Dave Van Wagner
ST/USBHOST forked to add another HID handler for raw keyboard data to get more detail not available with current handlers (all pressed keys, all releases, and periodic updates)
Dependents: C64-stm429_discovery
USBHost/TARGET_STM/USBEndpoint_STM.cpp
- Committer:
- davervw
- Date:
- 2020-04-13
- Revision:
- 7:9dc1cb9d5e12
- Parent:
- 5:fc157e6bd5a5
File content as of revision 7:9dc1cb9d5e12:
/* mbed USBHost Library
* Copyright (c) 2006-2013 ARM Limited
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#if defined(TARGET_STM) && defined(USBHOST_OTHER)
#include "dbg.h"
#include "USBEndpoint.h"
extern uint32_t HAL_HCD_HC_GetMaxPacket(HCD_HandleTypeDef *hhcd, uint8_t chn_num);
extern uint32_t HAL_HCD_HC_GetType(HCD_HandleTypeDef *hhcd, uint8_t chn_num);
extern void HAL_HCD_DisableInt(HCD_HandleTypeDef* hhcd, uint8_t chn_num);
extern void HAL_HCD_EnableInt(HCD_HandleTypeDef* hhcd, uint8_t chn_num);
void USBEndpoint::init(HCED * hced_, ENDPOINT_TYPE type_, ENDPOINT_DIRECTION dir_, uint32_t size, uint8_t ep_number, HCTD* td_list_[2])
{
HCD_HandleTypeDef *hhcd;
uint32_t *addr;
hced = hced_;
type = type_;
dir = dir_;
setup = (type == CONTROL_ENDPOINT) ? true : false;
//TDs have been allocated by the host
memcpy((HCTD**)td_list, td_list_, sizeof(HCTD*)*2); //TODO: Maybe should add a param for td_list size... at least a define
memset(td_list_[0], 0, sizeof(HCTD));
memset(td_list_[1], 0, sizeof(HCTD));
td_list[0]->ep = this;
td_list[1]->ep = this;
address = (ep_number & 0x7F) | ((dir - 1) << 7);
this->size = size;
this->ep_number = ep_number;
transfer_len = 0;
transferred = 0;
buf_start = 0;
nextEp = NULL;
td_current = td_list[0];
td_next = td_list[1];
/* remove potential post pending from previous endpoint */
ep_queue.get(0);
intf_nb = 0;
hhcd = (HCD_HandleTypeDef*)hced->hhcd;
addr = &((uint32_t *)hhcd->pData)[hced->ch_num];
*addr = 0;
state = USB_TYPE_IDLE;
speed =false;
}
void USBEndpoint::setSize(uint32_t size)
{
this->size = size;
}
void USBEndpoint::setDeviceAddress(uint8_t addr)
{
HCD_HandleTypeDef *hhcd;
uint8_t hcd_speed = HCD_SPEED_FULL;
/* fix me : small speed device with hub not supported
if (this->speed) hcd_speed = HCD_SPEED_LOW; */
if (this->speed) USB_WARN("small speed device on hub not supported");
MBED_ASSERT(HAL_HCD_HC_Init((HCD_HandleTypeDef*)hced->hhcd,hced->ch_num, address, addr, hcd_speed, type, size)!=HAL_BUSY);
this->device_address = addr;
}
void USBEndpoint::setSpeed(uint8_t speed)
{
this->speed = speed;
}
void USBEndpoint::setState(USB_TYPE st)
{
/* modify this state is possible only with a plug */
if ((state == USB_TYPE_FREE)) return;
state = st;
if (st == USB_TYPE_FREE) {
HCD_HandleTypeDef *hhcd = (HCD_HandleTypeDef*)hced->hhcd;
uint32_t *addr = &((uint32_t *)hhcd->pData)[hced->ch_num];
if ((*addr)&& (type!=INTERRUPT_ENDPOINT)) {
this->ep_queue.put((uint8_t*)1);
}
MBED_ASSERT(HAL_HCD_HC_Halt((HCD_HandleTypeDef*)hced->hhcd, hced->ch_num)!=HAL_BUSY);
HAL_HCD_DisableInt((HCD_HandleTypeDef*)hced->hhcd, hced->ch_num);
*addr = 0;
}
if ((st == USB_TYPE_ERROR) ) {
MBED_ASSERT(HAL_HCD_HC_Halt((HCD_HandleTypeDef*)hced->hhcd, hced->ch_num)!=HAL_BUSY);
HAL_HCD_DisableInt((HCD_HandleTypeDef*)hced->hhcd, hced->ch_num);
}
if ((st == USB_TYPE_ERROR) ) {
uint8_t hcd_speed = HCD_SPEED_FULL;
/* small speed device with hub not supported
if (this->speed) hcd_speed = HCD_SPEED_LOW;*/
MBED_ASSERT(HAL_HCD_HC_Init((HCD_HandleTypeDef*)hced->hhcd,hced->ch_num, address, 0, hcd_speed, type, size)!=HAL_BUSY);
}
}
extern uint32_t HAL_HCD_HC_GetMaxPacket(HCD_HandleTypeDef *hhcd, uint8_t chn_num);
extern uint32_t HAL_HCD_HC_GetType(HCD_HandleTypeDef *hhcd, uint8_t chn_num);
USB_TYPE USBEndpoint::queueTransfer()
{
HCD_HandleTypeDef *hhcd = (HCD_HandleTypeDef*)hced->hhcd;
uint32_t *addr = &((uint32_t *)hhcd->pData)[hced->ch_num];
uint32_t type = HAL_HCD_HC_GetType(hhcd, hced->ch_num);
uint32_t max_size = HAL_HCD_HC_GetMaxPacket(hhcd, hced->ch_num);
/* if a packet is queue on disconnected ; no solution for now */
if ((state == USB_TYPE_FREE) ) {
td_current->state = USB_TYPE_FREE;
return USB_TYPE_FREE;
}
ep_queue.get(0);
MBED_ASSERT(*addr ==0);
transfer_len = td_current->size <= max_size ? td_current->size : max_size;
buf_start = (uint8_t *)td_current->currBufPtr;
//Now add this free TD at this end of the queue
state = USB_TYPE_PROCESSING;
/* one request */
td_current->nextTD = (hcTd*)0;
#if defined(MAX_NYET_RETRY)
td_current->retry = 0;
#endif
td_current->setup = setup;
*addr = (uint32_t)td_current;
/* dir /setup is inverted for ST */
/* token is useful only ctrl endpoint */
/* last parameter is ping ? */
MBED_ASSERT(HAL_HCD_HC_SubmitRequest((HCD_HandleTypeDef*)hced->hhcd, hced->ch_num, dir-1, type,!setup,(uint8_t*) td_current->currBufPtr, transfer_len, 0)==HAL_OK);
HAL_HCD_EnableInt((HCD_HandleTypeDef*)hced->hhcd, hced->ch_num);
return USB_TYPE_PROCESSING;
}
void USBEndpoint::unqueueTransfer(volatile HCTD * td)
{
if (state==USB_TYPE_FREE) return;
uint32_t *addr = &((uint32_t *)((HCD_HandleTypeDef*)hced->hhcd)->pData)[hced->ch_num];
td->state=0;
td->currBufPtr=0;
td->size=0;
td->nextTD=0;
*addr = 0;
td_current = td_next;
td_next = td;
}
void USBEndpoint::queueEndpoint(USBEndpoint * ed)
{
nextEp = ed;
}
#endif