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|
//go:build stm32 && stm32f103
package machine
// Peripheral abstraction layer for the stm32.
import (
"device/stm32"
"runtime/interrupt"
"runtime/volatile"
"unsafe"
)
func CPUFrequency() uint32 {
return 72000000
}
var deviceIDAddr = []uintptr{0x1FFFF7E8, 0x1FFFF7EC, 0x1FFFF7F0}
// Internal use: configured speed of the APB1 and APB2 timers, this should be kept
// in sync with any changes to runtime package which configures the oscillators
// and clock frequencies
const APB1_TIM_FREQ = 72e6 // 72MHz
const APB2_TIM_FREQ = 72e6 // 72MHz
const (
PinInput PinMode = 0 // Input mode
PinOutput10MHz PinMode = 1 // Output mode, max speed 10MHz
PinOutput2MHz PinMode = 2 // Output mode, max speed 2MHz
PinOutput50MHz PinMode = 3 // Output mode, max speed 50MHz
PinOutput PinMode = PinOutput2MHz
PinInputModeAnalog PinMode = 0 // Input analog mode
PinInputModeFloating PinMode = 4 // Input floating mode
PinInputModePullUpDown PinMode = 8 // Input pull up/down mode
PinInputModeReserved PinMode = 12 // Input mode (reserved)
PinOutputModeGPPushPull PinMode = 0 // Output mode general purpose push/pull
PinOutputModeGPOpenDrain PinMode = 4 // Output mode general purpose open drain
PinOutputModeAltPushPull PinMode = 8 // Output mode alt. purpose push/pull
PinOutputModeAltOpenDrain PinMode = 12 // Output mode alt. purpose open drain
// Pull-up vs Pull down is not part of the CNF0 / CNF1 bits, but is
// controlled by PxODR. Encoded using the 'spare' bit 5.
PinInputPulldown PinMode = PinInputModePullUpDown
PinInputPullup PinMode = PinInputModePullUpDown | 0x10
)
// Pin constants for all stm32f103 package sizes
const (
PA0 = portA + 0
PA1 = portA + 1
PA2 = portA + 2
PA3 = portA + 3
PA4 = portA + 4
PA5 = portA + 5
PA6 = portA + 6
PA7 = portA + 7
PA8 = portA + 8
PA9 = portA + 9
PA10 = portA + 10
PA11 = portA + 11
PA12 = portA + 12
PA13 = portA + 13
PA14 = portA + 14
PA15 = portA + 15
PB0 = portB + 0
PB1 = portB + 1
PB2 = portB + 2
PB3 = portB + 3
PB4 = portB + 4
PB5 = portB + 5
PB6 = portB + 6
PB7 = portB + 7
PB8 = portB + 8
PB9 = portB + 9
PB10 = portB + 10
PB11 = portB + 11
PB12 = portB + 12
PB13 = portB + 13
PB14 = portB + 14
PB15 = portB + 15
PC0 = portC + 0
PC1 = portC + 1
PC2 = portC + 2
PC3 = portC + 3
PC4 = portC + 4
PC5 = portC + 5
PC6 = portC + 6
PC7 = portC + 7
PC8 = portC + 8
PC9 = portC + 9
PC10 = portC + 10
PC11 = portC + 11
PC12 = portC + 12
PC13 = portC + 13
PC14 = portC + 14
PC15 = portC + 15
PD0 = portD + 0
PD1 = portD + 1
PD2 = portD + 2
PD3 = portD + 3
PD4 = portD + 4
PD5 = portD + 5
PD6 = portD + 6
PD7 = portD + 7
PD8 = portD + 8
PD9 = portD + 9
PD10 = portD + 10
PD11 = portD + 11
PD12 = portD + 12
PD13 = portD + 13
PD14 = portD + 14
PD15 = portD + 15
PE0 = portE + 0
PE1 = portE + 1
PE2 = portE + 2
PE3 = portE + 3
PE4 = portE + 4
PE5 = portE + 5
PE6 = portE + 6
PE7 = portE + 7
PE8 = portE + 8
PE9 = portE + 9
PE10 = portE + 10
PE11 = portE + 11
PE12 = portE + 12
PE13 = portE + 13
PE14 = portE + 14
PE15 = portE + 15
PF0 = portF + 0
PF1 = portF + 1
PF2 = portF + 2
PF3 = portF + 3
PF4 = portF + 4
PF5 = portF + 5
PF6 = portF + 6
PF7 = portF + 7
PF8 = portF + 8
PF9 = portF + 9
PF10 = portF + 10
PF11 = portF + 11
PF12 = portF + 12
PF13 = portF + 13
PF14 = portF + 14
PF15 = portF + 15
)
// Configure this pin with the given I/O settings.
// stm32f1xx uses different technique for setting the GPIO pins than the stm32f407
func (p Pin) Configure(config PinConfig) {
// Configure the GPIO pin.
p.enableClock()
port := p.getPort()
pin := uint8(p) % 16
pos := (pin % 8) * 4
if pin < 8 {
port.CRL.ReplaceBits(uint32(config.Mode), 0xf, pos)
} else {
port.CRH.ReplaceBits(uint32(config.Mode), 0xf, pos)
}
// If configured for input pull-up or pull-down, set ODR
// for desired pull-up or pull-down.
if (config.Mode & 0xf) == PinInputModePullUpDown {
var pullup uint32
if config.Mode == PinInputPullup {
pullup = 1
}
port.ODR.ReplaceBits(pullup, 0x1, pin)
}
}
func (p Pin) getPort() *stm32.GPIO_Type {
switch p / 16 {
case 0:
return stm32.GPIOA
case 1:
return stm32.GPIOB
case 2:
return stm32.GPIOC
case 3:
return stm32.GPIOD
case 4:
return stm32.GPIOE
case 5:
return stm32.GPIOF
case 6:
return stm32.GPIOG
default:
panic("machine: unknown port")
}
}
// enableClock enables the clock for this desired GPIO port.
func (p Pin) enableClock() {
switch p / 16 {
case 0:
stm32.RCC.APB2ENR.SetBits(stm32.RCC_APB2ENR_IOPAEN)
case 1:
stm32.RCC.APB2ENR.SetBits(stm32.RCC_APB2ENR_IOPBEN)
case 2:
stm32.RCC.APB2ENR.SetBits(stm32.RCC_APB2ENR_IOPCEN)
case 3:
stm32.RCC.APB2ENR.SetBits(stm32.RCC_APB2ENR_IOPDEN)
case 4:
stm32.RCC.APB2ENR.SetBits(stm32.RCC_APB2ENR_IOPEEN)
case 5:
stm32.RCC.APB2ENR.SetBits(stm32.RCC_APB2ENR_IOPFEN)
case 6:
stm32.RCC.APB2ENR.SetBits(stm32.RCC_APB2ENR_IOPGEN)
default:
panic("machine: unknown port")
}
}
// Enable peripheral clock. Expand to include all the desired peripherals
func enableAltFuncClock(bus unsafe.Pointer) {
if bus == unsafe.Pointer(stm32.USART1) {
stm32.RCC.APB2ENR.SetBits(stm32.RCC_APB2ENR_USART1EN)
} else if bus == unsafe.Pointer(stm32.USART2) {
stm32.RCC.APB1ENR.SetBits(stm32.RCC_APB1ENR_USART2EN)
} else if bus == unsafe.Pointer(stm32.I2C1) {
stm32.RCC.APB1ENR.SetBits(stm32.RCC_APB1ENR_I2C1EN)
} else if bus == unsafe.Pointer(stm32.SPI1) {
stm32.RCC.APB2ENR.SetBits(stm32.RCC_APB2ENR_SPI1EN)
}
}
func (p Pin) registerInterrupt() interrupt.Interrupt {
pin := uint8(p) % 16
switch pin {
case 0:
return interrupt.New(stm32.IRQ_EXTI0, func(interrupt.Interrupt) { handlePinInterrupt(0) })
case 1:
return interrupt.New(stm32.IRQ_EXTI1, func(interrupt.Interrupt) { handlePinInterrupt(1) })
case 2:
return interrupt.New(stm32.IRQ_EXTI2, func(interrupt.Interrupt) { handlePinInterrupt(2) })
case 3:
return interrupt.New(stm32.IRQ_EXTI3, func(interrupt.Interrupt) { handlePinInterrupt(3) })
case 4:
return interrupt.New(stm32.IRQ_EXTI4, func(interrupt.Interrupt) { handlePinInterrupt(4) })
case 5:
return interrupt.New(stm32.IRQ_EXTI9_5, func(interrupt.Interrupt) { handlePinInterrupt(5) })
case 6:
return interrupt.New(stm32.IRQ_EXTI9_5, func(interrupt.Interrupt) { handlePinInterrupt(6) })
case 7:
return interrupt.New(stm32.IRQ_EXTI9_5, func(interrupt.Interrupt) { handlePinInterrupt(7) })
case 8:
return interrupt.New(stm32.IRQ_EXTI9_5, func(interrupt.Interrupt) { handlePinInterrupt(8) })
case 9:
return interrupt.New(stm32.IRQ_EXTI9_5, func(interrupt.Interrupt) { handlePinInterrupt(9) })
case 10:
return interrupt.New(stm32.IRQ_EXTI15_10, func(interrupt.Interrupt) { handlePinInterrupt(10) })
case 11:
return interrupt.New(stm32.IRQ_EXTI15_10, func(interrupt.Interrupt) { handlePinInterrupt(11) })
case 12:
return interrupt.New(stm32.IRQ_EXTI15_10, func(interrupt.Interrupt) { handlePinInterrupt(12) })
case 13:
return interrupt.New(stm32.IRQ_EXTI15_10, func(interrupt.Interrupt) { handlePinInterrupt(13) })
case 14:
return interrupt.New(stm32.IRQ_EXTI15_10, func(interrupt.Interrupt) { handlePinInterrupt(14) })
case 15:
return interrupt.New(stm32.IRQ_EXTI15_10, func(interrupt.Interrupt) { handlePinInterrupt(15) })
}
return interrupt.Interrupt{}
}
//---------- UART related code
// Configure the TX and RX pins
func (uart *UART) configurePins(config UARTConfig) {
// pins
switch config.TX {
case UART_ALT_TX_PIN:
// use alternate TX/RX pins via AFIO mapping
stm32.RCC.APB2ENR.SetBits(stm32.RCC_APB2ENR_AFIOEN)
if uart.Bus == stm32.USART1 {
stm32.AFIO.MAPR.SetBits(stm32.AFIO_MAPR_USART1_REMAP)
} else if uart.Bus == stm32.USART2 {
stm32.AFIO.MAPR.SetBits(stm32.AFIO_MAPR_USART2_REMAP)
}
default:
// use standard TX/RX pins PA9 and PA10
}
config.TX.Configure(PinConfig{Mode: PinOutput50MHz + PinOutputModeAltPushPull})
config.RX.Configure(PinConfig{Mode: PinInputModeFloating})
}
// Determine the divisor for USARTs to get the given baudrate
func (uart *UART) getBaudRateDivisor(br uint32) uint32 {
// Note: PCLK2 (from APB2) used for USART1 and PCLK1 for USART2, 3, 4, 5
var divider uint32
if uart.Bus == stm32.USART1 {
// first divide by PCLK2 prescaler (div 1) and then desired baudrate
divider = CPUFrequency() / br
} else {
// first divide by PCLK1 prescaler (div 2) and then desired baudrate
divider = CPUFrequency() / 2 / br
}
return divider
}
// Register names vary by ST processor, these are for STM F103xx
func (uart *UART) setRegisters() {
uart.rxReg = &uart.Bus.DR
uart.txReg = &uart.Bus.DR
uart.statusReg = &uart.Bus.SR
uart.txEmptyFlag = stm32.USART_SR_TXE
}
//---------- SPI related types and code
type SPI struct {
Bus *stm32.SPI_Type
}
// There are 3 SPI interfaces on the STM32F103xx.
// Since the first interface is named SPI1, both SPI0 and SPI1 refer to SPI1.
// TODO: implement SPI2 and SPI3.
var (
SPI1 = SPI{Bus: stm32.SPI1}
SPI0 = SPI1
)
func (spi SPI) config8Bits() {
// no-op on this series
}
// Set baud rate for SPI
func (spi SPI) getBaudRate(config SPIConfig) uint32 {
var conf uint32
// set frequency dependent on PCLK2 prescaler (div 1)
switch {
case config.Frequency < 125000:
// Note: impossible to achieve lower frequency with current PCLK2!
conf |= stm32.SPI_CR1_BR_Div256
case config.Frequency < 250000:
conf |= stm32.SPI_CR1_BR_Div256
case config.Frequency < 500000:
conf |= stm32.SPI_CR1_BR_Div128
case config.Frequency < 1000000:
conf |= stm32.SPI_CR1_BR_Div64
case config.Frequency < 2000000:
conf |= stm32.SPI_CR1_BR_Div32
case config.Frequency < 4000000:
conf |= stm32.SPI_CR1_BR_Div16
default:
// When its bigger than Div16, just round to the maximum frequency.
conf |= stm32.SPI_CR1_BR_Div8
}
return conf << stm32.SPI_CR1_BR_Pos
}
// Configure SPI pins for input output and clock
func (spi SPI) configurePins(config SPIConfig) {
config.SCK.Configure(PinConfig{Mode: PinOutput50MHz + PinOutputModeAltPushPull})
config.SDO.Configure(PinConfig{Mode: PinOutput50MHz + PinOutputModeAltPushPull})
config.SDI.Configure(PinConfig{Mode: PinInputModeFloating})
}
//---------- I2C related types and code
// There are 2 I2C interfaces on the STM32F103xx.
// Since the first interface is named I2C1, both I2C0 and I2C1 refer to I2C1.
// TODO: implement I2C2.
type I2C struct {
Bus *stm32.I2C_Type
}
var (
I2C1 = &I2C{Bus: stm32.I2C1}
I2C0 = I2C1
)
func (i2c *I2C) configurePins(config I2CConfig) {
if config.SDA == PB9 {
// use alternate I2C1 pins PB8/PB9 via AFIO mapping
stm32.RCC.APB2ENR.SetBits(stm32.RCC_APB2ENR_AFIOEN)
stm32.AFIO.MAPR.SetBits(stm32.AFIO_MAPR_I2C1_REMAP)
}
config.SDA.Configure(PinConfig{Mode: PinOutput50MHz + PinOutputModeAltOpenDrain})
config.SCL.Configure(PinConfig{Mode: PinOutput50MHz + PinOutputModeAltOpenDrain})
}
func (i2c *I2C) getFreqRange(config I2CConfig) uint32 {
// pclk1 clock speed is main frequency divided by PCLK1 prescaler (div 2)
pclk1 := CPUFrequency() / 2
// set frequency range to PCLK1 clock speed in MHz
// aka setting the value 36 means to use 36 MHz clock
return pclk1 / 1000000
}
func (i2c *I2C) getRiseTime(config I2CConfig) uint32 {
// These bits must be programmed with the maximum SCL rise time given in the
// I2C bus specification, incremented by 1.
// For instance: in Sm mode, the maximum allowed SCL rise time is 1000 ns.
// If, in the I2C_CR2 register, the value of FREQ[5:0] bits is equal to 0x08
// and PCLK1 = 125 ns, therefore the TRISE[5:0] bits must be programmed with
// 09h (1000 ns / 125 ns = 8 + 1)
freqRange := i2c.getFreqRange(config)
if config.Frequency > 100000 {
// fast mode (Fm) adjustment
freqRange *= 300
freqRange /= 1000
}
return (freqRange + 1) << stm32.I2C_TRISE_TRISE_Pos
}
func (i2c *I2C) getSpeed(config I2CConfig) uint32 {
ccr := func(pclk uint32, freq uint32, coeff uint32) uint32 {
return (((pclk - 1) / (freq * coeff)) + 1) & stm32.I2C_CCR_CCR_Msk
}
sm := func(pclk uint32, freq uint32) uint32 { // standard mode (Sm)
if s := ccr(pclk, freq, 2); s < 4 {
return 4
} else {
return s
}
}
fm := func(pclk uint32, freq uint32, duty uint8) uint32 { // fast mode (Fm)
if duty == DutyCycle2 {
return ccr(pclk, freq, 3)
} else {
return ccr(pclk, freq, 25) | stm32.I2C_CCR_DUTY
}
}
clock := CPUFrequency() / 2
if config.Frequency <= 100000 {
return sm(clock, config.Frequency)
} else {
s := fm(clock, config.Frequency, config.DutyCycle)
if (s & stm32.I2C_CCR_CCR_Msk) == 0 {
return 1
} else {
return s | stm32.I2C_CCR_F_S
}
}
}
//---------- Timer related code
// For Pin Mappings see RM0008, pg 179
// https://www.st.com/resource/en/reference_manual/cd00171190-stm32f101xx-stm32f102xx-stm32f103xx-stm32f105xx-and-stm32f107xx-advanced-arm-based-32-bit-mcus-stmicroelectronics.pdf
//
// Note: for STM32F1 series the pin mapping is done 'per timer' not per channel,
// not all channels on a timer have the same degrees of flexibility, and some
// combinations are only available on some packages - so care is needed at app
// level to ensure valid combinations of pins are used.
//
var (
TIM1 = TIM{
EnableRegister: &stm32.RCC.APB2ENR,
EnableFlag: stm32.RCC_APB2ENR_TIM1EN,
Device: stm32.TIM1,
Channels: [4]TimerChannel{
TimerChannel{Pins: []PinFunction{{PE9, 0b11}, {PA8, 0b00}}},
TimerChannel{Pins: []PinFunction{{PE11, 0b11}, {PA9, 0b00}}},
TimerChannel{Pins: []PinFunction{{PE13, 0b11}, {PA10, 0b00}}},
TimerChannel{Pins: []PinFunction{{PE14, 0b11}, {PA11, 0b00}}},
},
busFreq: APB2_TIM_FREQ,
}
TIM2 = TIM{
EnableRegister: &stm32.RCC.APB1ENR,
EnableFlag: stm32.RCC_APB1ENR_TIM2EN,
Device: stm32.TIM2,
Channels: [4]TimerChannel{
TimerChannel{Pins: []PinFunction{{PA0, 0b00}, {PA15, 0b01}}},
TimerChannel{Pins: []PinFunction{{PA1, 0b00}, {PB3, 0b01}}},
TimerChannel{Pins: []PinFunction{{PA2, 0b00}, {PB10, 0b10}}},
TimerChannel{Pins: []PinFunction{{PA3, 0b00}, {PB11, 0b10}}},
},
busFreq: APB1_TIM_FREQ,
}
TIM3 = TIM{
EnableRegister: &stm32.RCC.APB1ENR,
EnableFlag: stm32.RCC_APB1ENR_TIM3EN,
Device: stm32.TIM3,
Channels: [4]TimerChannel{
TimerChannel{Pins: []PinFunction{{PA6, 0b00}, {PC6, 0b11}, {PB4, 0b10}}},
TimerChannel{Pins: []PinFunction{{PA7, 0b00}, {PC7, 0b11}, {PB5, 0b10}}},
TimerChannel{Pins: []PinFunction{{PB0, 0b00}, {PC8, 0b11}}},
TimerChannel{Pins: []PinFunction{{PB1, 0b00}, {PC9, 0b11}}},
},
busFreq: APB1_TIM_FREQ,
}
TIM4 = TIM{
EnableRegister: &stm32.RCC.APB1ENR,
EnableFlag: stm32.RCC_APB1ENR_TIM4EN,
Device: stm32.TIM4,
Channels: [4]TimerChannel{
TimerChannel{Pins: []PinFunction{{PD12, 0b1}, {PB6, 0}}},
TimerChannel{Pins: []PinFunction{{PD13, 0b1}, {PB7, 0}}},
TimerChannel{Pins: []PinFunction{{PD14, 0b1}, {PB8, 0}}},
TimerChannel{Pins: []PinFunction{{PD15, 0b1}, {PB9, 0}}},
},
busFreq: APB1_TIM_FREQ,
}
TIM5 = TIM{
EnableRegister: &stm32.RCC.APB1ENR,
EnableFlag: stm32.RCC_APB1ENR_TIM5EN,
Device: stm32.TIM5,
Channels: [4]TimerChannel{
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{{PA3, 0b0}}},
},
busFreq: APB1_TIM_FREQ,
}
TIM6 = TIM{
EnableRegister: &stm32.RCC.APB1ENR,
EnableFlag: stm32.RCC_APB1ENR_TIM6EN,
Device: stm32.TIM6,
Channels: [4]TimerChannel{
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
},
busFreq: APB1_TIM_FREQ,
}
TIM7 = TIM{
EnableRegister: &stm32.RCC.APB1ENR,
EnableFlag: stm32.RCC_APB1ENR_TIM7EN,
Device: stm32.TIM7,
Channels: [4]TimerChannel{
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
},
busFreq: APB1_TIM_FREQ,
}
TIM8 = TIM{
EnableRegister: &stm32.RCC.APB2ENR,
EnableFlag: stm32.RCC_APB2ENR_TIM8EN,
Device: stm32.TIM8,
Channels: [4]TimerChannel{
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
},
busFreq: APB2_TIM_FREQ,
}
TIM9 = TIM{
EnableRegister: &stm32.RCC.APB2ENR,
EnableFlag: stm32.RCC_APB2ENR_TIM9EN,
Device: stm32.TIM9,
Channels: [4]TimerChannel{
TimerChannel{Pins: []PinFunction{{PA2, 0b0}, {PE5, 0b1}}},
TimerChannel{Pins: []PinFunction{{PA3, 0b0}, {PE6, 0b1}}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
},
busFreq: APB2_TIM_FREQ,
}
TIM10 = TIM{
EnableRegister: &stm32.RCC.APB2ENR,
EnableFlag: stm32.RCC_APB2ENR_TIM10EN,
Device: stm32.TIM10,
Channels: [4]TimerChannel{
TimerChannel{Pins: []PinFunction{{PB8, 0b0}, {PF6, 0b1}}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
},
busFreq: APB2_TIM_FREQ,
}
TIM11 = TIM{
EnableRegister: &stm32.RCC.APB2ENR,
EnableFlag: stm32.RCC_APB2ENR_TIM11EN,
Device: stm32.TIM11,
Channels: [4]TimerChannel{
TimerChannel{Pins: []PinFunction{{PB9, 0b0}, {PF7, 0b1}}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
},
busFreq: APB2_TIM_FREQ,
}
TIM12 = TIM{
EnableRegister: &stm32.RCC.APB1ENR,
EnableFlag: stm32.RCC_APB1ENR_TIM12EN,
Device: stm32.TIM12,
Channels: [4]TimerChannel{
TimerChannel{Pins: []PinFunction{{}}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
},
busFreq: APB1_TIM_FREQ,
}
TIM13 = TIM{
EnableRegister: &stm32.RCC.APB1ENR,
EnableFlag: stm32.RCC_APB1ENR_TIM13EN,
Device: stm32.TIM13,
Channels: [4]TimerChannel{
TimerChannel{Pins: []PinFunction{{PA6, 0b0}, {PF8, 0b1}}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
},
busFreq: APB1_TIM_FREQ,
}
TIM14 = TIM{
EnableRegister: &stm32.RCC.APB1ENR,
EnableFlag: stm32.RCC_APB1ENR_TIM14EN,
Device: stm32.TIM14,
Channels: [4]TimerChannel{
TimerChannel{Pins: []PinFunction{{PA7, 0b0}, {PF9, 0b1}}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
TimerChannel{Pins: []PinFunction{}},
},
busFreq: APB1_TIM_FREQ,
}
)
func (t *TIM) registerUPInterrupt() interrupt.Interrupt {
switch t {
case &TIM1:
return interrupt.New(stm32.IRQ_TIM1_UP, TIM1.handleUPInterrupt)
case &TIM2:
return interrupt.New(stm32.IRQ_TIM2, TIM2.handleUPInterrupt)
case &TIM3:
return interrupt.New(stm32.IRQ_TIM3, TIM3.handleUPInterrupt)
case &TIM4:
return interrupt.New(stm32.IRQ_TIM4, TIM4.handleUPInterrupt)
case &TIM5:
return interrupt.New(stm32.IRQ_TIM5, TIM5.handleUPInterrupt)
case &TIM6:
return interrupt.New(stm32.IRQ_TIM6, TIM6.handleUPInterrupt)
case &TIM7:
return interrupt.New(stm32.IRQ_TIM7, TIM7.handleUPInterrupt)
case &TIM8:
return interrupt.New(stm32.IRQ_TIM8_UP, TIM8.handleUPInterrupt)
}
return interrupt.Interrupt{}
}
func (t *TIM) registerOCInterrupt() interrupt.Interrupt {
switch t {
case &TIM1:
return interrupt.New(stm32.IRQ_TIM1_CC, TIM1.handleOCInterrupt)
case &TIM2:
return interrupt.New(stm32.IRQ_TIM2, TIM2.handleOCInterrupt)
case &TIM3:
return interrupt.New(stm32.IRQ_TIM3, TIM3.handleOCInterrupt)
case &TIM4:
return interrupt.New(stm32.IRQ_TIM4, TIM4.handleOCInterrupt)
case &TIM5:
return interrupt.New(stm32.IRQ_TIM5, TIM5.handleOCInterrupt)
case &TIM6:
return interrupt.New(stm32.IRQ_TIM6, TIM6.handleOCInterrupt)
case &TIM7:
return interrupt.New(stm32.IRQ_TIM7, TIM7.handleOCInterrupt)
case &TIM8:
return interrupt.New(stm32.IRQ_TIM8_CC, TIM8.handleOCInterrupt)
}
return interrupt.Interrupt{}
}
func (t *TIM) configurePin(channel uint8, pf PinFunction) {
remap := uint32(pf.AltFunc)
switch t {
case &TIM1:
stm32.AFIO.MAPR.ReplaceBits(remap<<stm32.AFIO_MAPR_TIM1_REMAP_Pos, stm32.AFIO_MAPR_TIM1_REMAP_Msk, 0)
case &TIM2:
stm32.AFIO.MAPR.ReplaceBits(remap<<stm32.AFIO_MAPR_TIM2_REMAP_Pos, stm32.AFIO_MAPR_TIM2_REMAP_Msk, 0)
case &TIM3:
stm32.AFIO.MAPR.ReplaceBits(remap<<stm32.AFIO_MAPR_TIM3_REMAP_Pos, stm32.AFIO_MAPR_TIM3_REMAP_Msk, 0)
case &TIM4:
stm32.AFIO.MAPR.ReplaceBits(remap<<stm32.AFIO_MAPR_TIM4_REMAP_Pos, stm32.AFIO_MAPR_TIM4_REMAP_Msk, 0)
case &TIM5:
stm32.AFIO.MAPR.ReplaceBits(remap<<stm32.AFIO_MAPR_TIM5CH4_IREMAP_Pos, stm32.AFIO_MAPR_TIM5CH4_IREMAP_Msk, 0)
case &TIM9:
stm32.AFIO.MAPR.ReplaceBits(remap<<stm32.AFIO_MAPR2_TIM9_REMAP_Pos, stm32.AFIO_MAPR2_TIM9_REMAP_Msk, 0)
case &TIM10:
stm32.AFIO.MAPR.ReplaceBits(remap<<stm32.AFIO_MAPR2_TIM10_REMAP_Pos, stm32.AFIO_MAPR2_TIM10_REMAP_Msk, 0)
case &TIM11:
stm32.AFIO.MAPR.ReplaceBits(remap<<stm32.AFIO_MAPR2_TIM11_REMAP_Pos, stm32.AFIO_MAPR2_TIM11_REMAP_Msk, 0)
case &TIM13:
stm32.AFIO.MAPR.ReplaceBits(remap<<stm32.AFIO_MAPR2_TIM13_REMAP_Pos, stm32.AFIO_MAPR2_TIM13_REMAP_Msk, 0)
case &TIM14:
stm32.AFIO.MAPR.ReplaceBits(remap<<stm32.AFIO_MAPR2_TIM14_REMAP_Pos, stm32.AFIO_MAPR2_TIM14_REMAP_Msk, 0)
}
pf.Pin.Configure(PinConfig{Mode: PinOutput + PinOutputModeAltPushPull})
}
func (t *TIM) enableMainOutput() {
t.Device.BDTR.SetBits(stm32.TIM_BDTR_MOE)
}
type arrtype = uint32
type arrRegType = volatile.Register32
const (
ARR_MAX = 0x10000
PSC_MAX = 0x10000
)
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