📄 usb protocol function pointer arrays.txt
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MAINLOOP.C:
#include <stdio.h>
#include <string.h>
#include <reg51.h> /* special function register declarations */
#include "epphal.h"
#include "d12ci.h"
#include "mainloop.h"
#include "usb100.h"
#include "chap_9.h"
#include "protodma.h"
/*
//*************************************************************************
// USB protocol function pointer arrays
//*************************************************************************
*/
//USB标准请求
code void (*StandardDeviceRequest[])(void) =
{
get_status,
clear_feature,
reserved,
set_feature,
reserved,
set_address,
get_descriptor,
reserved,
get_configuration,
set_configuration,
get_interface,
set_interface,
reserved,
reserved,
reserved,
reserved
};
//用户厂商请求
code void (*VendorDeviceRequest[])(void) =
{
reserved,
reserved,
reserved,
reserved,
reserved,
reserved,
reserved,
reserved,
reserved,
reserved,
reserved,
reserved,
read_write_register,
cortrol_led,
reserved,
reserved
};
/*
//*************************************************************************
// Public static data
//*************************************************************************
*/
extern EPPFLAGS bEPPflags;
extern unsigned long ClockTicks;
extern unsigned char idata GenEpBuf[];
extern IO_REQUEST idata ioRequest;
extern unsigned char ioSize, ioCount;
extern unsigned char idata EpBuf[];
extern unsigned char idata mainbuflen;
CONTROL_XFER ControlData;
BOOL bNoRAM;
code char * _NAME_USB_REQUEST_DIRECTION[] =
{
"Host_to_device",
"Device_to_host"
};
code char * _NAME_USB_REQUEST_RECIPIENT[] =
{
"Device",
"Interface",
"Endpoint(0)",
"Other"
};
code char * _NAME_USB_REQUEST_TYPE[] =
{
"Standard",
"Class",
"Vendor",
"Reserved"
};
code char * _NAME_USB_STANDARD_REQUEST[] =
{
"GET_STATUS",
"CLEAR_FEATURE",
"RESERVED",
"SET_FEATURE",
"RESERVED",
"SET_ADDRESS",
"GET_DESCRIPTOR",
"SET_DESCRIPTOR",
"GET_CONFIGURATION",
"SET_CONFIGURATION",
"GET_INTERFACE",
"SET_INTERFACE",
"SYNC_FRAME"
};
void help_devreq(unsigned char typ, unsigned char req)
{
typ >>= 5;
if(typ == USB_STANDARD_REQUEST) {
}
else {
if(bEPPflags.bits.verbose)
printf("Request Type = %s, bRequest = 0x%bx.\n", _NAME_USB_REQUEST_TYPE[typ],
req);
}
}
//定时器0初始化程序
//定时器用来定时检测按键状态
void init_timer0(void)
{
TMOD &= 0XF0; /* clear Timer 0 */
TMOD |= 0X1;
TL0 = 0X0; /* value set by user */
TH0 = 0X0; /* value set by user */
ET0 = 1; /* IE.1*/
TR0 = 1; /* TCON.4 start timer */
PT0 = 1;
EA = 1;
}
//中断设置
void init_special_interrupts(void)
{
IT0 = 0;
EX0 = 1;
PX0 = 0;
}
//I/O口初始化程序
void init_port()
{
P0 = 0xFF;
P1 = 0xFF;
P2 = 0xFF;
P3 = 0xFF;
}
void main(void)
{
init_port();//初始化I/O口
init_timer0();//初始化定时器0
init_special_interrupts();//设置中断
D12_ReadChipID();
bEPPflags.value = 0;
reconnect_USB();//重新连接USB
init7920();
ClrPic(0,0,0,0);
DisPic(bmp,0,0);
//DisString(tempdst,sizeof(tempdst));
/* Main program loop */
while( TRUE ){
if (bEPPflags.bits.timer){
DISABLE;//定时器溢出,检测按键状态
bEPPflags.bits.timer = 0;
ENABLE;
if(bEPPflags.bits.configuration)//设备未配置返回
check_key_LED();
}
if (bEPPflags.bits.bus_reset) {//设备复位处理
DISABLE;
bEPPflags.bits.bus_reset = 0;
ENABLE;
} // if bus reset
if (bEPPflags.bits.setup_packet){//Setup包处理
DISABLE;
bEPPflags.bits.setup_packet = 0;
ENABLE;
control_handler();//调用请求处理子程序
} // if setup_packet
if(bEPPflags.bits.main_rxdone) //传输字符请求
{
DISABLE;
bEPPflags.bits.main_rxdone=0;
ENABLE;
DisString(EpBuf,mainbuflen);
} //if main_rxdone
} // Main Loop
}
//返回stall应答
void stall_ep0(void)
{
D12_SetEndpointStatus(0, 1);
D12_SetEndpointStatus(1, 1);
}
//断开USB总线
void disconnect_USB(void)
{
// Initialize D12 configuration
D12_SetMode(D12_NOLAZYCLOCK, D12_SETTOONE | D12_CLOCK_12M);
}
//连接USB总线
void connect_USB(void)
{
// reset event flags
DISABLE;
bEPPflags.value = 0;//清除所有状态
ENABLE;
// V2.1 enable normal+sof interrupt
D12_SetDMA(D12_ENDP4INTENABLE | D12_ENDP5INTENABLE);
// Initialize D12 configuration
D12_SetMode(D12_NOLAZYCLOCK|D12_SOFTCONNECT, D12_SETTOONE | D12_CLOCK_12M);
}
//重新连接到USB总线
void reconnect_USB(void)
{
unsigned long clk_cnt;
MCU_LED0 = 0;
MCU_LED1 = 0;
// Pull-down D12's SUSPEND pin
// Disable 74HCT123 pulse generation before disconnect
// Release D12's SUSPEND pin after receiving bus reset from host
disconnect_USB();
clk_cnt = ClockTicks;
while(ClockTicks < clk_cnt + 20)
;
connect_USB();
}
//恢复到未配置状态
void init_unconfig(void)
{
// unsigned char i;
D12_SetEndpointEnable(0); /* Disable all endpoints but EPP0. */
}
//设置配置状态
void init_config(void)
{
D12_SetEndpointEnable(1); /* Enable generic/iso endpoints. */
}
//从端点号1发送数据
void single_transmit(unsigned char * buf, unsigned char len)
{
if( len <= EP0_PACKET_SIZE) {
D12_WriteEndpoint(1, len, buf);
}
}
//发送端点号1建立代码
void code_transmit(unsigned char code * pRomData, unsigned short len)
{
ControlData.wCount = 0;
if(ControlData.wLength > len)
ControlData.wLength = len;
ControlData.pData = pRomData;
if( ControlData.wLength >= EP0_PACKET_SIZE) {
D12_WriteEndpoint(1, EP0_PACKET_SIZE, ControlData.pData);//发送16字节数据
ControlData.wCount += EP0_PACKET_SIZE;
DISABLE;
bEPPflags.bits.control_state = USB_TRANSMIT;
ENABLE;
}
else {
D12_WriteEndpoint(1, ControlData.wLength, pRomData);//发送16字节内数据
ControlData.wCount += ControlData.wLength;
DISABLE;
bEPPflags.bits.control_state = USB_IDLE;
ENABLE;
}
}
//LED和按键处理子程序
void check_key_LED(void)
{
static unsigned char c, last_key = 0xf;
c =P1&0x0f;
// if (c != last_key)
{
D12_WriteEndpoint(5, 1, &c);//发送按键状态
}
}
//请求处理子程序
void control_handler()
{
unsigned char type, req;
type = ControlData.DeviceRequest.bmRequestType & USB_REQUEST_TYPE_MASK;
req = ControlData.DeviceRequest.bRequest & USB_REQUEST_MASK;
help_devreq(type, req); //显示设备请求
if (type == USB_STANDARD_REQUEST)
(*StandardDeviceRequest[req])();//调用标准请求
else if (type == USB_VENDOR_REQUEST)
(*VendorDeviceRequest[req])();//调用厂商请求
else
stall_ep0();
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