📄 kisr.c
字号:
//#include <reg51.h> /* special function register declarations */
#include <stdio.h>
#include <string.h>
#include "khal.h"
#include "kd12ci.h"
#include "kmain.h"
#include "kUSB100.h"
void bus_reset(void);
void ep0_txdone(void);
void ep0_rxdone(void);
void ep1_txdone(void);
void ep1_rxdone(void);
void main_txdone(void);
void main_rxdone(void);
void dma_eot(void);
/*
//*************************************************************************
// Public static data
//*************************************************************************
*/
EPPFLAGS bEPPflags;
/* Control endpoint TX/RX buffers */
extern CONTROL_XFER ControlData;
/* ISR static vars */
unsigned char idata GenEpBuf[EP1_PACKET_SIZE];
unsigned char idata EpBuf[EP2_PACKET_SIZE];
IO_REQUEST idata ioRequest;
unsigned char ioSize, ioCount;
unsigned long ClockTicks = 0;
unsigned char xdata MainEpBuf[256];
extern BOOL bNoRAM;
timer_isr() interrupt 1
{
DISABLE;
ClockTicks++;
bEPPflags.bits.timer = 1;
ENABLE;
}
void fn_usb_isr()
{
unsigned int i_st;
bEPPflags.bits.in_isr = 1;
i_st = D12_ReadInterruptRegister();
if(i_st != 0) {
if(i_st & D12_INT_BUSRESET) {
bus_reset();
bEPPflags.bits.bus_reset = 1;
}
if(i_st & D12_INT_EOT)
dma_eot();
if(i_st & D12_INT_SUSPENDCHANGE)
bEPPflags.bits.suspend = 1;
if(i_st & D12_INT_ENDP0IN)
ep0_txdone();
if(i_st & D12_INT_ENDP0OUT)
ep0_rxdone();
if(i_st & D12_INT_ENDP1IN)
ep1_txdone();
if(i_st & D12_INT_ENDP1OUT)
ep1_rxdone();
if(i_st & D12_INT_ENDP2IN)
main_txdone();
if(i_st & D12_INT_ENDP2OUT)
main_rxdone();
}
bEPPflags.bits.in_isr = 0;
}
usb_isr() interrupt 0
{
DISABLE;
fn_usb_isr();
ENABLE;
}
void bus_reset(void)
{
}
void dma_eot(void)
{
}
//---------------------------------
void ep0_rxdone(void)
{
unsigned char ep_last, i;
ep_last = D12_ReadLastTransactionStatus(0); // Clear interrupt flag
if (ep_last & D12_SETUPPACKET) {
ControlData.wLength = 0;
ControlData.wCount = 0;
//判断端点是否满,如是,则取出
if( D12_ReadEndpoint(0, sizeof(ControlData.DeviceRequest),
(unsigned char *)(&(ControlData.DeviceRequest))) != sizeof(DEVICE_REQUEST) ) {
D12_SetEndpointStatus(0, 1);
D12_SetEndpointStatus(1, 1);
bEPPflags.bits.control_state = USB_IDLE;
return;
}
ControlData.DeviceRequest.wValue = SWAP(ControlData.DeviceRequest.wValue);
ControlData.DeviceRequest.wIndex = SWAP(ControlData.DeviceRequest.wIndex);
ControlData.DeviceRequest.wLength = SWAP(ControlData.DeviceRequest.wLength);
// Acknowledge setup here to unlock in/out endp
//向控制输出端点发送应答建立命令以重新使能下一个建立阶段
D12_AcknowledgeEndpoint(0);
D12_AcknowledgeEndpoint(1);
ControlData.wLength = ControlData.DeviceRequest.wLength;
ControlData.wCount = 0;
//需要证实控制传输是控制读还是写,如果是读:
//如果控制传输是一个控制读类型那就是说器件需要在下一个数据阶段向
//主机发回数据包.MCU需要设置一个标志以指示USB 设备现在正处于传输
//模式即准备在主机发送请求时发送数据
if (ControlData.DeviceRequest.bmRequestType & (unsigned char)USB_ENDPOINT_DIRECTION_MASK) {
bEPPflags.bits.setup_packet = 1;
bEPPflags.bits.control_state = USB_IDLE; /* get command */
}
//如果是写
else {
if (ControlData.DeviceRequest.wLength == 0) {
bEPPflags.bits.setup_packet = 1;
bEPPflags.bits.control_state = USB_IDLE; /* set command */
}
else {
if(ControlData.DeviceRequest.wLength > MAX_CONTROLDATA_SIZE) {
bEPPflags.bits.control_state = USB_IDLE;
D12_SetEndpointStatus(0, 1);
D12_SetEndpointStatus(1, 1);
}
else {
bEPPflags.bits.control_state = USB_RECEIVE; /* set command with OUT token */
}
} // set command with data
} // else set command
} // if setup packet
else if (bEPPflags.bits.control_state == USB_RECEIVE) {
i = D12_ReadEndpoint(0, EP0_PACKET_SIZE,
ControlData.dataBuffer + ControlData.wCount);
ControlData.wCount += i;
if( i != EP0_PACKET_SIZE || ControlData.wCount >= ControlData.wLength) {
bEPPflags.bits.setup_packet = 1;
bEPPflags.bits.control_state = USB_IDLE;
}
}
else {
bEPPflags.bits.control_state = USB_IDLE;
}
}
//----------------------------------
void ep0_txdone(void)
{
short i = ControlData.wLength - ControlData.wCount;
D12_ReadLastTransactionStatus(1); // Clear interrupt flag
if (bEPPflags.bits.control_state != USB_TRANSMIT)
return;
//-------------------------
if( i >= EP0_PACKET_SIZE) {
D12_WriteEndpoint(1, EP0_PACKET_SIZE, ControlData.pData + ControlData.wCount);
ControlData.wCount += EP0_PACKET_SIZE;
bEPPflags.bits.control_state = USB_TRANSMIT;
}
else if( i != 0) {
D12_WriteEndpoint(1, i, ControlData.pData + ControlData.wCount);
ControlData.wCount += i;
bEPPflags.bits.control_state = USB_IDLE;
}
else if (i == 0){
D12_WriteEndpoint(1, 0, 0); // Send zero packet at the end ???
bEPPflags.bits.control_state = USB_IDLE;
}
}
//----------------------------------
void ep1_txdone(void)
{
D12_ReadLastTransactionStatus(3); /* Clear interrupt flag */
}
void ep1_rxdone(void)
{
unsigned char len;
D12_ReadLastTransactionStatus(2); /* Clear interrupt flag */
len = D12_ReadEndpoint(2, sizeof(GenEpBuf), GenEpBuf);
if(len != 0)
bEPPflags.bits.ep1_rxdone = 1;
}
//---------------------------------
void main_txdone(void)
{
unsigned char len;
D12_ReadLastTransactionStatus(5); /* Clear interrupt flag */
len = ioSize - ioCount;
if(len == 0) {
if(bEPPflags.bits.dma_state == DMA_PENDING)
bEPPflags.bits.setup_dma ++;
else
bEPPflags.bits.dma_state = DMA_IDLE;
}
else {
if(len > 64)
len = 64;
if(bNoRAM)
len = D12_WriteEndpoint(5, len, EpBuf + ioCount);
else
len = D12_WriteEndpoint(5, len, MainEpBuf + ioCount);
ioCount += len;
}
}
void main_rxdone(void)
{
unsigned char len;
D12_ReadLastTransactionStatus(4); /* Clear interrupt flag */
if(bNoRAM)
len = D12_ReadEndpoint(4, 64, EpBuf + ioCount);
else
len = D12_ReadEndpoint(4, 64, MainEpBuf + ioCount);
ioCount += len;
if(bNoRAM)
len = D12_ReadEndpoint(4, 64, EpBuf + ioCount);
else
len = D12_ReadEndpoint(4, 64, MainEpBuf + ioCount);
ioCount += len;
if(ioCount >= ioSize) {
if(bEPPflags.bits.dma_state == DMA_PENDING)
bEPPflags.bits.setup_dma ++;
else
bEPPflags.bits.dma_state = DMA_IDLE;
}
}
⌨️ 快捷键说明
复制代码
Ctrl + C
搜索代码
Ctrl + F
全屏模式
F11
切换主题
Ctrl + Shift + D
显示快捷键
?
增大字号
Ctrl + =
减小字号
Ctrl + -