devsh.c 25.8 KB
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/*++

Copyright (c) 1997-1998  Microsoft Corporation

Module Name:

    RWBulk.c

Abstract:

    Console test app for BulkUsb.sys driver

Environment:

    user mode only

Notes:

  THIS CODE AND INFORMATION IS PROVIDED "AS IS" WITHOUT WARRANTY OF ANY
  KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE
  IMPLIED WARRANTIES OF MERCHANTABILITY AND/OR FITNESS FOR A PARTICULAR
  PURPOSE.

  Copyright (c) 1997-1998 Microsoft Corporation.  All Rights Reserved.


Revision History:

	11/17/97: created

--*/

#include <windows.h>

#include <conio.h>
#include <stdio.h>
#include <stdlib.h>
#include <assert.h>
#include <time.h>

#include "devioctl.h"

#include <setupapi.h>
#include <basetyps.h>
#include "BulkUsb.h"
#include "bbrdb_guid.h"

#include "usbdi.h"

#define NOISY(_x_) printf _x_ ;

char inPipe[32] = "PIPE00";     // pipe name for bulk input pipe on our test board
char outPipe[32] = "PIPE01";    // pipe name for bulk output pipe on our test board
char completeDeviceName[256] = "";  //generated from the GUID registered by the driver itself

BOOL fDumpUsbConfig = FALSE;    // flags set in response to console command line switches
BOOL fDumpReadData = FALSE;
BOOL fRead = FALSE;
BOOL fWrite = FALSE;

int gDebugLevel = 1;      // higher == more verbose, default is 1, 0 turns off all

ULONG IterationCount = 1; //count of iterations of the test we are to perform
int WriteLen = 0;         // #bytes to write
int ReadLen = 0;          // #bytes to read

// functions


HANDLE
OpenOneDevice (
    IN       HDEVINFO                    HardwareDeviceInfo,
    IN       PSP_INTERFACE_DEVICE_DATA   DeviceInfoData,
	IN		 char *devName
    )
/*++
Routine Description:

    Given the HardwareDeviceInfo, representing a handle to the plug and
    play information, and deviceInfoData, representing a specific usb device,
    open that device and fill in all the relevant information in the given
    USB_DEVICE_DESCRIPTOR structure.

Arguments:

    HardwareDeviceInfo:  handle to info obtained from Pnp mgr via SetupDiGetClassDevs()
    DeviceInfoData:      ptr to info obtained via SetupDiEnumInterfaceDevice()

Return Value:

    return HANDLE if the open and initialization was successfull,
	else INVLAID_HANDLE_VALUE.

--*/
{
    PSP_INTERFACE_DEVICE_DETAIL_DATA     functionClassDeviceData = NULL;
    ULONG                                predictedLength = 0;
    ULONG                                requiredLength = 0;
	HANDLE								 hOut = INVALID_HANDLE_VALUE;

    //
    // allocate a function class device data structure to receive the
    // goods about this particular device.
    //
    SetupDiGetInterfaceDeviceDetail (
            HardwareDeviceInfo,
            DeviceInfoData,
            NULL, // probing so no output buffer yet
            0, // probing so output buffer length of zero
            &requiredLength,
            NULL); // not interested in the specific dev-node


    predictedLength = requiredLength;
    // sizeof (SP_FNCLASS_DEVICE_DATA) + 512;

    functionClassDeviceData = malloc (predictedLength);
    functionClassDeviceData->cbSize = sizeof (SP_INTERFACE_DEVICE_DETAIL_DATA);

    //
    // Retrieve the information from Plug and Play.
    //
    if (! SetupDiGetInterfaceDeviceDetail (
               HardwareDeviceInfo,
               DeviceInfoData,
               functionClassDeviceData,
               predictedLength,
               &requiredLength,
               NULL)) {
		free( functionClassDeviceData );
        return INVALID_HANDLE_VALUE;
    }

	strcpy( devName,functionClassDeviceData->DevicePath) ;
	printf( "Attempting to open %s\n", devName );

    hOut = CreateFile (
                  functionClassDeviceData->DevicePath,
                  GENERIC_READ | GENERIC_WRITE,
                  FILE_SHARE_READ | FILE_SHARE_WRITE,
                  NULL, // no SECURITY_ATTRIBUTES structure
                  OPEN_EXISTING, // No special create flags
                  0, // No special attributes
                  NULL); // No template file

    if (INVALID_HANDLE_VALUE == hOut) {
		printf( "FAILED to open %s\n", devName );
    }
	free( functionClassDeviceData );
	return hOut;
}


HANDLE
OpenUsbDevice( LPGUID  pGuid, char *outNameBuf)
/*++
Routine Description:

   Do the required PnP things in order to find
   the next available proper device in the system at this time.

Arguments:

    pGuid:      ptr to GUID registered by the driver itself
    outNameBuf: the generated name for this device

Return Value:

    return HANDLE if the open and initialization was successful,
	else INVLAID_HANDLE_VALUE.
--*/
{
   ULONG NumberDevices;
   HANDLE hOut = INVALID_HANDLE_VALUE;
   HDEVINFO                 hardwareDeviceInfo;
   SP_INTERFACE_DEVICE_DATA deviceInfoData;
   ULONG                    i;
   BOOLEAN                  done;
   PUSB_DEVICE_DESCRIPTOR   usbDeviceInst;
   PUSB_DEVICE_DESCRIPTOR	*UsbDevices = &usbDeviceInst;

   *UsbDevices = NULL;
   NumberDevices = 0;

   //
   // Open a handle to the plug and play dev node.
   // SetupDiGetClassDevs() returns a device information set that contains info on all
   // installed devices of a specified class.
   //
   hardwareDeviceInfo = SetupDiGetClassDevs (
                           pGuid,
                           NULL, // Define no enumerator (global)
                           NULL, // Define no
                           (DIGCF_PRESENT | // Only Devices present
                            DIGCF_INTERFACEDEVICE)); // Function class devices.

   //
   // Take a wild guess at the number of devices we have;
   // Be prepared to realloc and retry if there are more than we guessed
   //
   NumberDevices = 4;
   done = FALSE;
   deviceInfoData.cbSize = sizeof (SP_INTERFACE_DEVICE_DATA);

   i=0;
   while (!done) {
      NumberDevices *= 2;

      if (*UsbDevices) {
         *UsbDevices =
               realloc (*UsbDevices, (NumberDevices * sizeof (USB_DEVICE_DESCRIPTOR)));
      } else {
         *UsbDevices = calloc (NumberDevices, sizeof (USB_DEVICE_DESCRIPTOR));
      }

      if (NULL == *UsbDevices) {

         // SetupDiDestroyDeviceInfoList destroys a device information set
         // and frees all associated memory.

         SetupDiDestroyDeviceInfoList (hardwareDeviceInfo);
         return INVALID_HANDLE_VALUE;
      }

      usbDeviceInst = *UsbDevices + i;

      for (; i < NumberDevices; i++) {

         // SetupDiEnumDeviceInterfaces() returns information about device interfaces
         // exposed by one or more devices. Each call returns information about one interface;
         // the routine can be called repeatedly to get information about several interfaces
         // exposed by one or more devices.

         if (SetupDiEnumDeviceInterfaces (hardwareDeviceInfo,
                                         0, // We don't care about specific PDOs
										 pGuid,
                                         i,
                                         &deviceInfoData)) {

            hOut = OpenOneDevice (hardwareDeviceInfo, &deviceInfoData, outNameBuf);
			if ( hOut != INVALID_HANDLE_VALUE ) {
               done = TRUE;
               break;
			}
         } else {
            if (ERROR_NO_MORE_ITEMS == GetLastError()) {
               done = TRUE;
               break;
            }
         }
      }
   }

   NumberDevices = i;

   // SetupDiDestroyDeviceInfoList() destroys a device information set
   // and frees all associated memory.

   SetupDiDestroyDeviceInfoList (hardwareDeviceInfo);
   free ( *UsbDevices );
   return hOut;
}




BOOL
GetUsbDeviceFileName( LPGUID  pGuid, char *outNameBuf)
/*++
Routine Description:

    Given a ptr to a driver-registered GUID, give us a string with the device name
    that can be used in a CreateFile() call.
    Actually briefly opens and closes the device and sets outBuf if successfull;
    returns FALSE if not

Arguments:

    pGuid:      ptr to GUID registered by the driver itself
    outNameBuf: the generated zero-terminated name for this device

Return Value:

    TRUE on success else FALSE

--*/
{
	HANDLE hDev = OpenUsbDevice( pGuid, outNameBuf );
	if ( hDev != INVALID_HANDLE_VALUE )
	{
		CloseHandle( hDev );
		return TRUE;
	}
	return FALSE;

}

HANDLE
open_dev()
/*++
Routine Description:

    Called by dumpUsbConfig() to open an instance of our device

Arguments:

    None

Return Value:

    Device handle on success else NULL

--*/
{

	HANDLE hDEV = OpenUsbDevice( (LPGUID)&GUID_CLASS_BBRDB, completeDeviceName);


	if (hDEV == INVALID_HANDLE_VALUE) {
		printf("Failed to open (%s) = %d", completeDeviceName, GetLastError());
	} else {
		printf("DeviceName = (%s)\n", completeDeviceName);
    }		

	return hDEV;
}


HANDLE
open_file( char *filename)
/*++
Routine Description:

    Called by main() to open an instance of our device after obtaining its name

Arguments:

    None

Return Value:

    Device handle on success else NULL

--*/
{

	int success = 1;
	HANDLE h;

	if ( !GetUsbDeviceFileName(
		(LPGUID) &GUID_CLASS_BBRDB,
		completeDeviceName) )
	{
		NOISY(("Failed to GetUsbDeviceFileName\n", GetLastError()));
		return  INVALID_HANDLE_VALUE;
	}

    strcat (completeDeviceName,
			"\\"
			);			

    strcat (completeDeviceName,
			filename
			);					

	printf("completeDeviceName = (%s)\n", completeDeviceName);

	h = CreateFile(completeDeviceName,
		GENERIC_WRITE | GENERIC_READ,
		FILE_SHARE_WRITE | FILE_SHARE_READ,
		NULL,
		OPEN_EXISTING,
		0,
		NULL);

	if (h == INVALID_HANDLE_VALUE) {
		NOISY(("Failed to open (%s) = %d", completeDeviceName, GetLastError()));
		success = 0;
	} else {
			NOISY(("Opened successfully.\n"));
    }		

	return h;
}

void
usage()
/*++
Routine Description:

    Called by main() to dump usage info to the console when
    the app is called with no parms or with an invalid parm

Arguments:

    None

Return Value:

    None

--*/
{
    static int i=1;

    if (i) {
        printf("Usage for Read/Write test:\n");
        printf("-r [n] where n is number of bytes to read\n");
        printf("-w [n] where n is number of bytes to write\n");
        printf("-c [n] where n is number of iterations (default = 1)\n");
        printf("-i [s] where s is the input pipe\n");
        printf("-o [s] where s is the output pipe\n");
        printf("-v verbose -- dumps read data\n");

        printf("\nUsage for USB and Endpoint info:\n");
        printf("-u to dump USB configuration and pipe info \n");
        i = 0;
    }
}


void
parse(
    int argc,
    char *argv[] )
/*++
Routine Description:

    Called by main() to parse command line parms

Arguments:

    argc and argv that was passed to main()

Return Value:

    Sets global flags as per user function request

--*/
{
    int i;

	if ( argc < 2 ) // give usage if invoked with no parms
		usage();

    for (i=0; i<argc; i++) {
        if (argv[i][0] == '-' ||
            argv[i][0] == '/') {
            switch(argv[i][1]) {
            case 'r':
            case 'R':
                ReadLen = atoi(&argv[i+1][0]);
				fRead = TRUE;
                i++;
                break;
            case 'w':
            case 'W':
                WriteLen = atoi(&argv[i+1][0]);
				fWrite = TRUE;
                i++;
                break;
            case 'c':
            case 'C':
                IterationCount = atoi(&argv[i+1][0]);
                i++;
                break;
            case 'i':
            case 'I':
                strcpy(inPipe, &argv[i+1][0]);
                i++;
                break;
            case 'u':
            case 'U':
                fDumpUsbConfig = TRUE;
				i++;
                break;
            case 'v':
            case 'V':
                fDumpReadData = TRUE;
				i++;
                break;
			 case 'o':
             case 'O':
                strcpy(outPipe, &argv[i+1][0]);
                i++;
                break;
            default:
                usage();
            }
        }
    }
}

BOOL
compare_buffs(char *buff1, char *buff2, int length)
/*++
Routine Description:

    Called to verify read and write buffers match for loopback test

Arguments:

    buffers to compare and length

Return Value:

    TRUE if buffers match, else FALSE

--*/
{
    int ok = 1;

	if (memcmp(buff1, buff2, length )) {

		// Edi, and Esi point to the mismatching char and ecx indicates the
		// remaining length.
		ok = 0;
	}


    return ok;
}

#define NPERLN 8

void
dump(
   UCHAR *b,
   int len
)
/*++
Routine Description:

    Called to do formatted ascii dump to console of the io buffer

Arguments:

    buffer and length

Return Value:

    none

--*/
{
    ULONG i;
	ULONG longLen = (ULONG)len / sizeof( ULONG );
	PULONG pBuf = (PULONG) b;

	// dump an ordinal ULONG for each sizeof(ULONG)'th byte
    printf("\n****** BEGIN DUMP LEN decimal %d, 0x%x\n", len,len);
    for (i=0; i<longLen; i++) {
        printf("%04X ", *pBuf++);
        if (i % NPERLN == (NPERLN - 1)) {
            printf("\n");
        }
    }
    if (i % NPERLN != 0) {
        printf("\n");
    }
    printf("\n****** END DUMP LEN decimal %d, 0x%x\n", len,len);
}





// Begin, routines for USB configuration dump (Cmdline "rwbulk -u" )


char
*usbDescriptorTypeString(UCHAR bDescriptorType )
/*++
Routine Description:

    Called to get ascii string of USB descriptor

Arguments:

	PUSB_ENDPOINT_DESCRIPTOR->bDescriptorType or
	PUSB_DEVICE_DESCRIPTOR->bDescriptorType or
	PUSB_INTERFACE_DESCRIPTOR->bDescriptorType or
	PUSB_STRING_DESCRIPTOR->bDescriptorType or
	PUSB_POWER_DESCRIPTOR->bDescriptorType or
	PUSB_CONFIGURATION_DESCRIPTOR->bDescriptorType

Return Value:

    ptr to string

--*/{

	switch(bDescriptorType) {

	case USB_DEVICE_DESCRIPTOR_TYPE:
		return "USB_DEVICE_DESCRIPTOR_TYPE";

	case USB_CONFIGURATION_DESCRIPTOR_TYPE:
		return "USB_CONFIGURATION_DESCRIPTOR_TYPE";
		

	case USB_STRING_DESCRIPTOR_TYPE:
		return "USB_STRING_DESCRIPTOR_TYPE";
		

	case USB_INTERFACE_DESCRIPTOR_TYPE:
		return "USB_INTERFACE_DESCRIPTOR_TYPE";
		

	case USB_ENDPOINT_DESCRIPTOR_TYPE:
		return "USB_ENDPOINT_DESCRIPTOR_TYPE";
		

#ifdef USB_POWER_DESCRIPTOR_TYPE // this is the older definintion which is actually obsolete
    // workaround for temporary bug in 98ddk, older USB100.h file
	case USB_POWER_DESCRIPTOR_TYPE:
		return "USB_POWER_DESCRIPTOR_TYPE";
#endif
		
#ifdef USB_RESERVED_DESCRIPTOR_TYPE  // this is the current version of USB100.h as in NT5DDK

	case USB_RESERVED_DESCRIPTOR_TYPE:
		return "USB_RESERVED_DESCRIPTOR_TYPE";

	case USB_CONFIG_POWER_DESCRIPTOR_TYPE:
		return "USB_CONFIG_POWER_DESCRIPTOR_TYPE";

	case USB_INTERFACE_POWER_DESCRIPTOR_TYPE:
		return "USB_INTERFACE_POWER_DESCRIPTOR_TYPE";
#endif // for current nt5ddk version of USB100.h

	default:
		return "??? UNKNOWN!!";	
	}
}


char
*usbEndPointTypeString(UCHAR bmAttributes)
/*++
Routine Description:

    Called to get ascii string of endpt descriptor type

Arguments:

	PUSB_ENDPOINT_DESCRIPTOR->bmAttributes

Return Value:

    ptr to string

--*/
{
	UINT typ = bmAttributes & USB_ENDPOINT_TYPE_MASK;


	switch( typ) {
	case USB_ENDPOINT_TYPE_INTERRUPT:
		return "USB_ENDPOINT_TYPE_INTERRUPT";

	case USB_ENDPOINT_TYPE_BULK:
		return "USB_ENDPOINT_TYPE_BULK";	

	case USB_ENDPOINT_TYPE_ISOCHRONOUS:
		return "USB_ENDPOINT_TYPE_ISOCHRONOUS";	
		
	case USB_ENDPOINT_TYPE_CONTROL:
		return "USB_ENDPOINT_TYPE_CONTROL";	
		
	default:
		return "??? UNKNOWN!!";	
	}
}


char
*usbConfigAttributesString(UCHAR bmAttributes)
/*++
Routine Description:

    Called to get ascii string of USB_CONFIGURATION_DESCRIPTOR attributes

Arguments:

	PUSB_CONFIGURATION_DESCRIPTOR->bmAttributes

Return Value:

    ptr to string

--*/
{
	UINT typ = bmAttributes & USB_CONFIG_POWERED_MASK;


	switch( typ) {

	case USB_CONFIG_BUS_POWERED:
		return "USB_CONFIG_BUS_POWERED";

	case USB_CONFIG_SELF_POWERED:
		return "USB_CONFIG_SELF_POWERED";
		
	case USB_CONFIG_REMOTE_WAKEUP:
		return "USB_CONFIG_REMOTE_WAKEUP";

		
	default:
		return "??? UNKNOWN!!";	
	}
}


void
print_USB_CONFIGURATION_DESCRIPTOR(PUSB_CONFIGURATION_DESCRIPTOR cd)
/*++
Routine Description:

    Called to do formatted ascii dump to console of a USB config descriptor

Arguments:

    ptr to USB configuration descriptor

Return Value:

    none

--*/
{
    printf("\n===================\nUSB_CONFIGURATION_DESCRIPTOR\n");

    printf(
    "bLength = 0x%x, decimal %d\n", cd->bLength, cd->bLength
    );

    printf(
    "bDescriptorType = 0x%x ( %s )\n", cd->bDescriptorType, usbDescriptorTypeString( cd->bDescriptorType )
    );

    printf(
    "wTotalLength = 0x%x, decimal %d\n", cd->wTotalLength, cd->wTotalLength
    );

    printf(
    "bNumInterfaces = 0x%x, decimal %d\n", cd->bNumInterfaces, cd->bNumInterfaces
    );

    printf(
    "bConfigurationValue = 0x%x, decimal %d\n", cd->bConfigurationValue, cd->bConfigurationValue
    );

    printf(
    "iConfiguration = 0x%x, decimal %d\n", cd->iConfiguration, cd->iConfiguration
    );

    printf(
    "bmAttributes = 0x%x ( %s )\n", cd->bmAttributes, usbConfigAttributesString( cd->bmAttributes )
    );

    printf(
    "MaxPower = 0x%x, decimal %d\n", cd->MaxPower, cd->MaxPower
    );
}


void
print_USB_INTERFACE_DESCRIPTOR(PUSB_INTERFACE_DESCRIPTOR id, UINT ix)
/*++
Routine Description:

    Called to do formatted ascii dump to console of a USB interface descriptor

Arguments:

    ptr to USB interface descriptor

Return Value:

    none

--*/
{
    printf("\n-----------------------------\nUSB_INTERFACE_DESCRIPTOR #%d\n", ix);


    printf(
    "bLength = 0x%x\n", id->bLength
    );


    printf(
    "bDescriptorType = 0x%x ( %s )\n", id->bDescriptorType, usbDescriptorTypeString( id->bDescriptorType )
    );


    printf(
    "bInterfaceNumber = 0x%x\n", id->bInterfaceNumber
    );
    printf(
    "bAlternateSetting = 0x%x\n", id->bAlternateSetting
    );
    printf(
    "bNumEndpoints = 0x%x\n", id->bNumEndpoints
    );
    printf(
    "bInterfaceClass = 0x%x\n", id->bInterfaceClass
    );
    printf(
    "bInterfaceSubClass = 0x%x\n", id->bInterfaceSubClass
    );
    printf(
    "bInterfaceProtocol = 0x%x\n", id->bInterfaceProtocol
    );
    printf(
    "bInterface = 0x%x\n", id->iInterface
    );
}


void
print_USB_ENDPOINT_DESCRIPTOR(PUSB_ENDPOINT_DESCRIPTOR ed, int i)
/*++
Routine Description:

    Called to do formatted ascii dump to console of a USB endpoint descriptor

Arguments:

    ptr to USB endpoint descriptor,
	index of this endpt in interface desc

Return Value:

    none

--*/
{
    printf(
	"------------------------------\nUSB_ENDPOINT_DESCRIPTOR for Pipe%02d\n", i
	);

    printf(
    "bLength = 0x%x\n", ed->bLength
    );

    printf(
    "bDescriptorType = 0x%x ( %s )\n", ed->bDescriptorType, usbDescriptorTypeString( ed->bDescriptorType )
    );


	if ( USB_ENDPOINT_DIRECTION_IN( ed->bEndpointAddress ) ) {
		printf(
		"bEndpointAddress= 0x%x ( INPUT )\n", ed->bEndpointAddress
		);
	} else {
		printf(
		"bEndpointAddress= 0x%x ( OUTPUT )\n", ed->bEndpointAddress
		);
	}

    printf(
    "bmAttributes= 0x%x ( %s )\n", ed->bmAttributes, usbEndPointTypeString ( ed->bmAttributes )
    );


    printf(
    "wMaxPacketSize= 0x%x, decimal %d\n", ed->wMaxPacketSize, ed->wMaxPacketSize
    );
    printf(
    "bInterval = 0x%x, decimal %d\n", ed->bInterval, ed->bInterval
    );
}

void
rw_dev( HANDLE hDEV )
/*++
Routine Description:

    Called to do formatted ascii dump to console of  USB
    configuration, interface, and endpoint descriptors
    (Cmdline "rwbulk -u" )

Arguments:

    handle to device

Return Value:

    none

--*/
{
	UINT success;
	int siz, nBytes;
	char buf[256];
    PUSB_CONFIGURATION_DESCRIPTOR cd;
    PUSB_INTERFACE_DESCRIPTOR id;
    PUSB_ENDPOINT_DESCRIPTOR ed;

	siz = sizeof(buf);

	if (hDEV == INVALID_HANDLE_VALUE) {
		NOISY(("DEV not open"));
		return;
	}
	
	success = DeviceIoControl(hDEV,
			IOCTL_BULKUSB_GET_CONFIG_DESCRIPTOR,
			buf,
			siz,
			buf,
			siz,
			&nBytes,
			NULL);

	NOISY(("request complete, success = %d nBytes = %d\n", success, nBytes));
	
	if (success) {
        ULONG i;
		UINT  j, n;
        char *pch;

        pch = buf;
		n = 0;

        cd = (PUSB_CONFIGURATION_DESCRIPTOR) pch;

        print_USB_CONFIGURATION_DESCRIPTOR( cd );

        pch += cd->bLength;

        do {

            id = (PUSB_INTERFACE_DESCRIPTOR) pch;

            print_USB_INTERFACE_DESCRIPTOR(id, n++);

            pch += id->bLength;
            for (j=0; j<id->bNumEndpoints; j++) {

                ed = (PUSB_ENDPOINT_DESCRIPTOR) pch;

                print_USB_ENDPOINT_DESCRIPTOR(ed,j);

                pch += ed->bLength;
            }
            i = (ULONG)(pch - buf);
        } while (i<cd->wTotalLength);

	}
	
	return;

}


int  dumpUsbConfig()
/*++
Routine Description:

    Called to do formatted ascii dump to console of  USB
    configuration, interface, and endpoint descriptors
    (Cmdline "rwbulk -u" )

Arguments:

    none

Return Value:

    none

--*/
{

	HANDLE hDEV = open_dev();

	if ( hDEV )
	{
		rw_dev( hDEV );
		CloseHandle(hDEV);
	}

	return 0;
}
//  End, routines for USB configuration and pipe info dump  (Cmdline "rwbulk -u" )



int _cdecl main(
    int argc,
	char *argv[])
/*++
Routine Description:

    Entry point to rwbulk.exe
    Parses cmdline, performs user-requested tests

Arguments:

    argc, argv  standard console  'c' app arguments

Return Value:

    Zero

--*/

{
    char *pinBuf = NULL, *poutBuf = NULL;
    int nBytesRead, nBytesWrite, nBytes;
	ULONG i, j;
    int ok;
    UINT success;
    HANDLE hRead = INVALID_HANDLE_VALUE, hWrite = INVALID_HANDLE_VALUE;
	char buf[1024];
	clock_t	start, finish;
	ULONG totalBytes = 0L;
	double seconds;
	ULONG fail = 0L;

    parse(argc, argv );

	// dump USB configuation and pipe info
	if( fDumpUsbConfig ) {
		dumpUsbConfig();
	}

    hRead = open_file( inPipe);
	hWrite = open_file( outPipe);
	{
		char buf[8] = {'\1', '\0', '\0', '\0', '\0', '\0', '\0', '\0'};
		WriteFile(hWrite,
	                      buf,
	                      8,
	                      &nBytesWrite,
	                      NULL);
		printf("\n%d %d %d %d %d %d %d %d\n", buf[0], buf[1], buf[2], buf[3], buf[4], buf[5], buf[6], buf[7]);
		ReadFile(hRead,
	                          buf,
                              8,
	                          &nBytesRead,
	                          NULL);

		printf("\n%d %d %d %d %d %d %d %d\n", buf[0], buf[1], buf[2], buf[3], buf[4], buf[5], buf[6], buf[7]);
		

	}

	// doing a read, write, or both test
	if ((fRead) || (fWrite)) {

	    if (fRead) {
            //
            // open the output file
            //
			if ( fDumpReadData ) { // round size to sizeof ULONG for readable dumping
				while( ReadLen % sizeof( ULONG ) )
						ReadLen++;
			}

            hRead = open_file( inPipe);
	
	        pinBuf = malloc(ReadLen);

	    }

	    if (fWrite) {

			if ( fDumpReadData ) { // round size to sizeof ULONG for readable dumping
				while( WriteLen % sizeof( ULONG ) )
						WriteLen++;
			}

	        hWrite = open_file( outPipe);
	        poutBuf = malloc(WriteLen);
	    }


        for (i=0; i<IterationCount; i++) {

    	    if (fWrite && poutBuf && hWrite != INVALID_HANDLE_VALUE) {

				PULONG pOut = (PULONG) poutBuf;
				ULONG  numLongs = WriteLen / sizeof( ULONG );
                //
                // put some data in the output buffer
                //

    	        for (j=0; j<numLongs; j++) {
    	            *(pOut+j) = j;
    	        }

                //
                // send the write
                //

	            WriteFile(hWrite,
	                      poutBuf,
	                      WriteLen,
	                      &nBytesWrite,
	                      NULL);

	            printf("<%s> W (%04.4d) : request %06.6d bytes -- %06.6d bytes written\n",
	                    outPipe, i, WriteLen, nBytesWrite);
                assert(nBytesWrite == WriteLen);
	        }

	        if (fRead && pinBuf) {

	            success = ReadFile(hRead,
	                          pinBuf,
                              ReadLen,
	                          &nBytesRead,
	                          NULL);

	            printf("<%s> R (%04.4d) : request %06.6d bytes -- %06.6d bytes read\n",
	                inPipe, i, ReadLen, nBytesRead);

                if (fWrite) {

                    //
                    // validate the input buffer against what
                    // we sent to the 82930 (loopback test)
                    //

                    ok = compare_buffs(pinBuf, poutBuf,  nBytesRead);

					if( fDumpReadData ) {
						printf("Dumping read buffer\n");
						dump( pinBuf, nBytesRead );	
						printf("Dumping write buffer\n");
						dump( poutBuf, nBytesRead );

					}

                    assert(ok);

					if(ok != 1)
						fail++;

                    assert(ReadLen == WriteLen);
                    assert(nBytesRead == ReadLen);
                    assert(nBytesWrite == WriteLen);
                }
	        }
	
        }


        if (pinBuf) {
            free(pinBuf);
        }

        if (poutBuf) {
            free(poutBuf);
        }


		// close devices if needed
		if(hRead != INVALID_HANDLE_VALUE)
			CloseHandle(hRead);
		if(hWrite != INVALID_HANDLE_VALUE)
			CloseHandle(hWrite);

    }		

	return 0;
}