📄 test_m8usbdrv.cpp
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// Test_m8usbdrv.cpp
//
// Generated by DriverWizard version DriverStudio 2.7.0 (Build 562)
//
// This console application demonstrates how to open a handle
// to a device in your driver, and communicate with the driver
// using Read, Write, and DeviceIoControl calls, as appropriate.
//
// This test program attempts to open the device using the
// GUID defined in "..\M8usbdrvDeviceinterface.h"
#include <stdlib.h>
#include <stdio.h>
#include <windows.h>
#include <winioctl.h>
#include "..\m8usbdrvioctl.h"
#include "..\M8usbdrvDeviceinterface.h" // Has class GUID definition
// This function is found in module OpenByIntf.cpp
HANDLE OpenByInterface(GUID* pClassGuid, DWORD instance, PDWORD pError);
typedef void VOIDFUNC();
// Prototypes
void Usage(void);
void ShowIoctlValues(void);
// TODO:
// You can redefine the IOCTL handler prototypes as needed, adding
// appropriate parameters that can be collected from the command line.
// To do this you must modify the command line parsing logic. An
// example of this is shown in comments throughout the test application.
//
//=== Parameterized IOCTL Example ===
// void Test_IOCTL_PARAMETERIZED(int nVal, ULONG dwVal);
void Test_TEST_LED(void);
void CloseIfOpen(void);
void doRead(int i);
void doWrite(int i);
// Global data
#define N_IOCODES 1
// Names of IOCTL codes
//
char *IOnames[N_IOCODES+1] =
{
//=== Parameterized IOCTL Example ===
// "IOCTL_PARAMETERIZED",
"TEST_LED",
""
};
// IOCTL codes
//
int IOcodes[N_IOCODES+1] =
{
//=== Parameterized IOCTL Example ===
// IOCTL_PARAMETERIZED,
TEST_LED,
0
};
// Handle to device opened in driver.
//
HANDLE hDevice = INVALID_HANDLE_VALUE;
// Class GUID used to open device
//
GUID ClassGuid = M8usbdrvDevice_CLASS_GUID;
////////////////////////////////////////////////////////////////////////
// Exit
//
// Print a message and exit
//
void Exit(int res)
{
printf("Exiting...\n\n");
CloseIfOpen();
exit(res);
}
////////////////////////////////////////////////////////////////////////
// Main entry point
//
//
int __cdecl main(int argc, char *argv[])
{
int nArgIndex; // Walk through command line arguments
int nArgIncrement = 0;
int val;
//=== Parameterized IOCTL Example ===
// int nVal;
// ULONG dwVal;
DWORD Error;
printf("Test application Test_m8usbdrv starting...\n");
hDevice = OpenByInterface( &ClassGuid, 0, &Error);
if (hDevice == INVALID_HANDLE_VALUE)
{
printf("ERROR opening device: (%0x) returned from CreateFile\n", GetLastError());
Exit(1);
}
else
{
printf("Device found, handle open.\n");
}
// Parse the command line
if (argc < 2) Usage();
nArgIndex = 1;
while (nArgIndex < argc)
{
// Parse ahead to determine numeric value of argument
if (nArgIndex+1 >= argc) Usage();
if (!isdigit(argv[nArgIndex+1][0])) Usage();
val = atoi(argv[nArgIndex+1]);
switch (argv[nArgIndex][0])
{
case 'r':
case 'R':
doRead(val);
nArgIncrement = 2;
break;
case 'w':
case 'W':
doWrite(val);
nArgIncrement = 2;
break;
case 'i':
case 'I':
if (val >= N_IOCODES)
{
printf("IO control code index must be less than %d\n", N_IOCODES);
ShowIoctlValues();
Exit(1);
}
switch (IOcodes[val])
{
//=== Parameterized IOCTL Example ===
// case IOCTL_PARAMETERIZED:
// if (nArgIndex+3 >= argc) Usage();
// nVal = atoi(argv[nArgIndex+2]);
// dwVal = strtoul(argv[nArgIndex+3], NULL, 0);
// Test_IOCTL_PARAMETERIZED(nVal, dwVal);
// nArgIncrement = 4;
// break;
case TEST_LED:
Test_TEST_LED();
nArgIncrement = 2;
break;
default:
printf("IO control code not valid\n");
Exit(1);
}
break;
case '?':
case 'h':
default:
Usage();
}
nArgIndex += nArgIncrement;
}
return 0;
}
////////////////////////////////////////////////////////////////////////
// CloseIfOpen
//
// Close the device if we previously opened a handle to it.
//
void CloseIfOpen(void)
{
if (hDevice != INVALID_HANDLE_VALUE)
{
// Close the handle to the driver
if (!CloseHandle(hDevice))
{
printf("ERROR: CloseHandle returns %0x.\n", GetLastError());
}
hDevice = INVALID_HANDLE_VALUE;
}
}
////////////////////////////////////////////////////////////////////////
// doRead
//
// Read 'n' bytes of data from the device
//
// Note: This simple test app reads data from the device and displays the
// data as characters. This behavior can be modified as appropriate
// for your device.
//
void doRead(int n)
{
char *buf;
ULONG nRead;
int i;
int j;
buf = (char *) malloc(n);
if (buf == NULL)
{
printf("Failed to allocate buffer for read");
Exit(1);
}
// Read data from driver
printf("Reading from device - ");
ReadFile(hDevice, buf, n, &nRead, NULL);
printf("%d bytes read from device (%d requested).\n", nRead, n);
// Print what was read
i = 0;
while(i < n)
{
j = min((i+26),n);
for(; i < j; i++)
{
printf("%c, ", buf[i]);
}
printf("\n");
}
free(buf);
}
////////////////////////////////////////////////////////////////////////
// doWrite
//
// Write 'n' bytes of data to the device
//
// Note: This simple test app writes sequential characters to the
// device. This behavior can be modified as appropriate
// for your device.
//
void doWrite(int n)
{
char *buf;
ULONG nWritten;
int i;
int j;
buf = (char *) malloc(n);
if (buf == NULL)
{
printf("Failed to allocate buffer for write");
Exit(1);
}
// start with the mod26 letter of the number of bytes to write
j = (n % 26);
// load buffer with dummy data (abcdefg...)
for (i=0; i<n; i++, j=(j + 1)%26)
{
buf[i] = 'a' + j;
}
// Write data to driver
printf("Writing to device - ");
WriteFile(hDevice, buf, n, &nWritten, NULL);
printf("%d bytes written to device (%d attempted).\n", nWritten, n);
// Print what was written
i = 0;
while(i < n)
{
j = min((i+26),n);
for(; i < j; i++)
{
printf("%c, ", buf[i]);
}
printf("\n");
}
free(buf);
}
////////////////////////////////////////////////////////////////////////
// Usage
//
// Print a usage message describing arguments to this program
//
void Usage(void)
{
printf("Usage: Test_m8usbdrv [r n] [w n] [i n]\n");
printf(" r initiates a read of specified number of bytes\n");
printf(" w initiates a write of specified number of bytes\n");
printf(" i initiates an IO Control Code message with specified index value\n");
ShowIoctlValues();
printf("Example:\n");
printf(" Test_m8usbdrv r 32 w 32\n");
printf(" read 32 bytes, then write 32 bytes\n");
Exit(1);
}
#define IOCTL_INBUF_SIZE 512
#define IOCTL_OUTBUF_SIZE 512
//=== Parameterized IOCTL Example ===
//void Test_IOCTL_PARAMETERIZED(int nVal, ULONG dwVal)
//{
// Function body same as other IOCTL handlers, with command line
// parameters 'nVal' and 'dwVal' available as input.
//}
////////////////////////////////////////////////////////////////////////
// Test_TEST_LED
//
// Test one Io Control Code
//
// TODO:
// Pass appropriate arguments to your device and check
// the return value
//
void Test_TEST_LED(void)
{
// Note that Input and Output are named from the point of view
// of the DEVICE:
// bufInput supplies data to the device
// bufOutput is written by the device to return data to this application
CHAR bufInput[1]; // Input to device
ULONG nOutput; // Count written to bufOutput
bufInput[0]=0x08;
// Call device IO Control interface (TEST_LED) in driver
printf("Issuing Ioctl to device - ");
if (!DeviceIoControl(hDevice,
TEST_LED,
bufInput,
1,
NULL,
0,
&nOutput,
NULL)
)
{
printf("ERROR: DeviceIoControl returns %0x.", GetLastError());
Exit(1);
}
}
////////////////////////////////////////////////////////////////////////
// ShowIoctlValues
//
// Print list of IO Control Code values for usage display
//
void ShowIoctlValues(void)
{
int i;
for (i=0; i<N_IOCODES; i++)
{
if (i==0)
printf( " IO control code index\n");
printf( " %d is code %s [%x]\n", i, IOnames[i], IOcodes[i]);
//=== Parameterized IOCTL Example ===
// if (IOcodes[i] == IOCTL_PARAMETERIZED)
// {
// printf( " and has two arguments: <arg1 desc.> <arg1 desc.>\n");
// printf( " Example: i %d <IOCTL index> <ex. arg1> <ex. arg2>\n", i);
// }
}
}
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