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Add SAMD21 and SAMD51 support for CircuitPython.

Browse Source 
The ProtoThreads style subtasks were removed because it led to
extremely unclear control flow. RTOSes can be used if threading is
needed.

Also added some additional functionality to MSC to support dynamic
LUNs and read-only LUNs.
This commit is contained in:
Scott Shawcroft
2018-10-24 23:55:10 -07:00
parent cb9bcce6a2
commit c582c0fda9
16 changed files with 1051 additions and 208 deletions
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341
src/portable/microchip/samd21/dcd.c Normal file
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/**************************************************************************/
/*!
@file dcd_nrf5x.c
@author hathach
@section LICENSE
Software License Agreement (BSD License)
Copyright (c) 2018, Scott Shawcroft for Adafruit Industries
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are met:
1. Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
3. Neither the name of the copyright holders nor the
names of its contributors may be used to endorse or promote products
derived from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ''AS IS'' AND ANY
EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE FOR ANY
DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
This file is part of the tinyusb stack.
*/
/**************************************************************************/
#include "tusb_option.h"
#if TUSB_OPT_DEVICE_ENABLED && CFG_TUSB_MCU == OPT_MCU_SAMD51
#include "device/dcd.h"
#include "device/usbd.h"
#include "device/usbd_pvt.h" // to use defer function helper
#include "class/msc/msc_device.h"
#include "sam.h"
/*------------------------------------------------------------------*/
/* MACRO TYPEDEF CONSTANT ENUM
*------------------------------------------------------------------*/
enum
{
// Max allowed by USB specs
MAX_PACKET_SIZE = 64,
};
UsbDeviceDescBank sram_registers[8][2];
ATTR_ALIGNED(4) uint8_t control_out_buffer[64];
ATTR_ALIGNED(4) uint8_t control_in_buffer[64];
volatile uint32_t setup_count = 0;
// 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;
dcd_edpt_xfer(0, 0, control_out_buffer, 64);
setup_count = 0;
}
/*------------------------------------------------------------------*/
/* Controller API
*------------------------------------------------------------------*/
bool dcd_init (uint8_t rhport)
{
(void) rhport;
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->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_SOF | USB_DEVICE_INTENSET_EORST;
return true;
}
void dcd_connect (uint8_t rhport)
{
}
void dcd_disconnect (uint8_t rhport)
{
}
void dcd_set_address (uint8_t rhport, uint8_t dev_addr)
{
(void) rhport;
dcd_edpt_xfer (0, TUSB_DIR_IN_MASK, NULL, 0);
// Wait for EP0 to finish before switching the address.
while (USB->DEVICE.DeviceEndpoint[0].EPSTATUS.bit.BK1RDY == 1) {}
USB->DEVICE.DADD.reg = USB_DEVICE_DADD_DADD(dev_addr) | USB_DEVICE_DADD_ADDEN;
}
void dcd_set_config (uint8_t rhport, uint8_t config_num)
{
(void) rhport;
(void) config_num;
// Nothing to do
}
/*------------------------------------------------------------------*/
/* Control
*------------------------------------------------------------------*/
bool dcd_control_xfer (uint8_t rhport, uint8_t dir, uint8_t * buffer, uint16_t length)
{
(void) rhport;
uint8_t ep_addr = 0;
if (dir == TUSB_DIR_IN) {
ep_addr |= TUSB_DIR_IN_MASK;
}
return dcd_edpt_xfer (rhport, ep_addr, buffer, length);
}
bool dcd_edpt_open (uint8_t rhport, tusb_desc_endpoint_t const * desc_edpt)
{
(void) rhport;
uint8_t const epnum = edpt_number(desc_edpt->bEndpointAddress);
uint8_t const dir = 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++;
}
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;
}
__ISB(); __DSB();
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 = edpt_number(ep_addr);
uint8_t const dir = edpt_dir(ep_addr);
UsbDeviceDescBank* bank = &sram_registers[epnum][dir];
UsbDeviceEndpoint* ep = &USB->DEVICE.DeviceEndpoint[epnum];
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;
}
bool dcd_edpt_stalled (uint8_t rhport, uint8_t ep_addr)
{
(void) rhport;
// control is never got halted
if ( ep_addr == 0 ) {
return false;
}
uint8_t const epnum = edpt_number(ep_addr);
UsbDeviceEndpoint* ep = &USB->DEVICE.DeviceEndpoint[epnum];
return (edpt_dir(ep_addr) == TUSB_DIR_IN ) ? ep->EPINTFLAG.bit.STALL1 : ep->EPINTFLAG.bit.STALL0;
}
void dcd_edpt_stall (uint8_t rhport, uint8_t ep_addr)
{
(void) rhport;
uint8_t const epnum = edpt_number(ep_addr);
UsbDeviceEndpoint* ep = &USB->DEVICE.DeviceEndpoint[epnum];
if (edpt_dir(ep_addr) == TUSB_DIR_IN) {
ep->EPSTATUSSET.reg = USB_DEVICE_EPSTATUSSET_STALLRQ1;
} else {
ep->EPSTATUSSET.reg = USB_DEVICE_EPSTATUSSET_STALLRQ0;
}
__ISB(); __DSB();
}
void dcd_edpt_clear_stall (uint8_t rhport, uint8_t ep_addr)
{
(void) rhport;
uint8_t const epnum = edpt_number(ep_addr);
UsbDeviceEndpoint* ep = &USB->DEVICE.DeviceEndpoint[epnum];
if (edpt_dir(ep_addr) == TUSB_DIR_IN) {
ep->EPSTATUSCLR.reg = USB_DEVICE_EPSTATUSCLR_STALLRQ1;
} else {
ep->EPSTATUSCLR.reg = USB_DEVICE_EPSTATUSCLR_STALLRQ0;
}
}
bool dcd_edpt_busy (uint8_t rhport, uint8_t ep_addr)
{
(void) rhport;
// USBD shouldn't check control endpoint state
if ( 0 == ep_addr ) return false;
uint8_t const epnum = edpt_number(ep_addr);
UsbDeviceEndpoint* ep = &USB->DEVICE.DeviceEndpoint[epnum];
if (edpt_dir(ep_addr) == TUSB_DIR_IN) {
return ep->EPINTFLAG.bit.TRCPT1 == 0 && ep->EPSTATUS.bit.BK1RDY == 1;
}
return ep->EPINTFLAG.bit.TRCPT0 == 0 && ep->EPSTATUS.bit.BK0RDY == 1;
}
/*------------------------------------------------------------------*/
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, (uint8_t*) sram_registers[0][0].ADDR.reg, true);
dcd_edpt_xfer(0, 0, control_out_buffer, 64);
setup_count += 1;
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;
// 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];
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, DCD_XFER_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];
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, DCD_XFER_SUCCESS, true);
if (epnum == 0) {
dcd_edpt_xfer(0, 0, control_out_buffer, 64);
}
}
}
}
void USB_Handler(void) {
uint32_t int_status = USB->DEVICE.INTFLAG.reg;
/*------------- Interrupt Processing -------------*/
if ( int_status & USB_DEVICE_INTFLAG_EORST )
{
USB->DEVICE.INTFLAG.reg = USB_DEVICE_INTENCLR_EORST;
bus_reset();
dcd_event_bus_signal(0, DCD_EVENT_BUS_RESET, true);
}
if ( int_status & USB_DEVICE_INTFLAG_SOF )
{
USB->DEVICE.INTFLAG.reg = USB_DEVICE_INTFLAG_SOF;
dcd_event_bus_signal(0, DCD_EVENT_SOF, true);
}
// Setup packet received.
maybe_handle_setup_packet();
// Handle complete transfer
maybe_transfer_complete();
}
#endif

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src/portable/microchip/samd21/hal.c Normal file
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/**************************************************************************/
/*!
@file hal_nrf5x.c
@author hathach
@section LICENSE
Software License Agreement (BSD License)
Copyright (c) 2018, hathach (tinyusb.org)
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are met:
1. Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
3. Neither the name of the copyright holders nor the
names of its contributors may be used to endorse or promote products
derived from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ''AS IS'' AND ANY
EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE FOR ANY
DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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 "tusb_hal.h"
/*------------------------------------------------------------------*/
/* MACRO TYPEDEF CONSTANT ENUM
*------------------------------------------------------------------*/
#define USB_NVIC_PRIO 7
void tusb_hal_nrf_power_event(uint32_t event);
/*------------------------------------------------------------------*/
/* TUSB HAL
*------------------------------------------------------------------*/
bool tusb_hal_init(void)
{
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;
tusb_hal_int_enable(0);
return true;
}
void tusb_hal_int_enable(uint8_t rhport)
{
(void) rhport;
NVIC_EnableIRQ(USB_IRQn);
}
void tusb_hal_int_disable(uint8_t rhport)
{
(void) rhport;
NVIC_DisableIRQ(USB_IRQn);
}
#endif

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src/portable/microchip/samd51/dcd.c Normal file
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/**************************************************************************/
/*!
@file dcd_nrf5x.c
@author hathach
@section LICENSE
Software License Agreement (BSD License)
Copyright (c) 2018, Scott Shawcroft for Adafruit Industries
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are met:
1. Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
3. Neither the name of the copyright holders nor the
names of its contributors may be used to endorse or promote products
derived from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ''AS IS'' AND ANY
EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE FOR ANY
DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
This file is part of the tinyusb stack.
*/
/**************************************************************************/
#include "tusb_option.h"
#if TUSB_OPT_DEVICE_ENABLED && CFG_TUSB_MCU == OPT_MCU_SAMD51
#include "device/dcd.h"
#include "device/usbd.h"
#include "device/usbd_pvt.h" // to use defer function helper
#include "sam.h"
/*------------------------------------------------------------------*/
/* MACRO TYPEDEF CONSTANT ENUM
*------------------------------------------------------------------*/
enum
{
// Max allowed by USB specs
MAX_PACKET_SIZE = 64,
};
UsbDeviceDescBank sram_registers[8][2];
ATTR_ALIGNED(4) uint8_t control_out_buffer[64];
ATTR_ALIGNED(4) uint8_t control_in_buffer[64];
volatile uint32_t setup_count = 0;
// 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;
dcd_edpt_xfer(0, 0, control_out_buffer, 64);
setup_count = 0;
}
/*------------------------------------------------------------------*/
/* Controller API
*------------------------------------------------------------------*/
bool dcd_init (uint8_t rhport)
{
(void) rhport;
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->DEVICE.INTENSET.reg = USB_DEVICE_INTENSET_SOF | USB_DEVICE_INTENSET_EORST;
return true;
}
void dcd_connect (uint8_t rhport)
{
}
void dcd_disconnect (uint8_t rhport)
{
}
void dcd_set_address (uint8_t rhport, uint8_t dev_addr)
{
(void) rhport;
dcd_edpt_xfer (0, TUSB_DIR_IN_MASK, NULL, 0);
// Wait for EP0 to finish before switching the address.
while (USB->DEVICE.DeviceEndpoint[0].EPSTATUS.bit.BK1RDY == 1) {}
USB->DEVICE.DADD.reg = USB_DEVICE_DADD_DADD(dev_addr) | USB_DEVICE_DADD_ADDEN;
}
void dcd_set_config (uint8_t rhport, uint8_t config_num)
{
(void) rhport;
(void) config_num;
// Nothing to do
}
/*------------------------------------------------------------------*/
/* Control
*------------------------------------------------------------------*/
bool dcd_control_xfer (uint8_t rhport, uint8_t dir, uint8_t * buffer, uint16_t length)
{
(void) rhport;
uint8_t ep_addr = 0;
if (dir == TUSB_DIR_IN) {
ep_addr |= TUSB_DIR_IN_MASK;
}
return dcd_edpt_xfer (rhport, ep_addr, buffer, length);
}
bool dcd_edpt_open (uint8_t rhport, tusb_desc_endpoint_t const * desc_edpt)
{
(void) rhport;
uint8_t const epnum = edpt_number(desc_edpt->bEndpointAddress);
uint8_t const dir = 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++;
}
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;
}
__ISB(); __DSB();
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 = edpt_number(ep_addr);
uint8_t const dir = edpt_dir(ep_addr);
UsbDeviceDescBank* bank = &sram_registers[epnum][dir];
UsbDeviceEndpoint* ep = &USB->DEVICE.DeviceEndpoint[epnum];
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;
ep->EPSTATUSSET.reg |= USB_DEVICE_EPSTATUSSET_BK1RDY;
ep->EPINTFLAG.reg |= USB_DEVICE_EPINTFLAG_TRFAIL1;
}
return true;
}
bool dcd_edpt_stalled (uint8_t rhport, uint8_t ep_addr)
{
(void) rhport;
// control is never got halted
if ( ep_addr == 0 ) {
return false;
}
uint8_t const epnum = edpt_number(ep_addr);
UsbDeviceEndpoint* ep = &USB->DEVICE.DeviceEndpoint[epnum];
return (edpt_dir(ep_addr) == TUSB_DIR_IN ) ? ep->EPINTFLAG.bit.STALL1 : ep->EPINTFLAG.bit.STALL0;
}
void dcd_edpt_stall (uint8_t rhport, uint8_t ep_addr)
{
(void) rhport;
uint8_t const epnum = edpt_number(ep_addr);
UsbDeviceEndpoint* ep = &USB->DEVICE.DeviceEndpoint[epnum];
if (edpt_dir(ep_addr) == TUSB_DIR_IN) {
ep->EPSTATUSSET.reg = USB_DEVICE_EPSTATUSSET_STALLRQ1;
} else {
ep->EPSTATUSSET.reg = USB_DEVICE_EPSTATUSSET_STALLRQ0;
}
__ISB(); __DSB();
}
void dcd_edpt_clear_stall (uint8_t rhport, uint8_t ep_addr)
{
(void) rhport;
uint8_t const epnum = edpt_number(ep_addr);
UsbDeviceEndpoint* ep = &USB->DEVICE.DeviceEndpoint[epnum];
if (edpt_dir(ep_addr) == TUSB_DIR_IN) {
ep->EPSTATUSCLR.reg = USB_DEVICE_EPSTATUSCLR_STALLRQ1;
} else {
ep->EPSTATUSCLR.reg = USB_DEVICE_EPSTATUSCLR_STALLRQ0;
}
}
bool dcd_edpt_busy (uint8_t rhport, uint8_t ep_addr)
{
(void) rhport;
// USBD shouldn't check control endpoint state
if ( 0 == ep_addr ) return false;
uint8_t const epnum = edpt_number(ep_addr);
UsbDeviceEndpoint* ep = &USB->DEVICE.DeviceEndpoint[epnum];
if (edpt_dir(ep_addr) == TUSB_DIR_IN) {
return ep->EPINTFLAG.bit.TRCPT1 == 0 && ep->EPSTATUS.bit.BK1RDY == 1;
}
return ep->EPINTFLAG.bit.TRCPT0 == 0 && ep->EPSTATUS.bit.BK0RDY == 1;
}
/*------------------------------------------------------------------*/
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;
// uint8_t* buf = (uint8_t*) sram_registers[0][0].ADDR.reg;
//
// if (buf[6] == 0x12) asm("bkpt");
// This copies the data elsewhere so we can reuse the buffer.
dcd_event_setup_received(0, (uint8_t*) sram_registers[0][0].ADDR.reg, true);
dcd_edpt_xfer(0, 0, control_out_buffer, 64);
setup_count += 1;
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;
/*------------- Interrupt Processing -------------*/
if ( int_status & USB_DEVICE_INTFLAG_EORST )
{
USB->DEVICE.INTFLAG.reg = USB_DEVICE_INTENCLR_EORST;
bus_reset();
dcd_event_bus_signal(0, DCD_EVENT_BUS_RESET, true);
}
// Setup packet received.
maybe_handle_setup_packet();
}
/* 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) {
// uint8_t* buf = (uint8_t*) sram_registers[0][0].ADDR.reg;
//
// if (buf[6] == 0x12 || setup_count == 2) asm("bkpt");
uint32_t epints = USB->DEVICE.EPINTSMRY.reg;
for (uint8_t epnum = 0; epnum < USB_EPT_NUM; epnum++) {
if ((epints & (1 << epnum)) == 0) {
continue;
}
if (direction == TUSB_DIR_OUT && maybe_handle_setup_packet()) {
continue;
}
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, DCD_XFER_SUCCESS, true);
if (epnum == 0 && direction == TUSB_DIR_OUT) {
dcd_edpt_xfer(0, 0, control_out_buffer, 64);
}
if (direction == TUSB_DIR_IN) {
ep->EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRCPT1;
} else {
ep->EPINTFLAG.reg = USB_DEVICE_EPINTFLAG_TRCPT0;
}
}
}
// Bank zero is for OUT and SETUP transactions.
/* USB_TRCPT0_0, USB_TRCPT0_1, USB_TRCPT0_2,
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);
}
// Bank one is used for IN transactions.
/* USB_TRCPT1_0, USB_TRCPT1_1, USB_TRCPT1_2,
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);
}
#endif

88
src/portable/microchip/samd51/hal.c Normal file
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@@ -0,0 +1,88 @@
/**************************************************************************/
/*!
@file hal_nrf5x.c
@author hathach
@section LICENSE
Software License Agreement (BSD License)
Copyright (c) 2018, hathach (tinyusb.org)
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are met:
1. Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
3. Neither the name of the copyright holders nor the
names of its contributors may be used to endorse or promote products
derived from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ''AS IS'' AND ANY
EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE FOR ANY
DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
This file is part of the tinyusb stack.
*/
/**************************************************************************/
#include "tusb_option.h"
#if TUSB_OPT_DEVICE_ENABLED && CFG_TUSB_MCU == OPT_MCU_SAMD51
#include "sam.h"
#include "tusb_hal.h"
/*------------------------------------------------------------------*/
/* MACRO TYPEDEF CONSTANT ENUM
*------------------------------------------------------------------*/
#define USB_NVIC_PRIO 7
void tusb_hal_nrf_power_event(uint32_t event);
/*------------------------------------------------------------------*/
/* TUSB HAL
*------------------------------------------------------------------*/
bool tusb_hal_init(void)
{
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 = 3;
USB->DEVICE.QOSCTRL.bit.DQOS = 3;
tusb_hal_int_enable(0);
return true;
}
void tusb_hal_int_enable(uint8_t rhport)
{
(void) rhport;
NVIC_EnableIRQ(USB_0_IRQn);
NVIC_EnableIRQ(USB_1_IRQn);
NVIC_EnableIRQ(USB_2_IRQn);
NVIC_EnableIRQ(USB_3_IRQn);
}
void tusb_hal_int_disable(uint8_t rhport)
{
(void) rhport;
NVIC_DisableIRQ(USB_3_IRQn);
NVIC_DisableIRQ(USB_2_IRQn);
NVIC_DisableIRQ(USB_1_IRQn);
NVIC_DisableIRQ(USB_0_IRQn);
}
#endif