dist/keama/eval.c

1.1  christos /*	$NetBSD: eval.c,v 1.3 2022/04/03 01:10:59 christos Exp $	*/
1.1  christos
1.1  christos /*
1.3  christos  * Copyright (C) 2017-2022 Internet Systems Consortium, Inc. ("ISC")
1.1  christos  *
1.1  christos  * Permission to use, copy, modify, and distribute this software for any
1.1  christos  * purpose with or without fee is hereby granted, provided that the above
1.1  christos  * copyright notice and this permission notice appear in all copies.
1.1  christos  *
1.1  christos  * THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES
1.1  christos  * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
1.1  christos  * MERCHANTABILITY AND FITNESS.  IN NO EVENT SHALL ISC BE LIABLE FOR
1.1  christos  * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
1.1  christos  * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
1.1  christos  * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT
1.1  christos  * OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
1.1  christos  *
1.1  christos  *   Internet Systems Consortium, Inc.
1.3  christos  *   PO Box 360
1.3  christos  *   Newmarket, NH 03857 USA
1.1  christos  *   <info (at) isc.org>
1.1  christos  *   https://www.isc.org/
1.1  christos  *
1.1  christos  */
1.1  christos
1.1  christos #include <sys/cdefs.h>
1.1  christos __RCSID("$NetBSD: eval.c,v 1.3 2022/04/03 01:10:59 christos Exp $");
1.1  christos
1.1  christos #include "keama.h"
1.1  christos
1.1  christos #include <sys/errno.h>
1.1  christos #include <sys/types.h>
1.1  christos #include <arpa/inet.h>
1.1  christos #include <ctype.h>
1.1  christos #include <netdb.h>
1.1  christos #include <stdarg.h>
1.1  christos #include <stdio.h>
1.1  christos #include <string.h>
1.1  christos #include <unistd.h>
1.1  christos
1.1  christos static struct element *eval_equal_expression(struct element *,
1.1  christos 					     struct element *);
1.1  christos static isc_boolean_t cmp_hexa(struct element *, isc_boolean_t,
1.1  christos 			      struct element *,isc_boolean_t);
1.1  christos static void debug(const char* fmt, ...);
1.1  christos
1.1  christos struct element *
1.1  christos eval_expression(struct element *expr, isc_boolean_t *modifiedp)
1.1  christos {
1.1  christos 	if ((expr->type == ELEMENT_BOOLEAN) ||
1.1  christos 	    (expr->type == ELEMENT_INTEGER) ||
1.1  christos 	    (expr->type == ELEMENT_STRING))
1.1  christos 		return expr;
1.1  christos
1.1  christos 	if (is_boolean_expression(expr))
1.1  christos 		return eval_boolean_expression(expr, modifiedp);
1.1  christos 	if (is_numeric_expression(expr))
1.1  christos 		return eval_numeric_expression(expr, modifiedp);
1.1  christos 	if (is_data_expression(expr))
1.1  christos 		return eval_data_expression(expr, modifiedp);
1.1  christos 	debug("can't type expression");
1.1  christos 	return expr;
1.1  christos }
1.1  christos
1.1  christos /*
1.1  christos  * boolean_expression :== CHECK STRING |
1.1  christos  *                        NOT boolean-expression |
1.1  christos  *                        data-expression EQUAL data-expression |
1.1  christos  *                        data-expression BANG EQUAL data-expression |
1.1  christos  *                        data-expression REGEX_MATCH data-expression |
1.1  christos  *                        boolean-expression AND boolean-expression |
1.1  christos  *                        boolean-expression OR boolean-expression
1.1  christos  *                        EXISTS OPTION-NAME
1.1  christos  */
1.1  christos
1.1  christos struct element *
1.1  christos eval_boolean_expression(struct element *expr, isc_boolean_t *modifiedp)
1.1  christos {
1.1  christos 	/* trivial case: already done */
1.1  christos 	if (expr->type == ELEMENT_BOOLEAN)
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/*
1.1  christos 	 * From is_boolean_expression
1.1  christos 	 */
1.1  christos
1.1  christos 	if (expr->type != ELEMENT_MAP)
1.1  christos 		return expr;
1.1  christos
1.1  christos
1.1  christos 	/* check */
1.1  christos 	if (mapContains(expr, "check"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "check": <collection_name> }
1.1  christos 		 * semantic: check_collection
1.1  christos 		 *  on server try to match classes of the collection
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos
1.1  christos 	/* exists */
1.1  christos 	if (mapContains(expr, "exists"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "exists":
1.1  christos 		 *             { "universe": <option_space_old>,
1.1  christos 		 *               "name":  <option_name> }
1.1  christos 		 *           }
1.1  christos 		 * semantic: check universe/code from incoming packet
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* variable-exists */
1.1  christos 	if (mapContains(expr, "variable-exists"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "variable-exists": <variable_name> }
1.1  christos 		 * semantics: find_binding(scope, name)
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* equal */
1.1  christos 	if (mapContains(expr, "equal")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "equal":
1.1  christos 		 *             { "left":  <expression>,
1.1  christos 		 *               "right": <expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantics: evaluate branches and return true
1.1  christos 		 * if same type and same value
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *left;
1.1  christos 		struct element *right;
1.1  christos 		struct element *equal;
1.1  christos 		struct comments comments;
1.1  christos 		isc_boolean_t lmodified = ISC_FALSE;
1.1  christos 		isc_boolean_t rmodified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "equal");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_MAP))
1.1  christos 			return expr;
1.1  christos 		left = mapGet(arg, "left");
1.1  christos 		if (left == NULL)
1.1  christos 			return expr;
1.1  christos 		right = mapGet(arg, "right");
1.1  christos 		if (right == NULL)
1.1  christos 			return expr;
1.1  christos 		left = eval_expression(left, &lmodified);
1.1  christos 		if (lmodified) {
1.1  christos 			mapRemove(arg, "left");
1.1  christos 			mapSet(arg, left, "left");
1.1  christos 		}
1.1  christos 		right = eval_expression(right, &rmodified);
1.1  christos 		if (rmodified) {
1.1  christos 			mapRemove(arg, "right");
1.1  christos 			mapSet(arg, right, "right");
1.1  christos 		}
1.1  christos
1.1  christos 		equal = eval_equal_expression(left, right);
1.1  christos 		if ((equal == NULL) || (equal->type != ELEMENT_BOOLEAN))
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		TAILQ_INIT(&comments);
1.1  christos 		TAILQ_CONCAT(&comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&comments, &arg->comments);
1.1  christos 		TAILQ_CONCAT(&comments, &equal->comments);
1.1  christos 		TAILQ_CONCAT(&equal->comments, &comments);
1.1  christos 		return equal;
1.1  christos 	}
1.1  christos
1.1  christos 	/* not-equal */
1.1  christos 	if (mapContains(expr, "not-equal")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "not-equal":
1.1  christos 		 *             { "left":  <expression>,
1.1  christos                  *               "right": <expression> }
1.1  christos                  *           }
1.1  christos                  * semantics: evaluate branches and return true
1.1  christos                  * if different type or different value
1.1  christos                  */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *left;
1.1  christos 		struct element *right;
1.1  christos 		struct element *equal;
1.1  christos 		struct element *result;
1.1  christos 		isc_boolean_t lmodified = ISC_FALSE;
1.1  christos 		isc_boolean_t rmodified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "not-equal");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_MAP))
1.1  christos 			return expr;
1.1  christos 		left = mapGet(arg, "left");
1.1  christos 		if (left == NULL)
1.1  christos 			return expr;
1.1  christos 		right = mapGet(arg, "right");
1.1  christos 		if (right == NULL)
1.1  christos 			return expr;
1.1  christos 		left = eval_expression(left, &lmodified);
1.1  christos 		if (lmodified) {
1.1  christos 			mapRemove(arg, "left");
1.1  christos 			mapSet(arg, left, "left");
1.1  christos 		}
1.1  christos 		right = eval_expression(right, &rmodified);
1.1  christos 		if (rmodified) {
1.1  christos 			mapRemove(arg, "right");
1.1  christos 			mapSet(arg, right, "right");
1.1  christos 		}
1.1  christos
1.1  christos 		equal = eval_equal_expression(left, right);
1.1  christos 		if ((equal == NULL) || (equal->type != ELEMENT_BOOLEAN))
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		result = createBool(ISC_TF(!boolValue(equal)));
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &equal->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* regex-match */
1.1  christos 	if (mapContains(expr, "regex-match"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "regex-match":
1.1  christos 		 *             { "left":  <data_expression>,
1.1  christos 		 *               "right": <data_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantics: evaluate branches, compile right as a
1.1  christos 		 * regex and apply it to left
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* iregex-match */
1.1  christos 	if (mapContains(expr, "iregex-match"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "regex-match":
1.1  christos 		 *             { "left":  <data_expression>,
1.1  christos 		 *               "right": <data_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantics: evaluate branches, compile right as a
1.1  christos 		 * case insensistive regex and apply it to left
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* and */
1.1  christos 	if (mapContains(expr, "and")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "and":
1.1  christos 		 *             { "left":  <boolean_expression>,
1.1  christos 		 *               "right": <boolean_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantics: evaluate branches, return true
1.1  christos 		 * if both are true
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *left;
1.1  christos 		struct element *right;
1.1  christos 		struct element *result;
1.1  christos 		isc_boolean_t lmodified = ISC_FALSE;
1.1  christos 		isc_boolean_t rmodified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "and");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_MAP))
1.1  christos 			return expr;
1.1  christos 		left = mapGet(arg, "left");
1.1  christos 		if (left == NULL)
1.1  christos 			return expr;
1.1  christos 		right = mapGet(arg, "right");
1.1  christos 		if (right == NULL)
1.1  christos 			debug("can't get and right branch");
1.1  christos 		left = eval_boolean_expression(left, &lmodified);
1.1  christos 		if (lmodified) {
1.1  christos 			mapRemove(arg, "left");
1.1  christos 			mapSet(arg, left, "left");
1.1  christos 		}
1.1  christos 		right = eval_boolean_expression(right, &rmodified);
1.1  christos 		if (rmodified) {
1.1  christos 			mapRemove(arg, "right");
1.1  christos 			mapSet(arg, right, "right");
1.1  christos 		}
1.1  christos
1.1  christos 		if (left->type == ELEMENT_BOOLEAN) {
1.1  christos 			*modifiedp = ISC_TRUE;
1.1  christos 			if (!boolValue(left))
1.1  christos 				result = createBool(ISC_FALSE);
1.1  christos 			else {
1.1  christos 				result = copy(right);
1.1  christos 				TAILQ_INIT(&result->comments);
1.1  christos 			}
1.1  christos 			TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 			TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 			TAILQ_CONCAT(&result->comments, &left->comments);
1.1  christos 			TAILQ_CONCAT(&result->comments, &right->comments);
1.1  christos 			return result;
1.1  christos 		}
1.1  christos 		if (right->type == ELEMENT_BOOLEAN) {
1.1  christos 			*modifiedp = ISC_TRUE;
1.1  christos 			if (!boolValue(right))
1.1  christos 				result = createBool(ISC_FALSE);
1.1  christos 			else {
1.1  christos 				result = copy(left);
1.1  christos 				TAILQ_INIT(&result->comments);
1.1  christos 			}
1.1  christos 			TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 			TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 			TAILQ_CONCAT(&result->comments, &left->comments);
1.1  christos 			TAILQ_CONCAT(&result->comments, &right->comments);
1.1  christos 			return result;
1.1  christos 		}
1.1  christos 		return expr;
1.1  christos 	}
1.1  christos
1.1  christos 	/* or */
1.1  christos 	if (mapContains(expr, "or")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "or":
1.1  christos 		 *             { "left":  <boolean_expression>,
1.1  christos 		 *               "right": <boolean_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantics: evaluate branches, return true
1.1  christos 		 * if any is true
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *left;
1.1  christos 		struct element *right;
1.1  christos 		struct element *result;
1.1  christos 		isc_boolean_t lmodified = ISC_FALSE;
1.1  christos 		isc_boolean_t rmodified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "or");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_MAP))
1.1  christos 			return expr;
1.1  christos 		left = mapGet(arg, "left");
1.1  christos 		if (left == NULL)
1.1  christos 			return expr;
1.1  christos 		right = mapGet(arg, "right");
1.1  christos 		if (right == NULL)
1.1  christos 			return expr;
1.1  christos 		left = eval_boolean_expression(left, &lmodified);
1.1  christos 		if (lmodified) {
1.1  christos 			mapRemove(arg, "left");
1.1  christos 			mapSet(arg, left, "left");
1.1  christos 		}
1.1  christos 		right = eval_boolean_expression(right, &rmodified);
1.1  christos 		if (rmodified) {
1.1  christos 			mapRemove(arg, "right");
1.1  christos 			mapSet(arg, right, "right");
1.1  christos 		}
1.1  christos
1.1  christos 		if (left->type == ELEMENT_BOOLEAN) {
1.1  christos 			*modifiedp = ISC_TRUE;
1.1  christos 			if (boolValue(left))
1.1  christos 				result = createBool(ISC_TRUE);
1.1  christos 			else {
1.1  christos 				result = copy(right);
1.1  christos 				TAILQ_INIT(&result->comments);
1.1  christos 			}
1.1  christos 			TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 			TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 			TAILQ_CONCAT(&result->comments, &left->comments);
1.1  christos 			TAILQ_CONCAT(&result->comments, &right->comments);
1.1  christos 			return result;
1.1  christos 		}
1.1  christos 		if (right->type == ELEMENT_BOOLEAN) {
1.1  christos 			*modifiedp = ISC_TRUE;
1.1  christos 			if (boolValue(right))
1.1  christos 				result = createBool(ISC_TRUE);
1.1  christos 			else {
1.1  christos 				result = copy(left);
1.1  christos 				TAILQ_INIT(&result->comments);
1.1  christos 			}
1.1  christos 			TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 			TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 			TAILQ_CONCAT(&result->comments, &left->comments);
1.1  christos 			TAILQ_CONCAT(&result->comments, &right->comments);
1.1  christos 			return result;
1.1  christos 		}
1.1  christos 		return expr;
1.1  christos 	}
1.1  christos
1.1  christos 	/* not */
1.1  christos 	if (mapContains(expr, "not")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "not": <boolean_expression> }
1.1  christos 		 * semantic: evaluate its branch and return its negation
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *result;
1.1  christos 		isc_boolean_t modified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "not");
1.1  christos 		if (arg == NULL)
1.1  christos 			return expr;
1.1  christos 		arg = eval_boolean_expression(arg, &modified);
1.1  christos 		if (modified) {
1.1  christos 			mapRemove(expr, "not");
1.1  christos 			mapSet(expr, arg, "not");
1.1  christos 		}
1.1  christos
1.1  christos 		/* remove double not */
1.1  christos 		if ((arg->type == ELEMENT_MAP) && mapContains(arg, "not")) {
1.1  christos 			arg = mapGet(arg, "not");
1.1  christos 			if (arg == NULL)
1.1  christos 				return expr;
1.1  christos 			*modifiedp = ISC_TRUE;
1.1  christos 			return arg;
1.1  christos 		}
1.1  christos
1.1  christos 		/* compose with equal */
1.1  christos 		if ((arg->type == ELEMENT_MAP) &&
1.1  christos 		    mapContains(arg, "equal")) {
1.1  christos 			arg = mapGet(arg, "equal");
1.1  christos 			if (arg == NULL)
1.1  christos 				return expr;
1.1  christos 			*modifiedp = ISC_TRUE;
1.1  christos 			result = createMap();
1.1  christos 			mapSet(result, arg, "not-equal");
1.1  christos 			return result;
1.1  christos 		}
1.1  christos
1.1  christos 		/* compose with not-equal */
1.1  christos 		if ((arg->type == ELEMENT_MAP) &&
1.1  christos 		    mapContains(arg, "not-equal")) {
1.1  christos 			arg = mapGet(arg, "not-equal");
1.1  christos 			if (arg == NULL)
1.1  christos 				return expr;
1.1  christos 			*modifiedp = ISC_TRUE;
1.1  christos 			result = createMap();
1.1  christos 			mapSet(result, arg, "equal");
1.1  christos 			return result;
1.1  christos 		}
1.1  christos
1.1  christos 		if (arg->type != ELEMENT_BOOLEAN)
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		result = createBool(ISC_TF(!boolValue(arg)));
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* known */
1.1  christos 	if (mapContains(expr, "known"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "known": null }
1.1  christos 		 * semantics: client is known, i.e., has a matching
1.1  christos 		 * host declaration (aka reservation in Kea)
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* static */
1.1  christos 	if (mapContains(expr, "static"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "static": null }
1.1  christos 		 * semantics: lease is static (doesn't exist in Kea)
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	return expr;
1.1  christos }
1.1  christos
1.1  christos /*
1.1  christos  * data_expression :== SUBSTRING LPAREN data-expression COMMA
1.1  christos  *                                      numeric-expression COMMA
1.1  christos  *                                      numeric-expression RPAREN |
1.3  christos  *                     CONCAT LPAREN data-expression COMMA
1.1  christos  *                                      data-expression RPAREN
1.1  christos  *                     SUFFIX LPAREN data_expression COMMA
1.1  christos  *                                   numeric-expression RPAREN |
1.1  christos  *                     LCASE LPAREN data_expression RPAREN |
1.1  christos  *                     UCASE LPAREN data_expression RPAREN |
1.1  christos  *                     OPTION option_name |
1.1  christos  *                     HARDWARE |
1.1  christos  *                     PACKET LPAREN numeric-expression COMMA
1.1  christos  *                                   numeric-expression RPAREN |
1.1  christos  *                     V6RELAY LPAREN numeric-expression COMMA
1.1  christos  *                                    data-expression RPAREN |
1.1  christos  *                     STRING |
1.1  christos  *                     colon_separated_hex_list
1.1  christos  */
1.1  christos
1.1  christos struct element *
1.1  christos eval_data_expression(struct element *expr, isc_boolean_t *modifiedp)
1.1  christos {
1.1  christos 	/* trivial case: already done */
1.1  christos 	if (expr->type == ELEMENT_STRING)
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/*
1.1  christos 	 * From is_data_expression
1.1  christos 	 */
1.1  christos
1.1  christos 	if (expr->type != ELEMENT_MAP)
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* substring */
1.1  christos 	if (mapContains(expr, "substring")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "substring":
1.1  christos 		 *             { "expression": <data_expression>,
1.1  christos 		 *               "offset":     <numeric_expression>,
1.1  christos 		 *               "length":     <numeric_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantic: evaluate arguments, if the string is
1.1  christos 		 * shorter than offset return "" else return substring
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *string;
1.1  christos 		struct element *offset;
1.1  christos 		struct element *length;
1.1  christos 		struct element *result;
1.1  christos 		struct string *s;
1.1  christos 		struct string *r;
1.1  christos 		int64_t off;
1.1  christos 		int64_t len;
1.1  christos 		isc_boolean_t smodified = ISC_FALSE;
1.1  christos 		isc_boolean_t omodified = ISC_FALSE;
1.1  christos 		isc_boolean_t lmodified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "substring");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_MAP))
1.1  christos 			return expr;
1.1  christos 		string = mapGet(arg, "expression");
1.1  christos 		if (string == NULL)
1.1  christos 			return expr;
1.1  christos 		offset = mapGet(arg, "offset");
1.1  christos 		if (offset  == NULL)
1.1  christos 			return expr;
1.1  christos 		length = mapGet(arg, "length");
1.1  christos 		if (length  == NULL)
1.1  christos 			return expr;
1.1  christos 		string = eval_data_expression(string, &smodified);
1.1  christos 		if (smodified) {
1.1  christos 			mapRemove(arg, "expression");
1.1  christos 			mapSet(arg, string, "expression");
1.1  christos 		}
1.1  christos 		offset = eval_numeric_expression(offset, &omodified);
1.1  christos 		if (omodified) {
1.1  christos 			mapRemove(arg, "offset");
1.1  christos 			mapSet(arg, offset, "offset");
1.1  christos 		}
1.1  christos 		length = eval_numeric_expression(length, &lmodified);
1.1  christos 		if (lmodified) {
1.1  christos 			mapRemove(arg, "length");
1.1  christos 			mapSet(arg, length, "length");
1.1  christos 		}
1.1  christos
1.1  christos 		if ((offset->type != ELEMENT_INTEGER) ||
1.1  christos 		    (length->type != ELEMENT_INTEGER))
1.1  christos 			return expr;
1.1  christos 		off = intValue(offset);
1.1  christos 		len = intValue(length);
1.1  christos 		if ((off < 0) || (len < 0))
1.1  christos 			return expr;
1.1  christos 		/* degenerated case */
1.1  christos 		if (len == 0) {
1.1  christos 			*modifiedp = ISC_TRUE;
1.1  christos 			r = allocString();
1.1  christos 			result = createString(r);
1.1  christos 			return result;
1.1  christos 		}
1.1  christos
1.1  christos 		/* return (part of) hw-address? */
1.1  christos 		if ((local_family == AF_INET) &&
1.1  christos 		    (string->type == ELEMENT_MAP) &&
1.1  christos 		    mapContains(string, "concat") &&
1.1  christos 		    (off >= 1)) {
1.1  christos 			struct element *concat;
1.1  christos 			struct element *left;
1.1  christos 			struct element *right;
1.1  christos
1.1  christos 			concat = mapGet(string, "concat");
1.1  christos 			if (concat->type != ELEMENT_MAP)
1.1  christos 				return expr;
1.1  christos 			left = mapGet(concat, "left");
1.1  christos 			if (left == NULL)
1.1  christos 				return expr;
1.1  christos 			right = mapGet(concat, "right");
1.1  christos 			if (right == NULL)
1.1  christos 				return expr;
1.1  christos 			/* from substring(hardware, ...) */
1.1  christos 			if ((left->type == ELEMENT_MAP) &&
1.1  christos 			    mapContains(left, "hw-type")) {
1.1  christos 				*modifiedp = ISC_TRUE;
1.1  christos 				mapRemove(arg, "expression");
1.1  christos 				mapSet(arg, right, "expression");
1.1  christos 				mapRemove(arg, "offset");
1.1  christos 				mapSet(arg, createInt(off - 1), "offset");
1.1  christos 				return expr;
1.1  christos 			}
1.1  christos 			return expr;
1.1  christos 		}
1.1  christos
1.1  christos 		/* return hw-type? */
1.1  christos 		if ((local_family == AF_INET) &&
1.1  christos 		    (string->type == ELEMENT_MAP) &&
1.1  christos 		    mapContains(string, "concat") &&
1.1  christos 		    (off == 0) && (len == 1)) {
1.1  christos 			struct element *concat;
1.1  christos 			struct element *left;
1.1  christos 			struct element *right;
1.1  christos
1.1  christos 			concat = mapGet(string, "concat");
1.1  christos 			if (concat->type != ELEMENT_MAP)
1.1  christos 				return expr;
1.1  christos 			left = mapGet(concat, "left");
1.1  christos 			if (left == NULL)
1.1  christos 				return expr;
1.1  christos 			right = mapGet(concat, "right");
1.1  christos 			if (right == NULL)
1.1  christos 				return expr;
1.1  christos 			/* from substring(hardware, ...) */
1.1  christos 			if ((left->type == ELEMENT_MAP) &&
1.1  christos 			    mapContains(left, "hw-type")) {
1.1  christos 				*modifiedp = ISC_TRUE;
1.1  christos 				return left;
1.1  christos 			}
1.1  christos 			return expr;
1.1  christos 		}
1.1  christos
1.1  christos 		if (string->type != ELEMENT_STRING)
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		s = stringValue(string);
1.1  christos 		if (s->length <= off)
1.1  christos 			r = allocString();
1.1  christos 		else {
1.1  christos 			r = makeString(s->length - off, s->content + off);
1.1  christos 			if (r->length > len)
1.1  christos 				r->length = len;
1.1  christos 		}
1.1  christos 		result = createString(r);
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &string->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &offset->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &length->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* suffix */
1.1  christos 	if (mapContains(expr, "suffix")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "suffix":
1.1  christos 		 *             { "expression": <data_expression>,
1.1  christos 		 *               "length":     <numeric_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantic: evaluate arguments, if the string is
1.1  christos 		 * shorter than length return it else return suffix
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *string;
1.1  christos 		struct element *length;
1.1  christos 		struct element *result;
1.1  christos 		struct string *r;
1.1  christos 		int64_t len;
1.1  christos 		isc_boolean_t smodified = ISC_FALSE;
1.1  christos 		isc_boolean_t lmodified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "suffix");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_MAP))
1.1  christos 			return expr;
1.1  christos 		string = mapGet(arg, "expression");
1.1  christos 		if (string == NULL)
1.1  christos 			return expr;
1.1  christos 		length = mapGet(arg, "length");
1.1  christos 		if (length  == NULL)
1.1  christos 			return expr;
1.1  christos 		string = eval_data_expression(string, &smodified);
1.1  christos 		if (smodified) {
1.1  christos 			mapRemove(arg, "expression");
1.1  christos 			mapSet(arg, string, "expression");
1.1  christos 		}
1.1  christos 		length = eval_numeric_expression(length, &lmodified);
1.1  christos 		if (lmodified) {
1.1  christos 			mapRemove(arg, "length");
1.1  christos 			mapSet(arg, length, "length");
1.1  christos 		}
1.1  christos
1.1  christos 		if ((string->type != ELEMENT_STRING) ||
1.1  christos 		    (length->type != ELEMENT_INTEGER))
1.1  christos 			return expr;
1.1  christos 		len = intValue(length);
1.1  christos 		if (len < 0)
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		r = stringValue(string);
1.1  christos 		if (r->length > len)
1.1  christos 			r = makeString(r->length - len, r->content + len);
1.1  christos 		result = createString(r);
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &string->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &length->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* lowercase */
1.1  christos 	if (mapContains(expr, "lowercase")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "lowercase": <data_expression> }
1.1  christos 		 * semantic: evaluate its argument and apply tolower to
1.1  christos 		 * its content
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *result;
1.1  christos 		struct string *r;
1.1  christos 		size_t i;
1.1  christos 		isc_boolean_t modified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "lowercase");
1.1  christos 		if (arg == NULL)
1.1  christos 			return expr;
1.1  christos 		arg = eval_data_expression(arg, &modified);
1.1  christos 		if (modified) {
1.1  christos 			mapRemove(expr, "lowercase");
1.1  christos 			mapSet(expr, arg, "lowercase");
1.1  christos 		}
1.1  christos
1.1  christos 		if (arg->type != ELEMENT_STRING)
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		r = allocString();
1.1  christos 		concatString(r, stringValue(arg));
1.1  christos 		for (i = 0; i < r->length; i++)
1.1  christos 			r->content[i] = tolower(r->content[i]);
1.1  christos 		result = createString(r);
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* uppercase */
1.1  christos 	if (mapContains(expr, "uppercase")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "uppercase": <data_expression> }
1.1  christos 		 * semantic: evaluate its argument and apply toupper to
1.1  christos 		 * its content
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *result;
1.1  christos 		struct string *r;
1.1  christos 		size_t i;
1.1  christos 		isc_boolean_t modified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "uppercase");
1.1  christos 		if (arg == NULL)
1.1  christos 			return expr;
1.1  christos 		arg = eval_data_expression(arg, &modified);
1.1  christos 		if (modified) {
1.1  christos 			mapRemove(expr, "lowercase");
1.1  christos 			mapSet(expr, arg, "lowercase");
1.1  christos 		}
1.1  christos
1.1  christos 		if (arg->type != ELEMENT_STRING)
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		r = allocString();
1.1  christos 		concatString(r, stringValue(arg));
1.1  christos 		for (i = 0; i < r->length; i++)
1.1  christos 			r->content[i] = toupper(r->content[i]);
1.1  christos 		result = createString(r);
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* option */
1.1  christos 	if (mapContains(expr, "option"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "option":
1.1  christos 		 *             { "universe": <option_space_old>,
1.1  christos 		 *               "name":  <option_name> }
1.1  christos 		 *           }
1.1  christos 		 * semantic: get universe/code option from incoming packet
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* hardware */
1.1  christos 	if (mapContains(expr, "hardware")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "hardware": null }
1.1  christos 		 * semantic: get mac type and address from incoming packet
1.1  christos 		 */
1.1  christos 		struct element *left;
1.1  christos 		struct element *right;
1.1  christos 		struct element *concat;
1.1  christos 		struct element *result;
1.1  christos
1.1  christos 		if (local_family != AF_INET)
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		left = createMap();
1.1  christos 		mapSet(left, createNull(), "hw-type");
1.1  christos 		concat = createMap();
1.1  christos 		mapSet(concat, left, "left");
1.1  christos 		right = createMap();
1.1  christos 		mapSet(right, createNull(), "hw-address");
1.1  christos 		mapSet(concat, right, "right");
1.1  christos 		result = createMap();
1.1  christos 		mapSet(result, concat, "concat");
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* hw-type */
1.1  christos 	if (mapContains(expr, "hw-type"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "hw-type": null }
1.1  christos 		 * semantic: get mac type and address from incoming packet
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* hw-address */
1.1  christos 	if (mapContains(expr, "hw-address"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "hw-address": null }
1.1  christos 		 * semantic: get mac type and address from incoming packet
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* const-data */
1.1  christos 	if (mapContains(expr, "const-data"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "const-data": <string> }
1.1  christos 		 * semantic: embedded string value
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* packet */
1.1  christos 	if (mapContains(expr, "packet"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "packet":
1.1  christos 		 *             { "offset": <numeric_expression>,
1.1  christos 		 *               "length": <numeric_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantic: return the selected substring of the incoming
1.1  christos 		 * packet content
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* concat */
1.1  christos 	if (mapContains(expr, "concat")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "concat":
1.1  christos 		 *             { "left":  <data_expression>,
1.1  christos 		 *               "right": <data_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantic: evaluate arguments and return the concatenation
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *left;
1.1  christos 		struct element *right;
1.1  christos 		struct element *result;
1.1  christos 		struct string *r;
1.1  christos 		isc_boolean_t lmodified = ISC_FALSE;
1.1  christos 		isc_boolean_t rmodified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "concat");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_MAP))
1.1  christos 			return expr;
1.1  christos 		left = mapGet(arg, "left");
1.1  christos 		if (left == NULL)
1.1  christos 			return expr;
1.1  christos 		right = mapGet(arg, "right");
1.1  christos 		if (right == NULL)
1.1  christos 			return expr;
1.1  christos 		left = eval_data_expression(left, &lmodified);
1.1  christos 		if (lmodified) {
1.1  christos 			mapRemove(arg, "left");
1.1  christos 			mapSet(arg, left, "left");
1.1  christos 		}
1.1  christos 		right = eval_data_expression(right, &rmodified);
1.1  christos 		if (rmodified) {
1.1  christos 			mapRemove(arg, "right");
1.1  christos 			mapSet(arg, right, "right");
1.1  christos 		}
1.1  christos
1.1  christos 		/* degenerated cases */
1.1  christos 		if ((left->type == ELEMENT_STRING) &&
1.1  christos 		    (stringValue(left)->length == 0)) {
1.1  christos 			*modifiedp = ISC_TRUE;
1.1  christos 			return right;
1.1  christos 		}
1.1  christos 		if ((right->type == ELEMENT_STRING) &&
1.1  christos 		    (stringValue(right)->length == 0)) {
1.1  christos 			*modifiedp = ISC_TRUE;
1.1  christos 			return left;
1.1  christos 		}
1.1  christos
1.1  christos 		if ((left->type != ELEMENT_STRING) ||
1.1  christos 		    (right->type != ELEMENT_STRING))
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		r = allocString();
1.1  christos 		concatString(r, stringValue(left));
1.1  christos 		concatString(r, stringValue(right));
1.1  christos 		result = createString(r);
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &left->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &right->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* encapsulate */
1.1  christos 	if (mapContains(expr, "encapsulate"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "encapsulate": <encapsulated_space> }
1.1  christos 		 * semantic: encapsulate options of the given space
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* encode-int8 */
1.1  christos 	if (mapContains(expr, "encode-int8")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "encode-int8": <numeric_expression> }
1.1  christos 		 * semantic: return a string buffer with the evaluated
1.1  christos 		 * number as content
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *result;
1.1  christos 		struct string *r;
1.1  christos 		uint8_t val;
1.1  christos 		isc_boolean_t modified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "encode-int8");
1.1  christos 		if (arg == NULL)
1.1  christos 			return expr;
1.1  christos 		arg = eval_numeric_expression(arg, &modified);
1.1  christos 		if (modified) {
1.1  christos 			mapRemove(expr, "encode-int8");
1.1  christos 			mapSet(expr, arg, "encode-int8");
1.1  christos 		}
1.1  christos
1.1  christos 		if (arg->type != ELEMENT_INTEGER)
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		val = (uint8_t)intValue(arg);
1.1  christos 		r = makeString(sizeof(val), (char *)&val);
1.1  christos 		result = createString(r);
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* encode-int16 */
1.1  christos 	if (mapContains(expr, "encode-int16")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "encode-int16": <numeric_expression> }
1.1  christos 		 * semantic: return a string buffer with the evaluated
1.1  christos 		 * number as content
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *result;
1.1  christos 		struct string *r;
1.1  christos 		uint16_t val;
1.1  christos 		isc_boolean_t modified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "encode-int16");
1.1  christos 		if (arg == NULL)
1.1  christos 			return expr;
1.1  christos 		arg = eval_numeric_expression(arg, &modified);
1.1  christos 		if (modified) {
1.1  christos 			mapRemove(expr, "encode-int16");
1.1  christos 			mapSet(expr, arg, "encode-int16");
1.1  christos 		}
1.1  christos
1.1  christos 		if (arg->type != ELEMENT_INTEGER)
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		val = (uint16_t)intValue(arg);
1.1  christos 		val = htons(val);
1.1  christos 		r = makeString(sizeof(val), (char *)&val);
1.1  christos 		result = createString(r);
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* encode-int32 */
1.1  christos 	if (mapContains(expr, "encode-int32")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "encode-int32": <numeric_expression> }
1.1  christos 		 * semantic: return a string buffer with the evaluated
1.1  christos 		 * number as content
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *result;
1.1  christos 		struct string *r;
1.1  christos 		uint32_t val;
1.1  christos 		isc_boolean_t modified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "encode-int32");
1.1  christos 		if (arg == NULL)
1.1  christos 			return expr;
1.1  christos 		arg = eval_numeric_expression(arg, &modified);
1.1  christos 		if (modified) {
1.1  christos 			mapRemove(expr, "encode-int32");
1.1  christos 			mapSet(expr, arg, "encode-int32");
1.1  christos 		}
1.1  christos
1.1  christos 		if (arg->type != ELEMENT_INTEGER)
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		val = (uint32_t)intValue(arg);
1.1  christos 		val = htonl(val);
1.1  christos 		r = makeString(sizeof(val), (char *)&val);
1.1  christos 		result = createString(r);
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* gethostbyname */
1.1  christos 	if (mapContains(expr, "gethostbyname")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "gethostbyname": <string> }
1.1  christos 		 * semantic: call gethostbyname and return
1.1  christos 		 * a binary buffer with addresses
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *result;
1.1  christos 		struct string *r;
1.1  christos 		char *hostname;
1.1  christos 		struct hostent *h;
1.1  christos 		size_t i;
1.1  christos
1.1  christos 		if (local_family != AF_INET)
1.1  christos 			return expr;
1.1  christos 		arg = mapGet(expr, "gethostbyname");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_STRING))
1.1  christos 			return expr;
1.1  christos 		hostname = stringValue(arg)->content;
1.1  christos 		h = gethostbyname(hostname);
1.1  christos 		r = allocString();
1.1  christos 		if (h == NULL) {
1.1  christos 			switch (h_errno) {
1.1  christos 			case HOST_NOT_FOUND:
1.1  christos 				debug("gethostbyname: %s: host unknown",
1.1  christos 				      hostname);
1.1  christos 				break;
1.1  christos 			case TRY_AGAIN:
1.1  christos 				debug("gethostbyname: %s: temporary name "
1.1  christos 				      "server failure", hostname);
1.1  christos 				break;
1.1  christos 			case NO_RECOVERY:
1.1  christos 				debug("gethostbyname: %s: name server failed",
1.1  christos 				      hostname);
1.1  christos 				break;
1.1  christos 			case NO_DATA:
1.1  christos 				debug("gethostbyname: %s: no A record "
1.1  christos 				      "associated with address", hostname);
1.1  christos 				break;
1.1  christos 			}
1.1  christos 		} else
1.1  christos 			for (i = 0; h->h_addr_list[i] != NULL; i++) {
1.1  christos 				struct string *addr;
1.1  christos
1.1  christos 				addr = makeString(4, h->h_addr_list[i]);
1.1  christos 				concatString(r, addr);
1.1  christos 			}
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		r = makeStringExt(r->length, r->content, 'X');
1.1  christos 		result = createString(r);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* binary-to-ascii */
1.1  christos 	if (mapContains(expr, "binary-to-ascii")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "binary-to-ascii":
1.1  christos 		 *             { "base":      <numeric_expression 2..16>,
1.1  christos 		 *               "width":     <numeric_expression 8, 16 or 32>,
1.1  christos 		 *               "separator": <data_expression>,
1.1  christos 		 *               "buffer":    <data_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantic: split the input buffer into int8/16/32 numbers,
1.1  christos 		 * output them separated by the given string
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *base;
1.1  christos 		struct element *width;
1.1  christos 		struct element *separator;
1.1  christos 		struct element *buffer;
1.1  christos 		struct element *result;
1.1  christos 		struct string *sep;
1.1  christos 		struct string *buf;
1.1  christos 		struct string *r;
1.1  christos 		int64_t b;
1.1  christos 		int64_t w;
1.1  christos 		isc_boolean_t bmodified = ISC_FALSE;
1.1  christos 		isc_boolean_t wmodified = ISC_FALSE;
1.1  christos 		isc_boolean_t smodified = ISC_FALSE;
1.1  christos 		isc_boolean_t dmodified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "binary-to-ascii");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_MAP))
1.1  christos 			return expr;
1.1  christos 		base = mapGet(arg, "base");
1.1  christos 		if (base == NULL)
1.1  christos 			return expr;
1.1  christos 		width = mapGet(arg, "width");
1.1  christos 		if (width == NULL)
1.1  christos 			return expr;
1.1  christos 		separator = mapGet(arg, "separator");
1.1  christos 		if (separator == NULL)
1.1  christos 			return expr;
1.1  christos 		buffer = mapGet(arg, "buffer");
1.1  christos 		if (buffer == NULL)
1.1  christos 			return expr;
1.1  christos 		base = eval_numeric_expression(base, &bmodified);
1.1  christos 		if (bmodified) {
1.1  christos 			mapRemove(arg, "base");
1.1  christos 			mapSet(arg, base, "base");
1.1  christos 		}
1.1  christos 		width = eval_numeric_expression(width, &wmodified);
1.1  christos 		if (wmodified) {
1.1  christos 			mapRemove(arg, "width");
1.1  christos 			mapSet(arg, width, "width");
1.1  christos 		}
1.1  christos 		separator = eval_data_expression(separator, &smodified);
1.1  christos 		if (smodified) {
1.1  christos 			mapRemove(arg, "separator");
1.1  christos 			mapSet(arg, separator, "separator");
1.1  christos 		}
1.1  christos 		buffer = eval_data_expression(buffer, &dmodified);
1.1  christos 		if (dmodified) {
1.1  christos 			mapRemove(arg, "buffer");
1.1  christos 			mapSet(arg, buffer, "buffer");
1.1  christos 		}
1.1  christos
1.1  christos 		if ((base->type != ELEMENT_INTEGER) ||
1.1  christos 		    (width->type != ELEMENT_INTEGER) ||
1.1  christos 		    (separator->type != ELEMENT_STRING) ||
1.1  christos 		    (buffer->type != ELEMENT_STRING))
1.1  christos 			return expr;
1.1  christos 		b = intValue(base);
1.1  christos 		if ((b < 2) || (b > 16))
1.1  christos 			return expr;
1.1  christos 		if ((b != 8) && (b != 10) && (b != 16))
1.1  christos 			return expr;
1.1  christos 		w = intValue(width);
1.1  christos 		if ((w != 8) && (w != 16) && (w != 32))
1.1  christos 			return expr;
1.1  christos 		sep = stringValue(separator);
1.1  christos 		buf = stringValue(buffer);
1.1  christos 		r = allocString();
1.1  christos 		if (w == 8) {
1.1  christos 			size_t i;
1.1  christos 			char *fmt;
1.1  christos
1.1  christos 			switch (b) {
1.1  christos 			case 8:
1.1  christos 				fmt = "%o";
1.1  christos 				break;
1.1  christos 			case 10:
1.1  christos 				fmt = "%d";
1.1  christos 				break;
1.1  christos 			case 16:
1.1  christos             default:
1.1  christos 				fmt = "%x";
1.1  christos 				break;
1.1  christos 			}
1.3  christos
1.1  christos 			for (i = 0; i < buf->length; i++) {
1.1  christos 				uint8_t val;
1.1  christos 				char num[4];
1.1  christos
1.1  christos 				if (i != 0)
1.1  christos 					concatString(r, sep);
1.1  christos 				val = (uint8_t)buf->content[i];
1.1  christos 				snprintf(num, sizeof(num), fmt, (int)val);
1.1  christos 				appendString(r, num);
1.1  christos 			}
1.1  christos 		} else if (w == 16) {
1.1  christos 			size_t i;
1.1  christos 			char *fmt;
1.1  christos
1.1  christos 			if ((buf->length % 2) != 0)
1.1  christos 				return expr;
1.3  christos
1.1  christos 			switch (b) {
1.1  christos 			case 8:
1.1  christos 				fmt = "%o";
1.1  christos 				break;
1.1  christos 			case 10:
1.1  christos 				fmt = "%d";
1.1  christos 				break;
1.1  christos 			case 16:
1.1  christos             default:
1.1  christos 				fmt = "%x";
1.1  christos 				break;
1.1  christos 			}
1.3  christos
1.1  christos 			for (i = 0; i < buf->length; i += 2) {
1.1  christos 				uint16_t val;
1.1  christos 				char num[8];
1.3  christos
1.1  christos 				if (i != 0)
1.1  christos 					concatString(r, sep);
1.1  christos 				memcpy(&val, buf->content + i, 2);
1.1  christos 				val = ntohs(val);
1.1  christos 				snprintf(num, sizeof(num), fmt, (int)val);
1.1  christos 				appendString(r, num);
1.1  christos 			}
1.1  christos 		} else if (w == 32) {
1.1  christos 			size_t i;
1.1  christos 			char *fmt;
1.1  christos
1.1  christos 			if ((buf->length % 4) != 0)
1.1  christos 				return expr;
1.3  christos
1.1  christos 			switch (b) {
1.1  christos 			case 8:
1.1  christos 				fmt = "%llo";
1.1  christos 				break;
1.1  christos 			case 10:
1.1  christos 				fmt = "%lld";
1.1  christos 				break;
1.1  christos 			case 16:
1.1  christos             default:
1.1  christos 				fmt = "%llx";
1.1  christos 				break;
1.1  christos 			}
1.3  christos
1.1  christos 			for (i = 0; i < buf->length; i += 4) {
1.1  christos 				uint32_t val;
1.1  christos 				char num[40];
1.3  christos
1.1  christos 				if (i != 0)
1.1  christos 					concatString(r, sep);
1.1  christos 				memcpy(&val, buf->content + i, 4);
1.1  christos 				val = ntohl(val);
1.1  christos 				snprintf(num, sizeof(num), fmt,
1.1  christos 					 (long long)val);
1.1  christos 				appendString(r, num);
1.1  christos 			}
1.1  christos 		}
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		result = createString(r);
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &base->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &width->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &separator->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &buffer->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* filename */
1.1  christos 	if (mapContains(expr, "filename"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "filename": null }
1.1  christos 		 * semantic: get filename field from incoming DHCPv4 packet
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* server-name */
1.1  christos 	if (mapContains(expr, "server-name"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "server-name": null }
1.1  christos 		 * semantic: get server-name field from incoming DHCPv4 packet
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* reverse */
1.1  christos 	if (mapContains(expr, "reverse")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "reverse":
1.1  christos 		 *             { "width": <numeric_expression>,
1.1  christos 		 *               "buffer":    <data_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantic: reverse the input buffer by width chunks of bytes
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *width;
1.1  christos 		struct element *buffer;
1.1  christos 		struct element *result;
1.1  christos 		struct string *buf;
1.1  christos 		struct string *r;
1.1  christos 		int64_t w;
1.1  christos 		size_t i;
1.1  christos 		isc_boolean_t wmodified = ISC_FALSE;
1.1  christos 		isc_boolean_t bmodified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "reverse");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_MAP))
1.1  christos 			return expr;
1.1  christos 		width = mapGet(arg, "width");
1.1  christos 		if (width == NULL)
1.1  christos 			return expr;
1.1  christos 		buffer = mapGet(arg, "buffer");
1.1  christos 		if (buffer == NULL)
1.1  christos 			return expr;
1.1  christos 		width = eval_numeric_expression(width, &wmodified);
1.1  christos 		if (wmodified) {
1.1  christos 			mapRemove(arg, "width");
1.1  christos 			mapSet(arg, width, "width");
1.1  christos 		}
1.1  christos 		buffer = eval_data_expression(buffer, &bmodified);
1.1  christos 		if (bmodified) {
1.1  christos 			mapRemove(arg, "buffer");
1.1  christos 			mapSet(arg, buffer, "buffer");
1.1  christos 		}
1.1  christos
1.1  christos 		if ((width->type != ELEMENT_INTEGER) ||
1.1  christos 		    (buffer->type != ELEMENT_STRING))
1.1  christos 			return expr;
1.1  christos 		w = intValue(width);
1.1  christos 		if (w <= 0)
1.1  christos 			return expr;
1.1  christos 		buf = stringValue(buffer);
1.1  christos 		if ((buf->length % w) != 0)
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		r = allocString();
1.1  christos 		concatString(r, buf);
1.1  christos 		for (i = 0; i < buf->length; i += w) {
1.1  christos 			memcpy(r->content + i,
1.1  christos 			       buf->content + (buf->length - i - w),
1.1  christos 			       w);
1.1  christos 		}
1.1  christos 		result = createString(r);
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &width->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &buffer->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* pick-first-value */
1.1  christos 	if (mapContains(expr, "pick-first-value")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "pick-first-value":
1.1  christos 		 *             [ <data_expression>, ... ]
1.1  christos 		 *           }
1.1  christos 		 * semantic: evaluates expressions and return the first
1.1  christos 		 * not null, return null if all are null
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *result;
1.1  christos 		size_t i;
1.1  christos 		isc_boolean_t modified;
1.1  christos 		isc_boolean_t can_decide = ISC_TRUE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "pick-first-value");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_LIST))
1.1  christos 			return expr;
1.1  christos
1.1  christos 		for (i = 0; i < listSize(arg); i++) {
1.1  christos 			struct element *item;
1.1  christos
1.1  christos 			item = listGet(arg, i);
1.1  christos 			if (item == NULL)
1.1  christos 				return expr;
1.1  christos 			modified = ISC_FALSE;
1.1  christos 			item = eval_data_expression(item, &modified);
1.1  christos 			if (modified)
1.1  christos 				listRemove(arg, i);
1.1  christos 			if (!can_decide)
1.1  christos 				goto restore;
1.1  christos 			if (item->type != ELEMENT_STRING) {
1.1  christos 				can_decide = ISC_FALSE;
1.1  christos 				goto restore;
1.1  christos 			}
1.1  christos 			if (stringValue(item)->length != 0) {
1.1  christos 				*modifiedp = ISC_TRUE;
1.1  christos 				TAILQ_CONCAT(&item->comments, &expr->comments);
1.1  christos 				TAILQ_CONCAT(&item->comments, &arg->comments);
1.1  christos 				return item;
1.1  christos 			}
1.1  christos 		restore:
1.1  christos 			listSet(arg, item, i);
1.1  christos 		}
1.1  christos 		if (!can_decide)
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		result = createString(allocString());
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments,  &arg->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* host-decl-name */
1.1  christos 	if (mapContains(expr, "host-decl-name"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "host-decl-name": null }
1.1  christos 		 * semantic: return the name of the matching host
1.1  christos 		 * declaration (aka revervation in kea) or null
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* leased-address */
1.1  christos 	if (mapContains(expr, "leased-address"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "leased-address": null }
1.1  christos 		 * semantic: return the address of the assigned lease or
1.1  christos 		 * log a message
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* config-option */
1.1  christos 	if (mapContains(expr, "config-option"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "config-option":
1.1  christos 		 *             { "universe": <option_space_old>,
1.1  christos 		 *               "name":  <option_name> }
1.1  christos 		 *           }
1.1  christos 		 * semantic: get universe/code option to send
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* null */
1.1  christos 	if (mapContains(expr, "null")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "null": null }
1.1  christos 		 * semantic: return null
1.1  christos 		 */
1.1  christos 		struct element *result;
1.1  christos
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		result = createString(allocString());
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* gethostname */
1.1  christos 	if (mapContains(expr, "gethostname")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "gethostname": null }
1.1  christos 		 * semantic: return gethostname
1.1  christos 		 */
1.1  christos 		struct element *result;
1.1  christos 		char buf[300 /* >= 255 + 1 */];
1.1  christos
1.1  christos 		if (gethostname(buf, sizeof(buf)) != 0) {
1.1  christos 			debug("gethostname fails: %s", strerror(errno));
1.1  christos 			return expr;
1.1  christos 		}
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		result = createString(makeString(-1, buf));
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* v6relay */
1.1  christos 	if (mapContains(expr, "v6relay")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "v6relay":
1.1  christos 		 *             { "relay": <numeric_expression>,
1.1  christos 		 *               "relay-option" <data_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantic: relay is a counter from client, 0 is no-op,
1.1  christos 		 * 1 is the relay closest to the client, etc, option
1.1  christos 		 * is a dhcp6 option ans is return when found
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *relay;
1.1  christos 		isc_boolean_t modified = ISC_FALSE;
1.1  christos
1.1  christos 		if (local_family != AF_INET6)
1.1  christos 			return expr;
1.1  christos 		arg = mapGet(expr, "v6relay");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_MAP))
1.1  christos 			return expr;
1.1  christos 		relay = mapGet(arg, "relay");
1.1  christos 		if (relay == NULL)
1.1  christos 			return expr;
1.1  christos 		relay = eval_numeric_expression(relay, &modified);
1.1  christos 		if (modified) {
1.1  christos 			mapRemove(arg, "relay");
1.1  christos 			mapSet(arg, relay, "relay");
1.1  christos 		}
1.1  christos 		return expr;
1.1  christos 	}
1.1  christos
1.1  christos 	return expr;
1.1  christos }
1.1  christos
1.1  christos /*
1.1  christos  * numeric-expression :== EXTRACT_INT LPAREN data-expression
1.1  christos  *                                           COMMA number RPAREN |
1.1  christos  *                        NUMBER
1.1  christos  */
1.1  christos
1.1  christos struct element *
1.1  christos eval_numeric_expression(struct element *expr, isc_boolean_t *modifiedp)
1.1  christos {
1.1  christos 	/* trivial case: already done */
1.1  christos 	if (expr->type == ELEMENT_INTEGER)
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/*
1.1  christos 	 * From is_numeric_expression
1.1  christos 	 */
1.1  christos
1.1  christos 	if (expr->type != ELEMENT_MAP)
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* extract-int8 */
1.1  christos 	if (mapContains(expr, "extract-int8")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "extract-int8": <data_expression> }
1.1  christos 		 * semantic: extract from the evalkuated string buffer
1.1  christos 		 * a number
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *result;
1.1  christos 		uint8_t val = 0;
1.1  christos 		isc_boolean_t modified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "extract-int8");
1.1  christos 		if (arg == NULL)
1.1  christos 			return expr;
1.1  christos 		arg = eval_data_expression(arg, &modified);
1.1  christos 		if (modified) {
1.1  christos 			mapRemove(expr, "extract-int8");
1.1  christos 			mapSet(expr, arg, "extract-int8");
1.1  christos 		}
1.1  christos
1.1  christos 		if (arg->type != ELEMENT_STRING)
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		if (stringValue(arg)->length > 0)
1.1  christos 			val = (uint8_t) stringValue(arg)->content[0];
1.1  christos 		result = createInt(val);
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* extract-int16 */
1.1  christos 	if (mapContains(expr, "extract-int16")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "extract-int16": <data_expression> }
1.1  christos 		 * semantic: extract from the evalkuated string buffer
1.1  christos 		 * a number
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *result;
1.1  christos 		uint16_t val;
1.1  christos 		isc_boolean_t modified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "extract-int16");
1.1  christos 		if (arg == NULL)
1.1  christos 			return expr;
1.1  christos 		arg = eval_data_expression(arg, &modified);
1.1  christos 		if (modified) {
1.1  christos 			mapRemove(expr, "extract-int16");
1.1  christos 			mapSet(expr, arg, "extract-int16");
1.1  christos 		}
1.1  christos
1.1  christos 		if (arg->type != ELEMENT_STRING)
1.1  christos 			return expr;
1.1  christos 		if (stringValue(arg)->length < 2)
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		memcpy(&val, stringValue(arg)->content, 2);
1.1  christos 		val = ntohs(val);
1.1  christos 		result = createInt(val);
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* extract-int32 */
1.1  christos 	if (mapContains(expr, "extract-int32")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "extract-int32": <data_expression> }
1.1  christos 		 * semantic: extract from the evalkuated string buffer
1.1  christos 		 * a number
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *result;
1.1  christos 		uint32_t val;
1.1  christos 		isc_boolean_t modified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "extract-int32");
1.1  christos 		if (arg == NULL)
1.1  christos 			return expr;
1.1  christos 		arg = eval_data_expression(arg, &modified);
1.1  christos 		if (modified) {
1.1  christos 			mapRemove(expr, "extract-int32");
1.1  christos 			mapSet(expr, arg, "extract-int32");
1.1  christos 		}
1.1  christos
1.1  christos 		if (arg->type != ELEMENT_STRING)
1.1  christos 			return expr;
1.1  christos 		if (stringValue(arg)->length < 4)
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		memcpy(&val, stringValue(arg)->content, 4);
1.1  christos 		val = ntohl(val);
1.1  christos 		result = createInt(val);
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* const-int */
1.1  christos 	if (mapContains(expr, "const-int")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "const-int": <integer> }
1.1  christos 		 * semantic: embedded integer value
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *result;
1.1  christos
1.1  christos 		arg = mapGet(expr, "const-int");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_INTEGER))
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		result = createInt(intValue(arg));
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* lease-time */
1.1  christos 	if (mapContains(expr, "lease-time"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "lease-time": null }
1.1  christos 		 * semantic: return duration of the current lease, i.e
1.1  christos 		 * the difference between expire time and now
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	/* add */
1.1  christos 	if (mapContains(expr, "add")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "add":
1.1  christos 		 *             { "left":  <boolean_expression>,
1.1  christos 		 *               "right": <boolean_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantics: evaluate branches, return left plus right
1.1  christos 		 * branches
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *left;
1.1  christos 		struct element *right;
1.1  christos 		struct element *result;
1.1  christos 		isc_boolean_t lmodified = ISC_FALSE;
1.1  christos 		isc_boolean_t rmodified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "add");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_MAP))
1.1  christos 			return expr;
1.1  christos 		left = mapGet(arg, "left");
1.1  christos 		if (left == NULL)
1.1  christos 			return expr;
1.1  christos 		right = mapGet(arg, "right");
1.1  christos 		if (right == NULL)
1.1  christos 			return expr;
1.1  christos 		left = eval_numeric_expression(left, &lmodified);
1.1  christos 		if (lmodified) {
1.1  christos 			mapRemove(arg, "left");
1.1  christos 			mapSet(arg, left, "left");
1.1  christos 		}
1.1  christos 		right = eval_numeric_expression(right, &rmodified);
1.1  christos 		if (rmodified) {
1.1  christos 			mapRemove(arg, "right");
1.1  christos 			mapSet(arg, right, "right");
1.1  christos 		}
1.1  christos
1.1  christos 		if ((left->type != ELEMENT_INTEGER) ||
1.1  christos 		    (right->type != ELEMENT_INTEGER))
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		result = createInt(intValue(left) + intValue(right));
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &left->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &right->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* subtract */
1.1  christos 	if (mapContains(expr, "subtract")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "subtract":
1.1  christos 		 *             { "left":  <boolean_expression>,
1.1  christos 		 *               "right": <boolean_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantics: evaluate branches, return left plus right
1.1  christos 		 * branches
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *left;
1.1  christos 		struct element *right;
1.1  christos 		struct element *result;
1.1  christos 		isc_boolean_t lmodified = ISC_FALSE;
1.1  christos 		isc_boolean_t rmodified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "subtract");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_MAP))
1.1  christos 			return expr;
1.1  christos 		left = mapGet(arg, "left");
1.1  christos 		if (left == NULL)
1.1  christos 			return expr;
1.1  christos 		right = mapGet(arg, "right");
1.1  christos 		if (right == NULL)
1.1  christos 			return expr;
1.1  christos 		left = eval_numeric_expression(left, &lmodified);
1.1  christos 		if (lmodified) {
1.1  christos 			mapRemove(arg, "left");
1.1  christos 			mapSet(arg, left, "left");
1.1  christos 		}
1.1  christos 		right = eval_numeric_expression(right, &rmodified);
1.1  christos 		if (rmodified) {
1.1  christos 			mapRemove(arg, "right");
1.1  christos 			mapSet(arg, right, "right");
1.1  christos 		}
1.1  christos
1.1  christos 		if ((left->type != ELEMENT_INTEGER) ||
1.1  christos 		    (right->type != ELEMENT_INTEGER))
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		result = createInt(intValue(left) - intValue(right));
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &left->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &right->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* multiply */
1.1  christos 	if (mapContains(expr, "multiply")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "multiply":
1.1  christos 		 *             { "left":  <boolean_expression>,
1.1  christos 		 *               "right": <boolean_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantics: evaluate branches, return left plus right
1.1  christos 		 * branches
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *left;
1.1  christos 		struct element *right;
1.1  christos 		struct element *result;
1.1  christos 		isc_boolean_t lmodified = ISC_FALSE;
1.1  christos 		isc_boolean_t rmodified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "multiply");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_MAP))
1.1  christos 			return expr;
1.1  christos 		left = mapGet(arg, "left");
1.1  christos 		if (left == NULL)
1.1  christos 			return expr;
1.1  christos 		right = mapGet(arg, "right");
1.1  christos 		if (right == NULL)
1.1  christos 			return expr;
1.1  christos 		left = eval_numeric_expression(left, &lmodified);
1.1  christos 		if (lmodified) {
1.1  christos 			mapRemove(arg, "left");
1.1  christos 			mapSet(arg, left, "left");
1.1  christos 		}
1.1  christos 		right = eval_numeric_expression(right, &rmodified);
1.1  christos 		if (rmodified) {
1.1  christos 			mapRemove(arg, "right");
1.1  christos 			mapSet(arg, right, "right");
1.1  christos 		}
1.1  christos
1.1  christos 		if ((left->type != ELEMENT_INTEGER) ||
1.1  christos 		    (right->type != ELEMENT_INTEGER))
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		result = createInt(intValue(left) * intValue(right));
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &left->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &right->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* divide */
1.1  christos 	if (mapContains(expr, "divide")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "divide":
1.1  christos 		 *             { "left":  <boolean_expression>,
1.1  christos 		 *               "right": <boolean_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantics: evaluate branches, return left plus right
1.1  christos 		 * branches
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *left;
1.1  christos 		struct element *right;
1.1  christos 		struct element *result;
1.1  christos 		isc_boolean_t lmodified = ISC_FALSE;
1.1  christos 		isc_boolean_t rmodified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "divide");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_MAP))
1.1  christos 			return expr;
1.1  christos 		left = mapGet(arg, "left");
1.1  christos 		if (left == NULL)
1.1  christos 			return expr;
1.1  christos 		right = mapGet(arg, "right");
1.1  christos 		if (right == NULL)
1.1  christos 			return expr;
1.1  christos 		left = eval_numeric_expression(left, &lmodified);
1.1  christos 		if (lmodified) {
1.1  christos 			mapRemove(arg, "left");
1.1  christos 			mapSet(arg, left, "left");
1.1  christos 		}
1.1  christos 		right = eval_numeric_expression(right, &rmodified);
1.1  christos 		if (rmodified) {
1.1  christos 			mapRemove(arg, "right");
1.1  christos 			mapSet(arg, right, "right");
1.1  christos 		}
1.1  christos
1.1  christos 		if ((left->type != ELEMENT_INTEGER) ||
1.1  christos 		    (right->type != ELEMENT_INTEGER))
1.1  christos 			return expr;
1.1  christos 		if (intValue(right) == 0)
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		result = createInt(intValue(left) / intValue(right));
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &left->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &right->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* remainder */
1.1  christos 	if (mapContains(expr, "remainder")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "remainder":
1.1  christos 		 *             { "left":  <boolean_expression>,
1.1  christos 		 *               "right": <boolean_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantics: evaluate branches, return left plus right
1.1  christos 		 * branches
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *left;
1.1  christos 		struct element *right;
1.1  christos 		struct element *result;
1.1  christos 		isc_boolean_t lmodified = ISC_FALSE;
1.1  christos 		isc_boolean_t rmodified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "remainder");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_MAP))
1.1  christos 			return expr;
1.1  christos 		left = mapGet(arg, "left");
1.1  christos 		if (left == NULL)
1.1  christos 			return expr;
1.1  christos 		right = mapGet(arg, "right");
1.1  christos 		if (right == NULL)
1.1  christos 			return expr;
1.1  christos 		left = eval_numeric_expression(left, &lmodified);
1.1  christos 		if (lmodified) {
1.1  christos 			mapRemove(arg, "left");
1.1  christos 			mapSet(arg, left, "left");
1.1  christos 		}
1.1  christos 		right = eval_numeric_expression(right, &rmodified);
1.1  christos 		if (rmodified) {
1.1  christos 			mapRemove(arg, "right");
1.1  christos 			mapSet(arg, right, "right");
1.1  christos 		}
1.1  christos
1.1  christos 		if ((left->type != ELEMENT_INTEGER) ||
1.1  christos 		    (right->type != ELEMENT_INTEGER))
1.1  christos 			return expr;
1.1  christos 		if (intValue(right) == 0)
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		result = createInt(intValue(left) % intValue(right));
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &left->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &right->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* binary-and */
1.1  christos 	if (mapContains(expr, "binary-and")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "binary-and":
1.1  christos 		 *             { "left":  <boolean_expression>,
1.1  christos 		 *               "right": <boolean_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantics: evaluate branches, return left plus right
1.1  christos 		 * branches
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *left;
1.1  christos 		struct element *right;
1.1  christos 		struct element *result;
1.1  christos 		isc_boolean_t lmodified = ISC_FALSE;
1.1  christos 		isc_boolean_t rmodified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "binary-and");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_MAP))
1.1  christos 			return expr;
1.1  christos 		left = mapGet(arg, "left");
1.1  christos 		if (left == NULL)
1.1  christos 			return expr;
1.1  christos 		right = mapGet(arg, "right");
1.1  christos 		if (right == NULL)
1.1  christos 			return expr;
1.1  christos 		left = eval_numeric_expression(left, &lmodified);
1.1  christos 		if (lmodified) {
1.1  christos 			mapRemove(arg, "left");
1.1  christos 			mapSet(arg, left, "left");
1.1  christos 		}
1.1  christos 		right = eval_numeric_expression(right, &rmodified);
1.1  christos 		if (rmodified) {
1.1  christos 			mapRemove(arg, "right");
1.1  christos 			mapSet(arg, right, "right");
1.1  christos 		}
1.1  christos
1.1  christos 		if ((left->type != ELEMENT_INTEGER) ||
1.1  christos 		    (right->type != ELEMENT_INTEGER))
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		result = createInt(intValue(left) & intValue(right));
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &left->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &right->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* binary-or */
1.1  christos 	if (mapContains(expr, "binary-or")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "binary-or":
1.1  christos 		 *             { "left":  <boolean_expression>,
1.1  christos 		 *               "right": <boolean_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantics: evaluate branches, return left plus right
1.1  christos 		 * branches
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *left;
1.1  christos 		struct element *right;
1.1  christos 		struct element *result;
1.1  christos 		isc_boolean_t lmodified = ISC_FALSE;
1.1  christos 		isc_boolean_t rmodified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "binary-or");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_MAP))
1.1  christos 			return expr;
1.1  christos 		left = mapGet(arg, "left");
1.1  christos 		if (left == NULL)
1.1  christos 			return expr;
1.1  christos 		right = mapGet(arg, "right");
1.1  christos 		if (right == NULL)
1.1  christos 			return expr;
1.1  christos 		left = eval_numeric_expression(left, &lmodified);
1.1  christos 		if (lmodified) {
1.1  christos 			mapRemove(arg, "left");
1.1  christos 			mapSet(arg, left, "left");
1.1  christos 		}
1.1  christos 		right = eval_numeric_expression(right, &rmodified);
1.1  christos 		if (rmodified) {
1.1  christos 			mapRemove(arg, "right");
1.1  christos 			mapSet(arg, right, "right");
1.1  christos 		}
1.1  christos
1.1  christos 		if ((left->type != ELEMENT_INTEGER) ||
1.1  christos 		    (right->type != ELEMENT_INTEGER))
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		result = createInt(intValue(left) | intValue(right));
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &left->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &right->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* binary-xor */
1.1  christos 	if (mapContains(expr, "binary-xor")) {
1.1  christos 		/*
1.1  christos 		 * syntax := { "binary-xor":
1.1  christos 		 *             { "left":  <boolean_expression>,
1.1  christos 		 *               "right": <boolean_expression> }
1.1  christos 		 *           }
1.1  christos 		 * semantics: evaluate branches, return left plus right
1.1  christos 		 * branches
1.1  christos 		 */
1.1  christos 		struct element *arg;
1.1  christos 		struct element *left;
1.1  christos 		struct element *right;
1.1  christos 		struct element *result;
1.1  christos 		isc_boolean_t lmodified = ISC_FALSE;
1.1  christos 		isc_boolean_t rmodified = ISC_FALSE;
1.1  christos
1.1  christos 		arg = mapGet(expr, "binary-xor");
1.1  christos 		if ((arg == NULL) || (arg->type != ELEMENT_MAP))
1.1  christos 			return expr;
1.1  christos 		left = mapGet(arg, "left");
1.1  christos 		if (left == NULL)
1.1  christos 			return expr;
1.1  christos 		right = mapGet(arg, "right");
1.1  christos 		if (right == NULL)
1.1  christos 			return expr;
1.1  christos 		left = eval_numeric_expression(left, &lmodified);
1.1  christos 		if (lmodified) {
1.1  christos 			mapRemove(arg, "left");
1.1  christos 			mapSet(arg, left, "left");
1.1  christos 		}
1.1  christos 		right = eval_numeric_expression(right, &rmodified);
1.1  christos 		if (rmodified) {
1.1  christos 			mapRemove(arg, "right");
1.1  christos 			mapSet(arg, right, "right");
1.1  christos 		}
1.1  christos
1.1  christos 		if ((left->type != ELEMENT_INTEGER) ||
1.1  christos 		    (right->type != ELEMENT_INTEGER))
1.1  christos 			return expr;
1.1  christos 		*modifiedp = ISC_TRUE;
1.1  christos 		result = createInt(intValue(left) ^ intValue(right));
1.1  christos 		TAILQ_CONCAT(&result->comments, &expr->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &arg->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &left->comments);
1.1  christos 		TAILQ_CONCAT(&result->comments, &right->comments);
1.1  christos 		return result;
1.1  christos 	}
1.1  christos
1.1  christos 	/* client-state */
1.1  christos 	if (mapContains(expr, "client-state"))
1.1  christos 		/*
1.1  christos 		 * syntax := { "client-state": null }
1.1  christos 		 * semantic: return client state
1.1  christos 		 */
1.1  christos 		return expr;
1.1  christos
1.1  christos 	return expr;
1.1  christos }
1.1  christos
1.1  christos /*
1.1  christos  * Check if the two evaluated expressions are equal, not equal,
1.1  christos  * or we can't decide.
1.1  christos  */
1.1  christos
1.1  christos static struct element *
1.1  christos eval_equal_expression(struct element *left, struct element *right)
1.1  christos {
1.1  christos 	struct element *result = NULL;
1.1  christos 	isc_boolean_t val;
1.1  christos
1.1  christos 	/* in theory boolean is not possible */
1.1  christos 	if (left->type == ELEMENT_BOOLEAN) {
1.1  christos 		if (right->type == ELEMENT_BOOLEAN)
1.1  christos 			val = ISC_TF(boolValue(left) == boolValue(right));
1.1  christos 		else if (right->type == ELEMENT_MAP)
1.1  christos 			return NULL;
1.1  christos 		else
1.1  christos 			val = ISC_FALSE;
1.1  christos 	} else
1.1  christos 	/* right is boolean */
1.1  christos 	if (right->type == ELEMENT_BOOLEAN) {
1.1  christos 		if (left->type == ELEMENT_MAP)
1.1  christos 			return NULL;
1.1  christos 		else
1.1  christos 			val = ISC_FALSE;
1.1  christos 	} else
1.1  christos 	/* left is numeric literal */
1.1  christos 	if (left->type == ELEMENT_INTEGER) {
1.1  christos 		if (right->type == ELEMENT_INTEGER)
1.1  christos 			val = ISC_TF(intValue(left) == intValue(right));
1.1  christos 		else if ((right->type == ELEMENT_MAP) &&
1.1  christos 			 mapContains(right, "const-int")) {
1.1  christos 			struct element *ci;
1.1  christos
1.1  christos 			ci = mapGet(right, "const-int");
1.1  christos 			if ((ci == NULL) || (ci->type != ELEMENT_INTEGER)) {
1.1  christos 				debug("bad const-int");
1.1  christos 				return NULL;
1.1  christos 			}
1.1  christos 			val = ISC_TF(intValue(left) == intValue(ci));
1.1  christos 		} else if (right->type == ELEMENT_MAP)
1.1  christos 			return NULL;
1.1  christos 		else
1.1  christos 			val = ISC_FALSE;
1.1  christos 	} else
1.1  christos 	/* left is const-int */
1.1  christos 	if ((left->type == ELEMENT_MAP) && mapContains(left, "const-int")) {
1.1  christos 		if (right->type == ELEMENT_INTEGER) {
1.1  christos 			struct element *ci;
1.1  christos
1.1  christos 			ci = mapGet(left, "const-int");
1.1  christos 			if ((ci == NULL) || (ci->type != ELEMENT_INTEGER)) {
1.1  christos 				debug("bad const-int");
1.1  christos 				return NULL;
1.1  christos 			}
1.1  christos 			val = ISC_TF(intValue(ci) == intValue(right));
1.1  christos 		} else if ((right->type == ELEMENT_MAP) &&
1.1  christos 			   mapContains(right, "const-int")) {
1.1  christos 			struct element *lci;
1.1  christos 			struct element *rci;
1.1  christos
1.1  christos 			lci = mapGet(left, "const-int");
1.1  christos 			rci = mapGet(right, "const-int");
1.1  christos 			if ((lci == NULL) || (lci->type != ELEMENT_INTEGER) ||
1.1  christos 			    (rci == NULL) || (rci->type != ELEMENT_INTEGER)) {
1.1  christos 				debug("bad const-int");
1.1  christos 				return NULL;
1.1  christos 			}
1.1  christos 			val = ISC_TF(intValue(lci) == intValue(rci));
1.1  christos 		} else if (right->type == ELEMENT_MAP)
1.1  christos 			return NULL;
1.1  christos 		else
1.1  christos 			val = ISC_FALSE;
1.1  christos 	} else
1.1  christos 	/* right is numeric literal */
1.1  christos 	if (right->type == ELEMENT_INTEGER) {
1.1  christos 		if (left->type == ELEMENT_MAP)
1.1  christos 			return NULL;
1.1  christos 		else
1.1  christos 			val = ISC_FALSE;
1.1  christos 	} else
1.1  christos 	/* right is const-int */
1.1  christos 	if ((right->type == ELEMENT_MAP) && mapContains(right, "const-int")) {
1.1  christos 		if (left->type == ELEMENT_MAP)
1.1  christos 			return NULL;
1.1  christos 		else
1.1  christos 			val = ISC_FALSE;
1.1  christos 	} else
1.1  christos 	/* left is data literal */
1.1  christos 	if (left->type == ELEMENT_STRING) {
1.1  christos 		if (right->type == ELEMENT_STRING)
1.1  christos 			val = cmp_hexa(left, ISC_FALSE, right, ISC_FALSE);
1.1  christos 		else if ((right->type == ELEMENT_MAP) &&
1.1  christos 			 mapContains(right, "const-data")) {
1.1  christos 			struct element *cd;
1.1  christos
1.1  christos 			cd = mapGet(right, "const-data");
1.1  christos 			if ((cd == NULL) || (cd->type != ELEMENT_STRING)) {
1.1  christos 				debug("bad const-data");
1.1  christos 				return NULL;
1.1  christos 			}
1.1  christos 			val = cmp_hexa(left, ISC_FALSE, cd, ISC_TRUE);
1.1  christos 		} else if (right->type == ELEMENT_MAP)
1.1  christos 			return NULL;
1.1  christos 		else
1.1  christos 			val = ISC_FALSE;
1.1  christos 	} else
1.1  christos 	/* left is const-data */
1.1  christos 	if ((left->type == ELEMENT_MAP) && mapContains(left, "const-data")) {
1.1  christos 		if (right->type == ELEMENT_STRING) {
1.1  christos 			struct element *cd;
1.1  christos
1.1  christos 			cd = mapGet(left, "const-data");
1.1  christos 			if ((cd == NULL) || (cd->type != ELEMENT_STRING)) {
1.1  christos 				debug("bad const-data");
1.1  christos 				return NULL;
1.1  christos 			}
1.1  christos 			val = cmp_hexa(cd, ISC_TRUE, right, ISC_FALSE);
1.1  christos 		} else if ((right->type == ELEMENT_MAP) &&
1.1  christos 			   mapContains(right, "const-data")) {
1.1  christos 			struct element *lcd;
1.1  christos 			struct element *rcd;
1.1  christos
1.1  christos 			lcd = mapGet(left, "const-data");
1.1  christos 			rcd = mapGet(right, "const-data");
1.1  christos 			if ((lcd == NULL) || (lcd->type != ELEMENT_STRING) ||
1.1  christos 			    (rcd == NULL) || (rcd->type != ELEMENT_STRING)) {
1.1  christos 				debug("bad const-data");
1.1  christos 				return NULL;
1.1  christos 			}
1.1  christos 			val = cmp_hexa(lcd, ISC_TRUE, rcd, ISC_TRUE);
1.1  christos 		} else if (right->type == ELEMENT_MAP)
1.1  christos 			return NULL;
1.1  christos 		else
1.1  christos 			val = ISC_FALSE;
1.1  christos 	} else
1.1  christos 	/* right is data literal */
1.1  christos 	if (right->type == ELEMENT_STRING) {
1.1  christos 		if (left->type == ELEMENT_MAP)
1.1  christos 			return NULL;
1.1  christos 		else
1.1  christos 			val = ISC_FALSE;
1.1  christos 	} else
1.1  christos 	/* right is const-data */
1.1  christos 	if ((right->type == ELEMENT_MAP) && mapContains(right, "const-data")) {
1.1  christos 		if (left->type == ELEMENT_MAP)
1.1  christos 			return NULL;
1.1  christos 		else
1.1  christos 			val = ISC_FALSE;
1.1  christos 	} else
1.1  christos 	/* impossible cases */
1.1  christos 	if ((left->type != ELEMENT_MAP) || (right->type != ELEMENT_MAP)) {
1.1  christos 		debug("equal between unexpected %s and %s",
1.1  christos 		      type2name(left->type), type2name(right->type));
1.1  christos 		val = ISC_FALSE;
1.1  christos 	} else
1.1  christos 	/* can't decide */
1.1  christos 		return NULL;
1.1  christos
1.1  christos 	result = createBool(val);
1.1  christos 	TAILQ_CONCAT(&result->comments, &left->comments);
1.1  christos 	TAILQ_CONCAT(&result->comments, &right->comments);
1.1  christos 	return result;
1.1  christos }
1.1  christos
1.1  christos static isc_boolean_t
1.1  christos cmp_hexa(struct element *left, isc_boolean_t left_is_hexa,
1.1  christos 	 struct element *right, isc_boolean_t right_is_hexa)
1.1  christos {
1.1  christos 	struct string *sleft;
1.1  christos 	struct string *sright;
1.1  christos
1.1  christos 	/* both are not hexa */
1.1  christos 	if (!left_is_hexa && !right_is_hexa) {
1.1  christos 		sleft = stringValue(left);
1.1  christos 		sright = stringValue(right);
1.1  christos 		/* eqString() compares lengths them use memcmp() */
1.1  christos 		return eqString(sleft, sright);
1.1  christos 	}
1.1  christos
1.1  christos 	/* both are hexa */
1.1  christos 	if (left_is_hexa && right_is_hexa) {
1.1  christos 		sleft = stringValue(left);
1.1  christos 		sright = stringValue(right);
1.1  christos 		if (sleft->length != sright->length)
1.1  christos 			return ISC_FALSE;
1.1  christos 		if (sleft->length == 0) {
1.1  christos 			debug("empty const-data");
1.1  christos 			return ISC_TRUE;
1.1  christos 		}
1.1  christos 		return ISC_TF(strcasecmp(sleft->content,
1.1  christos 					 sright->content) == 0);
1.1  christos 	}
1.1  christos
1.1  christos 	/* put the hexa at left */
1.1  christos 	if (left_is_hexa) {
1.1  christos 		sleft = hexaValue(left);
1.1  christos 		sright = stringValue(right);
1.1  christos 	} else {
1.1  christos 		sleft = hexaValue(right);
1.1  christos 		sright = stringValue(left);
1.1  christos 	}
1.1  christos
1.1  christos 	/* hexa is double length */
1.1  christos 	if (sleft->length != 2 * sright->length)
1.1  christos 		return ISC_FALSE;
1.1  christos
1.1  christos 	/* build the hexa representation */
1.1  christos 	makeStringExt(sright->length, sright->content, 'X');
1.1  christos
1.1  christos 	return ISC_TF(strcasecmp(sleft->content, sright->content) == 0);
1.1  christos }
1.1  christos
1.1  christos static void
1.1  christos debug(const char* fmt, ...)
1.1  christos {
1.1  christos 	va_list list;
1.1  christos
1.1  christos 	va_start(list, fmt);
1.1  christos 	vfprintf(stderr, fmt, list);
1.1  christos 	fprintf(stderr, "\n");
1.1  christos 	va_end(list);
1.1  christos }