Always On Lateral

Added toggle for Always On Lateral / No disengage lateral on gas and brake.

Lots of credit goes to "pfeiferj"! Couldn't of done it without him!

https: //github.com/pfeiferj/openpilot
Co-Authored-By: Jacob Pfeifer <jacob@pfeifer.dev>

cereal/custom.capnp

@@ -9,6 +9,7 @@ $Cxx.namespace("cereal");
 
 # you can rename the struct, but don't change the identifier
 struct FrogPilotCarControl @0x81c2f05a394cf4af {
+  alwaysOnLateral @0 :Bool;
 }
 
 struct FrogPilotDeviceState @0xaedffd8f31e7b55d {

common/params.cc

@@ -213,6 +213,8 @@ std::unordered_map<std::string, uint32_t> keys = {
     {"AccelerationProfile", PERSISTENT},
     {"AggressiveAcceleration", PERSISTENT},
     {"AlertVolumeControl", PERSISTENT},
+    {"AlwaysOnLateral", PERSISTENT},
+    {"AlwaysOnLateralMain", PERSISTENT},
     {"ApiCache_DriveStats", PERSISTENT},
     {"CustomAlerts", PERSISTENT},
     {"CustomUI", PERSISTENT},

panda/board/safety.h

@@ -552,7 +552,13 @@ bool steer_torque_cmd_checks(int desired_torque, int steer_req, const SteeringLi
   bool violation = false;
   uint32_t ts = microsecond_timer_get();
 
+  bool aol_allowed = acc_main_on && (alternative_experience & ALT_EXP_ALWAYS_ON_LATERAL);
   if (controls_allowed) {
+    // acc main must be on if controls are allowed
+    acc_main_on = controls_allowed;
+  }
+
+  if (controls_allowed || aol_allowed) {
     // *** global torque limit check ***
     violation |= max_limit_check(desired_torque, limits.max_steer, -limits.max_steer);
 
@@ -579,7 +585,7 @@ bool steer_torque_cmd_checks(int desired_torque, int steer_req, const SteeringLi
   }
 
   // no torque if controls is not allowed
-  if (!controls_allowed && (desired_torque != 0)) {
+  if (!(controls_allowed || aol_allowed) && (desired_torque != 0)) {
     violation = true;
   }
 
@@ -621,7 +627,7 @@ bool steer_torque_cmd_checks(int desired_torque, int steer_req, const SteeringLi
   }
 
   // reset to 0 if either controls is not allowed or there's a violation
-  if (violation || !controls_allowed) {
+  if (violation || !(controls_allowed || aol_allowed)) {
     valid_steer_req_count = 0;
     invalid_steer_req_count = 0;
     desired_torque_last = 0;
@@ -636,8 +642,13 @@ bool steer_torque_cmd_checks(int desired_torque, int steer_req, const SteeringLi
 // Safety checks for angle-based steering commands
 bool steer_angle_cmd_checks(int desired_angle, bool steer_control_enabled, const SteeringLimits limits) {
   bool violation = false;
+  bool aol_allowed = acc_main_on && (alternative_experience & ALT_EXP_ALWAYS_ON_LATERAL);
+  if (controls_allowed) {
+    // acc main must be on if controls are allowed
+    acc_main_on = controls_allowed;
+  }
 
-  if (controls_allowed && steer_control_enabled) {
+  if ((controls_allowed || aol_allowed) && steer_control_enabled) {
     // convert floating point angle rate limits to integers in the scale of the desired angle on CAN,
     // add 1 to not false trigger the violation. also fudge the speed by 1 m/s so rate limits are
     // always slightly above openpilot's in case we read an updated speed in between angle commands
@@ -680,7 +691,7 @@ bool steer_angle_cmd_checks(int desired_angle, bool steer_control_enabled, const
   }
 
   // No angle control allowed when controls are not allowed
-  violation |= !controls_allowed && steer_control_enabled;
+  violation |= !(controls_allowed || aol_allowed) && steer_control_enabled;
 
   return violation;
 }

panda/board/safety/safety_chrysler.h

@@ -185,6 +185,7 @@ static void chrysler_rx_hook(const CANPacket_t *to_push) {
   // enter controls on rising edge of ACC, exit controls on ACC off
   const int das_3_bus = (chrysler_platform == CHRYSLER_PACIFICA) ? 0 : 2;
   if ((bus == das_3_bus) && (addr == chrysler_addrs->DAS_3)) {
+    acc_main_on = GET_BIT(to_push, 20U);
     bool cruise_engaged = GET_BIT(to_push, 21U);
     pcm_cruise_check(cruise_engaged);
   }

panda/board/safety/safety_ford.h

@@ -251,6 +251,7 @@ static void ford_rx_hook(const CANPacket_t *to_push) {
 
       // Signal: CcStat_D_Actl
       unsigned int cruise_state = GET_BYTE(to_push, 1) & 0x07U;
+      acc_main_on = (cruise_state == 3U) ||(cruise_state == 4U) || (cruise_state == 5U);
       bool cruise_engaged = (cruise_state == 4U) || (cruise_state == 5U);
       pcm_cruise_check(cruise_engaged);
     }

panda/board/safety/safety_gm.h

@@ -138,6 +138,7 @@ static void gm_rx_hook(const CANPacket_t *to_push) {
     }
 
     if ((addr == 0xC9) && ((gm_hw == GM_CAM) || (gm_hw == GM_SDGM))) {
+      acc_main_on = GET_BIT(to_push, 29U);
       brake_pressed = GET_BIT(to_push, 40U);
     }
 

panda/board/safety/safety_honda.h

@@ -350,7 +350,8 @@ static bool honda_tx_hook(const CANPacket_t *to_send) {
 
   // STEER: safety check
   if ((addr == 0xE4) || (addr == 0x194)) {
-    if (!controls_allowed) {
+    bool aol_allowed = acc_main_on && (alternative_experience & ALT_EXP_DISABLE_DISENGAGE_ON_GAS);
+    if (!(controls_allowed || aol_allowed)) {
       bool steer_applied = GET_BYTE(to_send, 0) | GET_BYTE(to_send, 1);
       if (steer_applied) {
         tx = false;

panda/board/safety/safety_hyundai_common.h

@@ -63,6 +63,10 @@ void hyundai_common_cruise_state_check(const bool cruise_engaged) {
 }
 
 void hyundai_common_cruise_buttons_check(const int cruise_button, const bool main_button) {
+  if (main_button != 0 && main_button != cruise_main_prev) {
+    acc_main_on = !acc_main_on;
+  }
+  cruise_main_prev = main_button;
   if ((cruise_button == HYUNDAI_BTN_RESUME) || (cruise_button == HYUNDAI_BTN_SET) || (cruise_button == HYUNDAI_BTN_CANCEL) || main_button) {
     hyundai_last_button_interaction = 0U;
   } else {

panda/board/safety/safety_mazda.h

@@ -52,6 +52,7 @@ static void mazda_rx_hook(const CANPacket_t *to_push) {
 
     // enter controls on rising edge of ACC, exit controls on ACC off
     if (addr == MAZDA_CRZ_CTRL) {
+      acc_main_on = GET_BIT(to_push, 17U);
       bool cruise_engaged = GET_BYTE(to_push, 0) & 0x8U;
       pcm_cruise_check(cruise_engaged);
     }

panda/board/safety/safety_nissan.h

@@ -21,6 +21,8 @@ const CanMsg NISSAN_TX_MSGS[] = {
 
 // Signals duplicated below due to the fact that these messages can come in on either CAN bus, depending on car model.
 RxCheck nissan_rx_checks[] = {
+  {.msg = {{0x1b6, 0, 8, .frequency = 100U},
+         {0x1b6, 1, 8, .frequency = 100U}, { 0 }}},  // PRO_PILOT (100HZ)
   {.msg = {{0x2, 0, 5, .frequency = 100U},
            {0x2, 1, 5, .frequency = 100U}, { 0 }}},  // STEER_ANGLE_SENSOR
   {.msg = {{0x285, 0, 8, .frequency = 50U},
@@ -64,11 +66,16 @@ static void nissan_rx_hook(const CANPacket_t *to_push) {
       UPDATE_VEHICLE_SPEED((right_rear + left_rear) / 2.0 * 0.005 / 3.6);
     }
 
+    if (addr == 0x1b6) {
+      acc_main_on = GET_BIT(to_push, 36U);
+    }
+
     // X-Trail 0x15c, Leaf 0x239
     if ((addr == 0x15c) || (addr == 0x239)) {
       if (addr == 0x15c){
         gas_pressed = ((GET_BYTE(to_push, 5) << 2) | ((GET_BYTE(to_push, 6) >> 6) & 0x3U)) > 3U;
       } else {
+        acc_main_on = GET_BIT(to_push, 17U);
         gas_pressed = GET_BYTE(to_push, 0) > 3U;
       }
     }

panda/board/safety/safety_subaru.h

@@ -152,6 +152,7 @@ static void subaru_rx_hook(const CANPacket_t *to_push) {
 
   // enter controls on rising edge of ACC, exit controls on ACC off
   if ((addr == MSG_SUBARU_CruiseControl) && (bus == alt_main_bus)) {
+    acc_main_on = GET_BIT(to_push, 40U);
     bool cruise_engaged = GET_BIT(to_push, 41U);
     pcm_cruise_check(cruise_engaged);
   }

panda/board/safety/safety_subaru_preglobal.h

@@ -56,6 +56,7 @@ static void subaru_preglobal_rx_hook(const CANPacket_t *to_push) {
 
     // enter controls on rising edge of ACC, exit controls on ACC off
     if (addr == MSG_SUBARU_PG_CruiseControl) {
+      acc_main_on = GET_BIT(to_push, 48U);
       bool cruise_engaged = GET_BIT(to_push, 49U);
       pcm_cruise_check(cruise_engaged);
     }

panda/board/safety/safety_tesla.h

@@ -88,6 +88,14 @@ static void tesla_rx_hook(const CANPacket_t *to_push) {
     if(addr == (tesla_powertrain ? 0x256 : 0x368)) {
       // Cruise state
       int cruise_state = (GET_BYTE(to_push, 1) >> 4);
+
+      acc_main_on = (cruise_state == 1) ||  // STANDBY
+        (cruise_state == 2) ||  // ENABLED
+        (cruise_state == 3) ||  // STANDSTILL
+        (cruise_state == 4) ||  // OVERRIDE
+        (cruise_state == 6) ||  // PRE_FAULT
+        (cruise_state == 7);    // PRE_CANCEL
+
       bool cruise_engaged = (cruise_state == 2) ||  // ENABLED
                             (cruise_state == 3) ||  // STANDSTILL
                             (cruise_state == 4) ||  // OVERRIDE

panda/board/safety/safety_toyota.h

@@ -58,6 +58,7 @@ const int TOYOTA_GAS_INTERCEPTOR_THRSLD = 805;
   {0x128, 1, 6}, {0x141, 1, 4}, {0x160, 1, 8}, {0x161, 1, 7}, {0x470, 1, 4},  /* DSU bus 1 */                                               \
   {0x411, 0, 8},  /* PCS_HUD */                                                                                                             \
   {0x750, 0, 8},  /* radar diagnostic address */                                                                                            \
+  {0x1D3, 0, 8},                                                                                                                            \
 
 const CanMsg TOYOTA_TX_MSGS[] = {
   TOYOTA_COMMON_TX_MSGS
@@ -76,6 +77,7 @@ const CanMsg TOYOTA_INTERCEPTOR_TX_MSGS[] = {
   {.msg = {{ 0xaa, 0, 8, .check_checksum = false, .frequency = 83U}, { 0 }, { 0 }}},                        \
   {.msg = {{0x260, 0, 8, .check_checksum = true, .quality_flag = (lta), .frequency = 50U}, { 0 }, { 0 }}},  \
   {.msg = {{0x1D2, 0, 8, .check_checksum = true, .frequency = 33U}, { 0 }, { 0 }}},                         \
+  {.msg = {{0x1D3, 0, 8, .check_checksum = true, .frequency = 33U}, { 0 }, { 0 }}},                         \
   {.msg = {{0x224, 0, 8, .check_checksum = false, .frequency = 40U},                                        \
            {0x226, 0, 8, .check_checksum = false, .frequency = 40U}, { 0 }}},                               \
 
@@ -181,6 +183,9 @@ static void toyota_rx_hook(const CANPacket_t *to_push) {
         update_sample(&angle_meas, angle_meas_new);
       }
     }
+    if (addr == 0x1D3) {
+      acc_main_on = GET_BIT(to_push, 15U);
+    }
 
     // enter controls on rising edge of ACC, exit controls on ACC off
     // exit controls on rising edge of gas press

panda/board/safety_declarations.h

@@ -225,6 +225,7 @@ struct sample_t vehicle_speed;
 bool vehicle_moving = false;
 bool acc_main_on = false;  // referred to as "ACC off" in ISO 15622:2018
 int cruise_button_prev = 0;
+int cruise_main_prev = 0;
 bool safety_rx_checks_invalid = false;
 
 // for safety modes with torque steering control
@@ -270,3 +271,6 @@ int alternative_experience = 0;
 uint32_t safety_mode_cnt = 0U;
 // allow 1s of transition timeout after relay changes state before assessing malfunctioning
 const uint32_t RELAY_TRNS_TIMEOUT = 1U;
+
+// Always on Lateral
+#define ALT_EXP_ALWAYS_ON_LATERAL 32

panda/python/__init__.py

@@ -113,6 +113,7 @@ class ALTERNATIVE_EXPERIENCE:
   DISABLE_STOCK_AEB = 2
   RAISE_LONGITUDINAL_LIMITS_TO_ISO_MAX = 8
   ALLOW_AEB = 16
+  ALWAYS_ON_LATERAL = 32
 
 class Panda:
 

selfdrive/car/chrysler/carcontroller.py

@@ -42,7 +42,7 @@ class CarController:
     if self.frame % 25 == 0:
       if CS.lkas_car_model != -1:
         can_sends.append(chryslercan.create_lkas_hud(self.packer, self.CP, lkas_active, CC.hudControl.visualAlert,
-                                                     self.hud_count, CS.lkas_car_model, CS.auto_high_beam))
+                                                     self.hud_count, CS.lkas_car_model, CS.auto_high_beam, CC.latActive))
         self.hud_count += 1
 
     # steering

selfdrive/car/chrysler/chryslercan.py

@@ -4,7 +4,7 @@ from openpilot.selfdrive.car.chrysler.values import RAM_CARS
 GearShifter = car.CarState.GearShifter
 VisualAlert = car.CarControl.HUDControl.VisualAlert
 
-def create_lkas_hud(packer, CP, lkas_active, hud_alert, hud_count, car_model, auto_high_beam):
+def create_lkas_hud(packer, CP, lkas_active, hud_alert, hud_count, car_model, auto_high_beam, lat_active):
   # LKAS_HUD - Controls what lane-keeping icon is displayed
 
   # == Color ==
@@ -27,7 +27,7 @@ def create_lkas_hud(packer, CP, lkas_active, hud_alert, hud_count, car_model, au
   # 7 Normal
   # 6 lane departure place hands on wheel
 
-  color = 2 if lkas_active else 1
+  color = 2 if lkas_active else 1 if lat_active else 0
   lines = 3 if lkas_active else 0
   alerts = 7 if lkas_active else 0
 
@@ -48,6 +48,7 @@ def create_lkas_hud(packer, CP, lkas_active, hud_alert, hud_count, car_model, au
 
   if CP.carFingerprint in RAM_CARS:
     values['AUTO_HIGH_BEAM_ON'] = auto_high_beam
+    values['LKAS_DISABLED'] = 0 if lat_active else 1
 
   return packer.make_can_msg("DAS_6", 0, values)
 

selfdrive/car/honda/carcontroller.py

@@ -253,7 +253,7 @@ class CarController:
     if self.frame % 10 == 0:
       hud = HUDData(int(pcm_accel), int(round(hud_v_cruise)), hud_control.leadVisible,
                     hud_control.lanesVisible, fcw_display, acc_alert, steer_required)
-      can_sends.extend(hondacan.create_ui_commands(self.packer, self.CP, CC.enabled, pcm_speed, hud, CS.is_metric, CS.acc_hud, CS.lkas_hud))
+      can_sends.extend(hondacan.create_ui_commands(self.packer, self.CP, CC.enabled, pcm_speed, hud, CS.is_metric, CS.acc_hud, CS.lkas_hud, CC.latActive))
 
       if self.CP.openpilotLongitudinalControl and self.CP.carFingerprint not in HONDA_BOSCH:
         self.speed = pcm_speed

selfdrive/car/honda/hondacan.py

@@ -116,7 +116,7 @@ def create_bosch_supplemental_1(packer, car_fingerprint):
   return packer.make_can_msg("BOSCH_SUPPLEMENTAL_1", bus, values)
 
 
-def create_ui_commands(packer, CP, enabled, pcm_speed, hud, is_metric, acc_hud, lkas_hud):
+def create_ui_commands(packer, CP, enabled, pcm_speed, hud, is_metric, acc_hud, lkas_hud, lat_active):
   commands = []
   bus_pt = get_pt_bus(CP.carFingerprint)
   radar_disabled = CP.carFingerprint in (HONDA_BOSCH - HONDA_BOSCH_RADARLESS) and CP.openpilotLongitudinalControl
@@ -149,7 +149,7 @@ def create_ui_commands(packer, CP, enabled, pcm_speed, hud, is_metric, acc_hud,
   lkas_hud_values = {
     'SET_ME_X41': 0x41,
     'STEERING_REQUIRED': hud.steer_required,
-    'SOLID_LANES': hud.lanes_visible,
+    'SOLID_LANES': lat_active,
     'BEEP': 0,
   }
 

selfdrive/car/hyundai/carcontroller.py

@@ -120,7 +120,7 @@ class CarController:
 
       # LFA and HDA icons
       if self.frame % 5 == 0 and (not hda2 or hda2_long):
-        can_sends.append(hyundaicanfd.create_lfahda_cluster(self.packer, self.CAN, CC.enabled))
+        can_sends.append(hyundaicanfd.create_lfahda_cluster(self.packer, self.CAN, CC.enabled, CC.latActive))
 
       # blinkers
       if hda2 and self.CP.flags & HyundaiFlags.ENABLE_BLINKERS:
@@ -151,11 +151,11 @@ class CarController:
         use_fca = self.CP.flags & HyundaiFlags.USE_FCA.value
         can_sends.extend(hyundaican.create_acc_commands(self.packer, CC.enabled, accel, jerk, int(self.frame / 2),
                                                         hud_control.leadVisible, set_speed_in_units, stopping,
-                                                        CC.cruiseControl.override, use_fca))
+                                                        CC.cruiseControl.override, use_fca, CS.out.cruiseState.available))
 
       # 20 Hz LFA MFA message
       if self.frame % 5 == 0 and self.CP.flags & HyundaiFlags.SEND_LFA.value:
-        can_sends.append(hyundaican.create_lfahda_mfc(self.packer, CC.enabled))
+        can_sends.append(hyundaican.create_lfahda_mfc(self.packer, CC.enabled, CC.latActive))
 
       # 5 Hz ACC options
       if self.frame % 20 == 0 and self.CP.openpilotLongitudinalControl:

selfdrive/car/hyundai/carstate.py

@@ -53,6 +53,7 @@ class CarState(CarStateBase):
     self.params = CarControllerParams(CP)
 
     # FrogPilot variables
+    self.main_enabled = False
 
   def update(self, cp, cp_cam, frogpilot_variables):
     if self.CP.carFingerprint in CANFD_CAR:
@@ -104,7 +105,7 @@ class CarState(CarStateBase):
     # cruise state
     if self.CP.openpilotLongitudinalControl:
       # These are not used for engage/disengage since openpilot keeps track of state using the buttons
-      ret.cruiseState.available = cp.vl["TCS13"]["ACCEnable"] == 0
+      ret.cruiseState.available = self.main_enabled
       ret.cruiseState.enabled = cp.vl["TCS13"]["ACC_REQ"] == 1
       ret.cruiseState.standstill = False
       ret.cruiseState.nonAdaptive = False
@@ -164,7 +165,10 @@ class CarState(CarStateBase):
     self.steer_state = cp.vl["MDPS12"]["CF_Mdps_ToiActive"]  # 0 NOT ACTIVE, 1 ACTIVE
     self.prev_cruise_buttons = self.cruise_buttons[-1]
     self.cruise_buttons.extend(cp.vl_all["CLU11"]["CF_Clu_CruiseSwState"])
+    self.prev_main_buttons = self.main_buttons[-1]
     self.main_buttons.extend(cp.vl_all["CLU11"]["CF_Clu_CruiseSwMain"])
+    if self.prev_main_buttons == 0 and self.main_buttons[-1] != 0:
+      self.main_enabled = not self.main_enabled
 
     return ret
 
@@ -219,7 +223,7 @@ class CarState(CarStateBase):
 
     # cruise state
     # CAN FD cars enable on main button press, set available if no TCS faults preventing engagement
-    ret.cruiseState.available = cp.vl["TCS"]["ACCEnable"] == 0
+    ret.cruiseState.available = self.main_enabled
     if self.CP.openpilotLongitudinalControl:
       # These are not used for engage/disengage since openpilot keeps track of state using the buttons
       ret.cruiseState.enabled = cp.vl["TCS"]["ACC_REQ"] == 1
@@ -240,7 +244,10 @@ class CarState(CarStateBase):
 
     self.prev_cruise_buttons = self.cruise_buttons[-1]
     self.cruise_buttons.extend(cp.vl_all[self.cruise_btns_msg_canfd]["CRUISE_BUTTONS"])
+    self.prev_main_buttons = self.main_buttons[-1]
     self.main_buttons.extend(cp.vl_all[self.cruise_btns_msg_canfd]["ADAPTIVE_CRUISE_MAIN_BTN"])
+    if self.prev_main_buttons == 0 and self.main_buttons[-1] != 0:
+      self.main_enabled = not self.main_enabled
     self.buttons_counter = cp.vl[self.cruise_btns_msg_canfd]["COUNTER"]
     ret.accFaulted = cp.vl["TCS"]["ACCEnable"] != 0  # 0 ACC CONTROL ENABLED, 1-3 ACC CONTROL DISABLED
 

selfdrive/car/hyundai/hyundaican.py

@@ -117,20 +117,20 @@ def create_clu11(packer, frame, clu11, button, car_fingerprint):
   return packer.make_can_msg("CLU11", bus, values)
 
 
-def create_lfahda_mfc(packer, enabled, hda_set_speed=0):
+def create_lfahda_mfc(packer, enabled, lat_active, hda_set_speed=0):
   values = {
-    "LFA_Icon_State": 2 if enabled else 0,
+    "LFA_Icon_State": 2 if lat_active else 0,
     "HDA_Active": 1 if hda_set_speed else 0,
     "HDA_Icon_State": 2 if hda_set_speed else 0,
     "HDA_VSetReq": hda_set_speed,
   }
   return packer.make_can_msg("LFAHDA_MFC", 0, values)
 
-def create_acc_commands(packer, enabled, accel, upper_jerk, idx, lead_visible, set_speed, stopping, long_override, use_fca):
+def create_acc_commands(packer, enabled, accel, upper_jerk, idx, lead_visible, set_speed, stopping, long_override, use_fca, cruise_available):
   commands = []
 
   scc11_values = {
-    "MainMode_ACC": 1,
+    "MainMode_ACC": 1 if cruise_available else 0,
     "TauGapSet": 4,
     "VSetDis": set_speed if enabled else 0,
     "AliveCounterACC": idx % 0x10,

selfdrive/car/hyundai/hyundaicanfd.py

@@ -41,7 +41,7 @@ def create_steering_messages(packer, CP, CAN, enabled, lat_active, apply_steer):
 
   values = {
     "LKA_MODE": 2,
-    "LKA_ICON": 2 if enabled else 1,
+    "LKA_ICON": 2 if lat_active else 1,
     "TORQUE_REQUEST": apply_steer,
     "LKA_ASSIST": 0,
     "STEER_REQ": 1 if lat_active else 0,
@@ -113,10 +113,10 @@ def create_acc_cancel(packer, CP, CAN, cruise_info_copy):
   })
   return packer.make_can_msg("SCC_CONTROL", CAN.ECAN, values)
 
-def create_lfahda_cluster(packer, CAN, enabled):
+def create_lfahda_cluster(packer, CAN, enabled, lat_active):
   values = {
     "HDA_ICON": 1 if enabled else 0,
-    "LFA_ICON": 2 if enabled else 0,
+    "LFA_ICON": 2 if lat_active else 0,
   }
   return packer.make_can_msg("LFAHDA_CLUSTER", CAN.ECAN, values)
 

selfdrive/car/nissan/carcontroller.py

@@ -67,7 +67,7 @@ class CarController:
     if self.CP.carFingerprint != CAR.ALTIMA:
       if self.frame % 2 == 0:
         can_sends.append(nissancan.create_lkas_hud_msg(self.packer, CS.lkas_hud_msg, CC.enabled, hud_control.leftLaneVisible, hud_control.rightLaneVisible,
-                                                       hud_control.leftLaneDepart, hud_control.rightLaneDepart))
+                                                       hud_control.leftLaneDepart, hud_control.rightLaneDepart, CC.latActive))
 
       if self.frame % 50 == 0:
         can_sends.append(nissancan.create_lkas_hud_info_msg(

selfdrive/car/nissan/nissancan.py

@@ -65,7 +65,7 @@ def create_cancel_msg(packer, cancel_msg, cruise_cancel):
   return packer.make_can_msg("CANCEL_MSG", 2, values)
 
 
-def create_lkas_hud_msg(packer, lkas_hud_msg, enabled, left_line, right_line, left_lane_depart, right_lane_depart):
+def create_lkas_hud_msg(packer, lkas_hud_msg, enabled, left_line, right_line, left_lane_depart, right_lane_depart, lat_active):
   values = {s: lkas_hud_msg[s] for s in [
     "LARGE_WARNING_FLASHING",
     "SIDE_RADAR_ERROR_FLASHING1",
@@ -98,9 +98,9 @@ def create_lkas_hud_msg(packer, lkas_hud_msg, enabled, left_line, right_line, le
   values["RIGHT_LANE_YELLOW_FLASH"] = 1 if right_lane_depart else 0
   values["LEFT_LANE_YELLOW_FLASH"] = 1 if left_lane_depart else 0
 
-  values["LARGE_STEERING_WHEEL_ICON"] = 2 if enabled else 0
-  values["RIGHT_LANE_GREEN"] = 1 if right_line and enabled else 0
-  values["LEFT_LANE_GREEN"] = 1 if left_line and enabled else 0
+  values["LARGE_STEERING_WHEEL_ICON"] = 2 if lat_active else 0
+  values["RIGHT_LANE_GREEN"] = 1 if right_line and lat_active else 0
+  values["LEFT_LANE_GREEN"] = 1 if left_line and lat_active else 0
 
   return packer.make_can_msg("PROPILOT_HUD", 0, values)
 

selfdrive/car/subaru/carcontroller.py

@@ -100,7 +100,7 @@ class CarController:
 
         can_sends.append(subarucan.create_es_lkas_state(self.packer, self.frame // 10, CS.es_lkas_state_msg, CC.enabled, hud_control.visualAlert,
                                                         hud_control.leftLaneVisible, hud_control.rightLaneVisible,
-                                                        hud_control.leftLaneDepart, hud_control.rightLaneDepart))
+                                                        hud_control.leftLaneDepart, hud_control.rightLaneDepart, CC.latActive))
 
         if self.CP.flags & SubaruFlags.SEND_INFOTAINMENT:
           can_sends.append(subarucan.create_es_infotainment(self.packer, self.frame // 10, CS.es_infotainment_msg, hud_control.visualAlert))

selfdrive/car/subaru/subarucan.py

@@ -66,7 +66,7 @@ def create_es_distance(packer, frame, es_distance_msg, bus, pcm_cancel_cmd, long
   return packer.make_can_msg("ES_Distance", bus, values)
 
 
-def create_es_lkas_state(packer, frame, es_lkas_state_msg, enabled, visual_alert, left_line, right_line, left_lane_depart, right_lane_depart):
+def create_es_lkas_state(packer, frame, es_lkas_state_msg, enabled, visual_alert, left_line, right_line, left_lane_depart, right_lane_depart, lat_active):
   values = {s: es_lkas_state_msg[s] for s in [
     "CHECKSUM",
     "LKAS_Alert_Msg",
@@ -118,9 +118,11 @@ def create_es_lkas_state(packer, frame, es_lkas_state_msg, enabled, visual_alert
     elif right_lane_depart:
       values["LKAS_Alert"] = 11  # Right lane departure dash alert
 
-  if enabled:
+  if lat_active:
     values["LKAS_ACTIVE"] = 1  # Show LKAS lane lines
     values["LKAS_Dash_State"] = 2  # Green enabled indicator
+    values["LKAS_Left_Line_Enable"] = 1
+    values["LKAS_Right_Line_Enable"] = 1
   else:
     values["LKAS_Dash_State"] = 0  # LKAS Not enabled
 

selfdrive/car/toyota/carcontroller.py

@@ -179,7 +179,7 @@ class CarController:
       if self.frame % 20 == 0 or send_ui:
         can_sends.append(toyotacan.create_ui_command(self.packer, steer_alert, pcm_cancel_cmd, hud_control.leftLaneVisible,
                                                      hud_control.rightLaneVisible, hud_control.leftLaneDepart,
-                                                     hud_control.rightLaneDepart, CC.enabled, CS.lkas_hud))
+                                                     hud_control.rightLaneDepart, CC.enabled, CS.lkas_hud, lat_active))
 
       if (self.frame % 100 == 0 or send_ui) and (self.CP.enableDsu or self.CP.flags & ToyotaFlags.DISABLE_RADAR.value):
         can_sends.append(toyotacan.create_fcw_command(self.packer, fcw_alert))

selfdrive/car/toyota/toyotacan.py

@@ -73,12 +73,12 @@ def create_fcw_command(packer, fcw):
   return packer.make_can_msg("PCS_HUD", 0, values)
 
 
-def create_ui_command(packer, steer, chime, left_line, right_line, left_lane_depart, right_lane_depart, enabled, stock_lkas_hud):
+def create_ui_command(packer, steer, chime, left_line, right_line, left_lane_depart, right_lane_depart, enabled, stock_lkas_hud, lat_active):
   values = {
     "TWO_BEEPS": chime,
     "LDA_ALERT": steer,
-    "RIGHT_LINE": 3 if right_lane_depart else 1 if right_line else 2,
-    "LEFT_LINE": 3 if left_lane_depart else 1 if left_line else 2,
+    "RIGHT_LINE": 0 if not lat_active else 3 if right_lane_depart else 1 if right_line else 2,
+    "LEFT_LINE": 0 if not lat_active else 3 if left_lane_depart else 1 if left_line else 2,
     "BARRIERS": 1 if enabled else 0,
 
     # static signals

selfdrive/car/volkswagen/carcontroller.py

@@ -94,7 +94,7 @@ class CarController:
       if hud_control.visualAlert in (VisualAlert.steerRequired, VisualAlert.ldw):
         hud_alert = self.CCP.LDW_MESSAGES["laneAssistTakeOver"]
       can_sends.append(self.CCS.create_lka_hud_control(self.packer_pt, CANBUS.pt, CS.ldw_stock_values, CC.enabled,
-                                                       CS.out.steeringPressed, hud_alert, hud_control))
+                                                       CS.out.steeringPressed, hud_alert, hud_control, CC.latActive))
 
     if self.frame % self.CCP.ACC_HUD_STEP == 0 and self.CP.openpilotLongitudinalControl:
       lead_distance = 0

selfdrive/car/volkswagen/mqbcan.py

@@ -28,7 +28,7 @@ def create_eps_update(packer, bus, eps_stock_values, ea_simulated_torque):
   return packer.make_can_msg("LH_EPS_03", bus, values)
 
 
-def create_lka_hud_control(packer, bus, ldw_stock_values, enabled, steering_pressed, hud_alert, hud_control):
+def create_lka_hud_control(packer, bus, ldw_stock_values, enabled, steering_pressed, hud_alert, hud_control, lat_active):
   values = {}
   if len(ldw_stock_values):
     values = {s: ldw_stock_values[s] for s in [
@@ -40,8 +40,8 @@ def create_lka_hud_control(packer, bus, ldw_stock_values, enabled, steering_pres
     ]}
 
   values.update({
-    "LDW_Status_LED_gelb": 1 if enabled and steering_pressed else 0,
-    "LDW_Status_LED_gruen": 1 if enabled and not steering_pressed else 0,
+    "LDW_Status_LED_gelb": 1 if lat_active and steering_pressed else 0,
+    "LDW_Status_LED_gruen": 1 if lat_active and not steering_pressed else 0,
     "LDW_Lernmodus_links": 3 if hud_control.leftLaneDepart else 1 + hud_control.leftLaneVisible,
     "LDW_Lernmodus_rechts": 3 if hud_control.rightLaneDepart else 1 + hud_control.rightLaneVisible,
     "LDW_Texte": hud_alert,

selfdrive/car/volkswagen/pqcan.py

@@ -9,7 +9,7 @@ def create_steering_control(packer, bus, apply_steer, lkas_enabled):
   return packer.make_can_msg("HCA_1", bus, values)
 
 
-def create_lka_hud_control(packer, bus, ldw_stock_values, enabled, steering_pressed, hud_alert, hud_control):
+def create_lka_hud_control(packer, bus, ldw_stock_values, enabled, steering_pressed, hud_alert, hud_control, lat_active):
   values = {}
   if len(ldw_stock_values):
     values = {s: ldw_stock_values[s] for s in [
@@ -21,8 +21,8 @@ def create_lka_hud_control(packer, bus, ldw_stock_values, enabled, steering_pres
     ]}
 
   values.update({
-    "LDW_Lampe_gelb": 1 if enabled and steering_pressed else 0,
-    "LDW_Lampe_gruen": 1 if enabled and not steering_pressed else 0,
+    "LDW_Lampe_gelb": 1 if lat_active and steering_pressed else 0,
+    "LDW_Lampe_gruen": 1 if lat_active and not steering_pressed else 0,
     "LDW_Lernmodus_links": 3 if hud_control.leftLaneDepart else 1 + hud_control.leftLaneVisible,
     "LDW_Lernmodus_rechts": 3 if hud_control.rightLaneDepart else 1 + hud_control.rightLaneVisible,
     "LDW_Textbits": hud_alert,

selfdrive/controls/controlsd.py

@@ -197,6 +197,15 @@ class Controls:
     if not self.disengage_on_accelerator:
       self.CP.alternativeExperience |= ALTERNATIVE_EXPERIENCE.DISABLE_DISENGAGE_ON_GAS
 
+    # Set "Always On Lateral" conditions
+    self.always_on_lateral = self.params.get_bool("AlwaysOnLateral")
+    self.always_on_lateral_main = self.params.get_bool("AlwaysOnLateralMain")
+    if self.always_on_lateral:
+      self.CP.alternativeExperience |= ALTERNATIVE_EXPERIENCE.ALWAYS_ON_LATERAL
+      if self.disengage_on_accelerator:
+        self.disengage_on_accelerator = False
+        self.params.put_bool("DisengageOnAccelerator", False)
+
     self.CP.alternativeExperience |= ALTERNATIVE_EXPERIENCE.RAISE_LONGITUDINAL_LIMITS_TO_ISO_MAX
 
     # read params
@@ -684,9 +693,19 @@ class Controls:
     # Gear Check
     self.driving_gear = CS.gearShifter not in (GearShifter.neutral, GearShifter.park, GearShifter.reverse, GearShifter.unknown)
 
+    # Always on lateral
+    self.FPCC.alwaysOnLateral |= CS.cruiseState.enabled or self.always_on_lateral_main
+    self.FPCC.alwaysOnLateral &= self.always_on_lateral
+    self.FPCC.alwaysOnLateral &= CS.cruiseState.available
+    self.FPCC.alwaysOnLateral &= self.driving_gear
+    self.FPCC.alwaysOnLateral &= not self.openpilot_crashed
+
+    if self.FPCC.alwaysOnLateral:
+      self.current_alert_types.append(ET.WARNING)
+
     # Check which actuators can be enabled
     standstill = CS.vEgo <= max(self.CP.minSteerSpeed, MIN_LATERAL_CONTROL_SPEED) or CS.standstill
-    CC.latActive = self.active and not CS.steerFaultTemporary and not CS.steerFaultPermanent and \
+    CC.latActive = (self.active or self.FPCC.alwaysOnLateral) and not CS.steerFaultTemporary and not CS.steerFaultPermanent and \
                    (not standstill or self.joystick_mode)
     CC.longActive = self.enabled and not self.events.contains(ET.OVERRIDE_LONGITUDINAL) and self.CP.openpilotLongitudinalControl
 

selfdrive/frogpilot/ui/control_settings.cc

@@ -2,6 +2,8 @@
 
 FrogPilotControlsPanel::FrogPilotControlsPanel(SettingsWindow *parent) : FrogPilotListWidget(parent) {
   const std::vector<std::tuple<QString, QString, QString, QString>> controlToggles {
+    {"AlwaysOnLateral", "Always on Lateral", "Maintain openpilot lateral control when the brake or gas pedals are used.\n\nDeactivation occurs only through the 'Cruise Control' button.", "../frogpilot/assets/toggle_icons/icon_always_on_lateral.png"},
+
     {"LateralTune", "Lateral Tuning", "Modify openpilot's steering behavior.", "../frogpilot/assets/toggle_icons/icon_lateral_tune.png"},
 
     {"LongitudinalTune", "Longitudinal Tuning", "Modify openpilot's acceleration and braking behavior.", "../frogpilot/assets/toggle_icons/icon_longitudinal_tune.png"},
@@ -15,7 +17,24 @@ FrogPilotControlsPanel::FrogPilotControlsPanel(SettingsWindow *parent) : FrogPil
   for (const auto &[param, title, desc, icon] : controlToggles) {
     ParamControl *toggle;
 
-    if (param == "LateralTune") {
+    if (param == "AlwaysOnLateral") {
+      std::vector<QString> aolToggles{"AlwaysOnLateralMain"};
+      std::vector<QString> aolToggleNames{tr("Enable On Cruise Main")};
+      toggle = new FrogPilotParamToggleControl(param, title, desc, icon, aolToggles, aolToggleNames);
+
+      QObject::connect(static_cast<FrogPilotParamToggleControl*>(toggle), &FrogPilotParamToggleControl::buttonClicked, [this](const bool checked) {
+        if (checked) {
+          FrogPilotConfirmationDialog::toggleAlert("WARNING: This is very experimental and isn't guaranteed to work. If you run into any issues, please report it in the FrogPilot Discord!",
+          "I understand the risks.", this);
+        }
+        if (started) {
+          if (FrogPilotConfirmationDialog::toggle("Reboot required to take effect.", "Reboot Now", this)) {
+            Hardware::soft_reboot();
+          }
+        }
+      });
+
+    } else if (param == "LateralTune") {
       FrogPilotParamManageControl *lateralTuneToggle = new FrogPilotParamManageControl(param, title, desc, icon, this);
       QObject::connect(lateralTuneToggle, &FrogPilotParamManageControl::manageButtonClicked, this, [this]() {
         parentToggleClicked();
@@ -88,7 +107,7 @@ FrogPilotControlsPanel::FrogPilotControlsPanel(SettingsWindow *parent) : FrogPil
     });
   }
 
-  std::set<std::string> rebootKeys = {};
+  std::set<std::string> rebootKeys = {"AlwaysOnLateral"};
   for (const std::string &key : rebootKeys) {
     QObject::connect(toggles[key], &ToggleControl::toggleFlipped, [this, key]() {
       if (started) {

selfdrive/ui/qt/maps/map.cc

@@ -121,7 +121,7 @@ void MapWindow::updateState(const UIState &s) {
   if (sm.updated("modelV2")) {
     // set path color on change, and show map on rising edge of navigate on openpilot
     bool nav_enabled = sm["modelV2"].getModelV2().getNavEnabled() &&
-                       sm["controlsState"].getControlsState().getEnabled();
+                       (sm["controlsState"].getControlsState().getEnabled() || sm["frogpilotCarControl"].getFrogpilotCarControl().getAlwaysOnLateral());
     if (nav_enabled != uiState()->scene.navigate_on_openpilot) {
       if (loaded_once) {
         m_map->setPaintProperty("navLayer", "line-color", getNavPathColor(nav_enabled));

selfdrive/ui/qt/onroad.cc

@@ -175,7 +175,7 @@ void OnroadAlerts::paintEvent(QPaintEvent *event) {
 
   int margin = 40;
   int radius = 30;
-  int offset = true ? 25 : 0;
+  int offset = scene.always_on_lateral ? 25 : 0;
   if (alert.size == cereal::ControlsState::AlertSize::FULL) {
     margin = 0;
     radius = 0;
@@ -242,7 +242,7 @@ void ExperimentalButton::changeMode() {
 
 void ExperimentalButton::updateState(const UIState &s) {
   const auto cs = (*s.sm)["controlsState"].getControlsState();
-  bool eng = cs.getEngageable() || cs.getEnabled();
+  bool eng = cs.getEngageable() || cs.getEnabled() || scene.always_on_lateral_active;
   if ((cs.getExperimentalMode() != experimental_mode) || (eng != engageable)) {
     engageable = eng;
     experimental_mode = cs.getExperimentalMode();
@@ -255,7 +255,7 @@ void ExperimentalButton::updateState(const UIState &s) {
 void ExperimentalButton::paintEvent(QPaintEvent *event) {
   QPainter p(this);
   QPixmap img = experimental_mode ? experimental_img : engage_img;
-  drawIcon(p, QPoint(btn_size / 2, btn_size / 2), img, QColor(0, 0, 0, 166), (isDown() || !engageable) ? 0.6 : 1.0);
+  drawIcon(p, QPoint(btn_size / 2, btn_size / 2), img, QColor(0, 0, 0, 166), (isDown() || !(engageable || scene.always_on_lateral_active)) ? 0.6 : 1.0);
 }
 
 
@@ -545,7 +545,7 @@ void AnnotatedCameraWidget::drawDriverState(QPainter &painter, const UIState *s)
 
   // base icon
   int offset = UI_BORDER_SIZE + btn_size / 2;
-  offset += true ? 25 : 0;
+  offset += alwaysOnLateral ? 25 : 0;
   int x = rightHandDM ? width() - offset : offset;
   int y = height() - offset;
   float opacity = dmActive ? 0.65 : 0.2;
@@ -734,9 +734,12 @@ void AnnotatedCameraWidget::initializeFrogPilotWidgets() {
 }
 
 void AnnotatedCameraWidget::updateFrogPilotWidgets(QPainter &p) {
+  alwaysOnLateral = scene.always_on_lateral;
+  alwaysOnLateralActive = scene.always_on_lateral_active;
+
   experimentalMode = scene.experimental_mode;
 
-  if (true) {
+  if (alwaysOnLateral) {
     drawStatusBar(p);
   }
 
@@ -768,6 +771,11 @@ void AnnotatedCameraWidget::drawStatusBar(QPainter &p) {
   p.setOpacity(1.0);
   p.drawRoundedRect(statusBarRect, 30, 30);
 
+  // Update status text
+  if (alwaysOnLateralActive) {
+    newStatus = QString("Always On Lateral active. Press the \"Cruise Control\" button to disable");
+  }
+
   // Check if status has changed
   if (newStatus != lastShownStatus) {
     displayStatusText = true;

selfdrive/ui/qt/onroad.h

@@ -118,6 +118,8 @@ private:
 
   QHBoxLayout *bottom_layout;
 
+  bool alwaysOnLateral;
+  bool alwaysOnLateralActive;
   bool experimentalMode;
 
 protected:

selfdrive/ui/ui.cc

@@ -210,6 +210,9 @@ static void update_state(UIState *s) {
   }
   if (sm.updated("frogpilotCarControl")) {
     auto frogpilotCarControl = sm["frogpilotCarControl"].getFrogpilotCarControl();
+    if (scene.always_on_lateral) {
+      scene.always_on_lateral_active = !scene.enabled && frogpilotCarControl.getAlwaysOnLateral();
+    }
   }
   if (sm.updated("frogpilotPlan")) {
     auto frogpilotPlan = sm["frogpilotPlan"].getFrogpilotPlan();
@@ -243,6 +246,8 @@ void ui_update_frogpilot_params(UIState *s) {
   Params params = Params();
   UIScene &scene = s->scene;
 
+  scene.always_on_lateral = params.getBool("AlwaysOnLateral");
+
   bool custom_onroad_ui = params.getBool("CustomUI");
   scene.acceleration_path = custom_onroad_ui && params.getBool("AccelerationPath");
 
@@ -257,6 +262,8 @@ void UIState::updateStatus() {
     auto state = controls_state.getState();
     if (state == cereal::ControlsState::OpenpilotState::PRE_ENABLED || state == cereal::ControlsState::OpenpilotState::OVERRIDING) {
       status = STATUS_OVERRIDE;
+    } else if (scene.always_on_lateral_active) {
+      status = STATUS_LATERAL_ACTIVE;
     } else {
       status = controls_state.getEnabled() ? STATUS_ENGAGED : STATUS_DISENGAGED;
     }

selfdrive/ui/ui.h

@@ -107,6 +107,7 @@ typedef enum UIStatus {
   STATUS_ENGAGED,
 
   // FrogPilot statuses
+  STATUS_LATERAL_ACTIVE,
 } UIStatus;
 
 enum PrimeType {
@@ -125,6 +126,7 @@ const QColor bg_colors [] = {
   [STATUS_ENGAGED] = QColor(0x17, 0x86, 0x44, 0xf1),
 
   // FrogPilot colors
+  [STATUS_LATERAL_ACTIVE] = QColor(0x0a, 0xba, 0xb5, 0xf1),
 };
 
 static std::map<cereal::ControlsState::AlertStatus, QColor> alert_colors = {
@@ -168,6 +170,8 @@ typedef struct UIScene {
 
   // FrogPilot variables
   bool acceleration_path;
+  bool always_on_lateral;
+  bool always_on_lateral_active;
   bool enabled;
   bool experimental_mode;