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/*
* The MIT License (MIT)
*
* Copyright (c) 2019 Ha Thach (tinyusb.org)
*
* 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 CFG_TUD_ENABLED
#include "dcd.h"
#include "tusb.h"
#include "device/usbd_pvt.h"
//--------------------------------------------------------------------+
// Callback weak stubs (called if application does not provide)
//--------------------------------------------------------------------+
TU_ATTR_WEAK void dcd_edpt0_status_complete(uint8_t rhport, tusb_control_request_t const* request) {
(void) rhport;
(void) request;
}
//--------------------------------------------------------------------+
// MACRO CONSTANT TYPEDEF
//--------------------------------------------------------------------+
#if CFG_TUSB_DEBUG >= CFG_TUD_LOG_LEVEL
extern void usbd_driver_print_control_complete_name(usbd_control_xfer_cb_t callback);
#endif
enum {
EDPT_CTRL_OUT = 0x00,
EDPT_CTRL_IN = 0x80
};
typedef struct {
tusb_control_request_t request;
uint8_t* buffer;
uint16_t data_len;
uint16_t total_xferred;
usbd_control_xfer_cb_t complete_cb;
} usbd_control_xfer_t;
tu_static usbd_control_xfer_t _ctrl_xfer;
CFG_TUD_MEM_SECTION CFG_TUSB_MEM_ALIGN
tu_static uint8_t _usbd_ctrl_buf[CFG_TUD_ENDPOINT0_SIZE];
//--------------------------------------------------------------------+
// Application API
//--------------------------------------------------------------------+
// Queue ZLP status transaction
static inline bool _status_stage_xact(uint8_t rhport, tusb_control_request_t const* request) {
// Opposite to endpoint in Data Phase
uint8_t const ep_addr = request->bmRequestType_bit.direction ? EDPT_CTRL_OUT : EDPT_CTRL_IN;
return usbd_edpt_xfer(rhport, ep_addr, NULL, 0);
}
// Status phase
bool tud_control_status(uint8_t rhport, tusb_control_request_t const* request) {
_ctrl_xfer.request = (*request);
_ctrl_xfer.buffer = NULL;
_ctrl_xfer.total_xferred = 0;
_ctrl_xfer.data_len = 0;
return _status_stage_xact(rhport, request);
}
// Queue a transaction in Data Stage
// Each transaction has up to Endpoint0's max packet size.
// This function can also transfer an zero-length packet
static bool _data_stage_xact(uint8_t rhport) {
uint16_t const xact_len = tu_min16(_ctrl_xfer.data_len - _ctrl_xfer.total_xferred,
CFG_TUD_ENDPOINT0_SIZE);
uint8_t ep_addr = EDPT_CTRL_OUT;
if (_ctrl_xfer.request.bmRequestType_bit.direction == TUSB_DIR_IN) {
ep_addr = EDPT_CTRL_IN;
if (xact_len) {
TU_VERIFY(0 == tu_memcpy_s(_usbd_ctrl_buf, CFG_TUD_ENDPOINT0_SIZE, _ctrl_xfer.buffer, xact_len));
}
}
return usbd_edpt_xfer(rhport, ep_addr, xact_len ? _usbd_ctrl_buf : NULL, xact_len);
}
// Transmit data to/from the control endpoint.
// If the request's wLength is zero, a status packet is sent instead.
bool tud_control_xfer(uint8_t rhport, tusb_control_request_t const* request, void* buffer, uint16_t len) {
_ctrl_xfer.request = (*request);
_ctrl_xfer.buffer = (uint8_t*) buffer;
_ctrl_xfer.total_xferred = 0U;
_ctrl_xfer.data_len = tu_min16(len, request->wLength);
if (request->wLength > 0U) {
if (_ctrl_xfer.data_len > 0U) {
TU_ASSERT(buffer);
}
// TU_LOG2(" Control total data length is %u bytes\r\n", _ctrl_xfer.data_len);
// Data stage
TU_ASSERT(_data_stage_xact(rhport));
} else {
// Status stage
TU_ASSERT(_status_stage_xact(rhport, request));
}
return true;
}
//--------------------------------------------------------------------+
// USBD API
//--------------------------------------------------------------------+
void usbd_control_reset(void);
void usbd_control_set_request(tusb_control_request_t const* request);
void usbd_control_set_complete_callback(usbd_control_xfer_cb_t fp);
bool usbd_control_xfer_cb(uint8_t rhport, uint8_t ep_addr, xfer_result_t event, uint32_t xferred_bytes);
void usbd_control_reset(void) {
tu_varclr(&_ctrl_xfer);
}
// Set complete callback
void usbd_control_set_complete_callback(usbd_control_xfer_cb_t fp) {
_ctrl_xfer.complete_cb = fp;
}
// for dcd_set_address where DCD is responsible for status response
void usbd_control_set_request(tusb_control_request_t const* request) {
_ctrl_xfer.request = (*request);
_ctrl_xfer.buffer = NULL;
_ctrl_xfer.total_xferred = 0;
_ctrl_xfer.data_len = 0;
}
// callback when a transaction complete on
// - DATA stage of control endpoint or
// - Status stage
bool usbd_control_xfer_cb(uint8_t rhport, uint8_t ep_addr, xfer_result_t result, uint32_t xferred_bytes) {
(void) result;
// Endpoint Address is opposite to direction bit, this is Status Stage complete event
if (tu_edpt_dir(ep_addr) != _ctrl_xfer.request.bmRequestType_bit.direction) {
TU_ASSERT(0 == xferred_bytes);
// invoke optional dcd hook if available
dcd_edpt0_status_complete(rhport, &_ctrl_xfer.request);
if (_ctrl_xfer.complete_cb) {
// TODO refactor with usbd_driver_print_control_complete_name
_ctrl_xfer.complete_cb(rhport, CONTROL_STAGE_ACK, &_ctrl_xfer.request);
}
return true;
}
if (_ctrl_xfer.request.bmRequestType_bit.direction == TUSB_DIR_OUT) {
TU_VERIFY(_ctrl_xfer.buffer);
memcpy(_ctrl_xfer.buffer, _usbd_ctrl_buf, xferred_bytes);
TU_LOG_MEM(CFG_TUD_LOG_LEVEL, _usbd_ctrl_buf, xferred_bytes, 2);
}
_ctrl_xfer.total_xferred += (uint16_t) xferred_bytes;
_ctrl_xfer.buffer += xferred_bytes;
// Data Stage is complete when all request's length are transferred or
// a short packet is sent including zero-length packet.
if ((_ctrl_xfer.request.wLength == _ctrl_xfer.total_xferred) ||
(xferred_bytes < CFG_TUD_ENDPOINT0_SIZE)) {
// DATA stage is complete
bool is_ok = true;
// invoke complete callback if set
// callback can still stall control in status phase e.g out data does not make sense
if (_ctrl_xfer.complete_cb) {
#if CFG_TUSB_DEBUG >= CFG_TUD_LOG_LEVEL
usbd_driver_print_control_complete_name(_ctrl_xfer.complete_cb);
#endif
is_ok = _ctrl_xfer.complete_cb(rhport, CONTROL_STAGE_DATA, &_ctrl_xfer.request);
}
if (is_ok) {
// Send status
TU_ASSERT(_status_stage_xact(rhport, &_ctrl_xfer.request));
} else {
// Stall both IN and OUT control endpoint
dcd_edpt_stall(rhport, EDPT_CTRL_OUT);
dcd_edpt_stall(rhport, EDPT_CTRL_IN);
}
} else {
// More data to transfer
TU_ASSERT(_data_stage_xact(rhport));
}
return true;
}
#endif
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