/*++ 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 //--------------------------- STANDARD DEPENDENCIES -- #include ---- #include #include #include #include #include #include //--------------------------- 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 ---------------------------------------