/****************************************************************************** * * Copyright (C) 2000 Pierangelo Masarati, * All rights reserved. * * Permission is granted to anyone to use this software for any purpose * on any computer system, and to alter it and redistribute it, subject * to the following restrictions: * * 1. The author is not responsible for the consequences of use of this * software, no matter how awful, even if they arise from flaws in it. * * 2. The origin of this software must not be misrepresented, either by * explicit claim or by omission. Since few users ever read sources, * credits should appear in the documentation. * * 3. Altered versions must be plainly marked as such, and must not be * misrepresented as being the original software. Since few users * ever read sources, credits should appear in the documentation. * * 4. This notice may not be removed or altered. * ******************************************************************************/ #include #include "rewrite-int.h" /* * Appends a rule to the double linked list of rules * Helper for rewrite_rule_compile */ static int append_rule( struct rewrite_context *context, struct rewrite_rule *rule ) { struct rewrite_rule *r; assert( context != NULL ); assert( context->lc_rule != NULL ); assert( rule != NULL ); for ( r = context->lc_rule; r->lr_next != NULL; r = r->lr_next ); r->lr_next = rule; rule->lr_prev = r; return REWRITE_SUCCESS; } /* * Appends an action to the linked list of actions * Helper for rewrite_rule_compile */ static int append_action( struct rewrite_action *base, struct rewrite_action *action ) { struct rewrite_action *a; assert( base != NULL ); assert( action != NULL ); for ( a = base; a->la_next != NULL; a = a->la_next ); a->la_next = action; return REWRITE_SUCCESS; } /* * In case of error it returns NULL and does not free all the memory * it allocated; as this is a once only phase, and an error at this stage * would require the server to stop, there is no need to be paranoid * about memory allocation */ int rewrite_rule_compile( struct rewrite_info *info, struct rewrite_context *context, const char *pattern, const char *result, const char *flagstring ) { int flags = REWRITE_REGEX_EXTENDED | REWRITE_REGEX_ICASE; int mode = REWRITE_RECURSE; struct rewrite_rule *rule = NULL; struct rewrite_subst *subst = NULL; struct rewrite_action *action = NULL, *first_action = NULL; const char *p; assert( info != NULL ); assert( context != NULL ); assert( pattern != NULL ); assert( result != NULL ); /* * A null flagstring should be allowed */ /* * Take care of substitution string */ subst = rewrite_subst_compile( info, result ); if ( subst == NULL ) { return REWRITE_ERR; } /* * Take care of flags */ for ( p = flagstring; p[ 0 ] != '\0'; p++ ) { switch( p[ 0 ] ) { /* * REGEX flags */ case REWRITE_FLAG_HONORCASE: /* 'C' */ /* * Honor case (default is case insensitive) */ flags &= ~REWRITE_REGEX_ICASE; break; case REWRITE_FLAG_BASICREGEX: /* 'R' */ /* * Use POSIX Basic Regular Expression syntax * instead of POSIX Extended Regular Expression * syntax (default) */ flags &= ~REWRITE_REGEX_EXTENDED; break; /* * Execution mode flags */ case REWRITE_FLAG_EXECONCE: /* ':' */ /* * Apply rule once only */ mode &= ~REWRITE_RECURSE; mode |= REWRITE_EXEC_ONCE; break; /* * Special action flags */ case REWRITE_FLAG_STOP: /* '@' */ /* * Bail out after applying rule */ action = calloc( sizeof( struct rewrite_action ), 1 ); if ( action == NULL ) { /* cleanup ... */ return REWRITE_ERR; } mode &= ~REWRITE_RECURSE; mode |= REWRITE_EXEC_ONCE; action->la_type = REWRITE_ACTION_STOP; break; case REWRITE_FLAG_UNWILLING: /* '#' */ /* * Matching objs will be marked as gone! */ action = calloc( sizeof( struct rewrite_action ), 1 ); if ( action == NULL ) { /* cleanup ... */ return REWRITE_ERR; } mode &= ~REWRITE_RECURSE; mode |= REWRITE_EXEC_ONCE; action->la_type = REWRITE_ACTION_UNWILLING; break; case REWRITE_FLAG_GOTO: { /* 'G' */ /* * After applying rule, jump N rules */ char buf[16], *q; size_t l; int *d; if ( p[ 1 ] != '{' ) { /* XXX Need to free stuff */ return REWRITE_ERR; } q = strchr( p + 2, '}' ); if ( q == NULL ) { /* XXX Need to free stuff */ return REWRITE_ERR; } l = q - p + 2; if ( l >= sizeof( buf ) ) { /* XXX Need to free stuff */ return REWRITE_ERR; } AC_MEMCPY( buf, p + 2, l ); buf[ l ] = '\0'; d = malloc( sizeof( int ) ); if ( d == NULL ) { /* XXX Need to free stuff */ return REWRITE_ERR; } d[ 0 ] = atoi( buf ); action = calloc( sizeof( struct rewrite_action ), 1 ); if ( action == NULL ) { /* cleanup ... */ return REWRITE_ERR; } action->la_type = REWRITE_ACTION_GOTO; action->la_args = (void *)d; p = q; /* p is incremented by the for ... */ break; } case REWRITE_FLAG_IGNORE_ERR: /* 'I' */ /* * Ignore errors! */ action = calloc( sizeof( struct rewrite_action ), 1 ); if ( action == NULL ) { /* cleanup ... */ return REWRITE_ERR; } action->la_type = REWRITE_ACTION_IGNORE_ERR; break; /* * Other flags ... */ default: /* * Unimplemented feature (complain only) */ break; } /* * Stupid way to append to a list ... */ if ( action != NULL ) { if ( first_action == NULL ) { first_action = action; } else { append_action( first_action, action ); } action = NULL; } } /* * Finally, rule allocation */ rule = calloc( sizeof( struct rewrite_rule ), 1 ); if ( rule == NULL ) { /* charray_free( res ); */ /* * XXX need to free the value subst stuff! */ return REWRITE_ERR; } /* * REGEX compilation (luckily I don't need to take care of this ...) */ if ( regcomp( &rule->lr_regex, ( char * )pattern, flags ) != 0 ) { /* charray_free( res ); */ /* *XXX need to free the value subst stuff! */ free( rule ); return REWRITE_ERR; } /* * Just to remember them ... */ rule->lr_pattern = strdup( pattern ); rule->lr_subststring = strdup( result ); rule->lr_flagstring = strdup( flagstring ); /* * Load compiled data into rule */ rule->lr_subst = subst; /* * Set various parameters */ rule->lr_flags = flags; /* don't really need any longer ... */ rule->lr_mode = mode; rule->lr_action = first_action; /* * Append rule at the end of the rewrite context */ append_rule( context, rule ); return REWRITE_SUCCESS; } /* * Rewrites string according to rule; may return: * OK: fine; if *result != NULL rule matched and rewrite succeeded. * STOP: fine, rule matched; stop processing following rules * UNWILL: rule matched; force 'unwilling to perform' */ int rewrite_rule_apply( struct rewrite_info *info, struct rewrite_op *op, struct rewrite_rule *rule, const char *arg, char **result ) { size_t nmatch = REWRITE_MAX_MATCH; regmatch_t match[ REWRITE_MAX_MATCH ]; int rc = REWRITE_SUCCESS; char *string; struct berval val; assert( info != NULL ); assert( op != NULL ); assert( rule != NULL ); assert( arg != NULL ); assert( result != NULL ); *result = NULL; string = strdup( arg ); if ( string == NULL ) { return REWRITE_REGEXEC_ERR; } /* * In case recursive match is required (default) */ recurse:; Debug( LDAP_DEBUG_TRACE, "==> rewrite_rule_apply" " rule='%s' string='%s'\n%s", rule->lr_pattern, string, "" ); op->lo_num_passes++; if ( regexec( &rule->lr_regex, string, nmatch, match, 0 ) != 0 ) { if ( *result == NULL ) { free( string ); } /* * No match is OK; *result = NULL means no match */ return REWRITE_REGEXEC_OK; } rc = rewrite_subst_apply( info, op, rule->lr_subst, string, match, &val ); *result = val.bv_val; free( string ); if ( rc != REWRITE_REGEXEC_OK ) { return rc; } if ( ( rule->lr_mode & REWRITE_RECURSE ) == REWRITE_RECURSE && op->lo_num_passes <= info->li_max_passes ) { string = *result; goto recurse; } return REWRITE_REGEXEC_OK; }