📄 isr.c
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/*
//*************************************************************************
//
// P H I L I P S P R O P R I E T A R Y
//
// COPYRIGHT (c) 1997 BY PHILIPS SINGAPORE.
// -- ALL RIGHTS RESERVED --
//
// File Name: ISR.C
// Author: Wenkai Du
// Created: 19 Dec 97
// Modified:
// Revision: 3.0
//
//*************************************************************************
//
// 98/11/25 Added I/O mode Main endpoints access. (WK)
//*************************************************************************
*/
#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"
extern void bus_reset(void);
extern void ep0_txdone(void);
extern void ep0_rxdone(void);
extern void ep1_txdone(void);
extern void ep1_rxdone(void);
extern void main_txdone(void);
extern void main_rxdone(void);
extern 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;
}
usb_isr() interrupt 0
{
DISABLE;
fn_usb_isr();
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;
}
void bus_reset(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;
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
D12_AcknowledgeEndpoint(0);
D12_AcknowledgeEndpoint(1);
ControlData.wLength = ControlData.DeviceRequest.wLength;
ControlData.wCount = 0;
if (ControlData.DeviceRequest.bmRequestType & (unsigned char)USB_ENDPOINT_DIRECTION_MASK) {
bEPPflags.bits.setup_packet = 1;
bEPPflags.bits.control_state = USB_IDLE; /* get command */
}
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 dma_eot(void)
{
}
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;
}
}
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