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commands.h
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commands.h
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/*
Copyright 2016 - 2019 Benjamin Vedder [email protected]
This file is part of VESC Tool.
VESC Tool 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.
VESC Tool 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/>.
*/
#ifndef COMMANDS_H
#define COMMANDS_H
#include <QObject>
#include <QTimer>
#include <QMap>
#include "vbytearray.h"
#include "datatypes.h"
#include "packet.h"
#include "configparams.h"
class Commands : public QObject
{
Q_OBJECT
public:
explicit Commands(QObject *parent = nullptr);
void setLimitedMode(bool is_limited);
Q_INVOKABLE bool isLimitedMode();
Q_INVOKABLE bool setSendCan(bool sendCan, int id = -1);
Q_INVOKABLE bool getSendCan();
Q_INVOKABLE void setCanSendId(unsigned int id);
Q_INVOKABLE int getCanSendId();
void setMcConfig(ConfigParams *mcConfig);
void setAppConfig(ConfigParams *appConfig);
void checkMcConfig();
Q_INVOKABLE void emitEmptyValues();
Q_INVOKABLE void emitEmptySetupValues();
Q_INVOKABLE void emitEmptyStats();
Q_INVOKABLE bool getLimitedSupportsFwdAllCan() const;
void setLimitedSupportsFwdAllCan(bool limitedSupportsFwdAllCan);
Q_INVOKABLE bool getLimitedSupportsEraseBootloader() const;
void setLimitedSupportsEraseBootloader(bool limitedSupportsEraseBootloader);
Q_INVOKABLE QVector<int> getLimitedCompatibilityCommands() const;
void setLimitedCompatibilityCommands(QVector<int> compatibilityCommands);
Q_INVOKABLE static QString faultToStr(mc_fault_code fault);
Q_INVOKABLE QByteArray bmReadMemWait(uint32_t addr, quint16 size, int timeoutMs = 3000);
Q_INVOKABLE int bmWriteMemWait(uint32_t addr, QByteArray data, int timeoutMs = 3000);
Q_INVOKABLE void setOdometer(unsigned odometer_meters);
Q_INVOKABLE int bmsGetCanDevNum();
Q_INVOKABLE BMS_VALUES bmsGetCanValues(int can_id);
Q_INVOKABLE bool bmsHasCanValues(int can_id);
Q_INVOKABLE void emitPlotInit(QString xLabel, QString yLabel);
Q_INVOKABLE void emitPlotData(double x, double y);
Q_INVOKABLE void emitPlotAddGraph(QString name);
Q_INVOKABLE void emitPlotSetGraph(int graph);
Q_INVOKABLE bool getMaxPowerLossBug() const;
void setMaxPowerLossBug(bool maxPowerLossBug);
signals:
void dataToSend(QByteArray &data);
void fwVersionReceived(FW_RX_PARAMS params);
void eraseNewAppResReceived(bool ok);
void eraseBootloaderResReceived(bool ok);
void writeNewAppDataResReceived(bool ok, bool hasOffset, quint32 offset);
void ackReceived(QString ackType);
void valuesReceived(MC_VALUES values, unsigned int mask);
void printReceived(QString str);
void samplesReceived(QByteArray bytes);
void rotorPosReceived(double pos);
void experimentSamplesReceived(QVector<double> samples);
void bldcDetectReceived(bldc_detect param);
void decodedPpmReceived(double value, double last_len);
void decodedAdcReceived(double value, double voltage, double value2, double voltage2);
void decodedChukReceived(double value);
void decodedBalanceReceived(BALANCE_VALUES values);
void motorRLReceived(double r, double l, double ld_lq_diff);
void motorLinkageReceived(double flux_linkage);
void encoderParamReceived(double offset, double ratio, bool inverted);
void customAppDataReceived(QByteArray data);
void customHwDataReceived(QByteArray data);
void focHallTableReceived(QVector<int> hall_table, int res);
void nrfPairingRes(int res);
void mcConfigCheckResult(QStringList paramsNotSet);
void gpdBufferNotifyReceived();
void gpdBufferSizeLeftReceived(int sizeLeft);
void valuesSetupReceived(SETUP_VALUES values, unsigned int mask);
void detectAllFocReceived(int result);
void pingCanRx(QVector<int> devs, bool isTimeout);
void valuesImuReceived(IMU_VALUES values, unsigned int mask);
void imuCalibrationReceived(QVector<double> cal);
void bmConnRes(int res);
void bmEraseFlashAllRes(int res);
void bmWriteFlashRes(int res);
void bmRebootRes(int res);
void bmMapPinsDefaultRes(bool ok);
void bmMapPinsNrf5xRes(bool ok);
void plotInitReceived(QString xLabel, QString yLabel);
void plotDataReceived(double x, double y);
void plotAddGraphReceived(QString name);
void plotSetGraphReceived(int graph);
void bmReadMemRes(int res, QByteArray data);
void deserializeConfigFailed(bool isMc, bool isApp);
void canFrameRx(QByteArray data, quint32 id, bool isExtended);
void bmsValuesRx(BMS_VALUES val);
void customConfigChunkRx(int confInd, int lenConf, int ofsConf, QByteArray data);
void customConfigRx(int confInd, QByteArray data);
void pswStatusRx(PSW_STATUS stat);
void qmluiHwRx(int lenQml, int ofsQml, QByteArray data);
void qmluiAppRx(int lenQml, int ofsQml, QByteArray data);
void eraseQmluiResReceived(bool ok);
void writeQmluiResReceived(bool ok, quint32 offset);
void ioBoardValRx(IO_BOARD_VALUES val);
void statsRx(STAT_VALUES val, unsigned int mask);
void lispReadCodeRx(int lenQml, int ofsQml, QByteArray data);
void lispEraseCodeRx(bool ok);
void lispWriteCodeRx(bool ok, quint32 offset);
void lispPrintReceived(QString str);
void lispStatsRx(LISP_STATS stats);
void lispRunningResRx(bool ok);
public slots:
void processPacket(QByteArray data);
void getFwVersion();
void eraseNewApp(bool fwdCan, quint32 fwSize, HW_TYPE hwType, QString hwName);
void eraseBootloader(bool fwdCan, HW_TYPE hwType, QString hwName);
void writeNewAppData(QByteArray data, quint32 offset, bool fwdCan, HW_TYPE hwType, QString hwName);
void writeNewAppDataLzo(QByteArray data, quint32 offset, quint16 decompressedLen, bool fwdCan);
void jumpToBootloader(bool fwdCan, HW_TYPE hwType, QString hwName);
void getValues();
void sendTerminalCmd(QString cmd);
void sendTerminalCmdSync(QString cmd);
void setDutyCycle(double dutyCycle);
void setCurrent(double current);
void setCurrentBrake(double current);
void setRpm(int rpm);
void setPos(double pos);
void setHandbrake(double current);
void setDetect(disp_pos_mode mode);
void samplePrint(debug_sampling_mode mode, int sample_len, int dec, bool raw);
void getMcconf();
void getMcconfDefault();
void setMcconf(bool check = true);
void getAppConf();
void getAppConfDefault();
void setAppConf();
void detectMotorParam(double current, double min_rpm, double low_duty);
void reboot();
void sendAlive();
void getDecodedPpm();
void getDecodedAdc();
void getDecodedChuk();
void getDecodedBalance();
void setServoPos(double pos);
void measureRL();
void measureLinkage(double current, double min_rpm, double low_duty, double resistance);
void measureEncoder(double current);
void measureHallFoc(double current);
void sendCustomAppData(QByteArray data);
void sendCustomAppData(unsigned char *data, unsigned int len);
void sendCustomHwData(QByteArray data);
void setChukData(chuck_data &data);
void pairNrf(int ms);
void gpdSetFsw(float fsw);
void getGpdBufferSizeLeft();
void gpdFillBuffer(QVector<float> samples);
void gpdOutputSample(float sample);
void gpdSetMode(gpd_output_mode mode);
void gpdFillBufferInt8(QVector<qint8> samples);
void gpdFillBufferInt16(QVector<qint16> samples);
void gpdSetBufferIntScale(float scale);
void getValuesSetup();
void setMcconfTemp(const MCCONF_TEMP &conf, bool is_setup, bool store,
bool forward_can, bool divide_by_controllers, bool ack);
void getValuesSelective(unsigned int mask);
void getValuesSetupSelective(unsigned int mask);
void measureLinkageOpenloop(double current, double erpm_per_sec, double low_duty,
double resistance, double inductance);
void detectAllFoc(bool detect_can, double max_power_loss, double min_current_in,
double max_current_in, double openloop_rpm, double sl_erpm);
void pingCan();
void disableAppOutput(int time_ms, bool fwdCan);
void getImuData(unsigned int mask);
void getImuCalibration(double yaw);
void bmConnect();
void bmEraseFlashAll();
void bmWriteFlash(uint32_t addr, QByteArray data);
void bmWriteFlashLzo(uint32_t addr, quint16 decompressedLen, QByteArray data);
void bmReboot();
void bmDisconnect();
void bmMapPinsDefault();
void bmMapPinsNrf5x();
void bmReadMem(uint32_t addr, quint16 size);
void setCurrentRel(double current);
void forwardCanFrame(QByteArray data, quint32 id, bool isExtended);
void setBatteryCut(double start, double end, bool store, bool fwdCan);
void bmsGetValues();
void bmsSetChargeAllowed(bool allowed);
void bmsSetBalanceOverride(uint8_t cell, uint8_t override);
void bmsResetCounters(bool ah, bool wh);
void bmsForceBalance(bool bal_en);
void bmsZeroCurrentOffset();
void customConfigGetChunk(int confInd, int len, int offset);
void customConfigGet(int confInd, bool isDefault);
void customConfigSet(int confInd, QByteArray confData);
void pswGetStatus(bool by_id, int id_ind);
void pswSwitch(int id, bool is_on, bool plot);
void qmlUiHwGet(int len, int offset);
void qmlUiAppGet(int len, int offset);
void qmlUiErase();
void qmlUiWrite(QByteArray data, quint32 offset);
void ioBoardGetAll(int id);
void ioBoardSetPwm(int id, int channel, double duty);
void ioBoardSetDigital(int id, int channel, bool on);
void getStats(unsigned int mask);
void resetStats(bool sendAck);
void lispReadCode(int len, int offset);
void lispWriteCode(QByteArray data, quint32 offset);
void lispEraseCode();
void lispSetRunning(bool running);
void lispGetStats();
void lispSendReplCmd(QString str);
void setBleName(QString name);
void setBlePin(QString pin);
private slots:
void timerSlot();
private:
void emitData(QByteArray data);
QTimer *mTimer;
bool mSendCan;
int mCanId;
bool mIsLimitedMode;
bool mLimitedSupportsFwdAllCan;
bool mLimitedSupportsEraseBootloader;
bool mMaxPowerLossBug;
QVector<int> mCompatibilityCommands; // int to be QML-compatible
QMap<int, BMS_VALUES> mBmsValues;
ConfigParams *mMcConfig;
ConfigParams *mAppConfig;
ConfigParams mMcConfigLast;
bool mCheckNextMcConfig;
int mTimeoutCount;
int mTimeoutFwVer;
int mTimeoutMcconf;
int mTimeoutAppconf;
int mTimeoutValues;
int mTimeoutValuesSetup;
int mTimeoutImuData;
int mTimeoutDecPpm;
int mTimeoutDecAdc;
int mTimeoutDecChuk;
int mTimeoutDecBalance;
int mTimeoutPingCan;
int mTimeoutCustomConf;
int mTimeoutBmsVal;
int mTimeoutStats;
};
#endif // COMMANDS_H