windows-nt/Source/XPSP1/NT/inetsrv/iis/svcs/iisrtl/buffer.cxx
2020-09-26 16:20:57 +08:00

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/**********************************************************************/
/** Microsoft Windows/NT **/
/** Copyright(c) Microsoft Corp., 1991-1996 **/
/**********************************************************************/
/*
buffer.cxx
Implementation of the BUFFER class.
FILE HISTORY:
MuraliK 3-July-1996 Rewrote the buffer class
*/
#include "precomp.hxx"
#include <buffer.hxx>
#include "dbgutil.h"
#include <auxctrs.h>
#include <irtlmisc.h>
LONG g_SBAuxCounters[NUM_AUX_COUNTERS];
BUFFER::~BUFFER(void)
{
if ( IsDynAlloced())
{
/* INTRINSA suppress = all */
::IisFree( m_pb );
}
}
/*******************************************************************
NAME: BUFFER::GetNewStorage
SYNOPSIS: Given an object with no allocated storage,
allocate the initial memory.
ENTRY: cbRequested - amount of storage requested in bytes
EXIT: Either storage alloc'd, or error reported
Sets m_cb, m_pb and m_fIsDynAlloced
RETURNS: TRUE if successful, FALSE for GetLastError()
NOTES:
Private member function.
********************************************************************/
BOOL
BUFFER::GetNewStorage( UINT cbRequested )
{
AcIncrement( CacBufferAllocs);
if ( cbRequested <= m_cb) {
return TRUE;
}
DBG_ASSERT( !IsDynAlloced()); // otherwise I should free up the block :(
m_pb = (BYTE*) ::IisMalloc( cbRequested );
if ( !m_pb ) {
SetLastError( ERROR_NOT_ENOUGH_MEMORY );
} else {
m_pb[0] = '\0'; // just store null
m_cb = cbRequested;
m_fIsDynAlloced = 1;
}
return (m_pb != NULL);
} // BUFFER::GetNewStorage()
/*******************************************************************
NAME: BUFFER::ReallocStorage
SYNOPSIS: Do a "hard" reallocation to the new size
ENTRY: cbNewRequested - new size, in bytes
EXIT: Storage realloc'd. m_pb, m_cb, m_fIsDynAlloced changed
RETURNS: TRUE if successful, FALSE for GetLastError()
********************************************************************/
BOOL
BUFFER::ReallocStorage( UINT cbNewRequested )
{
if ( cbNewRequested <= m_cb) {
return (TRUE);
}
BYTE* pb = (BYTE*) ((IsDynAlloced())
? (::IisReAlloc(m_pb, cbNewRequested))
: (::IisMalloc(cbNewRequested))
);
AcIncrement( CacBufferReallocs);
if (pb == NULL)
{
SetLastError( ERROR_NOT_ENOUGH_MEMORY );
return FALSE;
}
if ( !IsDynAlloced()) {
// First time this block is allocated. Copy over old contents.
CopyMemory( pb, m_pb, m_cb);
m_fIsDynAlloced = 1;
}
m_pb = pb;
m_cb = cbNewRequested;
DBG_ASSERT( m_pb != NULL );
return TRUE;
} // BUFFER::ReallocStorage()
/*******************************************************************
NAME: BUFFER::VerifyState
SYNOPSIS: Verifies the state of the object.
Asserts out if the state is invalid, i.e. if an
internal error took place.
NOTES: This function does nothing in the retail version.
********************************************************************/
VOID BUFFER::VerifyState() const
{
//
// 1. If Dynamically Allocated ==>
// m_pb points to something other than m_rgb &
// m_cb > INLINED_BUFFER_LEN
// 2. If not Dynamicall Allocated ==>
// (a) it can be using user-supplied buffer & any sized
// (b) it can be using inlined buffer & m_cb == INLINED_BUFFER_LEN
//
DBG_ASSERT(( IsDynAlloced() && (m_pb != m_rgb) &&
(m_cb > INLINED_BUFFER_LEN)) ||
( !IsDynAlloced() &&
( m_pb != m_rgb || m_cb == INLINED_BUFFER_LEN)
)
);
} // BUFFER::VerifyState()
/*******************************************************************
NAME: BUFFER::FreeMemory
SYNOPSIS: Frees the heap memory associated with this buffer object
********************************************************************/
VOID
BUFFER::FreeMemory(
VOID
)
{
if ( IsDynAlloced()) {
::IisFree( m_pb );
m_pb = m_rgb;
m_cb = INLINED_BUFFER_LEN;
m_fIsDynAlloced = 0;
}
m_rgb[0] = '\0'; // reset the contents
}
BOOL
BUFFER_CHAIN::AppendBuffer(
BUFFER_CHAIN_ITEM * pBCI
)
/*++
Routine Description:
Adds a new buffer chain item to the end of the buffer chain
Arguments:
pBCI - Chain item to append
Return Value:
TRUE if successful, FALSE on error
--*/
{
DBG_ASSERT( pBCI );
DBG_ASSERT( pBCI->_ListEntry.Flink == NULL );
InsertTailList( &_ListHead,
&pBCI->_ListEntry );
return TRUE;
}
DWORD
BUFFER_CHAIN::DeleteChain(
VOID
)
/*++
Routine Description:
Deletes all of the buffers in this chain
Return Value:
Total number of allocated bytes freed by this call
--*/
{
BUFFER_CHAIN_ITEM * pBCI;
DWORD cbFreed = 0;
while ( !IsListEmpty( &_ListHead ))
{
pBCI = CONTAINING_RECORD( _ListHead.Flink,
BUFFER_CHAIN_ITEM,
_ListEntry );
DBG_ASSERT( pBCI->_ListEntry.Flink != NULL );
RemoveEntryList( &pBCI->_ListEntry );
cbFreed += pBCI->QuerySize();
delete pBCI;
}
return cbFreed;
}
BUFFER_CHAIN_ITEM *
BUFFER_CHAIN::NextBuffer(
BUFFER_CHAIN_ITEM * pBCI
)
/*++
Routine Description:
Returns the next buffer in the chain. Start the enumeration by
passing pBCI as NULL. Continue it by passing the return value
Arguments:
pBCI - Previous item in enumeration
Return Value:
Pointer to next item in chain, NULL when done
--*/
{
if ( pBCI != NULL )
{
if ( pBCI->_ListEntry.Flink != &_ListHead )
{
return CONTAINING_RECORD( pBCI->_ListEntry.Flink,
BUFFER_CHAIN_ITEM,
_ListEntry );
}
else
{
return NULL;
}
}
if ( !IsListEmpty( &_ListHead ))
{
return CONTAINING_RECORD( _ListHead.Flink,
BUFFER_CHAIN_ITEM,
_ListEntry );
}
return NULL;
}
DWORD
BUFFER_CHAIN::CalcTotalSize(
BOOL fUsed
) const
/*++
Routine Description:
Returns the total amount of memory allocated by this buffer chain
excluding the size of the structures themselves
Arguments:
fUsed - If FALSE, returns total allocated by chain, if TRUE returns
total used by chain
Return Value:
Total bytes allocated or total bytes used
--*/
{
LIST_ENTRY * pEntry;
BUFFER_CHAIN_ITEM * pBCI;
DWORD cbRet = 0;
for ( pEntry = _ListHead.Flink;
pEntry != &_ListHead;
pEntry = pEntry->Flink )
{
pBCI = CONTAINING_RECORD( pEntry, BUFFER_CHAIN_ITEM, _ListEntry );
if ( fUsed == FALSE )
cbRet += pBCI->QuerySize();
else
cbRet += pBCI->QueryUsed();
}
return cbRet;
}
/***************************** End Of File ******************************/