rt-thread-official/bsp/wch/arm/ch579m/board/drv_usbh.c

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/*
* Copyright (c) 2006-2022, RT-Thread Development Team
*
* SPDX-License-Identifier: Apache-2.0
*
* Change Logs:
* Date Author Notes
* 2022-02-16 Tuber first version
*/
#include <rtthread.h>
#include <rtdevice.h>
#include "board.h"
#include "drv_usbh.h"
#ifdef BSP_USING_USBH
static struct rt_completion urb_completion;
//USB接收缓存区
__align(4) UINT8 usb_rx_buf[MAX_PACKET_SIZE]; // IN, must even address
__align(4) UINT8 usb_tx_buf[MAX_PACKET_SIZE]; // OUT, must even address
static struct uhcd uhcd;
static rt_err_t drv_reset_port(rt_uint8_t port)
{
//关闭中断
R8_USB_INT_EN = 0x00;
R8_USB_DEV_AD = (R8_USB_DEV_AD & RB_UDA_GP_BIT) | (0x00 & MASK_USB_ADDR); //设置地址
R8_UHOST_CTRL &= ~RB_UH_PORT_EN; // 关掉端口
//判断设备速度
if (R8_USB_MIS_ST & RB_UMS_DM_LEVEL)
{
//低速
R8_USB_CTRL |= RB_UC_LOW_SPEED; // 默认为低速
R8_UHOST_CTRL = (R8_UHOST_CTRL | RB_UH_LOW_SPEED) | RB_UH_BUS_RESET; // 默认为低速,开始复位
}
else
{
//全速
R8_USB_CTRL &= ~ RB_UC_LOW_SPEED; // 默认为全速
R8_UHOST_CTRL = (R8_UHOST_CTRL & ~RB_UH_LOW_SPEED) | RB_UH_BUS_RESET; // 默认为全速,开始复位
}
rt_thread_mdelay(15); // 复位时间10mS到20mS
R8_UHOST_CTRL = R8_UHOST_CTRL & ~ RB_UH_BUS_RESET; // 结束复位
rt_thread_mdelay(1);
R8_UHOST_CTRL |= RB_UH_PORT_EN; //打开端口
R8_USB_INT_FG = RB_UIF_DETECT; // 清中断标志
//打开中断
R8_USB_INT_EN = RB_UIF_TRANSFER | RB_UIE_DETECT;
return RT_EOK;
}
static int drv_pipe_xfer(upipe_t pipe, rt_uint8_t token, void *buffer, int nbytes, int timeouts)
{
rt_err_t res;
UINT16 i;
UINT16 retry_count = 3;
rt_uint8_t usb_pid, res_pid;
UINT8 *tog = (UINT8 *)pipe->user_data;
//设置目标usb地址
R8_USB_DEV_AD = (R8_USB_DEV_AD & RB_UDA_GP_BIT) | (pipe->inst->address & MASK_USB_ADDR);
//判断是in还是out操作
if (pipe->ep.bEndpointAddress & USB_DIR_IN)
{
usb_pid = USB_PID_IN; //in
R8_UH_TX_LEN = 0x00;
}
else
{
usb_pid = (token == USBH_PID_SETUP) ? USB_PID_SETUP : USB_PID_OUT; //setup/out
rt_memcpy(usb_tx_buf, buffer, nbytes);
R8_UH_TX_LEN = nbytes;
}
//设置数据TOG
switch (usb_pid)
{
case USB_PID_IN:
if (nbytes == 0) *tog = USB_PID_DATA1; //状态反馈
R8_UH_RX_CTRL = (*tog == USB_PID_DATA1) ? RB_UH_R_TOG : 0x00;
break;
case USB_PID_OUT:
if (nbytes == 0) *tog = USB_PID_DATA1; //状态反馈
R8_UH_TX_CTRL = (*tog == USB_PID_DATA1) ? RB_UH_T_TOG : 0x00;
break;
case USB_PID_SETUP:
*(UINT8 *)pipe->inst->pipe_ep0_out->user_data = USB_PID_DATA0;
*(UINT8 *)pipe->inst->pipe_ep0_in->user_data = USB_PID_DATA1;
R8_UH_TX_CTRL = (*tog == USB_PID_DATA1) ? RB_UH_T_TOG : 0x00;
break;
}
//usb枚举的时候加大重试次数提高usb设备枚举成功率
if ((pipe->ep.bmAttributes & USB_EP_ATTR_TYPE_MASK) == USB_EP_ATTR_CONTROL)
{
retry_count = 1000;
}
for (i = 0; i < retry_count; i++)
{
//传输
R8_UH_EP_PID = (usb_pid << 4) | (pipe->ep.bEndpointAddress & 0x0F);
res = rt_completion_wait(&urb_completion, timeouts);
if (res != RT_EOK)
{
return res;
}
//判断是否需要反转数据
if (R8_USB_INT_ST & RB_UIS_TOG_OK)
{
*tog = (*tog == USB_PID_DATA0) ? USB_PID_DATA1 : USB_PID_DATA0;//翻转
}
res_pid = R8_USB_INT_ST & MASK_UIS_H_RES;
switch (res_pid)
{
case USB_PID_ACK://发送成功
pipe->status = UPIPE_STATUS_OK;
if (pipe->callback != RT_NULL) pipe->callback(pipe);
return nbytes;
case USB_PID_DATA0: //收到数据
case USB_PID_DATA1: //收到数据
pipe->status = UPIPE_STATUS_OK;
if (pipe->callback != RT_NULL) pipe->callback(pipe);
//拷贝数据到buffer
if (usb_pid == USB_PID_IN)
{
rt_memcpy(buffer, usb_rx_buf, R8_USB_RX_LEN);
return R8_USB_RX_LEN;
}
return nbytes;
case USB_PID_NAK: //数据未就绪
if (pipe->ep.bmAttributes == USB_EP_ATTR_INT)
{
rt_thread_delay((pipe->ep.bInterval * RT_TICK_PER_SECOND / 1000) > 0 ? (pipe->ep.bInterval * RT_TICK_PER_SECOND / 1000) : 1);
}
rt_thread_mdelay(1);
continue;//重试
case USB_PID_STALL: //传输停止
pipe->status = UPIPE_STATUS_STALL;
if (pipe->callback != RT_NULL) pipe->callback(pipe);
return 0;
default:
break;
}
}
pipe->status = UPIPE_STATUS_ERROR;
if (pipe->callback != RT_NULL) pipe->callback(pipe);
return -RT_ERROR;
}
static rt_err_t drv_open_pipe(upipe_t pipe)
{
pipe->pipe_index = pipe->inst->address & MASK_USB_ADDR;
pipe->user_data = rt_malloc(sizeof(UINT8));
//默认发送DATA0
if (pipe->ep.bEndpointAddress & USB_DIR_IN)
{
*(UINT8 *)pipe->user_data = USB_PID_DATA0;
}
else
{
*(UINT8 *)pipe->user_data = USB_PID_DATA0;
}
return RT_EOK;
}
static rt_err_t drv_close_pipe(upipe_t pipe)
{
rt_free(pipe->user_data);
return RT_EOK;
}
static struct uhcd_ops uhcd_ops =
{
drv_reset_port,
drv_pipe_xfer,
drv_open_pipe,
drv_close_pipe,
};
static rt_err_t hcd_init(rt_device_t dev)
{
R16_PIN_ANALOG_IE |= RB_PIN_USB_IE;
R8_USB_CTRL = RB_UC_HOST_MODE;
R8_UHOST_CTRL = 0;
R8_USB_DEV_AD = 0x00;
R8_UH_EP_MOD = RB_UH_EP_TX_EN | RB_UH_EP_RX_EN;
R16_UH_RX_DMA = (UINT16)(UINT32)usb_rx_buf;
R16_UH_TX_DMA = (UINT16)(UINT32)usb_tx_buf;
R8_USB_CTRL = RB_UC_HOST_MODE | RB_UC_INT_BUSY | RB_UC_DMA_EN;
R8_UH_SETUP = RB_UH_SOF_EN;
R8_USB_INT_FG = 0xFF;
R8_USB_INT_EN = RB_UIF_TRANSFER | RB_UIE_DETECT;
//开启中断
NVIC_EnableIRQ(USB_IRQn);
rt_completion_init(&urb_completion);
return RT_EOK;
}
void USB_IRQHandler()
{
rt_interrupt_enter();
//USB连接断开中断
if (R8_USB_INT_FG & RB_UIF_DETECT)
{
R8_USB_INT_FG = RB_UIF_DETECT;//清除中断
//检查USB设备连接状态
if ((R8_USB_MIS_ST & RB_UMS_DEV_ATTACH) != 0)
{
rt_usbh_root_hub_connect_handler(&uhcd, 1, RT_FALSE);
rt_kprintf("usb: up\n");
}
else
{
rt_usbh_root_hub_disconnect_handler(&uhcd, 1);
rt_kprintf("usb: down\n");
}
}
if (R8_USB_INT_FG & RB_UIF_TRANSFER)
{
R8_UH_EP_PID = 0x00; //停止发送
R8_USB_INT_FG = RB_UIF_TRANSFER;//清除中断
rt_completion_done(&urb_completion);
}
if (R8_USB_INT_FG & RB_UIF_SUSPEND)
{
R8_USB_INT_FG = RB_UIF_SUSPEND;//清除中断
}
if (R8_USB_INT_FG & RB_UIF_HST_SOF)
{
R8_USB_INT_FG = RB_UIF_HST_SOF;//清除中断
}
if (R8_USB_INT_FG & RB_UIF_FIFO_OV)
{
R8_USB_INT_FG = RB_UIF_FIFO_OV;//清除中断
}
rt_interrupt_leave();
}
int rt_hw_usbh_init(void)
{
rt_err_t res = -RT_ERROR;
rt_memset((void *)&uhcd, 0, sizeof(struct uhcd));
uhcd.parent.type = RT_Device_Class_USBHost;
uhcd.parent.init = hcd_init;
uhcd.ops = &uhcd_ops;
uhcd.num_ports = 1;
res = rt_device_register(&uhcd.parent, "usbh", RT_DEVICE_FLAG_DEACTIVATE);
if (res != RT_EOK)
{
rt_kprintf("register usb host failed res = %d\r\n", res);
return -RT_ERROR;
}
rt_usb_host_init("usbh");
return RT_EOK;
}
INIT_DEVICE_EXPORT(rt_hw_usbh_init);
#endif /* BSP_USING_USBH */