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merge dcd_samd51 & dcd_samd21 into dcd_samd

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hathach 2019-12-26 21:46:59 +07:00
parent 49b316143a
commit b5684c5c10
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GPG Key ID: 2FA891220FBFD581
7 changed files with 116 additions and 424 deletions
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2
hw/bsp/circuitplayground_express/board.mk
View File

@ -31,7 +31,7 @@ INC += \
# For TinyUSB port source
VENDOR = microchip
CHIP_FAMILY = samd21
CHIP_FAMILY = samd
# For freeRTOS port source
FREERTOS_PORT = ARM_CM0

2
hw/bsp/feather_m0_express/board.mk
View File

@ -32,7 +32,7 @@ INC += \
# For TinyUSB port source
VENDOR = microchip
CHIP_FAMILY = samd21
CHIP_FAMILY = samd
# For freeRTOS port source
FREERTOS_PORT = ARM_CM0

2
hw/bsp/feather_m4_express/board.mk
View File

@ -35,7 +35,7 @@ INC += \
# For TinyUSB port source
VENDOR = microchip
CHIP_FAMILY = samd51
CHIP_FAMILY = samd
# For freeRTOS port source
FREERTOS_PORT = ARM_CM4F

2
hw/bsp/metro_m0_express/board.mk
View File

@ -32,7 +32,7 @@ INC += \
# For TinyUSB port source
VENDOR = microchip
CHIP_FAMILY = samd21
CHIP_FAMILY = samd
# For freeRTOS port source
FREERTOS_PORT = ARM_CM0

2
hw/bsp/metro_m4_express/board.mk
View File

@ -35,7 +35,7 @@ INC += \
# For TinyUSB port source
VENDOR = microchip
CHIP_FAMILY = samd51
CHIP_FAMILY = samd
# For freeRTOS port source
FREERTOS_PORT = ARM_CM4F

181
src/portable/microchip/samd51/dcd_samd51.c → src/portable/microchip/samd/dcd_samd.c
View File

@ -26,7 +26,7 @@
#include "tusb_option.h"
#if TUSB_OPT_DEVICE_ENABLED && CFG_TUSB_MCU == OPT_MCU_SAMD51
#if TUSB_OPT_DEVICE_ENABLED && (CFG_TUSB_MCU == OPT_MCU_SAMD51 || CFG_TUSB_MCU == OPT_MCU_SAMD21)
#include "sam.h"
#include "device/dcd.h"
@ -63,6 +63,7 @@ static void bus_reset(void)
prepare_setup();
}
/*------------------------------------------------------------------*/
/* Controller API
*------------------------------------------------------------------*/
@ -79,8 +80,8 @@ void dcd_init (uint8_t rhport)
USB->DEVICE.PADCAL.bit.TRANSN = (*((uint32_t*) USB_FUSES_TRANSN_ADDR) & USB_FUSES_TRANSN_Msk) >> USB_FUSES_TRANSN_Pos;
USB->DEVICE.PADCAL.bit.TRIM = (*((uint32_t*) USB_FUSES_TRIM_ADDR) & USB_FUSES_TRIM_Msk) >> USB_FUSES_TRIM_Pos;
USB->DEVICE.QOSCTRL.bit.CQOS = 3;
USB->DEVICE.QOSCTRL.bit.DQOS = 3;
USB->DEVICE.QOSCTRL.bit.CQOS = 3; // High Quality
USB->DEVICE.QOSCTRL.bit.DQOS = 3; // High Quality
// Configure registers
USB->DEVICE.DESCADD.reg = (uint32_t) &sram_registers;
@ -95,19 +96,29 @@ void dcd_init (uint8_t rhport)
void dcd_int_enable(uint8_t rhport)
{
(void) rhport;
#if CFG_TUSB_MCU == OPT_MCU_SAMD51
NVIC_EnableIRQ(USB_0_IRQn);
NVIC_EnableIRQ(USB_1_IRQn);
NVIC_EnableIRQ(USB_2_IRQn);
NVIC_EnableIRQ(USB_3_IRQn);
#elif CFG_TUSB_MCU == OPT_MCU_SAMD21
NVIC_EnableIRQ(USB_IRQn);
#endif
}
void dcd_int_disable(uint8_t rhport)
{
(void) rhport;
#if CFG_TUSB_MCU == OPT_MCU_SAMD51
NVIC_DisableIRQ(USB_3_IRQn);
NVIC_DisableIRQ(USB_2_IRQn);
NVIC_DisableIRQ(USB_1_IRQn);
NVIC_DisableIRQ(USB_0_IRQn);
#elif CFG_TUSB_MCU == OPT_MCU_SAMD21
NVIC_DisableIRQ(USB_IRQn);
#endif
}
void dcd_set_address (uint8_t rhport, uint8_t dev_addr)
@ -147,6 +158,8 @@ void dcd_remote_wakeup(uint8_t rhport)
// May help DCD to prepare for next control transfer, this API is optional.
void dcd_edpt0_status_complete(uint8_t rhport, tusb_control_request_t const * request)
{
(void) rhport;
if (request->bmRequestType_bit.recipient == TUSB_REQ_RCPT_DEVICE &&
request->bmRequestType_bit.type == TUSB_REQ_TYPE_STANDARD &&
request->bRequest == TUSB_REQ_SET_ADDRESS )
@ -253,40 +266,65 @@ void dcd_edpt_clear_stall (uint8_t rhport, uint8_t ep_addr)
}
}
/*------------------------------------------------------------------*/
//--------------------------------------------------------------------+
// Interrupt Handler
//--------------------------------------------------------------------+
void maybe_transfer_complete(void) {
uint32_t epints = USB->DEVICE.EPINTSMRY.reg;
static bool maybe_handle_setup_packet(void) {
if (USB->DEVICE.DeviceEndpoint[0].EPINTFLAG.bit.RXSTP)
for (uint8_t epnum = 0; epnum < USB_EPT_NUM; epnum++) {
if ((epints & (1 << epnum)) == 0) {
continue;
}
UsbDeviceEndpoint* ep = &USB->DEVICE.DeviceEndpoint[epnum];
uint32_t epintflag = ep->EPINTFLAG.reg;
// Handle IN completions
if ((epintflag & USB_DEVICE_EPINTFLAG_TRCPT1) != 0) {
UsbDeviceDescBank* bank = &sram_registers[epnum][TUSB_DIR_IN];
uint16_t total_transfer_size = bank->PCKSIZE.bit.BYTE_COUNT;
uint8_t ep_addr = epnum | TUSB_DIR_IN_MASK;
dcd_event_xfer_complete(0, ep_addr, total_transfer_size, XFER_RESULT_SUCCESS, true);
ep->EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRCPT1;
}
// Handle OUT completions
if ((epintflag & USB_DEVICE_EPINTFLAG_TRCPT0) != 0) {
// A SETUP token can occur immediately after an OUT packet
// so make sure we have a valid buffer for the control endpoint.
if (epnum == 0) {
prepare_setup();
}
UsbDeviceDescBank* bank = &sram_registers[epnum][TUSB_DIR_OUT];
uint16_t total_transfer_size = bank->PCKSIZE.bit.BYTE_COUNT;
uint8_t ep_addr = epnum;
dcd_event_xfer_complete(0, ep_addr, total_transfer_size, XFER_RESULT_SUCCESS, true);
ep->EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRCPT0;
}
}
}
void dcd_isr (uint8_t rhport)
{
// This copies the data elsewhere so we can reuse the buffer.
dcd_event_setup_received(0, _setup_packet, true);
(void) rhport;
USB->DEVICE.DeviceEndpoint[0].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_RXSTP;
return true;
}
return false;
}
/*
*------------------------------------------------------------------*/
/* USB_EORSM_DNRSM, USB_EORST_RST, USB_LPMSUSP_DDISC, USB_LPM_DCONN,
USB_MSOF, USB_RAMACER, USB_RXSTP_TXSTP_0, USB_RXSTP_TXSTP_1,
USB_RXSTP_TXSTP_2, USB_RXSTP_TXSTP_3, USB_RXSTP_TXSTP_4,
USB_RXSTP_TXSTP_5, USB_RXSTP_TXSTP_6, USB_RXSTP_TXSTP_7,
USB_STALL0_STALL_0, USB_STALL0_STALL_1, USB_STALL0_STALL_2,
USB_STALL0_STALL_3, USB_STALL0_STALL_4, USB_STALL0_STALL_5,
USB_STALL0_STALL_6, USB_STALL0_STALL_7, USB_STALL1_0, USB_STALL1_1,
USB_STALL1_2, USB_STALL1_3, USB_STALL1_4, USB_STALL1_5, USB_STALL1_6,
USB_STALL1_7, USB_SUSPEND, USB_TRFAIL0_TRFAIL_0, USB_TRFAIL0_TRFAIL_1,
USB_TRFAIL0_TRFAIL_2, USB_TRFAIL0_TRFAIL_3, USB_TRFAIL0_TRFAIL_4,
USB_TRFAIL0_TRFAIL_5, USB_TRFAIL0_TRFAIL_6, USB_TRFAIL0_TRFAIL_7,
USB_TRFAIL1_PERR_0, USB_TRFAIL1_PERR_1, USB_TRFAIL1_PERR_2,
USB_TRFAIL1_PERR_3, USB_TRFAIL1_PERR_4, USB_TRFAIL1_PERR_5,
USB_TRFAIL1_PERR_6, USB_TRFAIL1_PERR_7, USB_UPRSM, USB_WAKEUP */
void USB_0_Handler(void) {
uint32_t int_status = USB->DEVICE.INTFLAG.reg & USB->DEVICE.INTENSET.reg;
/*------------- Interrupt Processing -------------*/
if ( int_status & USB_DEVICE_INTFLAG_SOF )
{
USB->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_SOF;
dcd_event_bus_signal(0, DCD_EVENT_SOF, true);
}
// SAMD doesn't distinguish between Suspend and Disconnect state.
// Both condition will cause SUSPEND interrupt triggered.
// To prevent being triggered when D+/D- are not stable, SUSPEND interrupt is only
@ -324,45 +362,44 @@ void USB_0_Handler(void) {
dcd_event_bus_signal(0, DCD_EVENT_BUS_RESET, true);
}
// Setup packet received.
maybe_handle_setup_packet();
// Handle SETUP packet
if (USB->DEVICE.DeviceEndpoint[0].EPINTFLAG.bit.RXSTP)
{
// This copies the data elsewhere so we can reuse the buffer.
dcd_event_setup_received(0, _setup_packet, true);
USB->DEVICE.DeviceEndpoint[0].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_RXSTP;
}
// Handle complete transfer
maybe_transfer_complete();
}
#if CFG_TUSB_MCU == OPT_MCU_SAMD51
/*
*------------------------------------------------------------------*/
/* USB_EORSM_DNRSM, USB_EORST_RST, USB_LPMSUSP_DDISC, USB_LPM_DCONN,
USB_MSOF, USB_RAMACER, USB_RXSTP_TXSTP_0, USB_RXSTP_TXSTP_1,
USB_RXSTP_TXSTP_2, USB_RXSTP_TXSTP_3, USB_RXSTP_TXSTP_4,
USB_RXSTP_TXSTP_5, USB_RXSTP_TXSTP_6, USB_RXSTP_TXSTP_7,
USB_STALL0_STALL_0, USB_STALL0_STALL_1, USB_STALL0_STALL_2,
USB_STALL0_STALL_3, USB_STALL0_STALL_4, USB_STALL0_STALL_5,
USB_STALL0_STALL_6, USB_STALL0_STALL_7, USB_STALL1_0, USB_STALL1_1,
USB_STALL1_2, USB_STALL1_3, USB_STALL1_4, USB_STALL1_5, USB_STALL1_6,
USB_STALL1_7, USB_SUSPEND, USB_TRFAIL0_TRFAIL_0, USB_TRFAIL0_TRFAIL_1,
USB_TRFAIL0_TRFAIL_2, USB_TRFAIL0_TRFAIL_3, USB_TRFAIL0_TRFAIL_4,
USB_TRFAIL0_TRFAIL_5, USB_TRFAIL0_TRFAIL_6, USB_TRFAIL0_TRFAIL_7,
USB_TRFAIL1_PERR_0, USB_TRFAIL1_PERR_1, USB_TRFAIL1_PERR_2,
USB_TRFAIL1_PERR_3, USB_TRFAIL1_PERR_4, USB_TRFAIL1_PERR_5,
USB_TRFAIL1_PERR_6, USB_TRFAIL1_PERR_7, USB_UPRSM, USB_WAKEUP */
void USB_0_Handler(void) {
dcd_isr(0);
}
/* USB_SOF_HSOF */
void USB_1_Handler(void) {
USB->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_SOF;
dcd_event_bus_signal(0, DCD_EVENT_SOF, true);
}
void transfer_complete(uint8_t direction) {
uint32_t epints = USB->DEVICE.EPINTSMRY.reg;
for (uint8_t epnum = 0; epnum < USB_EPT_NUM; epnum++) {
if ((epints & (1 << epnum)) == 0) {
continue;
}
// A SETUP token can occur immediately after an OUT packet
// so make sure we have a valid buffer for the control endpoint.
if (epnum == 0 && direction == TUSB_DIR_OUT ) {
prepare_setup();
}
UsbDeviceEndpoint* ep = &USB->DEVICE.DeviceEndpoint[epnum];
UsbDeviceDescBank* bank = &sram_registers[epnum][direction];
uint16_t total_transfer_size = bank->PCKSIZE.bit.BYTE_COUNT;
uint8_t ep_addr = epnum;
if (direction == TUSB_DIR_IN) {
ep_addr |= TUSB_DIR_IN_MASK;
}
dcd_event_xfer_complete(0, ep_addr, total_transfer_size, XFER_RESULT_SUCCESS, true);
if (direction == TUSB_DIR_IN) {
ep->EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRCPT1;
} else {
ep->EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRCPT0;
}
}
dcd_isr(0);
}
// Bank zero is for OUT and SETUP transactions.
@ -370,7 +407,7 @@ void transfer_complete(uint8_t direction) {
USB_TRCPT0_3, USB_TRCPT0_4, USB_TRCPT0_5,
USB_TRCPT0_6, USB_TRCPT0_7 */
void USB_2_Handler(void) {
transfer_complete(TUSB_DIR_OUT);
dcd_isr(0);
}
// Bank one is used for IN transactions.
@ -378,7 +415,15 @@ void USB_2_Handler(void) {
USB_TRCPT1_3, USB_TRCPT1_4, USB_TRCPT1_5,
USB_TRCPT1_6, USB_TRCPT1_7 */
void USB_3_Handler(void) {
transfer_complete(TUSB_DIR_IN);
dcd_isr(0);
}
#elif CFG_TUSB_MCU == OPT_MCU_SAMD21
void USB_Handler(void) {
dcd_isr(0);
}
#endif
#endif

353
src/portable/microchip/samd21/dcd_samd21.c
View File

@ -1,353 +0,0 @@
/*
* The MIT License (MIT)
*
* Copyright (c) 2018 Scott Shawcroft for Adafruit Industries
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*
* This file is part of the TinyUSB stack.
*/
#include "tusb_option.h"
#if TUSB_OPT_DEVICE_ENABLED && CFG_TUSB_MCU == OPT_MCU_SAMD21
#include "sam.h"
#include "device/dcd.h"
/*------------------------------------------------------------------*/
/* MACRO TYPEDEF CONSTANT ENUM
*------------------------------------------------------------------*/
static TU_ATTR_ALIGNED(4) UsbDeviceDescBank sram_registers[8][2];
static TU_ATTR_ALIGNED(4) uint8_t _setup_packet[8];
// Setup the control endpoint 0.
static void bus_reset(void)
{
// Max size of packets is 64 bytes.
UsbDeviceDescBank* bank_out = &sram_registers[0][TUSB_DIR_OUT];
bank_out->PCKSIZE.bit.SIZE = 0x3;
UsbDeviceDescBank* bank_in = &sram_registers[0][TUSB_DIR_IN];
bank_in->PCKSIZE.bit.SIZE = 0x3;
UsbDeviceEndpoint* ep = &USB->DEVICE.DeviceEndpoint[0];
ep->EPCFG.reg = USB_DEVICE_EPCFG_EPTYPE0(0x1) | USB_DEVICE_EPCFG_EPTYPE1(0x1);
ep->EPINTENSET.reg = USB_DEVICE_EPINTENSET_TRCPT0 | USB_DEVICE_EPINTENSET_TRCPT1 | USB_DEVICE_EPINTENSET_RXSTP;
// Prepare for setup packet
dcd_edpt_xfer(0, 0, _setup_packet, sizeof(_setup_packet));
}
/*------------------------------------------------------------------*/
/* Controller API
*------------------------------------------------------------------*/
void dcd_init (uint8_t rhport)
{
(void) rhport;
// Reset to get in a clean state.
USB->DEVICE.CTRLA.bit.SWRST = true;
while (USB->DEVICE.SYNCBUSY.bit.SWRST == 0) {}
while (USB->DEVICE.SYNCBUSY.bit.SWRST == 1) {}
USB->DEVICE.PADCAL.bit.TRANSP = (*((uint32_t*) USB_FUSES_TRANSP_ADDR) & USB_FUSES_TRANSP_Msk) >> USB_FUSES_TRANSP_Pos;
USB->DEVICE.PADCAL.bit.TRANSN = (*((uint32_t*) USB_FUSES_TRANSN_ADDR) & USB_FUSES_TRANSN_Msk) >> USB_FUSES_TRANSN_Pos;
USB->DEVICE.PADCAL.bit.TRIM = (*((uint32_t*) USB_FUSES_TRIM_ADDR) & USB_FUSES_TRIM_Msk) >> USB_FUSES_TRIM_Pos;
USB->DEVICE.QOSCTRL.bit.CQOS = USB_QOSCTRL_CQOS_HIGH_Val;
USB->DEVICE.QOSCTRL.bit.DQOS = USB_QOSCTRL_DQOS_HIGH_Val;
// Configure registers
USB->DEVICE.DESCADD.reg = (uint32_t) &sram_registers;
USB->DEVICE.CTRLB.reg = USB_DEVICE_CTRLB_SPDCONF_FS;
USB->DEVICE.CTRLA.reg = USB_CTRLA_MODE_DEVICE | USB_CTRLA_ENABLE | USB_CTRLA_RUNSTDBY;
while (USB->DEVICE.SYNCBUSY.bit.ENABLE == 1) {}
USB->DEVICE.INTFLAG.reg |= USB->DEVICE.INTFLAG.reg; // clear pending
USB->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_SOF | USB_DEVICE_INTENSET_EORST;
}
void dcd_int_enable(uint8_t rhport)
{
(void) rhport;
NVIC_EnableIRQ(USB_IRQn);
}
void dcd_int_disable(uint8_t rhport)
{
(void) rhport;
NVIC_DisableIRQ(USB_IRQn);
}
void dcd_set_address (uint8_t rhport, uint8_t dev_addr)
{
(void) dev_addr;
// Response with zlp status
dcd_edpt_xfer(rhport, 0x80, NULL, 0);
// DCD can only set address after status for this request is complete
// do it at dcd_edpt0_status_complete()
// Enable SUSPEND interrupt since the bus signal D+/D- are stable now.
USB->DEVICE.INTFLAG.reg = USB_DEVICE_INTENCLR_SUSPEND; // clear pending
USB->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_SUSPEND;
}
void dcd_set_config (uint8_t rhport, uint8_t config_num)
{
(void) rhport;
(void) config_num;
// Nothing to do
}
void dcd_remote_wakeup(uint8_t rhport)
{
(void) rhport;
USB->DEVICE.CTRLB.bit.UPRSM = 1;
}
/*------------------------------------------------------------------*/
/* DCD Endpoint port
*------------------------------------------------------------------*/
// Invoked when a control transfer's status stage is complete.
// May help DCD to prepare for next control transfer, this API is optional.
void dcd_edpt0_status_complete(uint8_t rhport, tusb_control_request_t const * request)
{
if (request->bmRequestType_bit.recipient == TUSB_REQ_RCPT_DEVICE &&
request->bmRequestType_bit.type == TUSB_REQ_TYPE_STANDARD &&
request->bRequest == TUSB_REQ_SET_ADDRESS )
{
uint8_t const dev_addr = (uint8_t) request->wValue;
USB->DEVICE.DADD.reg = USB_DEVICE_DADD_DADD(dev_addr) | USB_DEVICE_DADD_ADDEN;
}
// Just finished status stage, prepare for next setup packet
dcd_edpt_xfer(rhport, 0x00, _setup_packet, sizeof(_setup_packet));
}
bool dcd_edpt_open (uint8_t rhport, tusb_desc_endpoint_t const * desc_edpt)
{
(void) rhport;
uint8_t const epnum = tu_edpt_number(desc_edpt->bEndpointAddress);
uint8_t const dir = tu_edpt_dir(desc_edpt->bEndpointAddress);
UsbDeviceDescBank* bank = &sram_registers[epnum][dir];
uint32_t size_value = 0;
while (size_value < 7) {
if (1 << (size_value + 3) == desc_edpt->wMaxPacketSize.size) {
break;
}
size_value++;
}
// unsupported endpoint size
if ( size_value == 7 && desc_edpt->wMaxPacketSize.size != 1023 ) return false;
bank->PCKSIZE.bit.SIZE = size_value;
UsbDeviceEndpoint* ep = &USB->DEVICE.DeviceEndpoint[epnum];
if ( dir == TUSB_DIR_OUT )
{
ep->EPCFG.bit.EPTYPE0 = desc_edpt->bmAttributes.xfer + 1;
ep->EPINTENSET.bit.TRCPT0 = true;
}else
{
ep->EPCFG.bit.EPTYPE1 = desc_edpt->bmAttributes.xfer + 1;
ep->EPINTENSET.bit.TRCPT1 = true;
}
return true;
}
bool dcd_edpt_xfer (uint8_t rhport, uint8_t ep_addr, uint8_t * buffer, uint16_t total_bytes)
{
(void) rhport;
uint8_t const epnum = tu_edpt_number(ep_addr);
uint8_t const dir = tu_edpt_dir(ep_addr);
UsbDeviceDescBank* bank = &sram_registers[epnum][dir];
UsbDeviceEndpoint* ep = &USB->DEVICE.DeviceEndpoint[epnum];
// A setup token can occur immediately after an OUT STATUS packet so make sure we have a valid
// buffer for the control endpoint.
if (epnum == 0 && dir == 0 && buffer == NULL) {
buffer = _setup_packet;
}
bank->ADDR.reg = (uint32_t) buffer;
if ( dir == TUSB_DIR_OUT )
{
bank->PCKSIZE.bit.MULTI_PACKET_SIZE = total_bytes;
bank->PCKSIZE.bit.BYTE_COUNT = 0;
ep->EPSTATUSCLR.reg |= USB_DEVICE_EPSTATUSCLR_BK0RDY;
ep->EPINTFLAG.reg |= USB_DEVICE_EPINTFLAG_TRFAIL0;
} else
{
bank->PCKSIZE.bit.MULTI_PACKET_SIZE = 0;
bank->PCKSIZE.bit.BYTE_COUNT = total_bytes;
// bank->PCKSIZE.bit.AUTO_ZLP = 1;
ep->EPSTATUSSET.reg |= USB_DEVICE_EPSTATUSSET_BK1RDY;
ep->EPINTFLAG.reg |= USB_DEVICE_EPINTFLAG_TRFAIL1;
}
return true;
}
void dcd_edpt_stall (uint8_t rhport, uint8_t ep_addr)
{
(void) rhport;
uint8_t const epnum = tu_edpt_number(ep_addr);
UsbDeviceEndpoint* ep = &USB->DEVICE.DeviceEndpoint[epnum];
if (tu_edpt_dir(ep_addr) == TUSB_DIR_IN) {
ep->EPSTATUSSET.reg = USB_DEVICE_EPSTATUSSET_STALLRQ1;
} else {
ep->EPSTATUSSET.reg = USB_DEVICE_EPSTATUSSET_STALLRQ0;
}
}
void dcd_edpt_clear_stall (uint8_t rhport, uint8_t ep_addr)
{
(void) rhport;
uint8_t const epnum = tu_edpt_number(ep_addr);
UsbDeviceEndpoint* ep = &USB->DEVICE.DeviceEndpoint[epnum];
if (tu_edpt_dir(ep_addr) == TUSB_DIR_IN) {
ep->EPSTATUSCLR.reg = USB_DEVICE_EPSTATUSCLR_STALLRQ1 | USB_DEVICE_EPSTATUSCLR_DTGLIN;
} else {
ep->EPSTATUSCLR.reg = USB_DEVICE_EPSTATUSCLR_STALLRQ0 | USB_DEVICE_EPSTATUSCLR_DTGLOUT;
}
}
/*------------------------------------------------------------------*/
static bool maybe_handle_setup_packet(void) {
if (USB->DEVICE.DeviceEndpoint[0].EPINTFLAG.bit.RXSTP)
{
USB->DEVICE.DeviceEndpoint[0].EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_RXSTP;
// This copies the data elsewhere so we can reuse the buffer.
dcd_event_setup_received(0, _setup_packet, true);
return true;
}
return false;
}
void maybe_transfer_complete(void) {
uint32_t epints = USB->DEVICE.EPINTSMRY.reg;
for (uint8_t epnum = 0; epnum < USB_EPT_NUM; epnum++) {
if ((epints & (1 << epnum)) == 0) {
continue;
}
if (maybe_handle_setup_packet()) {
continue;
}
UsbDeviceEndpoint* ep = &USB->DEVICE.DeviceEndpoint[epnum];
uint32_t epintflag = ep->EPINTFLAG.reg;
uint16_t total_transfer_size = 0;
// Handle IN completions
if ((epintflag & USB_DEVICE_EPINTFLAG_TRCPT1) != 0) {
ep->EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRCPT1;
UsbDeviceDescBank* bank = &sram_registers[epnum][TUSB_DIR_IN];
total_transfer_size = bank->PCKSIZE.bit.BYTE_COUNT;
uint8_t ep_addr = epnum | TUSB_DIR_IN_MASK;
dcd_event_xfer_complete(0, ep_addr, total_transfer_size, XFER_RESULT_SUCCESS, true);
}
// Handle OUT completions
if ((epintflag & USB_DEVICE_EPINTFLAG_TRCPT0) != 0) {
ep->EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRCPT0;
UsbDeviceDescBank* bank = &sram_registers[epnum][TUSB_DIR_OUT];
total_transfer_size = bank->PCKSIZE.bit.BYTE_COUNT;
uint8_t ep_addr = epnum;
dcd_event_xfer_complete(0, ep_addr, total_transfer_size, XFER_RESULT_SUCCESS, true);
}
}
}
void USB_Handler(void)
{
uint32_t int_status = USB->DEVICE.INTFLAG.reg & USB->DEVICE.INTENSET.reg;
USB->DEVICE.INTFLAG.reg = int_status; // clear interrupt
/*------------- Interrupt Processing -------------*/
if ( int_status & USB_DEVICE_INTFLAG_SOF )
{
dcd_event_bus_signal(0, DCD_EVENT_SOF, true);
}
// SAMD doesn't distinguish between Suspend and Disconnect state.
// Both condition will cause SUSPEND interrupt triggered.
// To prevent being triggered when D+/D- are not stable, SUSPEND interrupt is only
// enabled when we received SET_ADDRESS request and cleared on Bus Reset
if ( int_status & USB_DEVICE_INTFLAG_SUSPEND )
{
// Enable wakeup interrupt
USB->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_WAKEUP; // clear pending
USB->DEVICE.INTENSET.reg = USB_DEVICE_INTFLAG_WAKEUP;
dcd_event_bus_signal(0, DCD_EVENT_SUSPEND, true);
}
// Wakeup interrupt is only enabled when we got suspended.
// Wakeup interrupt will disable itself
if ( int_status & USB_DEVICE_INTFLAG_WAKEUP )
{
// disable wakeup interrupt itself
USB->DEVICE.INTENCLR.reg = USB_DEVICE_INTFLAG_WAKEUP;
dcd_event_bus_signal(0, DCD_EVENT_RESUME, true);
}
if ( int_status & USB_DEVICE_INTFLAG_EORST )
{
// Disable both suspend and wakeup interrupt
USB->DEVICE.INTENCLR.reg = USB_DEVICE_INTFLAG_WAKEUP | USB_DEVICE_INTFLAG_SUSPEND;
bus_reset();
dcd_event_bus_signal(0, DCD_EVENT_BUS_RESET, true);
}
// Setup packet received.
maybe_handle_setup_packet();
// Handle complete transfer
maybe_transfer_complete();
}
#endif