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Chrysler safety controls (#130) 

* Chrysler safety model and tests.

* fix comments

* when ACC is canceled, disallow controls

* update SAFETY_CHRYSLER value in Python API and add other SAFETY values
master
Drew Hintz 2018-11-06 12:28:33 -08:00 committed by rbiasini
parent c05b15b358
commit 799c33868d
6 changed files with 248 additions and 0 deletions
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3
board/safety.h
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@ -62,6 +62,7 @@ int controls_allowed = 0;
#include "safety/safety_ford.h"
#include "safety/safety_cadillac.h"
#include "safety/safety_hyundai.h"
#include "safety/safety_chrysler.h"
#include "safety/safety_elm327.h"
const safety_hooks *current_hooks = &nooutput_hooks;
@ -102,6 +103,7 @@ typedef struct {
#define SAFETY_CADILLAC 6
#define SAFETY_HYUNDAI 7
#define SAFETY_TESLA 8
#define SAFETY_CHRYSLER 9
#define SAFETY_TOYOTA_IPAS 0x1335
#define SAFETY_TOYOTA_NOLIMITS 0x1336
#define SAFETY_ALLOUTPUT 0x1337
@ -116,6 +118,7 @@ const safety_hook_config safety_hook_registry[] = {
{SAFETY_FORD, &ford_hooks},
{SAFETY_CADILLAC, &cadillac_hooks},
{SAFETY_HYUNDAI, &hyundai_hooks},
{SAFETY_CHRYSLER, &chrysler_hooks},
{SAFETY_TOYOTA_NOLIMITS, &toyota_nolimits_hooks},
#ifdef PANDA
{SAFETY_TOYOTA_IPAS, &toyota_ipas_hooks},

136
board/safety/safety_chrysler.h 100644
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@ -0,0 +1,136 @@
// board enforces
// in-state
// ACC is active (green)
// out-state
// brake pressed
// stock LKAS ECU is online
// ACC is not active (white or disabled)
// chrysler_: namespacing
int chrysler_speed = 0;
// silence everything if stock ECUs are still online
int chrysler_lkas_detected = 0;
int chrysler_desired_torque_last = 0;
static void chrysler_rx_hook(CAN_FIFOMailBox_TypeDef *to_push) {
int bus_number = (to_push->RDTR >> 4) & 0xFF;
uint32_t addr;
if (to_push->RIR & 4) {
// Extended
// Not looked at, but have to be separated
// to avoid address collision
addr = to_push->RIR >> 3;
} else {
// Normal
addr = to_push->RIR >> 21;
}
if (addr == 0x144 && bus_number == 0) {
chrysler_speed = ((to_push->RDLR & 0xFF000000) >> 16) | (to_push->RDHR & 0xFF);
}
// check if stock LKAS ECU is still online
if (addr == 0x292 && bus_number == 0) {
chrysler_lkas_detected = 1;
controls_allowed = 0;
}
// ["ACC_2"]['ACC_STATUS_2'] == 7 for active (green) Adaptive Cruise Control
if (addr == 0x1f4 && bus_number == 0) {
if (((to_push->RDLR & 0x380000) >> 19) == 7) {
controls_allowed = 1;
} else {
controls_allowed = 0;
}
}
// exit controls on brake press by human
if (addr == 0x140) {
if (to_push->RDLR & 0x4) {
controls_allowed = 0;
}
}
}
// if controls_allowed
// allow steering up to limit
// else
// block all commands that produce actuation
static int chrysler_tx_hook(CAN_FIFOMailBox_TypeDef *to_send) {
// There can be only one! (LKAS)
if (chrysler_lkas_detected) {
return 0;
}
uint32_t addr;
if (to_send->RIR & 4) {
// Extended
addr = to_send->RIR >> 3;
} else {
// Normal
addr = to_send->RIR >> 21;
}
// LKA STEER: Too large of values cause the steering actuator ECU to silently
// fault and no longer actuate the wheel until the car is rebooted.
if (addr == 0x292) {
int rdlr = to_send->RDLR;
int straight = 1024;
int steer = ((rdlr & 0x7) << 8) + ((rdlr & 0xFF00) >> 8) - straight;
int max_steer = 230;
int max_rate = 50; // ECU is fine with 100, but 3 is typical.
if (steer > max_steer) {
return false;
}
if (steer < -max_steer) {
return false;
}
if (!controls_allowed && steer != 0) {
// If controls not allowed, only allow steering to move closer to 0.
if (chrysler_desired_torque_last == 0) {
return false;
}
if ((chrysler_desired_torque_last > 0) && (steer >= chrysler_desired_torque_last)) {
return false;
}
if ((chrysler_desired_torque_last < 0) && (steer <= chrysler_desired_torque_last)) {
return false;
}
}
if (steer < (chrysler_desired_torque_last - max_rate)) {
return false;
}
if (steer > (chrysler_desired_torque_last + max_rate)) {
return false;
}
chrysler_desired_torque_last = steer;
}
// 1 allows the message through
return true;
}
static int chrysler_tx_lin_hook(int lin_num, uint8_t *data, int len) {
// LIN is not used.
return false;
}
static void chrysler_init(int16_t param) {
controls_allowed = 0;
}
static int chrysler_fwd_hook(int bus_num, CAN_FIFOMailBox_TypeDef *to_fwd) {
return -1;
}
const safety_hooks chrysler_hooks = {
.init = chrysler_init,
.rx = chrysler_rx_hook,
.tx = chrysler_tx_hook,
.tx_lin = chrysler_tx_lin_hook,
.ignition = default_ign_hook,
.fwd = chrysler_fwd_hook,
};

7
python/__init__.py
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@ -105,7 +105,14 @@ class Panda(object):
SAFETY_NOOUTPUT = 0
SAFETY_HONDA = 1
SAFETY_TOYOTA = 2
SAFETY_GM = 3
SAFETY_HONDA_BOSCH = 4
SAFETY_FORD = 5
SAFETY_CADILLAC = 6
SAFETY_HYUNDAI = 7
SAFETY_TESLA = 8
SAFETY_CHRYSLER = 9
SAFETY_TOYOTA_IPAS = 0x1335
SAFETY_TOYOTA_NOLIMITS = 0x1336
SAFETY_ALLOUTPUT = 0x1337
SAFETY_ELM327 = 0xE327

6
tests/safety/libpandasafety_py.py
View File

@ -81,6 +81,12 @@ void set_hyundai_rt_torque_last(int t);
void toyota_ipas_rx_hook(CAN_FIFOMailBox_TypeDef *to_push);
int toyota_ipas_tx_hook(CAN_FIFOMailBox_TypeDef *to_send);
void init_tests_chrysler(void);
void chrysler_rx_hook(CAN_FIFOMailBox_TypeDef *to_push);
int chrysler_tx_hook(CAN_FIFOMailBox_TypeDef *to_send);
void chrysler_init(int16_t param);
void set_chrysler_desired_torque_last(int t);
""")
libpandasafety = ffi.dlopen(libpandasafety_fn)

8
tests/safety/test.c
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@ -121,6 +121,10 @@ void set_hyundai_desired_torque_last(int t){
hyundai_desired_torque_last = t;
}
void set_chrysler_desired_torque_last(int t){
chrysler_desired_torque_last = t;
}
int get_ego_speed(void){
return ego_speed;
}
@ -184,6 +188,10 @@ void init_tests_honda(void){
gas_prev = 0;
}
void init_tests_chrysler(void){
chrysler_desired_torque_last = 0;
set_timer(0);
}
void set_gmlan_digital_output(int to_set){
}

88
tests/safety/test_chrysler.py 100755
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@ -0,0 +1,88 @@
#!/usr/bin/env python2
import unittest
import numpy as np
import libpandasafety_py
class TestChryslerSafety(unittest.TestCase):
@classmethod
def setUp(cls):
cls.safety = libpandasafety_py.libpandasafety
cls.safety.chrysler_init(0)
cls.safety.init_tests_chrysler()
def _acc_msg(self, active):
to_send = libpandasafety_py.ffi.new('CAN_FIFOMailBox_TypeDef *')
to_send[0].RIR = 0x1f4 << 21
to_send[0].RDLR = 0xfe3fff1f if active else 0xfe0fff1f
return to_send
def _brake_msg(self, brake):
to_send = libpandasafety_py.ffi.new('CAN_FIFOMailBox_TypeDef *')
to_send[0].RIR = 0x140 << 21
to_send[0].RDLR = 0x485 if brake else 0x480
return to_send
def _steer_msg(self, angle):
to_send = libpandasafety_py.ffi.new('CAN_FIFOMailBox_TypeDef *')
to_send[0].RIR = 0x292 << 21
c_angle = (1024 + angle)
to_send[0].RDLR = 0x10 | ((c_angle & 0xf00) >> 8) | ((c_angle & 0xff) << 8)
return to_send
def test_default_controls_not_allowed(self):
self.assertFalse(self.safety.get_controls_allowed())
def test_acc_enables_controls(self):
self.safety.set_controls_allowed(0)
self.safety.chrysler_rx_hook(self._acc_msg(0))
self.assertFalse(self.safety.get_controls_allowed())
self.safety.chrysler_rx_hook(self._acc_msg(1))
self.assertTrue(self.safety.get_controls_allowed())
self.safety.chrysler_rx_hook(self._acc_msg(0))
self.assertFalse(self.safety.get_controls_allowed())
def test_disengage_on_brake(self):
self.safety.set_controls_allowed(1)
self.safety.chrysler_rx_hook(self._brake_msg(0))
self.assertTrue(self.safety.get_controls_allowed())
self.safety.chrysler_rx_hook(self._brake_msg(1))
self.assertFalse(self.safety.get_controls_allowed())
def test_steer_calculation(self):
self.assertEqual(0x14, self._steer_msg(0)[0].RDLR) # straight, no steering
def test_steer_tx(self):
self.safety.set_controls_allowed(1)
self.assertTrue(self.safety.chrysler_tx_hook(self._steer_msg(0)))
self.safety.set_chrysler_desired_torque_last(227)
self.assertTrue(self.safety.chrysler_tx_hook(self._steer_msg(230)))
self.assertFalse(self.safety.chrysler_tx_hook(self._steer_msg(231)))
self.safety.set_chrysler_desired_torque_last(-227)
self.assertFalse(self.safety.chrysler_tx_hook(self._steer_msg(-231)))
self.assertTrue(self.safety.chrysler_tx_hook(self._steer_msg(-230)))
# verify max change
self.safety.set_chrysler_desired_torque_last(0)
self.assertFalse(self.safety.chrysler_tx_hook(self._steer_msg(230)))
self.safety.set_controls_allowed(0)
self.safety.set_chrysler_desired_torque_last(0)
self.assertFalse(self.safety.chrysler_tx_hook(self._steer_msg(3)))
self.assertTrue(self.safety.chrysler_tx_hook(self._steer_msg(0)))
# verify when controls not allowed we can still go back towards 0
self.safety.set_chrysler_desired_torque_last(10)
self.assertFalse(self.safety.chrysler_tx_hook(self._steer_msg(10)))
self.assertFalse(self.safety.chrysler_tx_hook(self._steer_msg(11)))
self.assertTrue(self.safety.chrysler_tx_hook(self._steer_msg(7)))
self.assertTrue(self.safety.chrysler_tx_hook(self._steer_msg(4)))
self.assertTrue(self.safety.chrysler_tx_hook(self._steer_msg(0)))
self.safety.set_chrysler_desired_torque_last(-10)
self.assertFalse(self.safety.chrysler_tx_hook(self._steer_msg(-10)))
self.assertFalse(self.safety.chrysler_tx_hook(self._steer_msg(-11)))
self.assertTrue(self.safety.chrysler_tx_hook(self._steer_msg(-7)))
self.assertTrue(self.safety.chrysler_tx_hook(self._steer_msg(-4)))
self.assertTrue(self.safety.chrysler_tx_hook(self._steer_msg(0)))
if __name__ == "__main__":
unittest.main()