// /////////////////////// //
// Uno (STM32F4) + Harness //
// /////////////////////// //
void uno_enable_can_transceiver ( uint8_t transceiver , bool enabled ) {
switch ( transceiver ) {
case 1U :
set_gpio_output ( GPIOC , 1 , ! enabled ) ;
break ;
case 2U :
set_gpio_output ( GPIOC , 13 , ! enabled ) ;
break ;
case 3U :
set_gpio_output ( GPIOA , 0 , ! enabled ) ;
break ;
case 4U :
set_gpio_output ( GPIOB , 10 , ! enabled ) ;
break ;
default :
print ( " Invalid CAN transceiver ( " ) ; puth ( transceiver ) ; print ( " ): enabling failed \n " ) ;
break ;
}
}
void uno_enable_can_transceivers ( bool enabled ) {
for ( uint8_t i = 1U ; i < = 4U ; i + + ) {
// Leave main CAN always on for CAN-based ignition detection
if ( ( harness . status = = HARNESS_STATUS_FLIPPED ) ? ( i = = 3U ) : ( i = = 1U ) ) {
uno_enable_can_transceiver ( i , true ) ;
} else {
uno_enable_can_transceiver ( i , enabled ) ;
}
}
}
void uno_set_led ( uint8_t color , bool enabled ) {
switch ( color ) {
case LED_RED :
set_gpio_output ( GPIOC , 9 , ! enabled ) ;
break ;
case LED_GREEN :
set_gpio_output ( GPIOC , 7 , ! enabled ) ;
break ;
case LED_BLUE :
set_gpio_output ( GPIOC , 6 , ! enabled ) ;
break ;
default :
break ;
}
}
void uno_set_bootkick ( BootState state ) {
if ( state = = BOOT_BOOTKICK ) {
set_gpio_output ( GPIOB , 14 , false ) ;
} else {
// We want the pin to be floating, not forced high!
set_gpio_mode ( GPIOB , 14 , MODE_INPUT ) ;
}
}
void uno_set_can_mode ( uint8_t mode ) {
uno_enable_can_transceiver ( 2U , false ) ;
uno_enable_can_transceiver ( 4U , false ) ;
switch ( mode ) {
case CAN_MODE_NORMAL :
case CAN_MODE_OBD_CAN2 :
if ( ( bool ) ( mode = = CAN_MODE_NORMAL ) ! = ( bool ) ( harness . status = = HARNESS_STATUS_FLIPPED ) ) {
// B12,B13: disable OBD mode
set_gpio_mode ( GPIOB , 12 , MODE_INPUT ) ;
set_gpio_mode ( GPIOB , 13 , MODE_INPUT ) ;
// B5,B6: normal CAN2 mode
set_gpio_alternate ( GPIOB , 5 , GPIO_AF9_CAN2 ) ;
set_gpio_alternate ( GPIOB , 6 , GPIO_AF9_CAN2 ) ;
uno_enable_can_transceiver ( 2U , true ) ;
} else {
// B5,B6: disable normal CAN2 mode
set_gpio_mode ( GPIOB , 5 , MODE_INPUT ) ;
set_gpio_mode ( GPIOB , 6 , MODE_INPUT ) ;
// B12,B13: OBD mode
set_gpio_alternate ( GPIOB , 12 , GPIO_AF9_CAN2 ) ;
set_gpio_alternate ( GPIOB , 13 , GPIO_AF9_CAN2 ) ;
uno_enable_can_transceiver ( 4U , true ) ;
}
break ;
default :
print ( " Tried to set unsupported CAN mode: " ) ; puth ( mode ) ; print ( " \n " ) ;
break ;
}
}
bool uno_check_ignition ( void ) {
// ignition is checked through harness
return harness_check_ignition ( ) ;
}
void uno_set_usb_switch ( bool phone ) {
set_gpio_output ( GPIOB , 3 , phone ) ;
}
void uno_set_ir_power ( uint8_t percentage ) {
pwm_set ( TIM4 , 2 , percentage ) ;
}
void uno_set_fan_enabled ( bool enabled ) {
set_gpio_output ( GPIOA , 1 , enabled ) ;
}
void uno_init ( void ) {
common_init_gpio ( ) ;
// A8,A15: normal CAN3 mode
set_gpio_alternate ( GPIOA , 8 , GPIO_AF11_CAN3 ) ;
set_gpio_alternate ( GPIOA , 15 , GPIO_AF11_CAN3 ) ;
// C0: OBD_SBU1 (orientation detection)
// C3: OBD_SBU2 (orientation detection)
set_gpio_mode ( GPIOC , 0 , MODE_ANALOG ) ;
set_gpio_mode ( GPIOC , 3 , MODE_ANALOG ) ;
// GPS off
set_gpio_output ( GPIOB , 1 , 0 ) ;
set_gpio_output ( GPIOC , 5 , 0 ) ;
set_gpio_output ( GPIOC , 12 , 0 ) ;
// C10: OBD_SBU1_RELAY (harness relay driving output)
// C11: OBD_SBU2_RELAY (harness relay driving output)
set_gpio_mode ( GPIOC , 10 , MODE_OUTPUT ) ;
set_gpio_mode ( GPIOC , 11 , MODE_OUTPUT ) ;
set_gpio_output_type ( GPIOC , 10 , OUTPUT_TYPE_OPEN_DRAIN ) ;
set_gpio_output_type ( GPIOC , 11 , OUTPUT_TYPE_OPEN_DRAIN ) ;
set_gpio_output ( GPIOC , 10 , 1 ) ;
set_gpio_output ( GPIOC , 11 , 1 ) ;
// C8: FAN PWM aka TIM3_CH3
set_gpio_alternate ( GPIOC , 8 , GPIO_AF2_TIM3 ) ;
// Turn on phone regulator
set_gpio_output ( GPIOB , 4 , true ) ;
// Initialize IR PWM and set to 0%
set_gpio_alternate ( GPIOB , 7 , GPIO_AF2_TIM4 ) ;
pwm_init ( TIM4 , 2 ) ;
uno_set_ir_power ( 0U ) ;
// Initialize harness
harness_init ( ) ;
// Initialize RTC
rtc_init ( ) ;
// Enable CAN transceivers
uno_enable_can_transceivers ( true ) ;
// Disable LEDs
uno_set_led ( LED_RED , false ) ;
uno_set_led ( LED_GREEN , false ) ;
uno_set_led ( LED_BLUE , false ) ;
// Set normal CAN mode
uno_set_can_mode ( CAN_MODE_NORMAL ) ;
// change CAN mapping when flipped
if ( harness . status = = HARNESS_STATUS_FLIPPED ) {
can_flip_buses ( 0 , 2 ) ;
}
// Switch to phone usb mode if harness connection is powered by less than 7V
if ( white_read_voltage_mV ( ) < 7000U ) {
uno_set_usb_switch ( true ) ;
} else {
uno_set_usb_switch ( false ) ;
}
// Bootkick phone
uno_set_bootkick ( BOOT_BOOTKICK ) ;
}
void uno_init_bootloader ( void ) {
// GPS off
set_gpio_output ( GPIOB , 1 , 0 ) ;
set_gpio_output ( GPIOC , 5 , 0 ) ;
set_gpio_output ( GPIOC , 12 , 0 ) ;
}
const harness_configuration uno_harness_config = {
. has_harness = true ,
. GPIO_SBU1 = GPIOC ,
. GPIO_SBU2 = GPIOC ,
. GPIO_relay_SBU1 = GPIOC ,
. GPIO_relay_SBU2 = GPIOC ,
. pin_SBU1 = 0 ,
. pin_SBU2 = 3 ,
. pin_relay_SBU1 = 10 ,
. pin_relay_SBU2 = 11 ,
. adc_channel_SBU1 = 10 ,
. adc_channel_SBU2 = 13
} ;
const board board_uno = {
. harness_config = & uno_harness_config ,
. has_obd = true ,
. has_spi = false ,
. has_canfd = false ,
. has_rtc_battery = true ,
. fan_max_rpm = 5100U ,
. avdd_mV = 3300U ,
. fan_stall_recovery = false ,
. fan_enable_cooldown_time = 0U ,
. init = uno_init ,
. init_bootloader = uno_init_bootloader ,
. enable_can_transceiver = uno_enable_can_transceiver ,
. enable_can_transceivers = uno_enable_can_transceivers ,
. set_led = uno_set_led ,
. set_can_mode = uno_set_can_mode ,
. check_ignition = uno_check_ignition ,
. read_voltage_mV = white_read_voltage_mV ,
. read_current_mA = unused_read_current ,
. set_fan_enabled = uno_set_fan_enabled ,
. set_ir_power = uno_set_ir_power ,
. set_siren = unused_set_siren ,
. set_bootkick = uno_set_bootkick ,
. read_som_gpio = unused_read_som_gpio
} ;
