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CH592_Makefile_Template/sdk/StdPeriphDriver/CH59x_usbhostClass.c
Richard Goulter 31c6c4e250 sdk: copy StdPeriphDriver
2023-12-21 22:44:09 +07:00

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/********************************** (C) COPYRIGHT *******************************
* File Name : CH59x_usbhost.c
* Author : WCH
* Version : V1.2
* Date : 2021/11/17
* Description
*********************************************************************************
* Copyright (c) 2021 Nanjing Qinheng Microelectronics Co., Ltd.
* Attention: This software (modified or not) and binary are used for
* microcontroller manufactured by Nanjing Qinheng Microelectronics.
*******************************************************************************/
#include "CH59x_common.h"
#if DISK_LIB_ENABLE
#include "CHRV3UFI.H"
#endif
/* 设置HID上传速率 */
__attribute__((aligned(4))) const uint8_t SetupSetHIDIdle[] = {0x21, HID_SET_IDLE, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
/* 获取HID设备报表描述符 */
__attribute__((aligned(4))) const uint8_t SetupGetHIDDevReport[] = {0x81, USB_GET_DESCRIPTOR, 0x00, USB_DESCR_TYP_REPORT,
0x00, 0x00, 0x41, 0x00};
/* 获取HUB描述符 */
__attribute__((aligned(4))) const uint8_t SetupGetHubDescr[] = {HUB_GET_HUB_DESCRIPTOR, HUB_GET_DESCRIPTOR, 0x00,
USB_DESCR_TYP_HUB, 0x00, 0x00, sizeof(USB_HUB_DESCR), 0x00};
__attribute__((aligned(4))) uint8_t Com_Buffer[128]; // 定义用户临时缓冲区,枚举时用于处理描述符,枚举结束也可以用作普通临时缓冲区
/*********************************************************************
* @fn AnalyzeHidIntEndp
*
* @brief 从描述符中分析出HID中断端点的地址,如果HubPortIndex是0保存到ROOTHUB如果是非零值则保存到HUB下结构体
*
* @param buf - 待分析数据缓冲区地址 HubPortIndex0表示根HUB非0表示外部HUB下的端口号
*
* @return 端点数
*/
uint8_t AnalyzeHidIntEndp(uint8_t *buf, uint8_t HubPortIndex)
{
uint8_t i, s, l;
s = 0;
if(HubPortIndex)
{
memset(DevOnHubPort[HubPortIndex - 1].GpVar, 0, sizeof(DevOnHubPort[HubPortIndex - 1].GpVar)); //清空数组
}
else
{
memset(ThisUsbDev.GpVar, 0, sizeof(ThisUsbDev.GpVar)); //清空数组
}
for(i = 0; i < ((PUSB_CFG_DESCR)buf)->wTotalLength; i += l) // 搜索中断端点描述符,跳过配置描述符和接口描述符
{
if(((PUSB_ENDP_DESCR)(buf + i))->bDescriptorType == USB_DESCR_TYP_ENDP // 是端点描述符
&& (((PUSB_ENDP_DESCR)(buf + i))->bmAttributes & USB_ENDP_TYPE_MASK) == USB_ENDP_TYPE_INTER // 是中断端点
&& (((PUSB_ENDP_DESCR)(buf + i))->bEndpointAddress & USB_ENDP_DIR_MASK)) // 是IN端点
{ // 保存中断端点的地址,位7用于同步标志位,清0
if(HubPortIndex)
{
DevOnHubPort[HubPortIndex - 1].GpVar[s] = ((PUSB_ENDP_DESCR)(buf + i))->bEndpointAddress & USB_ENDP_ADDR_MASK;
}
else
{
ThisUsbDev.GpVar[s] = ((PUSB_ENDP_DESCR)(buf + i))->bEndpointAddress & USB_ENDP_ADDR_MASK; // 中断端点的地址可以根据需要保存wMaxPacketSize和bInterval
}
PRINT("%02x ", (uint16_t)ThisUsbDev.GpVar[s]);
s++;
if(s >= 4)
{
break; //只分析4个端点
}
}
l = ((PUSB_ENDP_DESCR)(buf + i))->bLength; // 当前描述符长度,跳过
if(l > 16)
{
break;
}
}
PRINT("\n");
return (s);
}
/*********************************************************************
* @fn AnalyzeBulkEndp
*
* @brief 分析出批量端点,GpVar[0]、GpVar[1]存放上传端点。GpVar[2]、GpVar[3]存放下传端点
*
* @param buf - 待分析数据缓冲区地址 HubPortIndex0表示根HUB非0表示外部HUB下的端口号
*
* @return 0
*/
uint8_t AnalyzeBulkEndp(uint8_t *buf, uint8_t HubPortIndex)
{
uint8_t i, s1, s2, l;
s1 = 0;
s2 = 2;
if(HubPortIndex)
{
memset(DevOnHubPort[HubPortIndex - 1].GpVar, 0, sizeof(DevOnHubPort[HubPortIndex - 1].GpVar)); //清空数组
}
else
{
memset(ThisUsbDev.GpVar, 0, sizeof(ThisUsbDev.GpVar)); //清空数组
}
for(i = 0; i < ((PUSB_CFG_DESCR)buf)->wTotalLength; i += l) // 搜索中断端点描述符,跳过配置描述符和接口描述符
{
if((((PUSB_ENDP_DESCR)(buf + i))->bDescriptorType == USB_DESCR_TYP_ENDP) // 是端点描述符
&& ((((PUSB_ENDP_DESCR)(buf + i))->bmAttributes & USB_ENDP_TYPE_MASK) == USB_ENDP_TYPE_BULK)) // 是中断端点
{
if(HubPortIndex)
{
if(((PUSB_ENDP_DESCR)(buf + i))->bEndpointAddress & USB_ENDP_DIR_MASK)
{
DevOnHubPort[HubPortIndex - 1].GpVar[s1++] = ((PUSB_ENDP_DESCR)(buf + i))->bEndpointAddress & USB_ENDP_ADDR_MASK;
}
else
{
DevOnHubPort[HubPortIndex - 1].GpVar[s2++] = ((PUSB_ENDP_DESCR)(buf + i))->bEndpointAddress & USB_ENDP_ADDR_MASK;
}
}
else
{
if(((PUSB_ENDP_DESCR)(buf + i))->bEndpointAddress & USB_ENDP_DIR_MASK)
{
ThisUsbDev.GpVar[s1++] = ((PUSB_ENDP_DESCR)(buf + i))->bEndpointAddress & USB_ENDP_ADDR_MASK;
}
else
{
ThisUsbDev.GpVar[s2++] = ((PUSB_ENDP_DESCR)(buf + i))->bEndpointAddress & USB_ENDP_ADDR_MASK;
}
}
if(s1 == 2)
{
s1 = 1;
}
if(s2 == 4)
{
s2 = 3;
}
}
l = ((PUSB_ENDP_DESCR)(buf + i))->bLength; // 当前描述符长度,跳过
if(l > 16)
{
break;
}
}
return (0);
}
/*********************************************************************
* @fn InitRootDevice
*
* @brief 初始化指定ROOT-HUB端口的USB设备
*
* @param none
*
* @return 错误码
*/
uint8_t InitRootDevice(void)
{
uint8_t i, s;
uint8_t cfg, dv_cls, if_cls;
PRINT("Reset host port\n");
ResetRootHubPort(); // 检测到设备后,复位相应端口的USB总线
for(i = 0, s = 0; i < 100; i++)
{ // 等待USB设备复位后重新连接,100mS超时
mDelaymS(1);
if(EnableRootHubPort() == ERR_SUCCESS)
{ // 使能端口
i = 0;
s++;
if(s > 100)
{
break; // 已经稳定连接100mS
}
}
}
if(i)
{ // 复位后设备没有连接
DisableRootHubPort();
PRINT("Disable host port because of disconnect\n");
return (ERR_USB_DISCON);
}
SetUsbSpeed(ThisUsbDev.DeviceSpeed); // 设置当前USB速度
PRINT("GetDevDescr: ");
s = CtrlGetDeviceDescr(); // 获取设备描述符
if(s == ERR_SUCCESS)
{
for(i = 0; i < ((PUSB_SETUP_REQ)SetupGetDevDescr)->wLength; i++)
{
PRINT("x%02X ", (uint16_t)(Com_Buffer[i]));
}
PRINT("\n");
ThisUsbDev.DeviceVID = ((PUSB_DEV_DESCR)Com_Buffer)->idVendor; //保存VID PID信息
ThisUsbDev.DevicePID = ((PUSB_DEV_DESCR)Com_Buffer)->idProduct;
dv_cls = ((PUSB_DEV_DESCR)Com_Buffer)->bDeviceClass;
s = CtrlSetUsbAddress(((PUSB_SETUP_REQ)SetupSetUsbAddr)->wValue);
if(s == ERR_SUCCESS)
{
ThisUsbDev.DeviceAddress = ((PUSB_SETUP_REQ)SetupSetUsbAddr)->wValue; // 保存USB地址
PRINT("GetCfgDescr: ");
s = CtrlGetConfigDescr();
if(s == ERR_SUCCESS)
{
for(i = 0; i < ((PUSB_CFG_DESCR)Com_Buffer)->wTotalLength; i++)
{
PRINT("x%02X ", (uint16_t)(Com_Buffer[i]));
}
PRINT("\n");
/* 分析配置描述符,获取端点数据/各端点地址/各端点大小等,更新变量endp_addr和endp_size等 */
cfg = ((PUSB_CFG_DESCR)Com_Buffer)->bConfigurationValue;
if_cls = ((PUSB_CFG_DESCR_LONG)Com_Buffer)->itf_descr.bInterfaceClass; // 接口类代码
if((dv_cls == 0x00) && (if_cls == USB_DEV_CLASS_STORAGE))
{ // 是USB存储类设备,基本上确认是U盘
#ifdef FOR_ROOT_UDISK_ONLY
CHRV3DiskStatus = DISK_USB_ADDR;
return (ERR_SUCCESS);
}
else
{
return (ERR_USB_UNSUPPORT);
}
#else
s = CtrlSetUsbConfig(cfg); // 设置USB设备配置
if(s == ERR_SUCCESS)
{
ThisUsbDev.DeviceStatus = ROOT_DEV_SUCCESS;
ThisUsbDev.DeviceType = USB_DEV_CLASS_STORAGE;
PRINT("USB-Disk Ready\n");
SetUsbSpeed(1); // 默认为全速
return (ERR_SUCCESS);
}
}
else if((dv_cls == 0x00) && (if_cls == USB_DEV_CLASS_PRINTER) && ((PUSB_CFG_DESCR_LONG)Com_Buffer)->itf_descr.bInterfaceSubClass == 0x01)
{ // 是打印机类设备
s = CtrlSetUsbConfig(cfg); // 设置USB设备配置
if(s == ERR_SUCCESS)
{
// 需保存端点信息以便主程序进行USB传输
ThisUsbDev.DeviceStatus = ROOT_DEV_SUCCESS;
ThisUsbDev.DeviceType = USB_DEV_CLASS_PRINTER;
PRINT("USB-Print Ready\n");
SetUsbSpeed(1); // 默认为全速
return (ERR_SUCCESS);
}
}
else if((dv_cls == 0x00) && (if_cls == USB_DEV_CLASS_HID) && ((PUSB_CFG_DESCR_LONG)Com_Buffer)->itf_descr.bInterfaceSubClass <= 0x01)
{ // 是HID类设备,键盘/鼠标等
// 从描述符中分析出HID中断端点的地址
s = AnalyzeHidIntEndp(Com_Buffer, 0); // 从描述符中分析出HID中断端点的地址
PRINT("AnalyzeHidIntEndp %02x\n", (uint16_t)s);
// 保存中断端点的地址,位7用于同步标志位,清0
if_cls = ((PUSB_CFG_DESCR_LONG)Com_Buffer)->itf_descr.bInterfaceProtocol;
s = CtrlSetUsbConfig(cfg); // 设置USB设备配置
if(s == ERR_SUCCESS)
{
// Set_Idle( );
// 需保存端点信息以便主程序进行USB传输
ThisUsbDev.DeviceStatus = ROOT_DEV_SUCCESS;
if(if_cls == 1)
{
ThisUsbDev.DeviceType = DEV_TYPE_KEYBOARD;
// 进一步初始化,例如设备键盘指示灯LED等
PRINT("USB-Keyboard Ready\n");
SetUsbSpeed(1); // 默认为全速
return (ERR_SUCCESS);
}
else if(if_cls == 2)
{
ThisUsbDev.DeviceType = DEV_TYPE_MOUSE;
// 为了以后查询鼠标状态,应该分析描述符,取得中断端口的地址,长度等信息
PRINT("USB-Mouse Ready\n");
SetUsbSpeed(1); // 默认为全速
return (ERR_SUCCESS);
}
s = ERR_USB_UNSUPPORT;
}
}
else if(dv_cls == USB_DEV_CLASS_HUB)
{ // 是HUB类设备,集线器等
s = CtrlGetHubDescr();
if(s == ERR_SUCCESS)
{
PRINT("Max Port:%02X ", (((PXUSB_HUB_DESCR)Com_Buffer)->bNbrPorts));
ThisUsbDev.GpHUBPortNum = ((PXUSB_HUB_DESCR)Com_Buffer)->bNbrPorts; // 保存HUB的端口数量
if(ThisUsbDev.GpHUBPortNum > HUB_MAX_PORTS)
{
ThisUsbDev.GpHUBPortNum = HUB_MAX_PORTS; // 因为定义结构DevOnHubPort时人为假定每个HUB不超过HUB_MAX_PORTS个端口
}
s = CtrlSetUsbConfig(cfg); // 设置USB设备配置
if(s == ERR_SUCCESS)
{
ThisUsbDev.DeviceStatus = ROOT_DEV_SUCCESS;
ThisUsbDev.DeviceType = USB_DEV_CLASS_HUB;
//需保存端点信息以便主程序进行USB传输,本来中断端点可用于HUB事件通知,但本程序使用查询状态控制传输代替
//给HUB各端口上电,查询各端口状态,初始化有设备连接的HUB端口,初始化设备
for(i = 1; i <= ThisUsbDev.GpHUBPortNum; i++) // 给HUB各端口都上电
{
DevOnHubPort[i - 1].DeviceStatus = ROOT_DEV_DISCONNECT; // 清外部HUB端口上设备的状态
s = HubSetPortFeature(i, HUB_PORT_POWER);
if(s != ERR_SUCCESS)
{
PRINT("Ext-HUB Port_%1d# power on error\n", (uint16_t)i); // 端口上电失败
}
}
PRINT("USB-HUB Ready\n");
SetUsbSpeed(1); // 默认为全速
return (ERR_SUCCESS);
}
}
}
else
{ // 可以进一步分析
s = CtrlSetUsbConfig(cfg); // 设置USB设备配置
if(s == ERR_SUCCESS)
{
// 需保存端点信息以便主程序进行USB传输
ThisUsbDev.DeviceStatus = ROOT_DEV_SUCCESS;
ThisUsbDev.DeviceType = DEV_TYPE_UNKNOW;
SetUsbSpeed(1); // 默认为全速
return (ERR_SUCCESS); /* 未知设备初始化成功 */
}
}
#endif
}
}
}
PRINT("InitRootDev Err = %02X\n", (uint16_t)s);
#ifdef FOR_ROOT_UDISK_ONLY
CHRV3DiskStatus = DISK_CONNECT;
#else
ThisUsbDev.DeviceStatus = ROOT_DEV_FAILED;
#endif
SetUsbSpeed(1); // 默认为全速
return (s);
}
/*********************************************************************
* @fn InitDevOnHub
*
* @brief 初始化枚举外部HUB后的二级USB设备
*
* @param HubPortIndex - 指定外部HUB
*
* @return 错误码
*/
uint8_t InitDevOnHub(uint8_t HubPortIndex)
{
uint8_t i, s, cfg, dv_cls, if_cls;
uint8_t ifc;
PRINT("Init dev @ExtHub-port_%1d ", (uint16_t)HubPortIndex);
if(HubPortIndex == 0)
{
return (ERR_USB_UNKNOWN);
}
SelectHubPort(HubPortIndex); // 选择操作指定的ROOT-HUB端口的外部HUB的指定端口,选择速度
PRINT("GetDevDescr: ");
s = CtrlGetDeviceDescr(); // 获取设备描述符
if(s != ERR_SUCCESS)
{
return (s);
}
DevOnHubPort[HubPortIndex - 1].DeviceVID = ((uint16_t)((PUSB_DEV_DESCR)Com_Buffer)->idVendor); //保存VID PID信息
DevOnHubPort[HubPortIndex - 1].DevicePID = ((uint16_t)((PUSB_DEV_DESCR)Com_Buffer)->idProduct);
dv_cls = ((PUSB_DEV_DESCR)Com_Buffer)->bDeviceClass; // 设备类代码
cfg = (1 << 4) + HubPortIndex; // 计算出一个USB地址,避免地址重叠
s = CtrlSetUsbAddress(cfg); // 设置USB设备地址
if(s != ERR_SUCCESS)
{
return (s);
}
DevOnHubPort[HubPortIndex - 1].DeviceAddress = cfg; // 保存分配的USB地址
PRINT("GetCfgDescr: ");
s = CtrlGetConfigDescr(); // 获取配置描述符
if(s != ERR_SUCCESS)
{
return (s);
}
cfg = ((PUSB_CFG_DESCR)Com_Buffer)->bConfigurationValue;
for(i = 0; i < ((PUSB_CFG_DESCR)Com_Buffer)->wTotalLength; i++)
{
PRINT("x%02X ", (uint16_t)(Com_Buffer[i]));
}
PRINT("\n");
/* 分析配置描述符,获取端点数据/各端点地址/各端点大小等,更新变量endp_addr和endp_size等 */
if_cls = ((PXUSB_CFG_DESCR_LONG)Com_Buffer)->itf_descr.bInterfaceClass; // 接口类代码
if(dv_cls == 0x00 && if_cls == USB_DEV_CLASS_STORAGE) // 是USB存储类设备,基本上确认是U盘
{
AnalyzeBulkEndp(Com_Buffer, HubPortIndex);
for(i = 0; i != 4; i++)
{
PRINT("%02x ", (uint16_t)DevOnHubPort[HubPortIndex - 1].GpVar[i]);
}
PRINT("\n");
s = CtrlSetUsbConfig(cfg); // 设置USB设备配置
if(s == ERR_SUCCESS)
{
DevOnHubPort[HubPortIndex - 1].DeviceStatus = ROOT_DEV_SUCCESS;
DevOnHubPort[HubPortIndex - 1].DeviceType = USB_DEV_CLASS_STORAGE;
PRINT("USB-Disk Ready\n");
SetUsbSpeed(1); // 默认为全速
return (ERR_SUCCESS);
}
}
else if((dv_cls == 0x00) && (if_cls == USB_DEV_CLASS_HID) && (((PXUSB_CFG_DESCR_LONG)Com_Buffer)->itf_descr.bInterfaceSubClass <= 0x01)) // 是HID类设备,键盘/鼠标等
{
ifc = ((PXUSB_CFG_DESCR_LONG)Com_Buffer)->cfg_descr.bNumInterfaces;
s = AnalyzeHidIntEndp(Com_Buffer, HubPortIndex); // 从描述符中分析出HID中断端点的地址
PRINT("AnalyzeHidIntEndp %02x\n", (uint16_t)s);
if_cls = ((PXUSB_CFG_DESCR_LONG)Com_Buffer)->itf_descr.bInterfaceProtocol;
s = CtrlSetUsbConfig(cfg); // 设置USB设备配置
if(s == ERR_SUCCESS)
{
for(dv_cls = 0; dv_cls < ifc; dv_cls++)
{
s = CtrlGetHIDDeviceReport(dv_cls); //获取报表描述符
if(s == ERR_SUCCESS)
{
for(i = 0; i < 64; i++)
{
PRINT("x%02X ", (uint16_t)(Com_Buffer[i]));
}
PRINT("\n");
}
}
//需保存端点信息以便主程序进行USB传输
DevOnHubPort[HubPortIndex - 1].DeviceStatus = ROOT_DEV_SUCCESS;
if(if_cls == 1)
{
DevOnHubPort[HubPortIndex - 1].DeviceType = DEV_TYPE_KEYBOARD;
//进一步初始化,例如设备键盘指示灯LED等
if(ifc > 1)
{
PRINT("USB_DEV_CLASS_HID Ready\n");
DevOnHubPort[HubPortIndex - 1].DeviceType = USB_DEV_CLASS_HID; //复合HID设备
}
PRINT("USB-Keyboard Ready\n");
SetUsbSpeed(1); // 默认为全速
return (ERR_SUCCESS);
}
else if(if_cls == 2)
{
DevOnHubPort[HubPortIndex - 1].DeviceType = DEV_TYPE_MOUSE;
//为了以后查询鼠标状态,应该分析描述符,取得中断端口的地址,长度等信息
if(ifc > 1)
{
PRINT("USB_DEV_CLASS_HID Ready\n");
DevOnHubPort[HubPortIndex - 1].DeviceType = USB_DEV_CLASS_HID; //复合HID设备
}
PRINT("USB-Mouse Ready\n");
SetUsbSpeed(1); // 默认为全速
return (ERR_SUCCESS);
}
s = ERR_USB_UNSUPPORT;
}
}
else if(dv_cls == USB_DEV_CLASS_HUB) // 是HUB类设备,集线器等
{
DevOnHubPort[HubPortIndex - 1].DeviceType = USB_DEV_CLASS_HUB;
PRINT("This program don't support Level 2 HUB\n"); // 需要支持多级HUB级联请参考本程序进行扩展
s = HubClearPortFeature(i, HUB_PORT_ENABLE); // 禁止HUB端口
if(s != ERR_SUCCESS)
{
return (s);
}
s = ERR_USB_UNSUPPORT;
}
else //其他设备
{
AnalyzeBulkEndp(Com_Buffer, HubPortIndex); //分析出批量端点
for(i = 0; i != 4; i++)
{
PRINT("%02x ", (uint16_t)DevOnHubPort[HubPortIndex - 1].GpVar[i]);
}
PRINT("\n");
s = CtrlSetUsbConfig(cfg); // 设置USB设备配置
if(s == ERR_SUCCESS)
{
//需保存端点信息以便主程序进行USB传输
DevOnHubPort[HubPortIndex - 1].DeviceStatus = ROOT_DEV_SUCCESS;
DevOnHubPort[HubPortIndex - 1].DeviceType = dv_cls ? dv_cls : if_cls;
SetUsbSpeed(1); // 默认为全速
return (ERR_SUCCESS); //未知设备初始化成功
}
}
PRINT("InitDevOnHub Err = %02X\n", (uint16_t)s);
DevOnHubPort[HubPortIndex - 1].DeviceStatus = ROOT_DEV_FAILED;
SetUsbSpeed(1); // 默认为全速
return (s);
}
/*********************************************************************
* @fn EnumHubPort
*
* @brief 枚举指定ROOT-HUB端口上的外部HUB集线器的各个端口,检查各端口有无连接或移除事件并初始化二级USB设备
*
* @param RootHubIndex - ROOT_HUB0和ROOT_HUB1
*
* @return 错误码
*/
uint8_t EnumHubPort()
{
uint8_t i, s;
for(i = 1; i <= ThisUsbDev.GpHUBPortNum; i++) // 查询集线器的端口是否有变化
{
SelectHubPort(0); // 选择操作指定的ROOT-HUB端口,设置当前USB速度以及被操作设备的USB地址
s = HubGetPortStatus(i); // 获取端口状态
if(s != ERR_SUCCESS)
{
return (s); // 可能是该HUB断开了
}
if(((Com_Buffer[0] & (1 << (HUB_PORT_CONNECTION & 0x07))) && (Com_Buffer[2] & (1 << (HUB_C_PORT_CONNECTION & 0x07)))) || (Com_Buffer[2] == 0x10))
{ // 发现有设备连接
DevOnHubPort[i - 1].DeviceStatus = ROOT_DEV_CONNECTED; // 有设备连接
DevOnHubPort[i - 1].DeviceAddress = 0x00;
s = HubGetPortStatus(i); // 获取端口状态
if(s != ERR_SUCCESS)
{
return (s); // 可能是该HUB断开了
}
DevOnHubPort[i - 1].DeviceSpeed = Com_Buffer[1] & (1 << (HUB_PORT_LOW_SPEED & 0x07)) ? 0 : 1; // 低速还是全速
if(DevOnHubPort[i - 1].DeviceSpeed)
{
PRINT("Found full speed device on port %1d\n", (uint16_t)i);
}
else
{
PRINT("Found low speed device on port %1d\n", (uint16_t)i);
}
mDelaymS(200); // 等待设备上电稳定
s = HubSetPortFeature(i, HUB_PORT_RESET); // 对有设备连接的端口复位
if(s != ERR_SUCCESS)
{
return (s); // 可能是该HUB断开了
}
PRINT("Reset port and then wait in\n");
do // 查询复位端口,直到复位完成,把完成后的状态显示出来
{
mDelaymS(1);
s = HubGetPortStatus(i);
if(s != ERR_SUCCESS)
{
return (s); // 可能是该HUB断开了
}
} while(Com_Buffer[0] & (1 << (HUB_PORT_RESET & 0x07))); // 端口正在复位则等待
mDelaymS(100);
s = HubClearPortFeature(i, HUB_C_PORT_RESET); // 清除复位完成标志
// s = HubSetPortFeature( i, HUB_PORT_ENABLE ); // 启用HUB端口
s = HubClearPortFeature(i, HUB_C_PORT_CONNECTION); // 清除连接或移除变化标志
if(s != ERR_SUCCESS)
{
return (s);
}
s = HubGetPortStatus(i); // 再读取状态,复查设备是否还在
if(s != ERR_SUCCESS)
{
return (s);
}
if((Com_Buffer[0] & (1 << (HUB_PORT_CONNECTION & 0x07))) == 0)
{
DevOnHubPort[i - 1].DeviceStatus = ROOT_DEV_DISCONNECT; // 设备不在了
}
s = InitDevOnHub(i); // 初始化二级USB设备
if(s != ERR_SUCCESS)
{
return (s);
}
SetUsbSpeed(1); // 默认为全速
}
else if(Com_Buffer[2] & (1 << (HUB_C_PORT_ENABLE & 0x07))) // 设备连接出错
{
HubClearPortFeature(i, HUB_C_PORT_ENABLE); // 清除连接错误标志
PRINT("Device on port error\n");
s = HubSetPortFeature(i, HUB_PORT_RESET); // 对有设备连接的端口复位
if(s != ERR_SUCCESS)
return (s); // 可能是该HUB断开了
do // 查询复位端口,直到复位完成,把完成后的状态显示出来
{
mDelaymS(1);
s = HubGetPortStatus(i);
if(s != ERR_SUCCESS)
return (s); // 可能是该HUB断开了
} while(Com_Buffer[0] & (1 << (HUB_PORT_RESET & 0x07))); // 端口正在复位则等待
}
else if((Com_Buffer[0] & (1 << (HUB_PORT_CONNECTION & 0x07))) == 0) // 设备已经断开
{
if(DevOnHubPort[i - 1].DeviceStatus >= ROOT_DEV_CONNECTED)
{
PRINT("Device on port %1d removed\n", (uint16_t)i);
}
DevOnHubPort[i - 1].DeviceStatus = ROOT_DEV_DISCONNECT; // 有设备连接
if(Com_Buffer[2] & (1 << (HUB_C_PORT_CONNECTION & 0x07)))
{
HubClearPortFeature(i, HUB_C_PORT_CONNECTION); // 清除移除变化标志
}
}
}
return (ERR_SUCCESS); // 返回操作成功
}
/*********************************************************************
* @fn EnumAllHubPort
*
* @brief 枚举所有ROOT-HUB端口下外部HUB后的二级USB设备
*
* @return 错误码
*/
uint8_t EnumAllHubPort(void)
{
uint8_t s;
if((ThisUsbDev.DeviceStatus >= ROOT_DEV_SUCCESS) && (ThisUsbDev.DeviceType == USB_DEV_CLASS_HUB)) // HUB枚举成功
{
SelectHubPort(0); // 选择操作指定的ROOT-HUB端口,设置当前USB速度以及被操作设备的USB地址
s = EnumHubPort(); // 枚举指定ROOT-HUB端口上的外部HUB集线器的各个端口,检查各端口有无连接或移除事件
if(s != ERR_SUCCESS) // 可能是HUB断开了
{
PRINT("EnumAllHubPort err = %02X\n", (uint16_t)s);
}
SetUsbSpeed(1); // 默认为全速
}
return (ERR_SUCCESS);
}
/*********************************************************************
* @fn SearchTypeDevice
*
* @brief 在ROOT-HUB以及外部HUB各端口上搜索指定类型的设备所在的端口号,输出端口号为0xFFFF则未搜索到.
* 当然也可以根据USB的厂商VID产品PID进行搜索(事先要记录各设备的VID和PID),以及指定搜索序号
*
* @param type - 搜索的设备类型
*
* @return 输出高8位为ROOT-HUB端口号,低8位为外部HUB的端口号,低8位为0则设备直接在ROOT-HUB端口上
*/
uint16_t SearchTypeDevice(uint8_t type)
{
uint8_t RootHubIndex; //CH554只有一个USB口,RootHubIndex = 0,只需看返回值的低八位即可
uint8_t HubPortIndex;
RootHubIndex = 0;
if((ThisUsbDev.DeviceType == USB_DEV_CLASS_HUB) && (ThisUsbDev.DeviceStatus >= ROOT_DEV_SUCCESS)) // 外部集线器HUB且枚举成功
{
for(HubPortIndex = 1; HubPortIndex <= ThisUsbDev.GpHUBPortNum; HubPortIndex++) // 搜索外部HUB的各个端口
{
if(DevOnHubPort[HubPortIndex - 1].DeviceType == type && DevOnHubPort[HubPortIndex - 1].DeviceStatus >= ROOT_DEV_SUCCESS)
{
return (((uint16_t)RootHubIndex << 8) | HubPortIndex); // 类型匹配且枚举成功
}
}
}
if((ThisUsbDev.DeviceType == type) && (ThisUsbDev.DeviceStatus >= ROOT_DEV_SUCCESS))
{
return ((uint16_t)RootHubIndex << 8); // 类型匹配且枚举成功,在ROOT-HUB端口上
}
return (0xFFFF);
}
/*********************************************************************
* @fn SETorOFFNumLock
*
* @brief NumLock的点灯判断
*
* @param buf - 点灯键值
*
* @return 错误码
*/
uint8_t SETorOFFNumLock(uint8_t *buf)
{
uint8_t tmp[] = {0x21, 0x09, 0x00, 0x02, 0x00, 0x00, 0x01, 0x00};
uint8_t len, s;
if((buf[2] == 0x53) & ((buf[0] | buf[1] | buf[3] | buf[4] | buf[5] | buf[6] | buf[7]) == 0))
{
for(s = 0; s != sizeof(tmp); s++)
{
((uint8_t *)pSetupReq)[s] = tmp[s];
}
s = HostCtrlTransfer(Com_Buffer, &len); // 执行控制传输
if(s != ERR_SUCCESS)
{
return (s);
}
}
return (ERR_SUCCESS);
}
/*********************************************************************
* @fn CtrlGetHIDDeviceReport
*
* @brief 获取HID设备报表描述符,返回在TxBuffer中
*
* @param none
*
* @return 错误码
*/
uint8_t CtrlGetHIDDeviceReport(uint8_t infc)
{
uint8_t s;
uint8_t len;
CopySetupReqPkg(SetupSetHIDIdle);
pSetupReq->wIndex = infc;
s = HostCtrlTransfer(Com_Buffer, &len); // 执行控制传输
if(s != ERR_SUCCESS)
{
return (s);
}
CopySetupReqPkg(SetupGetHIDDevReport);
pSetupReq->wIndex = infc;
s = HostCtrlTransfer(Com_Buffer, &len); // 执行控制传输
if(s != ERR_SUCCESS)
{
return (s);
}
return (ERR_SUCCESS);
}
/*********************************************************************
* @fn CtrlGetHubDescr
*
* @brief 获取HUB描述符,返回在Com_Buffer中
*
* @param none
*
* @return 错误码
*/
uint8_t CtrlGetHubDescr(void)
{
uint8_t s;
uint8_t len;
CopySetupReqPkg(SetupGetHubDescr);
s = HostCtrlTransfer(Com_Buffer, &len); // 执行控制传输
if(s != ERR_SUCCESS)
{
return (s);
}
if(len < ((PUSB_SETUP_REQ)SetupGetHubDescr)->wLength)
{
return (ERR_USB_BUF_OVER); // 描述符长度错误
}
// if ( len < 4 ) return( ERR_USB_BUF_OVER ); // 描述符长度错误
return (ERR_SUCCESS);
}
/*********************************************************************
* @fn HubGetPortStatus
*
* @brief 查询HUB端口状态,返回在Com_Buffer中
*
* @param HubPortIndex - 端口号
*
* @return 错误码
*/
uint8_t HubGetPortStatus(uint8_t HubPortIndex)
{
uint8_t s;
uint8_t len;
pSetupReq->bRequestType = HUB_GET_PORT_STATUS;
pSetupReq->bRequest = HUB_GET_STATUS;
pSetupReq->wValue = 0x0000;
pSetupReq->wIndex = 0x0000 | HubPortIndex;
pSetupReq->wLength = 0x0004;
s = HostCtrlTransfer(Com_Buffer, &len); // 执行控制传输
if(s != ERR_SUCCESS)
{
return (s);
}
if(len < 4)
{
return (ERR_USB_BUF_OVER); // 描述符长度错误
}
return (ERR_SUCCESS);
}
/*********************************************************************
* @fn HubSetPortFeature
*
* @brief 设置HUB端口特性
*
* @param HubPortIndex - 端口号
* @param FeatureSelt - 端口特性
*
* @return 错误码
*/
uint8_t HubSetPortFeature(uint8_t HubPortIndex, uint8_t FeatureSelt)
{
pSetupReq->bRequestType = HUB_SET_PORT_FEATURE;
pSetupReq->bRequest = HUB_SET_FEATURE;
pSetupReq->wValue = 0x0000 | FeatureSelt;
pSetupReq->wIndex = 0x0000 | HubPortIndex;
pSetupReq->wLength = 0x0000;
return (HostCtrlTransfer(NULL, NULL)); // 执行控制传输
}
/*********************************************************************
* @fn HubClearPortFeature
*
* @brief 清除HUB端口特性
*
* @param HubPortIndex - 端口号
* @param FeatureSelt - 端口特性
*
* @return 错误码
*/
uint8_t HubClearPortFeature(uint8_t HubPortIndex, uint8_t FeatureSelt)
{
pSetupReq->bRequestType = HUB_CLEAR_PORT_FEATURE;
pSetupReq->bRequest = HUB_CLEAR_FEATURE;
pSetupReq->wValue = 0x0000 | FeatureSelt;
pSetupReq->wIndex = 0x0000 | HubPortIndex;
pSetupReq->wLength = 0x0000;
return (HostCtrlTransfer(NULL, NULL)); // 执行控制传输
}
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