/* dn.c - routines for dealing with distinguished names */ /* $OpenLDAP$ */ /* * Copyright 1998-2000 The OpenLDAP Foundation, All Rights Reserved. * COPYING RESTRICTIONS APPLY, see COPYRIGHT file */ #include "portable.h" #include #include #include #include #include #include "ldap_pvt.h" #include "slap.h" #define B4LEADTYPE 0 #define B4TYPE 1 #define INOIDTYPE 2 #define INKEYTYPE 3 #define B4EQUAL 4 #define B4VALUE 5 #define INVALUE 6 #define INQUOTEDVALUE 7 #define B4SEPARATOR 8 /* * dn_validate - validate and compress dn. the dn is * compressed in place are returned if valid. */ char * dn_validate( char *dn ) { char *d, *s; int state, gotesc; gotesc = 0; state = B4LEADTYPE; for ( d = s = dn; *s; s++ ) { switch ( state ) { case B4LEADTYPE: case B4TYPE: if ( OID_LEADCHAR(*s) ) { state = INOIDTYPE; *d++ = *s; } else if ( ATTR_LEADCHAR(*s) ) { state = INKEYTYPE; *d++ = *s; } else if ( ! ASCII_SPACE( *s ) ) { dn = NULL; state = INKEYTYPE; *d++ = *s; } break; case INOIDTYPE: if ( OID_CHAR(*s) ) { *d++ = *s; } else if ( *s == '=' ) { state = B4VALUE; *d++ = *s; } else if ( ASCII_SPACE( *s ) ) { state = B4EQUAL; } else { dn = NULL; *d++ = *s; } break; case INKEYTYPE: if ( ATTR_CHAR(*s) ) { *d++ = *s; } else if ( *s == '=' ) { state = B4VALUE; *d++ = *s; } else if ( ASCII_SPACE( *s ) ) { state = B4EQUAL; } else { dn = NULL; *d++ = *s; } break; case B4EQUAL: if ( *s == '=' ) { state = B4VALUE; *d++ = *s; } else if ( ! ASCII_SPACE( *s ) ) { /* not a valid dn - but what can we do here? */ *d++ = *s; dn = NULL; } break; case B4VALUE: if ( *s == '"' ) { state = INQUOTEDVALUE; *d++ = *s; } else if ( ! ASCII_SPACE( *s ) ) { state = INVALUE; *d++ = *s; } break; case INVALUE: if ( !gotesc && RDN_SEPARATOR( *s ) ) { while ( ASCII_SPACE( *(d - 1) ) ) d--; state = B4TYPE; if ( *s == '+' ) { *d++ = *s; } else { *d++ = ','; } } else if ( gotesc && !RDN_NEEDSESCAPE( *s ) && !RDN_SEPARATOR( *s ) ) { *--d = *s; d++; } else { *d++ = *s; } break; case INQUOTEDVALUE: if ( !gotesc && *s == '"' ) { state = B4SEPARATOR; *d++ = *s; } else if ( gotesc && !RDN_NEEDSESCAPE( *s ) ) { *--d = *s; d++; } else { *d++ = *s; } break; case B4SEPARATOR: if ( RDN_SEPARATOR( *s ) ) { state = B4TYPE; *d++ = *s; } break; default: dn = NULL; Debug( LDAP_DEBUG_ANY, "dn_validate - unknown state %d\n", state, 0, 0 ); break; } if ( *s == '\\' ) { gotesc = 1; } else { gotesc = 0; } } *d = '\0'; if( gotesc ) { /* shouldn't be left in escape */ dn = NULL; } /* check end state */ switch( state ) { case B4LEADTYPE: /* looking for first type */ case B4SEPARATOR: /* looking for separator */ case INVALUE: /* inside value */ break; default: dn = NULL; } return( dn ); } /* * dn_normalize - put dn into a canonical form suitable for storing * in a hash database. this involves normalizing the case as well as * the format. the dn is normalized in place as well as returned if valid. */ char * dn_normalize( char *dn ) { /* upper case it */ ldap_pvt_str2upper( dn ); /* validate and compress dn */ dn = dn_validate( dn ); return( dn ); } /* * dn_parent - return a copy of the dn of dn's parent */ char * dn_parent( Backend *be, const char *dn ) { const char *s; int inquote; if( dn == NULL ) { return NULL; } while(*dn != '\0' && ASCII_SPACE(*dn)) { dn++; } if( *dn == '\0' ) { return( NULL ); } if ( be != NULL && be_issuffix( be, dn ) ) { return( NULL ); } /* * assume it is an X.500-style name, which looks like * foo=bar,sha=baz,... */ inquote = 0; for ( s = dn; *s; s++ ) { if ( *s == '\\' ) { if ( *(s + 1) ) { s++; } continue; } if ( inquote ) { if ( *s == '"' ) { inquote = 0; } } else { if ( *s == '"' ) { inquote = 1; } else if ( DN_SEPARATOR( *s ) ) { return( ch_strdup( &s[1] ) ); } } } return( ch_strdup( "" ) ); } char * dn_rdn( Backend *be, const char *dn_in ) { char *dn, *s; int inquote; if( dn_in == NULL ) { return NULL; } while(*dn_in && ASCII_SPACE(*dn_in)) { dn++; } if( *dn_in == '\0' ) { return( NULL ); } if ( be != NULL && be_issuffix( be, dn_in ) ) { return( NULL ); } dn = ch_strdup( dn_in ); inquote = 0; for ( s = dn; *s; s++ ) { if ( *s == '\\' ) { if ( *(s + 1) ) { s++; } continue; } if ( inquote ) { if ( *s == '"' ) { inquote = 0; } } else { if ( *s == '"' ) { inquote = 1; } else if ( DN_SEPARATOR( *s ) ) { *s = '\0'; return( dn ); } } } return( dn ); } /* * return a charray of all subtrees to which the DN resides in */ char **dn_subtree( Backend *be, const char *dn ) { char *child, *parent; char **subtree = NULL; child = ch_strdup( dn ); do { charray_add( &subtree, child ); parent = dn_parent( be, child ); free( child ); child = parent; } while ( child != NULL ); return subtree; } /* * dn_issuffix - tells whether suffix is a suffix of dn. both dn * and suffix must be normalized. */ int dn_issuffix( const char *dn, const char *suffix ) { int dnlen, suffixlen; if ( dn == NULL ) { return( 0 ); } suffixlen = strlen( suffix ); dnlen = strlen( dn ); if ( suffixlen > dnlen ) { return( 0 ); } return( strcmp( dn + dnlen - suffixlen, suffix ) == 0 ); } /* * get_next_substring(), rdn_attr_type(), rdn_attr_value(), and * build_new_dn(). * * Copyright 1999, Juan C. Gomez, All rights reserved. * This software is not subject to any license of Silicon Graphics * Inc. or Purdue University. * * Redistribution and use in source and binary forms are permitted * without restriction or fee of any kind as long as this notice * is preserved. * */ /* get_next_substring: * * Gets next substring in s, using d (or the end of the string '\0') as a * string delimiter, and places it in a duplicated memory space. Leading * spaces are ignored. String s **must** be null-terminated. */ static char * get_next_substring( const char * s, char d ) { char *str, *r; r = str = ch_malloc( strlen(s) + 1 ); /* Skip leading spaces */ while ( *s && ASCII_SPACE(*s) ) { s++; } /* Copy word */ while ( *s && (*s != d) ) { /* Don't stop when you see trailing spaces may be a multi-word * string, i.e. name=John Doe! */ *str++ = *s++; } *str = '\0'; return r; } /* rdn_attr_type: * * Given a string (i.e. an rdn) of the form: * "attribute_type = attribute_value" * this function returns the type of an attribute, that is the * string "attribute_type" which is placed in newly allocated * memory. The returned string will be null-terminated. */ char * rdn_attr_type( const char * s ) { return get_next_substring( s, '=' ); } /* rdn_attr_value: * * Given a string (i.e. an rdn) of the form: * "attribute_type = attribute_value" * this function returns "attribute_type" which is placed in newly allocated * memory. The returned string will be null-terminated and may contain * spaces (i.e. "John Doe\0"). */ char * rdn_attr_value( const char * rdn ) { const char *str; if ( (str = strchr( rdn, '=' )) != NULL ) { return get_next_substring(++str, '\0'); } return NULL; } int rdn_validate( const char * rdn ) { /* just a simple check for now */ return strchr( rdn, '=' ) != NULL; } /* build_new_dn: * * Used by ldbm/bdb2_back_modrdn to create the new dn of entries being * renamed. * * new_dn = parent (p_dn) + separator(s) + rdn (newrdn) + null. */ void build_new_dn( char ** new_dn, const char *e_dn, const char * p_dn, const char * newrdn ) { if ( p_dn == NULL ) { *new_dn = ch_strdup( newrdn ); return; } *new_dn = (char *) ch_malloc( strlen( p_dn ) + strlen( newrdn ) + 3 ); strcpy( *new_dn, newrdn ); strcat( *new_dn, "," ); strcat( *new_dn, p_dn ); }