using Cxx = import "./include/c++.capnp"; $Cxx.namespace("cereal"); using Java = import "./include/java.capnp"; $Java.package("ai.comma.openpilot.cereal"); $Java.outerClassname("Car"); @0x8e2af1e708af8b8d; # ******* events causing controls state machine transition ******* struct CarEvent @0x9b1657f34caf3ad3 { name @0 :EventName; enable @1 :Bool; noEntry @2 :Bool; warning @3 :Bool; userDisable @4 :Bool; softDisable @5 :Bool; immediateDisable @6 :Bool; preEnable @7 :Bool; permanent @8 :Bool; enum EventName @0xbaa8c5d505f727de { # TODO: copy from error list canError @0; steerUnavailable @1; brakeUnavailable @2; gasUnavailable @3; wrongGear @4; doorOpen @5; seatbeltNotLatched @6; espDisabled @7; wrongCarMode @8; steerTempUnavailable @9; reverseGear @10; buttonCancel @11; buttonEnable @12; pedalPressed @13; cruiseDisabled @14; radarCanError @15; dataNeeded @16; speedTooLow @17; outOfSpace @18; overheat @19; calibrationIncomplete @20; calibrationInvalid @21; controlsMismatch @22; pcmEnable @23; pcmDisable @24; noTarget @25; radarFault @26; modelCommIssueDEPRECATED @27; brakeHold @28; parkBrake @29; manualRestart @30; lowSpeedLockout @31; plannerError @32; ipasOverride @33; debugAlert @34; steerTempUnavailableMute @35; resumeRequired @36; preDriverDistracted @37; promptDriverDistracted @38; driverDistracted @39; geofence @40; driverMonitorOn @41; driverMonitorOff @42; preDriverUnresponsive @43; promptDriverUnresponsive @44; driverUnresponsive @45; belowSteerSpeed @46; calibrationProgress @47; lowBattery @48; invalidGiraffeHonda @49; vehicleModelInvalid @50; controlsFailed @51; sensorDataInvalid @52; commIssue @53; tooDistracted @54; posenetInvalid @55; soundsUnavailable @56; preLaneChangeLeft @57; preLaneChangeRight @58; laneChange @59; invalidGiraffeToyota @60; internetConnectivityNeeded @61; } } # ******* main car state @ 100hz ******* # all speeds in m/s struct CarState { errorsDEPRECATED @0 :List(CarEvent.EventName); events @13 :List(CarEvent); # car speed vEgo @1 :Float32; # best estimate of speed aEgo @16 :Float32; # best estimate of acceleration vEgoRaw @17 :Float32; # unfiltered speed from CAN sensors yawRate @22 :Float32; # best estimate of yaw rate standstill @18 :Bool; wheelSpeeds @2 :WheelSpeeds; # gas pedal, 0.0-1.0 gas @3 :Float32; # this is user + computer gasPressed @4 :Bool; # this is user pedal only # brake pedal, 0.0-1.0 brake @5 :Float32; # this is user pedal only brakePressed @6 :Bool; # this is user pedal only brakeLights @19 :Bool; # steering wheel steeringAngle @7 :Float32; # deg steeringRate @15 :Float32; # deg/s steeringTorque @8 :Float32; # TODO: standardize units steeringTorqueEps @27 :Float32; # TODO: standardize units steeringPressed @9 :Bool; # if the user is using the steering wheel steeringRateLimited @29 :Bool; # if the torque is limited by the rate limiter # cruise state cruiseState @10 :CruiseState; # gear gearShifter @14 :GearShifter; # button presses buttonEvents @11 :List(ButtonEvent); leftBlinker @20 :Bool; rightBlinker @21 :Bool; genericToggle @23 :Bool; # lock info doorOpen @24 :Bool; seatbeltUnlatched @25 :Bool; canValid @26 :Bool; # clutch (manual transmission only) clutchPressed @28 :Bool; # which packets this state came from canMonoTimes @12: List(UInt64); struct WheelSpeeds { # optional wheel speeds fl @0 :Float32; fr @1 :Float32; rl @2 :Float32; rr @3 :Float32; } struct CruiseState { enabled @0 :Bool; speed @1 :Float32; available @2 :Bool; speedOffset @3 :Float32; standstill @4 :Bool; } enum GearShifter { unknown @0; park @1; drive @2; neutral @3; reverse @4; sport @5; low @6; brake @7; eco @8; manumatic @9; } # send on change struct ButtonEvent { pressed @0 :Bool; type @1 :Type; enum Type { unknown @0; leftBlinker @1; rightBlinker @2; accelCruise @3; decelCruise @4; cancel @5; altButton1 @6; altButton2 @7; altButton3 @8; setCruise @9; resumeCruise @10; gapAdjustCruise @11; } } } # ******* radar state @ 20hz ******* struct RadarData @0x888ad6581cf0aacb { errors @0 :List(Error); points @1 :List(RadarPoint); # which packets this state came from canMonoTimes @2 :List(UInt64); enum Error { canError @0; fault @1; wrongConfig @2; } # similar to LiveTracks # is one timestamp valid for all? I think so struct RadarPoint { trackId @0 :UInt64; # no trackId reuse # these 3 are the minimum required dRel @1 :Float32; # m from the front bumper of the car yRel @2 :Float32; # m vRel @3 :Float32; # m/s # these are optional and valid if they are not NaN aRel @4 :Float32; # m/s^2 yvRel @5 :Float32; # m/s # some radars flag measurements VS estimates measured @6 :Bool; } } # ******* car controls @ 100hz ******* struct CarControl { # must be true for any actuator commands to work enabled @0 :Bool; active @7 :Bool; gasDEPRECATED @1 :Float32; brakeDEPRECATED @2 :Float32; steeringTorqueDEPRECATED @3 :Float32; actuators @6 :Actuators; cruiseControl @4 :CruiseControl; hudControl @5 :HUDControl; struct Actuators { # range from 0.0 - 1.0 gas @0: Float32; brake @1: Float32; # range from -1.0 - 1.0 steer @2: Float32; steerAngle @3: Float32; } struct CruiseControl { cancel @0: Bool; override @1: Bool; speedOverride @2: Float32; accelOverride @3: Float32; } struct HUDControl { speedVisible @0: Bool; setSpeed @1: Float32; lanesVisible @2: Bool; leadVisible @3: Bool; visualAlert @4: VisualAlert; audibleAlert @5: AudibleAlert; rightLaneVisible @6: Bool; leftLaneVisible @7: Bool; rightLaneDepart @8: Bool; leftLaneDepart @9: Bool; enum VisualAlert { # these are the choices from the Honda # map as good as you can for your car none @0; fcw @1; steerRequired @2; brakePressed @3; wrongGear @4; seatbeltUnbuckled @5; speedTooHigh @6; ldw @7; } enum AudibleAlert { # these are the choices from the Honda # map as good as you can for your car none @0; chimeEngage @1; chimeDisengage @2; chimeError @3; chimeWarning1 @4; chimeWarning2 @5; chimeWarningRepeat @6; chimePrompt @7; } } } # ****** car param ****** struct CarParams { carName @0 :Text; carFingerprint @1 :Text; enableGasInterceptor @2 :Bool; enableCruise @3 :Bool; enableCamera @4 :Bool; enableDsu @5 :Bool; # driving support unit enableApgs @6 :Bool; # advanced parking guidance system minEnableSpeed @7 :Float32; minSteerSpeed @8 :Float32; safetyModel @9 :SafetyModel; safetyModelPassive @42 :SafetyModel = noOutput; safetyParam @10 :Int16; steerMaxBP @11 :List(Float32); steerMaxV @12 :List(Float32); gasMaxBP @13 :List(Float32); gasMaxV @14 :List(Float32); brakeMaxBP @15 :List(Float32); brakeMaxV @16 :List(Float32); # things about the car in the manual mass @17 :Float32; # [kg] running weight wheelbase @18 :Float32; # [m] distance from rear to front axle centerToFront @19 :Float32; # [m] GC distance to front axle steerRatio @20 :Float32; # [] ratio between front wheels and steering wheel angles steerRatioRear @21 :Float32; # [] rear steering ratio wrt front steering (usually 0) # things we can derive rotationalInertia @22 :Float32; # [kg*m2] body rotational inertia tireStiffnessFront @23 :Float32; # [N/rad] front tire coeff of stiff tireStiffnessRear @24 :Float32; # [N/rad] rear tire coeff of stiff longitudinalTuning @25 :LongitudinalPIDTuning; lateralTuning :union { pid @26 :LateralPIDTuning; indi @27 :LateralINDITuning; lqr @40 :LateralLQRTuning; } steerLimitAlert @28 :Bool; vEgoStopping @29 :Float32; # Speed at which the car goes into stopping state directAccelControl @30 :Bool; # Does the car have direct accel control or just gas/brake stoppingControl @31 :Bool; # Does the car allows full control even at lows speeds when stopping startAccel @32 :Float32; # Required acceleraton to overcome creep braking steerRateCost @33 :Float32; # Lateral MPC cost on steering rate steerControlType @34 :SteerControlType; radarOffCan @35 :Bool; # True when radar objects aren't visible on CAN steerActuatorDelay @36 :Float32; # Steering wheel actuator delay in seconds openpilotLongitudinalControl @37 :Bool; # is openpilot doing the longitudinal control? carVin @38 :Text; # VIN number queried during fingerprinting isPandaBlack @39: Bool; dashcamOnly @41: Bool; transmissionType @43 :TransmissionType; carFw @44 :List(CarFw); struct LateralPIDTuning { kpBP @0 :List(Float32); kpV @1 :List(Float32); kiBP @2 :List(Float32); kiV @3 :List(Float32); kf @4 :Float32; } struct LongitudinalPIDTuning { kpBP @0 :List(Float32); kpV @1 :List(Float32); kiBP @2 :List(Float32); kiV @3 :List(Float32); deadzoneBP @4 :List(Float32); deadzoneV @5 :List(Float32); } struct LateralINDITuning { outerLoopGain @0 :Float32; innerLoopGain @1 :Float32; timeConstant @2 :Float32; actuatorEffectiveness @3 :Float32; } struct LateralLQRTuning { scale @0 :Float32; ki @1 :Float32; dcGain @2 :Float32; # State space system a @3 :List(Float32); b @4 :List(Float32); c @5 :List(Float32); k @6 :List(Float32); # LQR gain l @7 :List(Float32); # Kalman gain } enum SafetyModel { noOutput @0; honda @1; toyota @2; elm327 @3; gm @4; hondaBosch @5; ford @6; cadillac @7; hyundai @8; chrysler @9; tesla @10; subaru @11; gmPassive @12; mazda @13; nissan @14; volkswagen @15; toyotaIpas @16; allOutput @17; gmAscm @18; } enum SteerControlType { torque @0; angle @1; } enum TransmissionType { unknown @0; automatic @1; manual @2; } struct CarFw { ecu @0 :Ecu; fwVersion @1 :Text; } enum Ecu { eps @0; esp @1; fwdRadar @2; fwdCamera @3; } }