Source code of Windows XP (NT5)
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/*++
Copyright (c) 1992-1996 Microsoft Corporation
Module Name:
oidconv.c
Abstract:
Routines to manage conversions between OID descriptions and numerical OIDs.
Environment:
User Mode - Win32
Revision History:
10-May-1996 DonRyan
Removed banner from Technology Dynamics, Inc.
--*/
//--------------------------- WINDOWS DEPENDENCIES --------------------------
#include <windows.h>
//--------------------------- STANDARD DEPENDENCIES -- #include<xxxxx.h> ----
#include <ctype.h>
#include <string.h>
#include <stdlib.h>
#include <stdio.h>
#include <snmp.h>
#include <snmputil.h>
//--------------------------- MODULE DEPENDENCIES -- #include"xxxxx.h" ------
#include "mibcc.h"
#include "mibtree.h"
//--------------------------- SELF-DEPENDENCY -- ONE #include"module.h" -----
#include "oidconv.h"
//--------------------------- PUBLIC VARIABLES --(same as in module.h file)--
/* name to used when converting OID <--> TEXT */
LPSTR lpInputFileName = "mib.bin";
//--------------------------- PRIVATE CONSTANTS -----------------------------
#define FILENODE_SIZE sizeof(T_FILE_NODE)
#define OID_PREFIX_LEN (sizeof MIB_Prefix / sizeof(UINT))
#define STR_PREFIX_LEN (strlen(MIB_StrPrefix))
#define SEEK_SET 0
#define SEEK_CUR 1
//--------------------------- PRIVATE STRUCTS -------------------------------
//****************************************************************
//
// Record structure in file
//
// These are the necessary fields to process a conversion request.
// When a request is made, the MIB file is searched sequentially
// matching subid's. The field, lNextOffset, is an offset from the
// current file position to the current nodes next sibling.
//
// The text subid for each node is stored directly after the
// T_FILE_NODE structure in the file. Its length is stored in the
// field, uStrLen.
//
// This is done because there are no limits placed on the size
// of a text subid. Hence, when the T_FILE_NODE structure is
// read from the MIB file, the field, lpszTextSubID is not valid.
// The field will eventually point to the storage allocated to
// hold the text subid.
//
// The order of the nodes in the file is the same as if the MIB
// tree was traversed in a "pre-order" manner.
//
//****************************************************************
typedef struct _FileNode {
long lNextOffset; // This field must remain first
UINT uNumChildren;
UINT uStrLen;
LPSTR lpszTextSubID;
UINT uNumSubID;
} T_FILE_NODE;
// mib.bin file actually has the following platform independent format
// on 32bit(x86) and 64bit(ia64) environment. See Bug# 125494 for detail.
typedef struct _FileNodeEx {
long lNextOffset; // This field must remain first
UINT uNumChildren;
UINT uStrLen;
UINT uReserved;
UINT uNumSubID;
} T_FILE_NODE_EX;
#define FILENODE_SIZE_EX sizeof(T_FILE_NODE_EX)
//--------------------------- PRIVATE VARIABLES -----------------------------
LPSTR MIB_StrPrefix = "iso.org.dod.internet.mgmt.mib-2";
UINT MIB_Prefix[] = { 1, 3, 6, 1, 2, 1 };
AsnObjectIdentifier MIB_OidPrefix = { OID_PREFIX_LEN, MIB_Prefix };
//--------------------------- PRIVATE PROTOTYPES ----------------------------
//--------------------------- PRIVATE PROCEDURES ----------------------------
//
// GetNextNode
// Reads the next record from MIB file into a FILENODE structure.
//
// Notes:
//
// Return Codes:
// SNMPAPI_NOERROR
// SNMPAPI_ERROR
//
// Error Codes:
// None.
//
SNMPAPI GetNextNode(
IN HFILE fh,
OUT T_FILE_NODE * Node
)
{
SNMPAPI nResult;
T_FILE_NODE_EX NodeEx;
ZeroMemory(&NodeEx, FILENODE_SIZE_EX);
Node->lpszTextSubID = NULL;
// Read in node
if ( FILENODE_SIZE_EX != _lread(fh, (LPSTR)(&NodeEx), FILENODE_SIZE_EX) )
{
nResult = SNMPAPI_ERROR;
goto Exit;
}
// Convert node format from mib.bin to format in memory
// The format in the file is independent of 32bit(x86)/64bit(ia64)
// architecture.
Node->lNextOffset = NodeEx.lNextOffset;
Node->uNumChildren = NodeEx.uNumChildren;
Node->uNumSubID = NodeEx.uNumSubID;
Node->uStrLen = NodeEx.uStrLen;
// Alloc space for string
if ( NULL ==
(Node->lpszTextSubID = SnmpUtilMemAlloc((1+Node->uStrLen) * sizeof(char))) )
{
nResult = SNMPAPI_ERROR;
goto Exit;
}
// Read in subid string
if ( Node->uStrLen != _lread(fh, Node->lpszTextSubID, Node->uStrLen) )
{
nResult = SNMPAPI_ERROR;
goto Exit;
}
// NULL terminate the text sub id
Node->lpszTextSubID[Node->uStrLen] = '\0';
nResult = SNMPAPI_NOERROR;
Exit:
if ( SNMPAPI_ERROR == nResult )
{
SnmpUtilMemFree( Node->lpszTextSubID );
}
return nResult;
} // GetNextNode
//
// WriteNode
// Writes the node to the MIB file.
//
// Notes:
//
// Return Codes:
// SNMPAPI_NOERROR
// SNMPAPI_ERROR
//
// Error Codes:
// None.
//
SNMPAPI WriteNode(
IN HFILE fh,
IN T_FILE_NODE * Node
)
{
SNMPAPI nResult;
T_FILE_NODE LocalNodeCopy;
// make a copy of the node so we can clean up any pointers
LocalNodeCopy.lNextOffset = Node->lNextOffset;
LocalNodeCopy.uNumChildren = Node->uNumChildren;
LocalNodeCopy.uStrLen = Node->uStrLen;
LocalNodeCopy.lpszTextSubID = NULL; /* don't write pointers to disk */
LocalNodeCopy.uNumSubID = Node->uNumSubID;
// Write Node portion
if ( FILENODE_SIZE != _lwrite(fh, (LPSTR)&LocalNodeCopy, FILENODE_SIZE) )
{
nResult = SNMPAPI_ERROR;
goto Exit;
}
// Now write out what the pointers pointed to.
// Save text subid
if ( Node->uStrLen != _lwrite(fh, Node->lpszTextSubID, Node->uStrLen) )
{
nResult = SNMPAPI_ERROR;
goto Exit;
}
nResult = SNMPAPI_NOERROR;
Exit:
return nResult;
} // WriteNode
//
// SkipSubTree
// Frees a FILENODE and all information contained in it.
//
// Notes:
//
// Return Codes:
//
// Error Codes:
// None.
//
SNMPAPI SkipSubTree(
IN HFILE fh,
IN T_FILE_NODE *Node
)
{
SNMPAPI nResult;
// Skip entire subtree
if ( -1 == _llseek(fh, Node->lNextOffset, SEEK_CUR) )
{
nResult = SNMPAPI_ERROR;
goto Exit;
}
nResult = SNMPAPI_NOERROR;
Exit:
return nResult;
} // SkipSubTree
//--------------------------- PUBLIC PROCEDURES -----------------------------
//
// SnmpMgrOid2Text
// Converts an OID to its textual description.
//
// Notes:
//
// Return Codes:
// SNMPAPI_NOERROR
// SNMPAPI_ERROR
//
// Error Codes:
// None.
//
SNMPAPI SnmpMgrOid2Text(
IN AsnObjectIdentifier *Oid, // Pointer to OID to convert
OUT LPSTR *lpszTextOid // Resulting text OID
)
{
T_FILE_NODE Node;
OFSTRUCT of;
HFILE fh;
UINT Siblings;
UINT OidSubId;
UINT uTxtOidLen;
BOOL bFound;
BOOL bPartial;
BOOL bDot;
SNMPAPI nResult;
// OPENISSUE - this code does not generate errors if subid 0 is embeded
// OPENISSUE - opening file every time could be a performance issue
// OPENISSUE - optimization of file access could improve performance
*lpszTextOid = NULL;
// Open file and check for errors
if ( -1 == (fh = OpenFile(lpInputFileName, &of, OF_READ|OF_SHARE_DENY_WRITE)) )
{
nResult = SNMPAPI_ERROR;
goto Exit;
}
// Test for MIB prefix
bDot = !( bPartial = OID_PREFIX_LEN < Oid->idLength &&
!SnmpUtilOidNCmp(Oid, &MIB_OidPrefix, OID_PREFIX_LEN) );
// Loop until conversion is finished
OidSubId = 0;
uTxtOidLen = 0;
Node.uNumChildren = 1;
while ( OidSubId < Oid->idLength )
{
// Init to not found on this level
bFound = FALSE;
Siblings = Node.uNumChildren;
// While there are siblings and the sub id is not found keep looking
while ( Siblings && !bFound )
{
Node.lpszTextSubID = NULL;
// Get next node from mib.bin file
if ( SNMPAPI_ERROR == GetNextNode(fh, &Node) )
{
SnmpUtilMemFree( Node.lpszTextSubID );
nResult = SNMPAPI_ERROR;
goto Exit;
}
Siblings --;
// Compare the numeric subid's
if ( Oid->ids[OidSubId] == Node.uNumSubID )
{
bFound = TRUE;
// If OID is a partial, then skip prefix subid's
if ( OidSubId >= OID_PREFIX_LEN || !bPartial )
{
// Realloc space for text id - add 2 for '.' and NULL terminator
if ( NULL == (*lpszTextOid =
SnmpUtilMemReAlloc(*lpszTextOid,
(uTxtOidLen+Node.uStrLen+2) * sizeof(char))) )
{
SnmpUtilMemFree( Node.lpszTextSubID );
nResult = SNMPAPI_ERROR;
goto Exit;
}
// Add DOT separator
if ( bDot )
{
(*lpszTextOid)[uTxtOidLen] = '.';
// Save text subid
memcpy( &(*lpszTextOid)[uTxtOidLen+1],
Node.lpszTextSubID, Node.uStrLen+1 );
// Update length of text oid - add one for separator
uTxtOidLen += Node.uStrLen + 1;
}
else
{
bDot = TRUE;
// Save text subid
memcpy( &(*lpszTextOid)[uTxtOidLen],
Node.lpszTextSubID, Node.uStrLen );
// Update length of text oid
uTxtOidLen += Node.uStrLen;
}
}
// try to convert the next OID subid
OidSubId ++;
}
else
{
// Skip over subtree since not a match
if ( SNMPAPI_ERROR == SkipSubTree(fh, &Node) )
{
SnmpUtilMemFree( Node.lpszTextSubID );
nResult = SNMPAPI_ERROR;
goto Exit;
}
}
// Free the text sub id read
SnmpUtilMemFree( Node.lpszTextSubID );
} // while
// If no sub id matches
if ( !bFound )
{
break;
}
} // while
// Make sure that the entire OID was converted
while ( OidSubId < Oid->idLength )
{
char NumChar[100];
_itoa( Oid->ids[OidSubId], NumChar, 10 );
// Realloc space for text id - add 2 for '.' and NULL terminator
if ( NULL ==
(*lpszTextOid = SnmpUtilMemReAlloc(*lpszTextOid,
(uTxtOidLen+strlen(NumChar)+4) * sizeof(char))) )
{
nResult = SNMPAPI_ERROR;
goto Exit;
}
// Add DOT separator
(*lpszTextOid)[uTxtOidLen] = '.';
// Save text subid
memcpy( &(*lpszTextOid)[uTxtOidLen+1], NumChar, strlen(NumChar)+1 );
// Skip to next OID subid
OidSubId ++;
// Update length of text oid - add one for separator
uTxtOidLen += strlen(NumChar) + 1;
} // while
nResult = SNMPAPI_NOERROR;
Exit:
if ( -1 != fh )
{
_lclose( fh );
}
if ( SNMPAPI_ERROR == nResult )
{
SnmpUtilMemFree( *lpszTextOid );
*lpszTextOid = NULL;
}
return nResult;
} // SnmpMgrOid2Text
//
// SnmpMgrText2Oid
// Converts an OID text description to its numerical equivalent.
//
// Notes:
//
// Return Codes:
// SNMPAPI_NOERROR
// SNMPAPI_ERROR
//
// Error Codes:
// None.
//
SNMPAPI SnmpMgrText2Oid(
IN LPSTR lpszTextOid, // Pointer to text OID to convert
IN OUT AsnObjectIdentifier *Oid // Resulting numeric OID
)
{
#define DELIMETERS ".\0"
T_FILE_NODE Node;
OFSTRUCT of;
HFILE fh;
UINT Siblings;
LPSTR lpszSubId;
LPSTR lpszWrkOid = NULL;
BOOL bFound;
UINT uSubId;
SNMPAPI nResult;
// OPENISSUE - this code does not generate errors if subid 0 is embeded
// OPENISSUE - opening file every time could be a performance issue
// OPENISSUE - optimization of file access could improve performance
// Init. OID structure
Oid->idLength = 0;
Oid->ids = NULL;
// check for null string and empty string
if ( NULL == lpszTextOid || '\0' == lpszTextOid[0] )
{
fh = -1;
nResult = SNMPAPI_NOERROR;
goto Exit;
}
// Open file and check for errors
if ( -1 == (fh = OpenFile(lpInputFileName, &of, OF_READ|OF_SHARE_DENY_WRITE)) )
{
nResult = SNMPAPI_ERROR;
goto Exit;
}
// Make working copy of string
if ( ('.' == lpszTextOid[0]) )
{
if ( NULL == (lpszWrkOid = SnmpUtilMemAlloc((strlen(lpszTextOid)+1) * sizeof(char))) )
{
nResult = SNMPAPI_ERROR;
goto Exit;
}
strcpy( lpszWrkOid, lpszTextOid+1 );
}
else
{
if ( NULL ==
(lpszWrkOid =
SnmpUtilMemAlloc((strlen(lpszTextOid)+STR_PREFIX_LEN+1+1) * sizeof(char))) )
{
nResult = SNMPAPI_ERROR;
goto Exit;
}
strcpy( lpszWrkOid, MIB_StrPrefix );
lpszWrkOid[STR_PREFIX_LEN] = '.';
strcpy( &lpszWrkOid[STR_PREFIX_LEN+1], lpszTextOid );
}
Node.uNumChildren = 1;
lpszSubId = strtok( lpszWrkOid, DELIMETERS );
// Loop until conversion is finished
while ( NULL != lpszSubId )
{
// Init to not found on this level
bFound = FALSE;
Siblings = Node.uNumChildren;
// Check for imbedded numbers
if ( isdigit(*lpszSubId) )
{
UINT I;
// Make sure this is a NUMBER without alpha's
for ( I=0;I < strlen(lpszSubId);I++ )
{
if ( !isdigit(lpszSubId[I]) )
{
nResult = SNMPAPI_ERROR;
goto Exit;
}
}
uSubId = atoi( lpszSubId );
}
else
{
uSubId = 0;
}
// While there are siblings and the sub id is not found keep looking
while ( Siblings && !bFound )
{
Node.lpszTextSubID = NULL;
// Get next sibling
if ( SNMPAPI_ERROR == GetNextNode(fh, &Node) )
{
SnmpUtilMemFree( Node.lpszTextSubID );
nResult = SNMPAPI_ERROR;
goto Exit;
}
Siblings --;
if ( uSubId )
{
// Compare the numeric subid's
if ( Node.uNumSubID == uSubId )
{
bFound = TRUE;
// Add space for new sub id
if ( NULL ==
(Oid->ids =
SnmpUtilMemReAlloc(Oid->ids, (Oid->idLength+1) * sizeof(UINT))) )
{
SnmpUtilMemFree( Node.lpszTextSubID );
nResult = SNMPAPI_ERROR;
goto Exit;
}
// Append this sub id to end of numeric OID
Oid->ids[Oid->idLength++] = Node.uNumSubID;
}
}
else
{
// Compare the text subid's
if ( !strcmp(lpszSubId, Node.lpszTextSubID) )
{
bFound = TRUE;
// Add space for new sub id
if ( NULL ==
(Oid->ids =
SnmpUtilMemReAlloc(Oid->ids, (Oid->idLength+1) * sizeof(UINT))) )
{
SnmpUtilMemFree( Node.lpszTextSubID );
nResult = SNMPAPI_ERROR;
goto Exit;
}
// Append this sub id to end of numeric OID
Oid->ids[Oid->idLength++] = Node.uNumSubID;
}
}
// Skip over subtree since not a match
if ( !bFound && SNMPAPI_ERROR == SkipSubTree(fh, &Node) )
{
SnmpUtilMemFree( Node.lpszTextSubID );
nResult = SNMPAPI_ERROR;
goto Exit;
}
// Free the text sub id read
SnmpUtilMemFree( Node.lpszTextSubID );
} // while
// If no sub id matches
if ( !bFound )
{
break;
}
// Advance to next sub id
lpszSubId = strtok( NULL, DELIMETERS );
} // while
// Make sure that the entire OID was converted
while ( NULL != lpszSubId )
{
UINT I;
// Make sure this is a NUMBER without alpha's
for ( I=0;I < strlen(lpszSubId);I++ )
{
if ( !isdigit(lpszSubId[I]) )
{
nResult = SNMPAPI_ERROR;
goto Exit;
}
}
// Add space for new sub id
if ( NULL ==
(Oid->ids = SnmpUtilMemReAlloc(Oid->ids, (Oid->idLength+1) * sizeof(UINT))) )
{
SnmpUtilMemFree( Node.lpszTextSubID );
nResult = SNMPAPI_ERROR;
goto Exit;
}
// Append this sub id to end of numeric OID
Oid->ids[Oid->idLength++] = atoi( lpszSubId );
// Advance to next sub id
lpszSubId = strtok( NULL, DELIMETERS );
} // while
// it is illegal for an oid to be less than two subidentifiers
if (Oid->idLength < 2)
{
nResult = SNMPAPI_ERROR;
goto Exit;
}
nResult = SNMPAPI_NOERROR;
Exit:
if ( -1 != fh )
{
_lclose( fh );
}
if ( SNMPAPI_ERROR == nResult )
{
SnmpUtilOidFree( Oid );
}
if ( NULL != lpszWrkOid )
{
SnmpUtilMemFree ( lpszWrkOid );
}
return nResult;
} // SnmpMgrText2Oid
//------------------------------- END ---------------------------------------