mirror of https://github.com/ArduPilot/ardupilot
505 lines
17 KiB
C++
505 lines
17 KiB
C++
/*
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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/* Initial protocol implementation was provided by FETtec */
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/* Strongly modified by Amilcar Lucas, IAV GmbH */
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#pragma once
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#include <AP_HAL/AP_HAL.h>
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#ifndef AP_FETTEC_ONEWIRE_ENABLED
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#define AP_FETTEC_ONEWIRE_ENABLED !HAL_MINIMIZE_FEATURES && BOARD_FLASH_SIZE > 1024
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#endif
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// Support both full-duplex at 500Kbit/s as well as half-duplex at 2Mbit/s (optional feature)
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#ifndef HAL_AP_FETTEC_HALF_DUPLEX
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#define HAL_AP_FETTEC_HALF_DUPLEX 0
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#endif
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// Get static info from the ESCs (optional feature)
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#ifndef HAL_AP_FETTEC_ONEWIRE_GET_STATIC_INFO
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#define HAL_AP_FETTEC_ONEWIRE_GET_STATIC_INFO 0
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#endif
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// provide beep support (optional feature)
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#ifndef HAL_AP_FETTEC_ESC_BEEP
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#define HAL_AP_FETTEC_ESC_BEEP 0
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#endif
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// provide light support (optional feature)
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#ifndef HAL_AP_FETTEC_ESC_LIGHT
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#define HAL_AP_FETTEC_ESC_LIGHT 0
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#endif
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#if AP_FETTEC_ONEWIRE_ENABLED
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#define FTW_DEBUGGING 0
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#if FTW_DEBUGGING
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#include <stdio.h>
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#define fet_debug(fmt, args ...) do {::fprintf(stderr,"FETtec: %s:%d: " fmt "\n", __FUNCTION__, __LINE__, ## args); } while(0)
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#else
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#define fet_debug(fmt, args ...)
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#endif
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#include <AP_ESC_Telem/AP_ESC_Telem.h>
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#include <AP_Param/AP_Param.h>
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#include <AP_Math/AP_Math.h>
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#include <AP_Math/crc.h>
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class AP_FETtecOneWire : public AP_ESC_Telem_Backend
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{
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public:
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AP_FETtecOneWire();
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/// Do not allow copies
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AP_FETtecOneWire(const AP_FETtecOneWire &other) = delete;
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AP_FETtecOneWire &operator=(const AP_FETtecOneWire&) = delete;
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static const struct AP_Param::GroupInfo var_info[];
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static AP_FETtecOneWire *get_singleton() {
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return _singleton;
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}
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/// periodically called from SRV_Channels::push()
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void update();
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/// called from AP_Arming; should return false if arming should be
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/// disallowed
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bool pre_arm_check(char *failure_msg, const uint8_t failure_msg_len) const;
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#if HAL_AP_FETTEC_ESC_BEEP
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/**
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makes all connected ESCs beep
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@param beep_frequency a 8 bit value from 0-255. higher make a higher beep
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*/
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void beep(const uint8_t beep_frequency);
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#endif
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#if HAL_AP_FETTEC_ESC_LIGHT
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/**
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sets the racewire color for all ESCs
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@param r red brightness
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@param g green brightness
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@param b blue brightness
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*/
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void led_color(const uint8_t r, const uint8_t g, const uint8_t b);
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#endif
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private:
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static AP_FETtecOneWire *_singleton;
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AP_HAL::UARTDriver *_uart;
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AP_Int32 _motor_mask_parameter;
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AP_Int32 _reverse_mask_parameter;
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#if HAL_WITH_ESC_TELEM
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AP_Int8 _pole_count_parameter;
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#endif
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static constexpr uint8_t FRAME_OVERHEAD = 6; ///< OneWire message frame overhead (header+tail bytes)
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static constexpr uint8_t MAX_RECEIVE_LENGTH = 12; ///< OneWire max receive message payload length in bytes
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#if HAL_AP_FETTEC_ONEWIRE_GET_STATIC_INFO
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static constexpr uint8_t SERIAL_NUMBER_LENGTH = 12; ///< ESC serial number length in bytes
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#endif
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/**
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initialize the device driver: configure serial port, wake-up and configure ESCs
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*/
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void init();
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/**
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initialize the serial port
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*/
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void init_uart();
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/**
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scan the OneWire bus, configure the ESCs requested in the _motor_mask_parameter
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*/
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void configure_escs();
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// states configured ESCs can be in:
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enum class ESCState : uint8_t {
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UNINITIALISED = 5, // when we haven't tried to send anything to the ESC
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WANT_SEND_OK_TO_GET_RUNNING_SW_TYPE = 10,
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WAITING_OK_FOR_RUNNING_SW_TYPE = 11,
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WANT_SEND_START_FW = 20,
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WAITING_OK_FOR_START_FW = 21,
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#if HAL_AP_FETTEC_ONEWIRE_GET_STATIC_INFO
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WANT_SEND_REQ_TYPE = 30,
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WAITING_ESC_TYPE = 31,
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WANT_SEND_REQ_SW_VER = 40,
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WAITING_SW_VER = 41,
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WANT_SEND_REQ_SN = 50,
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WAITING_SN = 51,
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#endif
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#if HAL_WITH_ESC_TELEM
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WANT_SEND_SET_TLM_TYPE = 60,
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WAITING_SET_TLM_TYPE_OK = 61,
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#endif
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WANT_SEND_SET_FAST_COM_LENGTH = 70,
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WAITING_SET_FAST_COM_LENGTH_OK = 71,
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RUNNING = 100,
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};
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class ESC {
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public:
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#if HAL_WITH_ESC_TELEM
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uint32_t last_telem_us; ///< last time we got telemetry from this ESC
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uint16_t unexpected_telem;
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uint16_t error_count_at_throttle_count_overflow; ///< overflow counter for error counter from the ESCs.
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bool telem_expected; ///< this ESC is fully configured and is now expected to send us telemetry
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bool telem_requested; ///< this ESC is fully configured and at some point was requested to send us telemetry
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#endif
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uint8_t id; ///< FETtec ESC ID
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uint8_t servo_ofs; ///< offset into ArduPilot servo array
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bool is_awake;
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void set_state(ESCState _state) {
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fet_debug("Moving ESC.id=%u from state=%u to state=%u", (unsigned)id, (unsigned)state, (unsigned)_state);
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state = _state;
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};
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ESCState state = ESCState::UNINITIALISED;
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#if HAL_AP_FETTEC_ONEWIRE_GET_STATIC_INFO
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uint8_t serial_number[SERIAL_NUMBER_LENGTH];
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uint8_t firmware_version;
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uint8_t firmware_subversion;
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uint8_t type;
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#endif
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};
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uint32_t _min_fast_throttle_period_us; ///< minimum allowed fast-throttle command transmit period
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uint32_t _last_not_running_warning_ms; ///< last time we warned the user their ESCs are stuffed
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int32_t _motor_mask; ///< an un-mutable copy of the _motor_mask_parameter taken before _init_done goes true
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int32_t _reverse_mask; ///< a copy of the _reverse_mask_parameter taken while not armed
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int32_t _running_mask; ///< a bitmask of the actively running ESCs
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uint32_t _last_transmit_us; ///< last time the transmit() function sent data
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ESC *_escs;
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uint8_t _esc_count; ///< number of allocated ESCs
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uint8_t _fast_throttle_byte_count; ///< pre-calculated number of bytes required to send an entire packed throttle message
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#if HAL_AP_FETTEC_HALF_DUPLEX
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uint8_t _ignore_own_bytes; ///< bytes to ignore while receiving, because we have transmitted them ourselves
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uint8_t _last_crc; ///< the CRC from the last sent fast-throttle command
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bool _use_hdplex; ///< use asynchronous half-duplex serial communication
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#endif
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bool _init_done; ///< device driver is initialized; ESCs may still need to be configured
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bool _invalid_mask; ///< true if the mask parameter is invalid
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enum class FrameSource : uint8_t {
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MASTER = 0x01, ///< master is always 0x01
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BOOTLOADER = 0x02,
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ESC = 0x03,
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};
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enum class MsgType : uint8_t
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{
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OK = 0,
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BL_PAGE_CORRECT = 1, ///< Bootloader only
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NOT_OK = 2,
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BL_START_FW = 3, ///< Bootloader only - exit the boot loader and start the standard firmware
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BL_PAGES_TO_FLASH = 4, ///< Bootloader only
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#if HAL_AP_FETTEC_ONEWIRE_GET_STATIC_INFO
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REQ_TYPE = 5, ///< ESC type
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REQ_SN = 6, ///< serial number
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REQ_SW_VER = 7, ///< software version
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#endif
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#if HAL_AP_FETTEC_ESC_BEEP
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BEEP = 13, ///< make noise
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#endif
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SET_FAST_COM_LENGTH = 26, ///< configure fast-throttle command
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SET_TLM_TYPE = 27, ///< telemetry operation mode
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#if HAL_AP_FETTEC_ESC_LIGHT
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SET_LED_TMP_COLOR = 51, ///< set ESC's LED color
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#endif
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};
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/**
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a frame looks like:
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byte 1 = frame header (master is always 0x01)
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byte 2 = target ID (5bit)
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byte 3 & 4 = frame type (always 0x00, 0x00 used for bootloader. here just for compatibility)
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byte 5 = frame length over all bytes
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byte 6 - X = request type, followed by the payload
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byte X+1 = 8bit CRC
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*/
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template <typename T>
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class PACKED PackedMessage {
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public:
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PackedMessage(uint8_t _esc_id, T _msg) :
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esc_id(_esc_id),
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msg(_msg)
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{
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update_checksum();
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}
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uint8_t frame_source { (uint8_t)FrameSource::MASTER };
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uint8_t esc_id;
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uint16_t frame_type { 0 }; // bootloader only, always zero
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uint8_t frame_length {sizeof(T) + FRAME_OVERHEAD}; // all bytes including frame_source and checksum
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T msg;
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uint8_t checksum;
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void update_checksum() {
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checksum = crc8_dvb_update(0, (const uint8_t*)this, frame_length-1);
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}
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};
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class PACKED OK {
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public:
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uint8_t msgid { (uint8_t)MsgType::OK };
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};
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class PACKED START_FW {
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public:
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uint8_t msgid { (uint8_t)MsgType::BL_START_FW };
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};
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class PACKED SET_FAST_COM_LENGTH {
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public:
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SET_FAST_COM_LENGTH(uint8_t _byte_count, uint8_t _min_esc_id, uint8_t _esc_count) :
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byte_count{_byte_count},
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min_esc_id{_min_esc_id},
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esc_count{_esc_count}
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{ }
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uint8_t msgid { (uint8_t)MsgType::SET_FAST_COM_LENGTH };
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uint8_t byte_count;
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uint8_t min_esc_id;
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uint8_t esc_count;
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};
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#if HAL_AP_FETTEC_ONEWIRE_GET_STATIC_INFO
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class PACKED REQ_TYPE {
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public:
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uint8_t msgid { (uint8_t)MsgType::REQ_TYPE };
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};
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class PACKED REQ_SW_VER {
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public:
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uint8_t msgid { (uint8_t)MsgType::REQ_SW_VER };
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};
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class PACKED REQ_SN {
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public:
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uint8_t msgid { (uint8_t)MsgType::REQ_SN };
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};
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class PACKED ESC_TYPE {
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public:
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ESC_TYPE(uint8_t _type) :
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type{_type} { }
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uint8_t type;
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};
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class PACKED SW_VER {
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public:
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SW_VER(uint8_t _version, uint8_t _subversion) :
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version{_version},
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subversion{_subversion}
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{ }
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uint8_t version;
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uint8_t subversion;
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};
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class PACKED SN {
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public:
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SN(uint8_t *_sn, uint8_t snlen) {
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memcpy(sn, _sn, ARRAY_SIZE(sn));
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}
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uint8_t sn[SERIAL_NUMBER_LENGTH];
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};
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#endif // HAL_AP_FETTEC_ONEWIRE_GET_STATIC_INFO
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void pack_fast_throttle_command(const uint16_t *motor_values, uint8_t *buffer, const uint8_t length, const uint8_t esc_id_to_request_telem_from);
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/*
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* Messages, methods and states for dealing with ESC telemetry
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*/
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#if HAL_WITH_ESC_TELEM
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void handle_message_telem(ESC &esc);
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uint16_t _fast_throttle_cmd_count; ///< number of fast-throttle commands sent by the flight controller
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/// the ESC at this offset into _escs should be the next to send a
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/// telemetry request for:
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uint8_t _esc_ofs_to_request_telem_from;
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class PACKED SET_TLM_TYPE {
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public:
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SET_TLM_TYPE(uint8_t _tlm_type) :
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tlm_type{_tlm_type}
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{ }
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uint8_t msgid { (uint8_t)MsgType::SET_TLM_TYPE };
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uint8_t tlm_type;
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};
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class PACKED TLM {
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public:
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TLM(int8_t _temp, uint16_t _voltage, uint16_t _current, int16_t _rpm, uint16_t _consumption_mah, uint16_t _tx_err_count) :
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temp{_temp},
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voltage{_voltage},
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current{_current},
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rpm{_rpm},
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consumption_mah{_consumption_mah},
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tx_err_count{_tx_err_count}
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{ }
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int8_t temp; // centi-degrees
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uint16_t voltage; // centi-Volt
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uint16_t current; // centi-Ampere (signed?)
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int16_t rpm; // centi-rpm
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uint16_t consumption_mah; // mili-Ampere.hour
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uint16_t tx_err_count; // CRC error count, as perceived from the ESC receiving side
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};
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#endif // HAL_WITH_ESC_TELEM
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#if HAL_AP_FETTEC_ESC_BEEP
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class PACKED Beep {
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public:
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Beep(uint8_t _beep_frequency) :
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beep_frequency{_beep_frequency}
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{ }
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uint8_t msgid { (uint8_t)MsgType::BEEP };
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uint8_t beep_frequency;
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// add two zeros to make sure all ESCs can catch their command as we don't wait for a response here (don't blame me --pb)
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uint16_t spacer = 0;
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};
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#endif // HAL_AP_FETTEC_ESC_BEEP
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#if HAL_AP_FETTEC_ESC_LIGHT
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class PACKED LEDColour {
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public:
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LEDColour(uint8_t _r, uint8_t _g, uint8_t _b) :
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r{_r},
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g{_g},
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b{_b}
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{ }
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uint8_t msgid { (uint8_t)MsgType::SET_LED_TMP_COLOR };
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uint8_t r;
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uint8_t g;
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uint8_t b;
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// add two zeros to make sure all ESCs can catch their command as we don't wait for a response here (don't blame me --pb)
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uint16_t spacer = 0;
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};
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#endif // HAL_AP_FETTEC_ESC_LIGHT
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/*
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* Methods and data for transmitting data to the ESCSs:
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*/
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/**
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transmits data to ESCs
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@param bytes bytes to transmit
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@param length number of bytes to transmit
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@return false there's no space in the UART for this message
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*/
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bool transmit(const uint8_t* bytes, const uint8_t length);
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template <typename T>
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bool transmit(const PackedMessage<T> &msg) {
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return transmit((const uint8_t*)&msg, sizeof(msg));
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}
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/**
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transmits configuration request data to ESCs
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@param bytes bytes to transmit
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@param length number of bytes to transmit
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@return false if vehicle armed or there's no space in the UART for this message
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*/
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bool transmit_config_request(const uint8_t* bytes, const uint8_t length);
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template <typename T>
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bool transmit_config_request(const PackedMessage<T> &msg) {
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return transmit_config_request((const uint8_t*)&msg, sizeof(msg));
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}
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/**
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sends a single fast-throttle frame containing the throttle for all configured OneWire ESCs.
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@param motor_values a 16bit array containing the throttle values that should be sent to the motors. 0-2000 where 1001-2000 is positive rotation and 999-0 reversed rotation
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*/
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void escs_set_values(const uint16_t *motor_values);
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/*
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* Methods and data for receiving data from the ESCs:
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*/
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// FIXME: this should be tighter - and probably calculated. Note
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// that we can't request telemetry faster than the loop interval,
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// which is 20ms on Plane, so that puts a constraint here. When
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// using fast-throttle with 12 ESCs on Plane you could expect
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// 240ms between telem updates. Why you have a Plane with 12 ESCs
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// is a bit of a puzzle.
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static const uint32_t max_telem_interval_us = 100000;
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void handle_message(ESC &esc, const uint8_t length);
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/**
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reads data from the UART, calling handle_message on any message found
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*/
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void read_data_from_uart();
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union MessageUnion {
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MessageUnion() { }
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PackedMessage<OK> packed_ok;
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#if HAL_AP_FETTEC_ONEWIRE_GET_STATIC_INFO
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PackedMessage<ESC_TYPE> packed_esc_type;
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PackedMessage<SW_VER> packed_sw_ver;
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PackedMessage<SN> packed_sn;
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#endif
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#if HAL_WITH_ESC_TELEM
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PackedMessage<TLM> packed_tlm;
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#endif
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uint8_t receive_buf[FRAME_OVERHEAD + MAX_RECEIVE_LENGTH];
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} u;
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static_assert(sizeof(u.packed_ok) <= sizeof(u.receive_buf),"packed_ok does not fit in receive_buf. MAX_RECEIVE_LENGTH too small?");
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#if HAL_AP_FETTEC_ONEWIRE_GET_STATIC_INFO
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static_assert(sizeof(u.packed_esc_type) <= sizeof(u.receive_buf),"packed_esc_type does not fit in receive_buf. MAX_RECEIVE_LENGTH too small?");
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static_assert(sizeof(u.packed_sw_ver) <= sizeof(u.receive_buf),"packed_sw_ver does not fit in receive_buf. MAX_RECEIVE_LENGTH too small?");
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static_assert(sizeof(u.packed_sn) <= sizeof(u.receive_buf),"packed_sn does not fit in receive_buf. MAX_RECEIVE_LENGTH too small?");
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#endif
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#if HAL_WITH_ESC_TELEM
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static_assert(sizeof(u.packed_tlm) <= sizeof(u.receive_buf),"packed_tlm does not fit in receive_buf. MAX_RECEIVE_LENGTH too small?");
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#endif
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uint16_t _unknown_esc_message;
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uint16_t _message_invalid_in_state_count;
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uint16_t _period_too_short;
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uint16_t crc_rec_err_cnt;
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uint8_t _receive_buf_used;
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/// shifts data to start of buffer based on magic header bytes
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void move_frame_source_in_receive_buffer(const uint8_t search_start_pos = 0);
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/// cut n bytes from start of buffer
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void consume_bytes(const uint8_t n);
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/// returns true if the first message in the buffer is OK
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bool buffer_contains_ok(const uint8_t length);
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};
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#endif // AP_FETTEC_ONEWIRE_ENABLED
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