//#include "../my.h"
#include "../zxevo_io.h"
#include <stdio.h>
#include <Intrz80.h>
#include <string.h>
#include "SL811.H"
#include "HAL.H"
extern FLAGS bdata bFlags;
PKG usbstack;
unsigned char xdata DBUF[BUFFER_LENGTH];
pUSBDEV xdata uDev; // Multiple USB devices attributes, Max 5 devices
//*****************************************************************************************
// usbXfer:
// successful transfer = return TRUE
// fail transfer = return FALSE
//*****************************************************************************************
unsigned char usbXfer(void)
{
unsigned char xferLen, data0, data1,cmd;
unsigned char intr,result,remainder,dataX,bufLen,addr,timeout;
unsigned char out[8];
//------------------------------------------------
// Default setting for usb trasnfer
//------------------------------------------------
dataX=timeout=0;
data0 = EP0_Buf; // DATA0 buffer address
data1 = data0 + (unsigned char)usbstack.wPayload; // DATA1 buffer address
bFlags.bits.DATA_STOP=FALSE;
bFlags.bits.TIMEOUT_ERR=FALSE;
//------------------------------------------------
// Define data transfer payload
//------------------------------------------------
if (usbstack.wLen >= usbstack.wPayload) // select proper data payload
xferLen = usbstack.wPayload; // limit to wPayload size
else // else take < payload len
xferLen = usbstack.wLen; //
// For IN token
if (usbstack.pid==PID_IN) // for current IN tokens
{
// if(bFlags.bits.FULL_SPEED)
// cmd=sDATA0_RD;
// else
// cmd=DATA0_RD;
cmd = sDATA0_RD; // FS/FS on Hub, sync to sof
}
// For OUT token
else if(usbstack.pid==PID_OUT) // for OUT tokens
{
if(xferLen) // only when there are
{
SL811BufWrite(data0,usbstack.buffer,xferLen); // data to transfer on USB
// if(bFlags.bits.FULL_SPEED)
// cmd=sDATA0_WR;
// else
// cmd=DATA0_WR;
}
cmd = sDATA0_WR; // FS/FS on Hub, sync to sof
// implement data toggle
bFlags.bits.bData1 = uDev.bData1[usbstack.endpoint];
uDev.bData1[usbstack.endpoint] = (uDev.bData1[usbstack.endpoint] ? 0 : 1); // DataToggle
if(bFlags.bits.bData1)
cmd |= 0x40; // Set Data1 bit in command
}
//------------------------------------------------
// For SETUP/OUT token
//------------------------------------------------
else // for current SETUP/OUT tokens
{
if(xferLen) // only when there are
{ // data to transfer on USB
intr=usbstack.setup.wLength;
out[0]=usbstack.setup.bmRequest;
out[1]=usbstack.setup.bRequest;
out[2]=(unsigned char)usbstack.setup.wValue;
out[3]=(unsigned char)(usbstack.setup.wValue>>8);
out[4]=(unsigned char)usbstack.setup.wIndex;
out[5]=(unsigned char)(usbstack.setup.wIndex>>8);
out[6]=(unsigned char)usbstack.setup.wLength;
out[7]=(unsigned char)(usbstack.setup.wLength>>8);
SL811BufWrite(data0,out,xferLen);
usbstack.setup.wLength=intr;
}
// if(bFlags.bits.FULL_SPEED)
// cmd=sDATA0_WR;
// else
// cmd=DATA0_WR;
cmd = sDATA0_WR; // FS/FS on Hub, sync to sof
}
//------------------------------------------------
// For EP0's IN/OUT token data, start with DATA1
// Control Endpoint0's status stage.
// For data endpoint, IN/OUT data, start ????
//------------------------------------------------
if (usbstack.endpoint == 0 && usbstack.pid != PID_SETUP) // for Ep0's IN/OUT token
cmd |= 0x40; // always set DATA1
//------------------------------------------------
// Arming of USB data transfer for the first pkt
//------------------------------------------------
SL811Write(EP0Status,((usbstack.endpoint&0x0F)|usbstack.pid)); // PID + EP address
SL811Write(EP0Counter,usbstack.usbaddr); // USB address
SL811Write(EP0Address,data0); // buffer address, start with "data0"
SL811Write(EP0XferLen,xferLen); // data transfer length
SL811Write(IntStatus,INT_CLEAR); // clear interrupt status
SL811Write(EP0Control,cmd); // Enable ARM and USB transfer start here
//------------------------------------------------
// Main loop for completing a wLen data trasnfer
//------------------------------------------------
while(TRUE)
{
//---------------Wait for done interrupt------------------
while(TRUE) // always ensure requested device is
{ // inserted at all time, then you will
intr = SL811Read(IntStatus);
// wait for interrupt to be done, and
if((intr & USB_RESET) || (intr & INSERT_REMOVE)) // proceed to parse result from slave
{ // device.
bFlags.bits.DATA_STOP = TRUE; // if device is removed, set DATA_STOP
return FALSE; // flag true, so that main loop will
} // know this condition and exit gracefully
if(intr & USB_A_DONE)
break; // interrupt done !!!
}
SL811Write(IntStatus,INT_CLEAR); // clear interrupt status
result = SL811Read(EP0Status); // read EP0status register
remainder = SL811Read(EP0Counter); // remainder value in last pkt xfer
//-------------------------ACK----------------------------
if (result & EP0_ACK) // Transmission ACK
{
// SETUP TOKEN
if(usbstack.pid == PID_SETUP) // do nothing for SETUP/OUT token
break; // exit while(1) immediately
// OUT TOKEN
else if(usbstack.pid == PID_OUT)
break;
// IN TOKEN
else if(usbstack.pid == PID_IN)
{ // for IN token only
usbstack.wLen -= (WORD)xferLen; // update remainding wLen value
cmd ^= 0x40; // toggle DATA0/DATA1
dataX++; // point to next dataX
//------------------------------------------------
// If host requested for more data than the slave
// have, and if the slave's data len is a multiple
// of its endpoint payload size/last xferLen. Do
// not overwrite data in previous buffer.
//------------------------------------------------
if(remainder==xferLen) // empty data detected
bufLen = 0; // do not overwriten previous data
else // reset bufLen to zero
bufLen = xferLen; // update previous buffer length
//------------------------------------------------
// Arm for next data transfer when requested data
// length have not reach zero, i.e. wLen!=0, and
// last xferlen of data was completed, i.e.
// remainder is equal to zero, not a short pkt
//------------------------------------------------
if(!remainder && usbstack.wLen) // remainder==0 when last xferLen
{ // was all completed or wLen!=0
addr = (dataX & 1) ? data1:data0; // select next address for data
xferLen = (BYTE)(usbstack.wLen>=usbstack.wPayload) ? usbstack.wPayload:usbstack.wLen; // get data length required
cmd |= 0x20; // always sync SOF when FS, regardless
SL811Write(EP0XferLen, xferLen); // select next xfer length
SL811Write(EP0Address, addr); // data buffer addr
SL811Write(IntStatus,INT_CLEAR); // is a LS is on Hub.
SL811Write(EP0Control,cmd); // Enable USB transfer and re-arm
}
//------------------------------------------------
// Copy last IN token data pkt from prev transfer
// Check if there was data available during the
// last data transfer
//------------------------------------------------
if(bufLen)
{
SL811BufRead(((dataX&1)?data0:data1), usbstack.buffer, bufLen);
usbstack.buffer += bufLen;
}
//------------------------------------------------
// Terminate on short packets, i.e. remainder!=0
// a short packet or empty data packet OR when
// requested data len have completed, i.e.wLen=0
// For a LOWSPEED device, the 1st device descp,
// wPayload is default to 64-byte, LS device will
// only send back a max of 8-byte device descp,
// and host detect this as a short packet, and
// terminate with OUT status stage
//------------------------------------------------
if(remainder || !usbstack.wLen)
break;
}// PID IN
}
//-------------------------NAK----------------------------
if (result & EP0_NAK) // NAK Detected
{
//if(usbstack.endpoint==0) // on ep0 during enumeration of LS device
//{ // happen when slave is not fast enough,
SL811Write(IntStatus,INT_CLEAR); // clear interrupt status, need to
SL811Write(EP0Control,cmd); // re-arm and request for last cmd, IN token
result = 0; // respond to NAK status only
//}
//else // normal data endpoint, exit now !!! , non-zero ep
// break; // main loop control the interval polling
}
//-----------------------TIMEOUT--------------------------
if (result & EP0_TIMEOUT) // TIMEOUT Detected
{
if(usbstack.endpoint==0) // happens when hub enumeration
{
if(++timeout >= TIMEOUT_RETRY)
{
timeout--;
break; // exit on the timeout detected
}
SL811Write(IntStatus,INT_CLEAR); // clear interrupt status, need to
SL811Write(EP0Control,cmd); // re-arm and request for last cmd again
}
else
{ // all other data endpoint, data transfer
bFlags.bits.TIMEOUT_ERR = TRUE; // failed, set flag to terminate transfer
break; // happens when data transfer on a device
} // through the hub
}
//-----------------------STALL----------------------------
if (result & EP0_STALL) // STALL detected
return TRUE; // for unsupported request.
//----------------------OVEFLOW---------------------------
if (result & EP0_OVERFLOW) // OVERFLOW detected
break;
//-----------------------ERROR----------------------------
//if (result & EP0_ERROR) // ERROR detected
// break;
} // end of While(1)
if (result & EP0_ACK) // on ACK transmission
return TRUE; // return OK
printf("\rresult 0x%02x",result
); return FALSE; // fail transmission
}
//*****************************************************************************************
// Control Endpoint 0's USB Data Xfer
// ep0Xfer, endpoint 0 data transfer
//*****************************************************************************************
unsigned char ep0Xfer(void)
{
usbstack.endpoint=0;
//----------------------------------------------------
// SETUP token with 8-byte request on endpoint 0
//----------------------------------------------------
usbstack.pid=PID_SETUP;
usbstack.wLen=8;
if (!usbXfer())
{ printf("SETUP token error 0x%x \r",PID_SETUP
); return FALSE;
}
usbstack.pid = PID_IN;
//----------------------------------------------------
// IN or OUT data stage on endpoint 0
//----------------------------------------------------
usbstack.wLen=usbstack.setup.wLength;
if (usbstack.wLen) // if there are data for transfer
{
if (usbstack.setup.bmRequest & 0x80) // host-to-device : IN token
{
usbstack.pid = PID_IN;
if(!usbXfer())
{ printf("IN token endpoint 0 error 0x%x \r",usbstack.
pid); return FALSE;
}
usbstack.pid = PID_OUT;
}
else // device-to-host : OUT token
{
usbstack.pid = PID_OUT;
if(!usbXfer())
{ printf("OUT token endpoint 0 error 0x%x \r",usbstack.
pid); return FALSE;
}
usbstack.pid = PID_IN;
}
}
DelayMs(10);
//----------------------------------------------------
// Status stage IN or OUT zero-length data packet
//----------------------------------------------------
usbstack.wLen=0;
if(!usbXfer())
{ printf("IN/OUT token zero-lenght error 0x%x \r",usbstack.
pid); return FALSE;
}
return TRUE;
}
unsigned char epBulkSend(unsigned char *pBuffer,unsigned int len)
{
usbstack.usbaddr=0x1;
usbstack.endpoint=usbstack.epbulkout;
usbstack.pid=PID_OUT;
usbstack.wPayload=64;
usbstack.wLen=len;
usbstack.buffer=pBuffer;
while(len>0)
{
if (len > usbstack.wPayload)
usbstack.wLen = usbstack.wPayload;
else
usbstack.wLen = len;
disable_interrupt();
while(!usbXfer()){
enable_interrupt();
puts("epBulkSend ERROR"); return FALSE;
}
enable_interrupt();
len-=usbstack.wLen;
usbstack.buffer=usbstack.buffer+usbstack.wLen;
}
return TRUE;
}
unsigned char epBulkRcv(unsigned char *pBuffer,unsigned int len)
{
usbstack.usbaddr=0x1;
usbstack.endpoint=usbstack.epbulkin;
usbstack.pid=PID_IN;
usbstack.wPayload=64;
usbstack.wLen=len;
usbstack.buffer=pBuffer;
if(usbstack.wLen)
{
disable_interrupt();
while(!usbXfer()){
enable_interrupt();
return FALSE;
}
enable_interrupt();
}
return TRUE;
}
//*****************************************************************************************
// Set Device Address :
//*****************************************************************************************
unsigned char SetAddress(unsigned char addr)
{
usbstack.usbaddr=0;
usbstack.setup.bmRequest=0;
usbstack.setup.bRequest=SET_ADDRESS;
usbstack.setup.wValue=addr;
usbstack.setup.wIndex=0;
usbstack.setup.wLength=0;
return ep0Xfer();
}
//*****************************************************************************************
// Set Device Configuration :
//*****************************************************************************************
unsigned char Set_Configuration(void)
{
usbstack.setup.bmRequest=0;
usbstack.setup.bRequest=SET_CONFIG;
usbstack.setup.wIndex=0;
usbstack.setup.wLength=0;
usbstack.buffer=NULL;
return ep0Xfer();
}
//*****************************************************************************************
// Get Device Descriptor : Device, Configuration, String
//*****************************************************************************************
unsigned char GetDesc(void)
{
usbstack.setup.bmRequest=0x80;
usbstack.setup.bRequest=GET_DESCRIPTOR;
usbstack.setup.wValue=WordSwap(usbstack.setup.wValue);
usbstack.wPayload=uDev.wPayLoad[0];
return ep0Xfer();
}
//*****************************************************************************************
// USB Device Enumeration Process
// Support 1 confguration and interface #0 and alternate setting #0 only
// Support up to 1 control endpoint + 4 data endpoint only
//*****************************************************************************************
unsigned char EnumUsbDev(BYTE usbaddr)
{
unsigned char i; // always reset USB transfer address
unsigned char uAddr = 0; // for enumeration to Address #0
unsigned char epLen;
//------------------------------------------------
// Reset only Slave device attached directly
//------------------------------------------------
uDev.wPayLoad[0] = 64; // default 64-byte payload of Endpoint 0, address #0
if(usbaddr == 1) // bus reset for the device attached to SL811HS only
USBReset(); // that will always have the USB address = 0x01 (for a hub)
// DelayMs(25);
//------------------------------------------------
// Get USB Device Descriptors on EP0 & Addr 0
// with default 64-byte payload
//------------------------------------------------
usbstack.usbaddr=uAddr;
usbstack.setup.wValue=DEVICE;
usbstack.setup.wIndex=0;
usbstack.setup.wLength=18;
usbstack.buffer=DBUF;
if (!GetDesc()) // and determine the wPayload size
return FALSE; // get correct wPayload of Endpoint 0
uDev.wPayLoad[0]=DBUF[7]; // on current non-zero USB address
//------------------------------------------------
// Set Slave USB Device Address
//------------------------------------------------
printf("Set Slave USB Device Address 0x%x \r",usbaddr
); if (!SetAddress(usbaddr)) // set to specific USB address
return FALSE; //
uAddr = usbaddr; // transfer using this new address
//------------------------------------------------
// Get USB Device Descriptors on EP0 & Addr X
//------------------------------------------------
usbstack.usbaddr=uAddr;
usbstack.setup.wLength=DBUF[0];
usbstack.setup.wValue=DEVICE;
usbstack.setup.wIndex=0;
usbstack.buffer=DBUF;
if (!GetDesc())
return FALSE; // For this current device:
uDev.iMfg = DBUF[14];
uDev.iPdt = DBUF[15];
uDev.wVID=DBUF[8]+(DBUF[9]<<8);
uDev.wPID=DBUF[10]+(DBUF[11]<<8);
printf("VID 0x%x, PID 0x%x MNFG 0x%x PROD 0x%x \r",uDev.
wVID,uDev.
wPID,uDev.
iMfg,uDev.
iPdt);
//------------------------------------------------
// Get Slave USB Configuration Descriptors
//------------------------------------------------
usbstack.usbaddr=uAddr;
usbstack.setup.wValue=CONFIGURATION;
usbstack.setup.wIndex=0;
usbstack.setup.wLength=64;
usbstack.buffer=DBUF;
if (!GetDesc())
return FALSE;
uDev.bClass = DBUF[9+5]; // update to class type
uDev.bNumOfEPs = (DBUF[9+4] <= MAX_EP) ? DBUF[9+4] : MAX_EP;
if(uDev.bClass==8) //mass storage device
bFlags.bits.bMassDevice=TRUE;
//------------------------------------------------
// Set configuration (except for HUB device)
//------------------------------------------------
usbstack.usbaddr=uAddr;
usbstack.setup.wValue=DEVICE;
// enumerating a FS/LS non-hub device
if (!Set_Configuration()) // connected directly to SL811HS
return FALSE;
//------------------------------------------------
// For each slave endpoints, get its attributes
// Excluding endpoint0, only data endpoints
//------------------------------------------------
epLen = 0;
for (i=1; i<=uDev.bNumOfEPs; i++) // For each data endpoint
{
uDev.bEPAddr[i] = DBUF[9 + 9 + epLen+2]; // Ep address and direction
uDev.bAttr[i] = DBUF[9 + 9 + epLen+3]; // Attribute of Endpoint
uDev.wPayLoad[i] = LSwapINT16(DBUF[9 + 9 + epLen+4],DBUF[9 + 9 + epLen+5]); // Payload of Endpoint
uDev.bInterval[i] = DBUF[9 + 9 + epLen+6]; // Polling interval
uDev.bData1[i] = 0; // init data toggle
printf("EndPoint 0x%x, attr = 0x%x, \npkt_size = 0x%x, interval = 0x%x \r",uDev.
bEPAddr[i
],uDev.
bAttr[i
],uDev.
wPayLoad[i
],uDev.
bInterval[i
]); epLen += 7;
//////////////////////////////
if(uDev.bAttr[i]==0x2) //bulk transfer
{
if(uDev.bEPAddr[i]&0x80)
usbstack.epbulkin=uDev.bEPAddr[i];
else
usbstack.epbulkout=uDev.bEPAddr[i];
}
//////////////////////////////
}
printf("epbulkin = 0x%x epbulkout = 0x%x \r",usbstack.
epbulkin,usbstack.
epbulkout); return TRUE;
}