const AP_Param::GroupInfo var_info[];
bool enabled() const { return _enabled.get(); }
void update_sitl_input_pwm(struct sitl_input &input);
private:
AP_Int8 _enabled; // enable FETtec ESC sim
AP_Int32 _powered_mask; // mask of ESCs with power
struct PACKED ConfigMessageHeader {
uint8_t header; // master is always 0x01
uint8_t target_id; // 5 bits only
uint16_t frame_type;
uint8_t frame_len;
uint8_t request_type;
};
enum class TLMType : uint8_t {
NORMAL = 0,
ALTERNATIVE =1,
};
template <typename T>
class PACKED PackedMessage {
public:
PackedMessage(uint8_t _target_id, T _msg) :
target_id{_target_id},
msg{_msg}
{
frame_len = 6 + sizeof(T);
update_checksum();
}
uint8_t header = (uint8_t)ResponseFrameHeaderID::ESC; // master is always 0x01
uint8_t target_id; // 5 bits only
uint16_t frame_type = 0;
uint8_t frame_len;
T msg;
uint8_t checksum;
uint8_t calculate_checksum() const WARN_IF_UNUSED {
return crc8_dvb_update(0, (const uint8_t*)this, frame_len-1);
}
void update_checksum() {
checksum = calculate_checksum();
}
};
class PACKED SetTLMType {
public:
SetTLMType(uint8_t _type) :
type(_type)
{ }
uint8_t request_type { (uint8_t)ConfigMessageType::SET_TLM_TYPE };
uint8_t type;
};
class PACKED OK {
public:
OK() { }
uint8_t request_type { (uint8_t)ConfigMessageType::OK };
};
class PACKED ESC_TYPE {
public:
ESC_TYPE(uint8_t _type) :
type{_type} { }
uint8_t type;
};
class PACKED SW_VER {
public:
SW_VER(uint8_t _version, uint8_t _subversion) :
version{_version},
subversion{_subversion}
{ }
uint8_t version;
uint8_t subversion;
};
class PACKED SN {
public:
SN(uint8_t *_sn, uint8_t snlen) {
memset(sn, 0, ARRAY_SIZE(sn));
memcpy(sn, _sn, MIN(ARRAY_SIZE(sn), snlen));
}
uint8_t sn[12];
};
class PACKED SetFastComLength {
public:
SetFastComLength() {
}
uint8_t length;
uint8_t byte_count;
uint8_t min_esc_id;
uint8_t id_count;
};
// tlm_from_id = (uint8_t)telem[1];
// t.temperature_cdeg = int16_t(telem[5+0] * 100);
// t.voltage = float((telem[5+1]<<8)|telem[5+2]) * 0.01f;
// t.current = float((telem[5+3]<<8)|telem[5+4]) * 0.01f;
// centi_erpm = (telem[5+5]<<8)|telem[5+6];
// t.consumption_mah = float((telem[5+7]<<8)|telem[5+8]);
// tx_err_count = (telem[5+9]<<8)|telem[5+10];
class PACKED ESCTelem {
public:
ESCTelem(int8_t _temp, uint16_t _voltage, uint16_t _current, int16_t _rpm, uint16_t _consumption_mah, uint16_t _tx_err_count) :
temp{_temp},
voltage{_voltage},
current{_current},
rpm{_rpm},
consumption_mah{_consumption_mah},
tx_err_count{_tx_err_count}
{ }
int8_t temp; // centidegrees
uint16_t voltage; // centivolts
uint16_t current; // centiamps (signed?)
int16_t rpm; // centi-rpm
uint16_t consumption_mah; // ???
uint16_t tx_err_count;
};
union MessageUnion {
MessageUnion() { }
uint8_t buffer[255];
// uint16_t checksum_buffer[35];
struct ConfigMessageHeader config_message_header;
PackedMessage<OK> packed_ok;
PackedMessage<SetTLMType> packed_set_tlm_type;
PackedMessage<SetFastComLength> packed_set_fast_com_length;
// void update_checksum();
};
MessageUnion u;
uint8_t buflen;
// remove count bytes from the start of u.buffer
void consume_bytes(uint8_t count);
enum class ConfigMessageType {
OK = 0,
BL_PAGE_CORRECT = 1, // BL only
NOT_OK = 2,
BL_START_FW = 3, // BL only
BL_PAGES_TO_FLASH = 4, // BL only
REQ_TYPE = 5,
REQ_SN = 6,
REQ_SW_VER = 7,
BEEP = 13,
SET_FAST_COM_LENGTH = 26,
SET_TLM_TYPE = 27, //1 for alternative telemetry. ESC sends full telem per ESC: Temp, Volt, Current, ERPM, Consumption, CrcErrCount
SET_LED_TMP_COLOR = 51,
};
class ESC {
public:
enum class State {
POWERED_OFF = 17,
IN_BOOTLOADER,
RUNNING_START,
RUNNING,
// UNRESPONSIVE,
};
void set_state(State _state) {
simfet_debug("Moving ESC.id=%u from state=%u to state=%u", (unsigned)id, (unsigned)state, (unsigned)_state);
state = _state;
}
State state = State::POWERED_OFF;
uint8_t sn[12];
TLMType telem_type;
uint8_t id;
uint8_t type = 34;
static const uint8_t sw_version = 3;
static const uint8_t sw_subversion = 4;
// make sure to zero any state when powering the virtual ESC on
struct {
uint8_t length;
uint8_t byte_count;
uint8_t min_esc_id;
uint8_t id_count = 255;
} fast_com;
uint16_t pwm;
bool telem_request; // true if we've been asked to send telem
uint8_t ofs;
float temperature;
};
// canonical structure used for fast com, copied from an ESC
struct {
uint8_t min_esc_id;
uint8_t id_count = 255;
} fast_com;
void bootloader_handle_config_message(ESC &esc);
void running_handle_config_message(ESC &esc);
void handle_config_message();
void handle_config_message_set_tlm_type(ESC &esc);
void handle_fast_esc_data();
void update_escs();
void update_send(const class Aircraft &aircraft);
void update_input();
void send_esc_telemetry(const class Aircraft &aircraft);
template <typename T>
void send_response(const T& r);
enum class ResponseFrameHeaderID {
MASTER = 0x01,
BOOTLOADER = 0x02,
ESC = 0x03,
};
ESC escs[16];
};
}