windows-nt/Source/XPSP1/NT/base/busdrv/acpi/hidbatt/drvclass.cpp

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2020-09-26 03:20:57 -05:00
/*
* title: drvclass.cpp
*
* purpose: Implement C++ utilities
*
*
*/
extern "C"
{
#include <ntddk.h>
}
#define BOOL BOOLEAN
#define BYTE unsigned char
#define PBYTE unsigned char *
#include "drvclass.h"
#define HidBattTag 'HtaB'
extern "C" NTSTATUS DriverEntry (DRIVER_OBJECT *, UNICODE_STRING *);
void * __cdecl operator new(size_t nSize, POOL_TYPE iType, ULONG iPoolTag)
{
return ExAllocatePoolWithTag(iType,nSize,iPoolTag);
};
void __cdecl operator delete(void* p)
{
ExFreePool(p);
};
// CUString::CUString()
//
// Default constructor. Creates an empty string.
//
CUString :: CUString()
{
m_String.MaximumLength = 0;
m_String.Length = 0;
m_String.Buffer = NULL;
m_bType = TYPE_SYSTEM_ALLOCATED;
m_status = STATUS_SUCCESS;
}
//
// CUString::CUString( CUString& )
//
// Copy constructor
//
CUString :: CUString( CUString * pNewString )
{
/*
RtlInitUnicodeString( &m_String, NULL );
m_String.MaximumLength = NewString.m_String.MaximumLength;
m_String.Length = 0;
m_String.Buffer = ( unsigned short* )ExAllocatePoolWithTag( PagedPool, m_String.MaximumLength, HidBattTag );
if( !m_String.Buffer )
{
m_status = STATUS_INSUFFICIENT_RESOURCES;
return;
}
RtlZeroMemory( m_String.Buffer, m_String.MaximumLength );
RtlAppendUnicodeStringToString( &m_String, &NewString.m_String );
m_bType = TYPE_CLASS_ALLOCATED;
m_status = STATUS_SUCCESS;
m_String.Buffer[ m_String.Length ] = NULL;
*/
m_bType = TYPE_CLASS_ALLOCATED;
m_status = STATUS_SUCCESS;
m_String.MaximumLength = pNewString->m_String.MaximumLength;
m_String.Length = pNewString->m_String.Length;
m_String.Buffer = ( PWSTR )ExAllocatePoolWithTag( PagedPool, m_String.MaximumLength, HidBattTag );
if( !m_String.Buffer )
{
m_status = STATUS_INSUFFICIENT_RESOURCES;
return;
}
ZeroBuffer();
memcpy( m_String.Buffer, pNewString->m_String.Buffer, m_String.MaximumLength );
}
//
// CUString::CUString( UNICODE_STRING& )
//
// Copy constructor for UNICODE_STRING objects
//
CUString :: CUString( UNICODE_STRING * NewString )
{
/*
RtlInitUnicodeString( &m_String, NULL );
m_bType = TYPE_CLASS_ALLOCATED;
m_String.MaximumLength = NewString.MaximumLength + sizeof( WCHAR );
m_String.Length = 0;
m_String.Buffer = ( unsigned short* )ExAllocatePoolWithTag( PagedPool, m_String.MaximumLength, HidBattTag );
if( !m_String.Buffer )
{
m_status = STATUS_INSUFFICIENT_RESOURCES;
return;
}
RtlCopyUnicodeString( &m_String, &NewString );
m_status = STATUS_SUCCESS;
m_String.Buffer[ m_String.Length ] = NULL;
*/
m_bType = TYPE_CLASS_ALLOCATED;
m_status = STATUS_SUCCESS;
m_String.MaximumLength = NewString->Length + sizeof( WCHAR );
m_String.Length = NewString->Length;
m_String.Buffer = ( PWSTR )ExAllocatePoolWithTag( PagedPool, m_String.MaximumLength, HidBattTag );
if( !m_String.Buffer )
{
m_status = STATUS_INSUFFICIENT_RESOURCES;
return;
}
ZeroBuffer();
memcpy( m_String.Buffer, NewString->Buffer, m_String.Length );
}
//
// CUString::CUString( PWCHAR )
//
// Copy constructor for WCHAR pointer objects
//
CUString :: CUString( PWCHAR NewString )
{
m_bType = TYPE_CLASS_ALLOCATED;
m_status = STATUS_SUCCESS;
m_String.Length = ( unsigned short )( Length( NewString ) * sizeof( WCHAR ) );
m_String.MaximumLength = m_String.Length + sizeof( WCHAR );
m_String.Buffer = ( PWSTR )ExAllocatePoolWithTag( PagedPool, m_String.MaximumLength, HidBattTag );
if( !m_String.Buffer )
{
m_status = STATUS_INSUFFICIENT_RESOURCES;
return;
}
ZeroBuffer();
memcpy( m_String.Buffer, NewString, m_String.Length );
}
//
// CUString::CUString( int )
//
// Constructor which creates an empty string but
// allocates a string buffer of the given size of characters
//
CUString :: CUString( int nSize )
{
ASSERT( nSize >= 0 );
m_bType = TYPE_CLASS_ALLOCATED;
m_String.MaximumLength = 0;
m_String.Length = 0;
m_String.Buffer = NULL;
if( nSize > 0 )
{
m_String.MaximumLength = (USHORT)(( nSize + 1 ) * sizeof( WCHAR ));
if( nSize )
{
m_String.Buffer = (PWSTR)ExAllocatePoolWithTag( PagedPool, m_String.MaximumLength, HidBattTag );
if( !m_String.Buffer )
{
m_status = STATUS_INSUFFICIENT_RESOURCES;
return;
}
ZeroBuffer();
}
}
m_status = STATUS_SUCCESS;
}
//
// CUString::CUString( UNICODE_STRING& )
//
// Constructor with creates a string that is a representation
// of the given integer and radix.
//
CUString :: CUString( int iVal, int iBase )
{
m_status = STATUS_INSUFFICIENT_RESOURCES;
m_bType = TYPE_CLASS_ALLOCATED;
m_String.Length = 0;
m_String.MaximumLength = 0;
m_String.Buffer = NULL;
int iSize = 1;
int iValCopy = ( !iVal ) ? 1 : iVal;
while( iValCopy >= 1 )
{
iValCopy /= iBase;
iSize++;
};
//
// iSize is the number of digits in number, max length of string
// is iSize plus the null terminator
//
m_String.MaximumLength = (USHORT)(( iSize + 1 ) * sizeof( WCHAR ));
m_String.Buffer = (PWSTR)ExAllocatePoolWithTag( PagedPool, m_String.MaximumLength, HidBattTag );
ASSERT( m_String.Buffer );
if( !m_String.Buffer )
{
m_status = STATUS_INSUFFICIENT_RESOURCES;
return;
}
ZeroBuffer();
m_status = RtlIntegerToUnicodeString(iVal, iBase, &m_String);
}
//
// CUString::~CUString()
//
// Destructor which frees the string buffer if:
// 1. It exists,
// and
// 2. It was allocated by the class
//
CUString :: ~CUString()
{
//
// If the buffer exists and was allocated by the class, free it.
//
if( ( m_bType == TYPE_CLASS_ALLOCATED ) && m_String.Buffer )
{
ExFreePool(m_String.Buffer);
}
}
//
// CUString::Append( CUString& )
//
// Append the given string to the object
//
void CUString :: Append( CUString * Append )
{
UNICODE_STRING NewString;
//
// Determine the length of the new string ( including a null ) and allocate its memory
//
NewString.MaximumLength = m_String.Length + Append->m_String.Length + sizeof( WCHAR );
NewString.Length = 0;
NewString.Buffer = (PWSTR)ExAllocatePoolWithTag( PagedPool, NewString.MaximumLength, HidBattTag );
ASSERT( NewString.Buffer );
//
// Check for allocation failure.
//
if( !NewString.Buffer )
{
m_status = STATUS_INSUFFICIENT_RESOURCES;
return;
}
RtlZeroMemory( NewString.Buffer, NewString.MaximumLength );
//
// Copy the original string into the new string
//
RtlCopyUnicodeString( &NewString, &m_String );
//
// Append the 'append' string onto the new string
//
NTSTATUS Status = RtlAppendUnicodeStringToString( &NewString, &Append->m_String );
//
// If we allocated the original string, free it
//
if( m_bType == TYPE_CLASS_ALLOCATED && m_String.Buffer )
{
ExFreePool( m_String.Buffer );
}
//
// Copy the new string into the original strings place
//
m_String.MaximumLength = NewString.MaximumLength;
m_String.Length = NewString.Length;
m_String.Buffer = NewString.Buffer;
m_bType = TYPE_CLASS_ALLOCATED;
m_status = Status;
}
//
// CUString::Append( UNICODE_STRING* )
//
// Append the given string to the object
//
void CUString :: Append( UNICODE_STRING* pAppendString )
{
ASSERT( pAppendString );
if( !pAppendString )
return;
CUString AppendString( pAppendString );
Append( &AppendString );
}
/*
//
// operator + ( UNICODE_STRING&, ULONG& )
//
CUString operator + ( UNICODE_STRING * pUCS, ULONG dwValue )
{
// This routine is broken for now...don't use...
ASSERT( 0 );
CUString ReturnString( pUCS );
CUString ValueString( dwValue, 10 );
ReturnString.Append( ValueString );
return ReturnString;
}
//
// operator + ( CUString&, CUString& )
//
CUString operator + ( CUString& l, CUString& r )
{
CUString ReturnString( l );
ReturnString.Append( r );
return ReturnString;
}
//
// operator + ( UNICODE_STRING&, UNICODE_STRING& )
//
CUString operator + ( UNICODE_STRING& l, UNICODE_STRING& r )
{
CUString ReturnValue( l );
CUString Right( r );
ReturnValue.Append( Right );
return ReturnValue;
}
*/
//
// operator = ( CUString )
//
void CUString :: operator = ( CUString str )
{
m_String.Length = str.m_String.Length;
m_String.MaximumLength = str.m_String.MaximumLength;
m_String.Buffer = NULL;
//
// If the source string has a non-zero length buffer make a buffer of
// equal size in the destination.
//
if( str.m_String.MaximumLength > 0 )
{
m_String.Buffer = (PWSTR)ExAllocatePoolWithTag( PagedPool, str.m_String.MaximumLength, HidBattTag );
if( !m_String.Buffer )
{
m_status = STATUS_INSUFFICIENT_RESOURCES;
return;
}
ZeroBuffer();
//
// If the source string has a non-zero length, copy it into the dest string.
//
if( str.m_String.Length > 0 )
{
memcpy( m_String.Buffer, str.m_String.Buffer, str.m_String.Length );
}
}
m_bType = TYPE_CLASS_ALLOCATED;
m_status = STATUS_SUCCESS;
}
NTSTATUS CUString :: ToCString( char** pString )
{
ULONG dwLength = m_String.Length >> 1;
*pString = ( char* )ExAllocatePoolWithTag( PagedPool, dwLength + 1, HidBattTag );
if( !*pString )
return STATUS_UNSUCCESSFUL;
char* pDst = *pString;
char* pSrc = ( char* )m_String.Buffer;
while( *pSrc )
{
*pDst++ = *pSrc;
pSrc += sizeof( WCHAR );
}
*pDst = 0x0;
return STATUS_SUCCESS;
}
void CUString :: Dump()
{
char* pString;
ToCString( &pString );
KdPrint( ( pString ) );
KdPrint( ( "\n" ) );
ExFreePool( pString );
}
ULONG CUString :: Length( PWCHAR String )
{
ULONG dwLength = 0;
while( *String++ )
{
dwLength++;
}
return dwLength;
}
// the registry access class
CRegistry::CRegistry(int iSize)
{ m_status = STATUS_INSUFFICIENT_RESOURCES;
m_pTable = (PRTL_QUERY_REGISTRY_TABLE)
ExAllocatePoolWithTag(NonPagedPool,sizeof(RTL_QUERY_REGISTRY_TABLE)*(iSize+1),HidBattTag);
if(m_pTable)
{
m_status = STATUS_SUCCESS;
RtlZeroMemory(m_pTable,sizeof(RTL_QUERY_REGISTRY_TABLE)*(iSize+1)); //this will terminate the table
}; // appropriately
};
CRegistry::~CRegistry()
{
if (m_pTable) ExFreePool(m_pTable);
};
BOOL CRegistry::QueryDirect(CUString *location,CUString *key, void **pReceiveBuffer, ULONG uType)
{
ULONG zero = 0;
m_pTable[0].Flags = RTL_QUERY_REGISTRY_DIRECT;
m_pTable[0].Name = key->m_String.Buffer;
m_pTable[0].EntryContext = *pReceiveBuffer;
m_pTable[0].DefaultType = uType;
m_pTable[0].DefaultData = &zero;
m_pTable[0].DefaultLength = sizeof(ULONG); // there must be something here, but we need to know what...
KdPrint( ( "RegClass QueryDirect: to retrieve Reg name...\n" ) );
location->Dump();
key->Dump();
if (STATUS_SUCCESS!=
RtlQueryRegistryValues(RTL_REGISTRY_ABSOLUTE,location->m_String.Buffer,m_pTable,NULL,NULL))
return FALSE;
return TRUE;
};
/*NTSTATUS CRegistry::QueryMustExist( CUString* pwzLocation, CUString* pwzKey, void **pReceiveBuffer )
{
m_pTable[0].Flags = RTL_QUERY_REGISTRY_DIRECT | RTL_QUERY_REGISTRY_NOEXPAND | RTL_QUERY_REGISTRY_REQUIRED;
m_pTable[0].Name = pwzKey->m_String.Buffer;
m_pTable[0].EntryContext = *pReceiveBuffer;
KdPrint( ( "RegClass QueryMustExist(): to retriee Reg name...\n" ) );
pwzLocation->Dump();
pwzKey->Dump();
return RtlQueryRegistryValues( RTL_REGISTRY_ABSOLUTE, pwzLocation->m_String.Buffer, m_pTable, NULL, NULL );
}
*/
BOOL CRegistry::QueryWithCallback(PRTL_QUERY_REGISTRY_ROUTINE callback,ULONG RelativeTo,PWSTR Path,PVOID Context, PVOID Environment)
{
m_pTable[0].QueryRoutine = callback;
m_pTable[0].Name = NULL;
m_status = RtlQueryRegistryValues(RelativeTo|RTL_REGISTRY_OPTIONAL,Path,m_pTable,Context,Environment);
return NT_SUCCESS(m_status);
};
BOOL CRegistry::WriteString(ULONG relativeTo, CUString *pBuffer, CUString *pPath, CUString *pKey)
{
return NT_SUCCESS(RtlWriteRegistryValue(relativeTo, pPath->GetString(), pKey->GetString(),REG_SZ,pBuffer->GetString(),pBuffer->GetLength()+sizeof(UNICODE_NULL)));
};
BOOL CRegistry::WriteDWord(ULONG relativeTo, void *pBuffer,CUString *pPath,CUString *pKey)
{
return NT_SUCCESS(RtlWriteRegistryValue(relativeTo, pPath->GetString(), pKey->GetString(),REG_DWORD,pBuffer,sizeof(REG_DWORD)));
};
NTSTATUS CRegistry::zwOpenKey(HANDLE * pKeyHandle,HANDLE hRoot,ACCESS_MASK DesiredAccess,CUString * pPath)
{
OBJECT_ATTRIBUTES ThisObject;
NTSTATUS status;
CUString ThisNull(NULL);
// setup target object for call
InitializeObjectAttributes( &ThisObject,
&(pPath->m_String),
OBJ_CASE_INSENSITIVE,
hRoot,
NULL);
KdPrint( ( "RESMAN: Opening registry key: " ) );
pPath->Dump();
status = ZwOpenKey( pKeyHandle,
DesiredAccess,
&ThisObject );
return status;
}
/*
NTSTATUS CRegistry::DeleteKey(HANDLE hTheKey)
{
return ZwDeleteKey(hTheKey);
}
*/
NTSTATUS CRegistry::zwCreateKey(HANDLE * pKeyHandle,HANDLE hRoot,ACCESS_MASK DesiredAccess,CUString * pPath,ULONG CreateOptions)
{
OBJECT_ATTRIBUTES ThisObject;
NTSTATUS status;
// setup target object for call
InitializeObjectAttributes( &ThisObject,
&(pPath->m_String),
OBJ_CASE_INSENSITIVE,
hRoot,
NULL);
KdPrint( ( "RESMAN: Creating registry key: " ) );
pPath->Dump();
status = ZwCreateKey(pKeyHandle,
DesiredAccess,
&ThisObject,
0,
NULL,
CreateOptions,
(ULONG*)&m_lDisposition);
return status;
}
BOOL CRegistry::zwCloseKey(HANDLE TheKey)
{
return NT_SUCCESS(ZwClose(TheKey));
}
NTSTATUS CRegistry::zwWriteValue(HANDLE hTheKey,CUString * ValueName,ULONG lType,PVOID pData,ULONG lSize)
{
NTSTATUS status;
status = ZwSetValueKey(hTheKey,
&ValueName->m_String,
0,
lType,
pData,
lSize);
return status;
}
NTSTATUS CRegistry::CheckKey(ULONG RelativeTo ,PUNICODE_STRING puRegKey)
{
// return (RtlCheckRegistryKey( RelativeTo,(PWSTR)puRegKey));
return FALSE;
}
// error logging methods
/*
CErrorLogEntry::CErrorLogEntry(PVOID pSource, ULONG errorCode, USHORT dumpDataSize, ULONG uniqueErrorValue,
NTSTATUS status, ULONG *dumpData, UCHAR FunctionCode)
{
m_pPacket = (PIO_ERROR_LOG_PACKET)
IoAllocateErrorLogEntry(pSource, (UCHAR) (sizeof(IO_ERROR_LOG_PACKET)+
(dumpDataSize * sizeof(ULONG))));
if (!m_pPacket) return;
int i;
m_pPacket->ErrorCode = errorCode;
m_pPacket->DumpDataSize = dumpDataSize * sizeof(ULONG);
m_pPacket->SequenceNumber = 0;
m_pPacket->MajorFunctionCode = FunctionCode;
m_pPacket->IoControlCode = 0;
m_pPacket->RetryCount = 0;
m_pPacket->UniqueErrorValue = uniqueErrorValue;
m_pPacket->FinalStatus = status;
for (i = 0; i < dumpDataSize; i++)
m_pPacket->DumpData[i] = dumpData[i];
IoWriteErrorLogEntry(m_pPacket);
};
CErrorLogEntry::~CErrorLogEntry()
{
};
*/