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|
//go:build sam && atsamd21
package machine
import (
"device/sam"
"machine/usb"
"runtime/interrupt"
"unsafe"
)
const (
// these are SAMD21 specific.
usb_DEVICE_PCKSIZE_BYTE_COUNT_Pos = 0
usb_DEVICE_PCKSIZE_BYTE_COUNT_Mask = 0x3FFF
usb_DEVICE_PCKSIZE_SIZE_Pos = 28
usb_DEVICE_PCKSIZE_SIZE_Mask = 0x7
usb_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Pos = 14
usb_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Mask = 0x3FFF
)
// Configure the USB peripheral. The config is here for compatibility with the UART interface.
func (dev *USBDevice) Configure(config UARTConfig) {
if dev.initcomplete {
return
}
// reset USB interface
sam.USB_DEVICE.CTRLA.SetBits(sam.USB_DEVICE_CTRLA_SWRST)
for sam.USB_DEVICE.SYNCBUSY.HasBits(sam.USB_DEVICE_SYNCBUSY_SWRST) ||
sam.USB_DEVICE.SYNCBUSY.HasBits(sam.USB_DEVICE_SYNCBUSY_ENABLE) {
}
sam.USB_DEVICE.DESCADD.Set(uint32(uintptr(unsafe.Pointer(&usbEndpointDescriptors))))
// configure pins
USBCDC_DM_PIN.Configure(PinConfig{Mode: PinCom})
USBCDC_DP_PIN.Configure(PinConfig{Mode: PinCom})
// performs pad calibration from store fuses
handlePadCalibration()
// run in standby
sam.USB_DEVICE.CTRLA.SetBits(sam.USB_DEVICE_CTRLA_RUNSTDBY)
// set full speed
sam.USB_DEVICE.CTRLB.SetBits(sam.USB_DEVICE_CTRLB_SPDCONF_FS << sam.USB_DEVICE_CTRLB_SPDCONF_Pos)
// attach
sam.USB_DEVICE.CTRLB.ClearBits(sam.USB_DEVICE_CTRLB_DETACH)
// enable interrupt for end of reset
sam.USB_DEVICE.INTENSET.SetBits(sam.USB_DEVICE_INTENSET_EORST)
// enable interrupt for start of frame
sam.USB_DEVICE.INTENSET.SetBits(sam.USB_DEVICE_INTENSET_SOF)
// enable USB
sam.USB_DEVICE.CTRLA.SetBits(sam.USB_DEVICE_CTRLA_ENABLE)
// enable IRQ
interrupt.New(sam.IRQ_USB, handleUSBIRQ).Enable()
dev.initcomplete = true
}
func handlePadCalibration() {
// Load Pad Calibration data from non-volatile memory
// This requires registers that are not included in the SVD file.
// Modeled after defines from samd21g18a.h and nvmctrl.h:
//
// #define NVMCTRL_OTP4 0x00806020
//
// #define USB_FUSES_TRANSN_ADDR (NVMCTRL_OTP4 + 4)
// #define USB_FUSES_TRANSN_Pos 13 /**< \brief (NVMCTRL_OTP4) USB pad Transn calibration */
// #define USB_FUSES_TRANSN_Msk (0x1Fu << USB_FUSES_TRANSN_Pos)
// #define USB_FUSES_TRANSN(value) ((USB_FUSES_TRANSN_Msk & ((value) << USB_FUSES_TRANSN_Pos)))
// #define USB_FUSES_TRANSP_ADDR (NVMCTRL_OTP4 + 4)
// #define USB_FUSES_TRANSP_Pos 18 /**< \brief (NVMCTRL_OTP4) USB pad Transp calibration */
// #define USB_FUSES_TRANSP_Msk (0x1Fu << USB_FUSES_TRANSP_Pos)
// #define USB_FUSES_TRANSP(value) ((USB_FUSES_TRANSP_Msk & ((value) << USB_FUSES_TRANSP_Pos)))
// #define USB_FUSES_TRIM_ADDR (NVMCTRL_OTP4 + 4)
// #define USB_FUSES_TRIM_Pos 23 /**< \brief (NVMCTRL_OTP4) USB pad Trim calibration */
// #define USB_FUSES_TRIM_Msk (0x7u << USB_FUSES_TRIM_Pos)
// #define USB_FUSES_TRIM(value) ((USB_FUSES_TRIM_Msk & ((value) << USB_FUSES_TRIM_Pos)))
//
fuse := *(*uint32)(unsafe.Pointer(uintptr(0x00806020) + 4))
calibTransN := uint16(fuse>>13) & uint16(0x1f)
calibTransP := uint16(fuse>>18) & uint16(0x1f)
calibTrim := uint16(fuse>>23) & uint16(0x7)
if calibTransN == 0x1f {
calibTransN = 5
}
sam.USB_DEVICE.PADCAL.SetBits(calibTransN << sam.USB_DEVICE_PADCAL_TRANSN_Pos)
if calibTransP == 0x1f {
calibTransP = 29
}
sam.USB_DEVICE.PADCAL.SetBits(calibTransP << sam.USB_DEVICE_PADCAL_TRANSP_Pos)
if calibTrim == 0x7 {
calibTrim = 3
}
sam.USB_DEVICE.PADCAL.SetBits(calibTrim << sam.USB_DEVICE_PADCAL_TRIM_Pos)
}
func handleUSBIRQ(intr interrupt.Interrupt) {
// reset all interrupt flags
flags := sam.USB_DEVICE.INTFLAG.Get()
sam.USB_DEVICE.INTFLAG.Set(flags)
// End of reset
if (flags & sam.USB_DEVICE_INTFLAG_EORST) > 0 {
// Configure control endpoint
initEndpoint(0, usb.ENDPOINT_TYPE_CONTROL)
usbConfiguration = 0
// ack the End-Of-Reset interrupt
sam.USB_DEVICE.INTFLAG.Set(sam.USB_DEVICE_INTFLAG_EORST)
}
// Start of frame
if (flags & sam.USB_DEVICE_INTFLAG_SOF) > 0 {
// if you want to blink LED showing traffic, this would be the place...
}
// Endpoint 0 Setup interrupt
if getEPINTFLAG(0)&sam.USB_DEVICE_EPINTFLAG_RXSTP > 0 {
// ack setup received
setEPINTFLAG(0, sam.USB_DEVICE_EPINTFLAG_RXSTP)
// parse setup
setup := usb.NewSetup(udd_ep_out_cache_buffer[0][:])
// Clear the Bank 0 ready flag on Control OUT
usbEndpointDescriptors[0].DeviceDescBank[0].ADDR.Set(uint32(uintptr(unsafe.Pointer(&udd_ep_out_cache_buffer[0]))))
usbEndpointDescriptors[0].DeviceDescBank[0].PCKSIZE.ClearBits(usb_DEVICE_PCKSIZE_BYTE_COUNT_Mask << usb_DEVICE_PCKSIZE_BYTE_COUNT_Pos)
setEPSTATUSCLR(0, sam.USB_DEVICE_EPSTATUSCLR_BK0RDY)
ok := false
if (setup.BmRequestType & usb.REQUEST_TYPE) == usb.REQUEST_STANDARD {
// Standard Requests
ok = handleStandardSetup(setup)
} else {
// Class Interface Requests
if setup.WIndex < uint16(len(usbSetupHandler)) && usbSetupHandler[setup.WIndex] != nil {
ok = usbSetupHandler[setup.WIndex](setup)
}
}
if ok {
// set Bank1 ready
setEPSTATUSSET(0, sam.USB_DEVICE_EPSTATUSSET_BK1RDY)
} else {
// Stall endpoint
setEPSTATUSSET(0, sam.USB_DEVICE_EPINTFLAG_STALL1)
}
if getEPINTFLAG(0)&sam.USB_DEVICE_EPINTFLAG_STALL1 > 0 {
// ack the stall
setEPINTFLAG(0, sam.USB_DEVICE_EPINTFLAG_STALL1)
// clear stall request
setEPINTENCLR(0, sam.USB_DEVICE_EPINTENCLR_STALL1)
}
}
// Now the actual transfer handlers, ignore endpoint number 0 (setup)
var i uint32
for i = 1; i < uint32(len(endPoints)); i++ {
// Check if endpoint has a pending interrupt
epFlags := getEPINTFLAG(i)
setEPINTFLAG(i, epFlags)
if (epFlags & sam.USB_DEVICE_EPINTFLAG_TRCPT0) > 0 {
buf := handleEndpointRx(i)
if usbRxHandler[i] != nil {
usbRxHandler[i](buf)
}
handleEndpointRxComplete(i)
} else if (epFlags & sam.USB_DEVICE_EPINTFLAG_TRCPT1) > 0 {
if usbTxHandler[i] != nil {
usbTxHandler[i]()
}
}
}
}
func initEndpoint(ep, config uint32) {
switch config {
case usb.ENDPOINT_TYPE_INTERRUPT | usb.EndpointIn:
// set packet size
usbEndpointDescriptors[ep].DeviceDescBank[1].PCKSIZE.SetBits(epPacketSize(64) << usb_DEVICE_PCKSIZE_SIZE_Pos)
// set data buffer address
usbEndpointDescriptors[ep].DeviceDescBank[1].ADDR.Set(uint32(uintptr(unsafe.Pointer(&udd_ep_in_cache_buffer[ep]))))
// set endpoint type
setEPCFG(ep, ((usb.ENDPOINT_TYPE_INTERRUPT + 1) << sam.USB_DEVICE_EPCFG_EPTYPE1_Pos))
setEPINTENSET(ep, sam.USB_DEVICE_EPINTENSET_TRCPT1)
case usb.ENDPOINT_TYPE_BULK | usb.EndpointOut:
// set packet size
usbEndpointDescriptors[ep].DeviceDescBank[0].PCKSIZE.SetBits(epPacketSize(64) << usb_DEVICE_PCKSIZE_SIZE_Pos)
// set data buffer address
usbEndpointDescriptors[ep].DeviceDescBank[0].ADDR.Set(uint32(uintptr(unsafe.Pointer(&udd_ep_out_cache_buffer[ep]))))
// set endpoint type
setEPCFG(ep, ((usb.ENDPOINT_TYPE_BULK + 1) << sam.USB_DEVICE_EPCFG_EPTYPE0_Pos))
// receive interrupts when current transfer complete
setEPINTENSET(ep, sam.USB_DEVICE_EPINTENSET_TRCPT0)
// set byte count to zero, we have not received anything yet
usbEndpointDescriptors[ep].DeviceDescBank[0].PCKSIZE.ClearBits(usb_DEVICE_PCKSIZE_BYTE_COUNT_Mask << usb_DEVICE_PCKSIZE_BYTE_COUNT_Pos)
// ready for next transfer
setEPSTATUSCLR(ep, sam.USB_DEVICE_EPSTATUSCLR_BK0RDY)
case usb.ENDPOINT_TYPE_INTERRUPT | usb.EndpointOut:
// set packet size
usbEndpointDescriptors[ep].DeviceDescBank[0].PCKSIZE.SetBits(epPacketSize(64) << usb_DEVICE_PCKSIZE_SIZE_Pos)
// set data buffer address
usbEndpointDescriptors[ep].DeviceDescBank[0].ADDR.Set(uint32(uintptr(unsafe.Pointer(&udd_ep_out_cache_buffer[ep]))))
// set endpoint type
setEPCFG(ep, ((usb.ENDPOINT_TYPE_INTERRUPT + 1) << sam.USB_DEVICE_EPCFG_EPTYPE0_Pos))
// receive interrupts when current transfer complete
setEPINTENSET(ep, sam.USB_DEVICE_EPINTENSET_TRCPT0)
// set byte count to zero, we have not received anything yet
usbEndpointDescriptors[ep].DeviceDescBank[0].PCKSIZE.ClearBits(usb_DEVICE_PCKSIZE_BYTE_COUNT_Mask << usb_DEVICE_PCKSIZE_BYTE_COUNT_Pos)
// ready for next transfer
setEPSTATUSCLR(ep, sam.USB_DEVICE_EPSTATUSCLR_BK0RDY)
case usb.ENDPOINT_TYPE_BULK | usb.EndpointIn:
// set packet size
usbEndpointDescriptors[ep].DeviceDescBank[1].PCKSIZE.SetBits(epPacketSize(64) << usb_DEVICE_PCKSIZE_SIZE_Pos)
// set data buffer address
usbEndpointDescriptors[ep].DeviceDescBank[1].ADDR.Set(uint32(uintptr(unsafe.Pointer(&udd_ep_in_cache_buffer[ep]))))
// set endpoint type
setEPCFG(ep, ((usb.ENDPOINT_TYPE_BULK + 1) << sam.USB_DEVICE_EPCFG_EPTYPE1_Pos))
// NAK on endpoint IN, the bank is not yet filled in.
setEPSTATUSCLR(ep, sam.USB_DEVICE_EPSTATUSCLR_BK1RDY)
setEPINTENSET(ep, sam.USB_DEVICE_EPINTENSET_TRCPT1)
case usb.ENDPOINT_TYPE_CONTROL:
// Control OUT
// set packet size
usbEndpointDescriptors[ep].DeviceDescBank[0].PCKSIZE.SetBits(epPacketSize(64) << usb_DEVICE_PCKSIZE_SIZE_Pos)
// set data buffer address
usbEndpointDescriptors[ep].DeviceDescBank[0].ADDR.Set(uint32(uintptr(unsafe.Pointer(&udd_ep_out_cache_buffer[ep]))))
// set endpoint type
setEPCFG(ep, getEPCFG(ep)|((usb.ENDPOINT_TYPE_CONTROL+1)<<sam.USB_DEVICE_EPCFG_EPTYPE0_Pos))
// Control IN
// set packet size
usbEndpointDescriptors[ep].DeviceDescBank[1].PCKSIZE.SetBits(epPacketSize(64) << usb_DEVICE_PCKSIZE_SIZE_Pos)
// set data buffer address
usbEndpointDescriptors[ep].DeviceDescBank[1].ADDR.Set(uint32(uintptr(unsafe.Pointer(&udd_ep_in_cache_buffer[ep]))))
// set endpoint type
setEPCFG(ep, getEPCFG(ep)|((usb.ENDPOINT_TYPE_CONTROL+1)<<sam.USB_DEVICE_EPCFG_EPTYPE1_Pos))
// Prepare OUT endpoint for receive
// set multi packet size for expected number of receive bytes on control OUT
usbEndpointDescriptors[ep].DeviceDescBank[0].PCKSIZE.SetBits(64 << usb_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Pos)
// set byte count to zero, we have not received anything yet
usbEndpointDescriptors[ep].DeviceDescBank[0].PCKSIZE.ClearBits(usb_DEVICE_PCKSIZE_BYTE_COUNT_Mask << usb_DEVICE_PCKSIZE_BYTE_COUNT_Pos)
// NAK on endpoint OUT to show we are ready to receive control data
setEPSTATUSSET(ep, sam.USB_DEVICE_EPSTATUSSET_BK0RDY)
// Enable Setup-Received interrupt
setEPINTENSET(0, sam.USB_DEVICE_EPINTENSET_RXSTP)
}
}
func handleUSBSetAddress(setup usb.Setup) bool {
// set packet size 64 with auto Zlp after transfer
usbEndpointDescriptors[0].DeviceDescBank[1].PCKSIZE.Set((epPacketSize(64) << usb_DEVICE_PCKSIZE_SIZE_Pos) |
uint32(1<<31)) // autozlp
// ack the transfer is complete from the request
setEPINTFLAG(0, sam.USB_DEVICE_EPINTFLAG_TRCPT1)
// set bank ready for data
setEPSTATUSSET(0, sam.USB_DEVICE_EPSTATUSSET_BK1RDY)
// wait for transfer to complete
timeout := 3000
for (getEPINTFLAG(0) & sam.USB_DEVICE_EPINTFLAG_TRCPT1) == 0 {
timeout--
if timeout == 0 {
return true
}
}
// last, set the device address to that requested by host
sam.USB_DEVICE.DADD.SetBits(setup.WValueL)
sam.USB_DEVICE.DADD.SetBits(sam.USB_DEVICE_DADD_ADDEN)
return true
}
// SendUSBInPacket sends a packet for USB (interrupt in / bulk in).
func SendUSBInPacket(ep uint32, data []byte) bool {
sendUSBPacket(ep, data, 0)
// clear transfer complete flag
setEPINTFLAG(ep, sam.USB_DEVICE_EPINTFLAG_TRCPT1)
// send data by setting bank ready
setEPSTATUSSET(ep, sam.USB_DEVICE_EPSTATUSSET_BK1RDY)
return true
}
//go:noinline
func sendUSBPacket(ep uint32, data []byte, maxsize uint16) {
l := uint16(len(data))
if 0 < maxsize && maxsize < l {
l = maxsize
}
// Set endpoint address for sending data
if ep == 0 {
copy(udd_ep_control_cache_buffer[:], data[:l])
usbEndpointDescriptors[ep].DeviceDescBank[1].ADDR.Set(uint32(uintptr(unsafe.Pointer(&udd_ep_control_cache_buffer))))
} else {
copy(udd_ep_in_cache_buffer[ep][:], data[:l])
usbEndpointDescriptors[ep].DeviceDescBank[1].ADDR.Set(uint32(uintptr(unsafe.Pointer(&udd_ep_in_cache_buffer[ep]))))
}
// clear multi-packet size which is total bytes already sent
usbEndpointDescriptors[ep].DeviceDescBank[1].PCKSIZE.ClearBits(usb_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Mask << usb_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Pos)
// set byte count, which is total number of bytes to be sent
usbEndpointDescriptors[ep].DeviceDescBank[1].PCKSIZE.ClearBits(usb_DEVICE_PCKSIZE_BYTE_COUNT_Mask << usb_DEVICE_PCKSIZE_BYTE_COUNT_Pos)
usbEndpointDescriptors[ep].DeviceDescBank[1].PCKSIZE.SetBits((uint32(l) & usb_DEVICE_PCKSIZE_BYTE_COUNT_Mask) << usb_DEVICE_PCKSIZE_BYTE_COUNT_Pos)
}
func ReceiveUSBControlPacket() ([cdcLineInfoSize]byte, error) {
var b [cdcLineInfoSize]byte
// Wait until OUT transfer is ready.
timeout := 300000
for (getEPSTATUS(0) & sam.USB_DEVICE_EPSTATUS_BK0RDY) == 0 {
timeout--
if timeout == 0 {
return b, ErrUSBReadTimeout
}
}
// Wait until OUT transfer is completed.
timeout = 300000
for (getEPINTFLAG(0) & sam.USB_DEVICE_EPINTFLAG_TRCPT0) == 0 {
timeout--
if timeout == 0 {
return b, ErrUSBReadTimeout
}
}
// get data
bytesread := uint32((usbEndpointDescriptors[0].DeviceDescBank[0].PCKSIZE.Get() >>
usb_DEVICE_PCKSIZE_BYTE_COUNT_Pos) & usb_DEVICE_PCKSIZE_BYTE_COUNT_Mask)
if bytesread != cdcLineInfoSize {
return b, ErrUSBBytesRead
}
copy(b[:7], udd_ep_out_cache_buffer[0][:7])
return b, nil
}
func handleEndpointRx(ep uint32) []byte {
// get data
count := int((usbEndpointDescriptors[ep].DeviceDescBank[0].PCKSIZE.Get() >>
usb_DEVICE_PCKSIZE_BYTE_COUNT_Pos) & usb_DEVICE_PCKSIZE_BYTE_COUNT_Mask)
return udd_ep_out_cache_buffer[ep][:count]
}
func handleEndpointRxComplete(ep uint32) {
// set byte count to zero
usbEndpointDescriptors[ep].DeviceDescBank[0].PCKSIZE.ClearBits(usb_DEVICE_PCKSIZE_BYTE_COUNT_Mask << usb_DEVICE_PCKSIZE_BYTE_COUNT_Pos)
// set multi packet size to 64
usbEndpointDescriptors[ep].DeviceDescBank[0].PCKSIZE.SetBits(64 << usb_DEVICE_PCKSIZE_MULTI_PACKET_SIZE_Pos)
// set ready for next data
setEPSTATUSCLR(ep, sam.USB_DEVICE_EPSTATUSCLR_BK0RDY)
}
func SendZlp() {
usbEndpointDescriptors[0].DeviceDescBank[1].PCKSIZE.ClearBits(usb_DEVICE_PCKSIZE_BYTE_COUNT_Mask << usb_DEVICE_PCKSIZE_BYTE_COUNT_Pos)
}
func epPacketSize(size uint16) uint32 {
switch size {
case 8:
return 0
case 16:
return 1
case 32:
return 2
case 64:
return 3
case 128:
return 4
case 256:
return 5
case 512:
return 6
case 1023:
return 7
default:
return 0
}
}
func getEPCFG(ep uint32) uint8 {
switch ep {
case 0:
return sam.USB_DEVICE.EPCFG0.Get()
case 1:
return sam.USB_DEVICE.EPCFG1.Get()
case 2:
return sam.USB_DEVICE.EPCFG2.Get()
case 3:
return sam.USB_DEVICE.EPCFG3.Get()
case 4:
return sam.USB_DEVICE.EPCFG4.Get()
case 5:
return sam.USB_DEVICE.EPCFG5.Get()
case 6:
return sam.USB_DEVICE.EPCFG6.Get()
case 7:
return sam.USB_DEVICE.EPCFG7.Get()
default:
return 0
}
}
func setEPCFG(ep uint32, val uint8) {
switch ep {
case 0:
sam.USB_DEVICE.EPCFG0.Set(val)
case 1:
sam.USB_DEVICE.EPCFG1.Set(val)
case 2:
sam.USB_DEVICE.EPCFG2.Set(val)
case 3:
sam.USB_DEVICE.EPCFG3.Set(val)
case 4:
sam.USB_DEVICE.EPCFG4.Set(val)
case 5:
sam.USB_DEVICE.EPCFG5.Set(val)
case 6:
sam.USB_DEVICE.EPCFG6.Set(val)
case 7:
sam.USB_DEVICE.EPCFG7.Set(val)
default:
return
}
}
func setEPSTATUSCLR(ep uint32, val uint8) {
switch ep {
case 0:
sam.USB_DEVICE.EPSTATUSCLR0.Set(val)
case 1:
sam.USB_DEVICE.EPSTATUSCLR1.Set(val)
case 2:
sam.USB_DEVICE.EPSTATUSCLR2.Set(val)
case 3:
sam.USB_DEVICE.EPSTATUSCLR3.Set(val)
case 4:
sam.USB_DEVICE.EPSTATUSCLR4.Set(val)
case 5:
sam.USB_DEVICE.EPSTATUSCLR5.Set(val)
case 6:
sam.USB_DEVICE.EPSTATUSCLR6.Set(val)
case 7:
sam.USB_DEVICE.EPSTATUSCLR7.Set(val)
default:
return
}
}
func setEPSTATUSSET(ep uint32, val uint8) {
switch ep {
case 0:
sam.USB_DEVICE.EPSTATUSSET0.Set(val)
case 1:
sam.USB_DEVICE.EPSTATUSSET1.Set(val)
case 2:
sam.USB_DEVICE.EPSTATUSSET2.Set(val)
case 3:
sam.USB_DEVICE.EPSTATUSSET3.Set(val)
case 4:
sam.USB_DEVICE.EPSTATUSSET4.Set(val)
case 5:
sam.USB_DEVICE.EPSTATUSSET5.Set(val)
case 6:
sam.USB_DEVICE.EPSTATUSSET6.Set(val)
case 7:
sam.USB_DEVICE.EPSTATUSSET7.Set(val)
default:
return
}
}
func getEPSTATUS(ep uint32) uint8 {
switch ep {
case 0:
return sam.USB_DEVICE.EPSTATUS0.Get()
case 1:
return sam.USB_DEVICE.EPSTATUS1.Get()
case 2:
return sam.USB_DEVICE.EPSTATUS2.Get()
case 3:
return sam.USB_DEVICE.EPSTATUS3.Get()
case 4:
return sam.USB_DEVICE.EPSTATUS4.Get()
case 5:
return sam.USB_DEVICE.EPSTATUS5.Get()
case 6:
return sam.USB_DEVICE.EPSTATUS6.Get()
case 7:
return sam.USB_DEVICE.EPSTATUS7.Get()
default:
return 0
}
}
func getEPINTFLAG(ep uint32) uint8 {
switch ep {
case 0:
return sam.USB_DEVICE.EPINTFLAG0.Get()
case 1:
return sam.USB_DEVICE.EPINTFLAG1.Get()
case 2:
return sam.USB_DEVICE.EPINTFLAG2.Get()
case 3:
return sam.USB_DEVICE.EPINTFLAG3.Get()
case 4:
return sam.USB_DEVICE.EPINTFLAG4.Get()
case 5:
return sam.USB_DEVICE.EPINTFLAG5.Get()
case 6:
return sam.USB_DEVICE.EPINTFLAG6.Get()
case 7:
return sam.USB_DEVICE.EPINTFLAG7.Get()
default:
return 0
}
}
func setEPINTFLAG(ep uint32, val uint8) {
switch ep {
case 0:
sam.USB_DEVICE.EPINTFLAG0.Set(val)
case 1:
sam.USB_DEVICE.EPINTFLAG1.Set(val)
case 2:
sam.USB_DEVICE.EPINTFLAG2.Set(val)
case 3:
sam.USB_DEVICE.EPINTFLAG3.Set(val)
case 4:
sam.USB_DEVICE.EPINTFLAG4.Set(val)
case 5:
sam.USB_DEVICE.EPINTFLAG5.Set(val)
case 6:
sam.USB_DEVICE.EPINTFLAG6.Set(val)
case 7:
sam.USB_DEVICE.EPINTFLAG7.Set(val)
default:
return
}
}
func setEPINTENCLR(ep uint32, val uint8) {
switch ep {
case 0:
sam.USB_DEVICE.EPINTENCLR0.Set(val)
case 1:
sam.USB_DEVICE.EPINTENCLR1.Set(val)
case 2:
sam.USB_DEVICE.EPINTENCLR2.Set(val)
case 3:
sam.USB_DEVICE.EPINTENCLR3.Set(val)
case 4:
sam.USB_DEVICE.EPINTENCLR4.Set(val)
case 5:
sam.USB_DEVICE.EPINTENCLR5.Set(val)
case 6:
sam.USB_DEVICE.EPINTENCLR6.Set(val)
case 7:
sam.USB_DEVICE.EPINTENCLR7.Set(val)
default:
return
}
}
func setEPINTENSET(ep uint32, val uint8) {
switch ep {
case 0:
sam.USB_DEVICE.EPINTENSET0.Set(val)
case 1:
sam.USB_DEVICE.EPINTENSET1.Set(val)
case 2:
sam.USB_DEVICE.EPINTENSET2.Set(val)
case 3:
sam.USB_DEVICE.EPINTENSET3.Set(val)
case 4:
sam.USB_DEVICE.EPINTENSET4.Set(val)
case 5:
sam.USB_DEVICE.EPINTENSET5.Set(val)
case 6:
sam.USB_DEVICE.EPINTENSET6.Set(val)
case 7:
sam.USB_DEVICE.EPINTENSET7.Set(val)
default:
return
}
}
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