windows-nt/Source/XPSP1/NT/enduser/netmeeting/t120/common/capid.cpp

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2020-09-26 03:20:57 -05:00
#include "precomp.h"
#include "fsdiag.h"
DEBUG_FILEZONE(ZONE_T120_UTILITY);
/*
* capid.cpp
*
* Copyright (c) 1995 by DataBeam Corporation, Lexington, KY
*
* Abstract:
* This is the implementation file for the class CCapIDContainer.
* A CCapIDContainer object is used to maintain information about
* a particular capability of an application. A capability identifier can
* be either a standard type or a non-standard type. When the type is
* standard, the identifier is stored internally as an integer value. When
* the type is non-standard, an CObjectKeyContainer container object is used
* internally to buffer the necessary data. In this case the identifier
* data may exist as an Object ID which is a series of non-negative
* integers or an H221 non-standard ID which is an octet string of no fewer
* than four octets and no more than 255 octets.
*
* Protected Instance Variables:
* m_InternalCapID
* Structure used to hold the capability ID data internally.
* m_CapIDPDU
* Storage for the "PDU" form of the capability ID.
* m_fValidCapIDPDU
* Flag indicating that memory has been allocated to hold the internal
* "PDU" capability ID.
* m_cbDataSize
* Variable holding the size of the memory which will be required to
* hold any data referenced by the "API" GCCCapabilityID structure.
*
* Caveats:
* None.
*
* Author:
* blp/jbo
*/
#include "capid.h"
/*
* CCapIDContainer()
*
* Public Function Description:
* This constructor is used to create a CCapIDContainer object
* from an "API" GCCCapabilityID.
*/
CCapIDContainer::
CCapIDContainer(PGCCCapabilityID capability_id, PGCCError pRetCode)
:
CRefCount(MAKE_STAMP_ID('C','a','p','I')),
m_fValidCapIDPDU(FALSE),
m_cbDataSize(0)
{
GCCError rc = GCC_NO_ERROR;
if (capability_id == NULL)
{
rc = GCC_INVALID_PARAMETER;
}
else
{
/*
* Save the GCCCapabilityID in the internal information structure.
*/
m_InternalCapID.capability_id_type = capability_id->capability_id_type;
if (capability_id->capability_id_type == GCC_STANDARD_CAPABILITY)
{
m_InternalCapID.u.standard_capability = (USHORT) capability_id->standard_capability;
}
else
{
/*
* The object key portion of the capability ID is saved in an
* CObjectKeyContainer object.
*/
DBG_SAVE_FILE_LINE
m_InternalCapID.u.non_standard_capability =
new CObjectKeyContainer(&capability_id->non_standard_capability, &rc);
if (m_InternalCapID.u.non_standard_capability == NULL)
{
rc = GCC_ALLOCATION_FAILURE;
}
else if (rc == GCC_BAD_OBJECT_KEY)
{
rc = GCC_BAD_CAPABILITY_ID;
}
}
}
*pRetCode = rc;
}
/*
* CCapIDContainer()
*
* Public Function Description:
* This constructor is used to create a CapabilityIdentifier object from
* a "PDU" CapabilityID.
*/
CCapIDContainer::
CCapIDContainer(PCapabilityID capability_id, PGCCError pRetCode)
:
CRefCount(MAKE_STAMP_ID('C','a','p','I')),
m_fValidCapIDPDU(FALSE),
m_cbDataSize(0)
{
GCCError rc = GCC_NO_ERROR;
if (capability_id->choice == STANDARD_CHOSEN)
{
m_InternalCapID.capability_id_type = GCC_STANDARD_CAPABILITY;
m_InternalCapID.u.standard_capability = capability_id->u.standard;
}
else
{
m_InternalCapID.capability_id_type = GCC_NON_STANDARD_CAPABILITY;
DBG_SAVE_FILE_LINE
m_InternalCapID.u.non_standard_capability =
new CObjectKeyContainer(&capability_id->u.capability_non_standard, &rc);
if (m_InternalCapID.u.non_standard_capability == NULL)
{
rc = GCC_ALLOCATION_FAILURE;
}
else if (rc == GCC_BAD_OBJECT_KEY)
{
rc = GCC_BAD_CAPABILITY_ID;
}
}
*pRetCode = rc;
}
/*
* CCapIDContainer()
*
* Public Function Description:
* This copy constructor is used to create a new CCapIDContainer
* object from another CCapIDContainer object.
*/
CCapIDContainer::
CCapIDContainer(CCapIDContainer *capability_id, PGCCError pRetCode)
:
CRefCount(MAKE_STAMP_ID('C','a','p','I')),
m_fValidCapIDPDU(FALSE),
m_cbDataSize(0)
{
GCCError rc = GCC_NO_ERROR;
m_InternalCapID = capability_id->m_InternalCapID;
if (m_InternalCapID.capability_id_type == GCC_NON_STANDARD_CAPABILITY)
{
DBG_SAVE_FILE_LINE
m_InternalCapID.u.non_standard_capability =
new CObjectKeyContainer(capability_id->m_InternalCapID.u.non_standard_capability, &rc);
if (m_InternalCapID.u.non_standard_capability == NULL)
{
rc = GCC_ALLOCATION_FAILURE;
}
else if (rc == GCC_BAD_OBJECT_KEY)
{
rc = GCC_BAD_CAPABILITY_ID;
}
}
*pRetCode = rc;
}
/*
* ~CCapIDContainer()
*
* Public Function Description
* The CCapIDContainer destructor is responsible for freeing any
* memory allocated to hold the capability ID data for both the "API" and
* "PDU" forms.
*
*/
CCapIDContainer::~CCapIDContainer(void)
{
/*
* If "PDU" data has been allocated for this object, free it now.
*/
if (m_fValidCapIDPDU)
FreeCapabilityIdentifierDataPDU ();
/*
* Delete any object key data held internally.
*/
if (m_InternalCapID.capability_id_type == GCC_NON_STANDARD_CAPABILITY)
{
if (NULL != m_InternalCapID.u.non_standard_capability)
{
m_InternalCapID.u.non_standard_capability->Release();
}
}
}
/*
* LockCapabilityIdentifierData ()
*
* Public Function Description:
* This routine locks the capability ID data and determines the amount of
* memory referenced by the "API" capability ID structure.
*/
UINT CCapIDContainer::LockCapabilityIdentifierData(void)
{
/*
* If this is the first time this routine is called, determine the size of
* the memory required to hold the data referenced by the capability ID
* structure. Otherwise, just increment the lock count.
*/
if (Lock() == 1)
{
m_cbDataSize = 0;
if (m_InternalCapID.capability_id_type == GCC_NON_STANDARD_CAPABILITY)
{
m_cbDataSize = m_InternalCapID.u.non_standard_capability->LockObjectKeyData ();
}
}
return m_cbDataSize;
}
/*
* GetGCCCapabilityIDData ()
*
* Public Function Description:
* This routine retrieves capability ID data in the form of a
* GCCCapabilityID. This routine is called after "locking" the capability
* ID data.
*/
UINT CCapIDContainer::GetGCCCapabilityIDData(
PGCCCapabilityID capability_id,
LPBYTE memory)
{
UINT cbDataSizeToRet = 0;
if (GetLockCount() > 0)
{
/*
* Fill in the output parameter which indicates the amount of memory
* used to hold all of the data associated with the capability ID.
*/
cbDataSizeToRet = m_cbDataSize;
/*
* Fill in the "API" capability ID from the internal structure. If an
* object key exists, get the object key data by calling the "Get"
* routine of the internal CObjectKeyContainer object.
*/
capability_id->capability_id_type = m_InternalCapID.capability_id_type;
if (m_InternalCapID.capability_id_type == GCC_STANDARD_CAPABILITY)
{
capability_id->standard_capability = m_InternalCapID.u.standard_capability;
}
else
{
/*
* The call to get the object key data returns the amount of data
* written into memory. We do not need this value right now.
*/
m_InternalCapID.u.non_standard_capability->
GetGCCObjectKeyData(
&capability_id->non_standard_capability,
memory);
}
}
else
{
ERROR_OUT(("CCapIDContainer::GetGCCCapabilityIDData: Error data not locked"));
}
return (cbDataSizeToRet);
}
/*
* UnlockCapabilityIdentifierData ()
*
* Public Function Description:
* This routine decrements the internal lock count and frees the memory
* associated with the "API" capability ID when the lock count hits zero.
*/
void CCapIDContainer::UnLockCapabilityIdentifierData(void)
{
if (Unlock(FALSE) == 0)
{
if (m_InternalCapID.capability_id_type == GCC_NON_STANDARD_CAPABILITY)
{
m_InternalCapID.u.non_standard_capability->UnLockObjectKeyData();
}
}
// we have to call Release() because we used Unlock(FALSE)
Release();
}
/*
* GetCapabilityIdentifierDataPDU ()
*
* Public Function Description:
* This routine converts the capability ID from it's internal form of an
* CAP_ID_STRUCT structure into the "PDU" form which can be
* passed in to the ASN.1 encoder. A pointer to a "PDU" "CapabilityID"
* structure is returned.
*/
GCCError CCapIDContainer::GetCapabilityIdentifierDataPDU(PCapabilityID capability_id)
{
GCCError rc = GCC_NO_ERROR;
/*
* If this is the first time that PDU data has been requested then we must
* fill in the internal PDU structure and copy it into the structure pointed
* to by the output parameter. On subsequent calls to "GetPDU" we can just
* copy the internal PDU structure into the structure pointed to by the
* output parameter.
*/
if (m_fValidCapIDPDU == FALSE)
{
m_fValidCapIDPDU = TRUE;
if (m_InternalCapID.capability_id_type== GCC_STANDARD_CAPABILITY)
{
m_CapIDPDU.choice = STANDARD_CHOSEN;
m_CapIDPDU.u.standard = m_InternalCapID.u.standard_capability;
}
else
{
m_CapIDPDU.choice = CAPABILITY_NON_STANDARD_CHOSEN;
rc = m_InternalCapID.u.non_standard_capability->
GetObjectKeyDataPDU(&m_CapIDPDU.u.capability_non_standard);
}
}
/*
* Copy the internal PDU structure into the structure pointed to by the
* output parameter.
*/
*capability_id = m_CapIDPDU;
return rc;
}
/*
* FreeCapabilityIdentifierDataPDU ()
*
* Public Function Description:
* This routine is used to free the capability ID data held internally in
* the "PDU" form of a "CapabilityID".
*/
void CCapIDContainer::FreeCapabilityIdentifierDataPDU(void)
{
if (m_fValidCapIDPDU)
{
/*
* Set the flag indicating that PDU session key data is no longer
* allocated.
*/
m_fValidCapIDPDU = FALSE;
if (m_CapIDPDU.choice == CAPABILITY_NON_STANDARD_CHOSEN)
{
m_InternalCapID.u.non_standard_capability->FreeObjectKeyDataPDU();
}
}
}
/*
* operator== ()
*
* Public Function Description:
* This routine is used to determine whether or not two Capibility ID's
* are equal in value.
*/
BOOL operator==(const CCapIDContainer& capability_id_1, const CCapIDContainer& capability_id_2)
{
BOOL rc = FALSE;
if (capability_id_1.m_InternalCapID.capability_id_type ==
capability_id_2.m_InternalCapID.capability_id_type)
{
if (capability_id_1.m_InternalCapID.capability_id_type ==
GCC_STANDARD_CAPABILITY)
{
if (capability_id_1.m_InternalCapID.u.standard_capability ==
capability_id_2.m_InternalCapID.u.standard_capability)
{
rc = TRUE;
}
}
else
{
if (*capability_id_1.m_InternalCapID.u.non_standard_capability ==
*capability_id_2.m_InternalCapID.u.non_standard_capability)
{
rc = TRUE;
}
}
}
return rc;
}