[NETFILTER]: x_tables: add xt_time match

#ifndef _XT_TIME_H

#define _XT_TIME_H 1

struct xt_time_info {

	u_int32_t date_start;

	u_int32_t date_stop;

	u_int32_t daytime_start;

	u_int32_t daytime_stop;

	u_int32_t monthdays_match;

	u_int8_t weekdays_match;

	u_int8_t flags;

};

enum {

	/* Match against local time (instead of UTC) */

	XT_TIME_LOCAL_TZ = 1 << 0,

	/* Shortcuts */

	XT_TIME_ALL_MONTHDAYS = 0xFFFFFFFE,

	XT_TIME_ALL_WEEKDAYS  = 0xFE,

	XT_TIME_MIN_DAYTIME   = 0,

	XT_TIME_MAX_DAYTIME   = 24 * 60 * 60 - 1,

};

#endif /* _XT_TIME_H */

	  To compile it as a module, choose M here.  If unsure, say N.

config NETFILTER_XT_MATCH_TIME

	tristate '"time" match support'

	depends on NETFILTER_XTABLES

	---help---

	  This option adds a "time" match, which allows you to match based on

	  the packet arrival time (at the machine which netfilter is running)

	  on) or departure time/date (for locally generated packets).

	  If you say Y here, try `iptables -m time --help` for

	  more information.

	  If you want to compile it as a module, say M here.

	  If unsure, say N.

config NETFILTER_XT_MATCH_U32

	tristate '"u32" match support'

	depends on NETFILTER_XTABLES

obj-$(CONFIG_NETFILTER_XT_MATCH_STATE) += xt_state.o

obj-$(CONFIG_NETFILTER_XT_MATCH_STATISTIC) += xt_statistic.o

obj-$(CONFIG_NETFILTER_XT_MATCH_STRING) += xt_string.o

obj-$(CONFIG_NETFILTER_XT_MATCH_TIME) += xt_time.o

obj-$(CONFIG_NETFILTER_XT_MATCH_TCPMSS) += xt_tcpmss.o

obj-$(CONFIG_NETFILTER_XT_MATCH_PHYSDEV) += xt_physdev.o

obj-$(CONFIG_NETFILTER_XT_MATCH_U32) += xt_u32.o

/*

 *	xt_time

 *	Copyright © Jan Engelhardt <jengelh@computergmbh.de>, 2007

 *

 *	based on ipt_time by Fabrice MARIE <fabrice@netfilter.org>

 *	This is a module which is used for time matching

 *	It is using some modified code from dietlibc (localtime() function)

 *	that you can find at http://www.fefe.de/dietlibc/

 *	This file is distributed under the terms of the GNU General Public

 *	License (GPL). Copies of the GPL can be obtained from gnu.org/gpl.

 */

#include <linux/ktime.h>

#include <linux/module.h>

#include <linux/skbuff.h>

#include <linux/types.h>

#include <linux/netfilter/x_tables.h>

#include <linux/netfilter/xt_time.h>

struct xtm {

	u_int8_t month;    /* (1-12) */

	u_int8_t monthday; /* (1-31) */

	u_int8_t weekday;  /* (1-7) */

	u_int8_t hour;     /* (0-23) */

	u_int8_t minute;   /* (0-59) */

	u_int8_t second;   /* (0-59) */

	unsigned int dse;

};

extern struct timezone sys_tz; /* ouch */

static const u_int16_t days_since_year[] = {

	0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334,

};

static const u_int16_t days_since_leapyear[] = {

	0, 31, 60, 91, 121, 152, 182, 213, 244, 274, 305, 335,

};

/*

 * Since time progresses forward, it is best to organize this array in reverse,

 * to minimize lookup time.

 */

enum {

	DSE_FIRST = 2039,

};

static const u_int16_t days_since_epoch[] = {

	/* 2039 - 2030 */

	25202, 24837, 24472, 24106, 23741, 23376, 23011, 22645, 22280, 21915,

	/* 2029 - 2020 */

	21550, 21184, 20819, 20454, 20089, 19723, 19358, 18993, 18628, 18262,

	/* 2019 - 2010 */

	17897, 17532, 17167, 16801, 16436, 16071, 15706, 15340, 14975, 14610,

	/* 2009 - 2000 */

	14245, 13879, 13514, 13149, 12784, 12418, 12053, 11688, 11323, 10957,

	/* 1999 - 1990 */

	10592, 10227, 9862, 9496, 9131, 8766, 8401, 8035, 7670, 7305,

	/* 1989 - 1980 */

	6940, 6574, 6209, 5844, 5479, 5113, 4748, 4383, 4018, 3652,

	/* 1979 - 1970 */

	3287, 2922, 2557, 2191, 1826, 1461, 1096, 730, 365, 0,

};

static inline bool is_leap(unsigned int y)

{

	return y % 4 == 0 && (y % 100 != 0 || y % 400 == 0);

}

/*

 * Each network packet has a (nano)seconds-since-the-epoch (SSTE) timestamp.

 * Since we match against days and daytime, the SSTE value needs to be

 * computed back into human-readable dates.

 *

 * This is done in three separate functions so that the most expensive

 * calculations are done last, in case a "simple match" can be found earlier.

 */

static inline unsigned int localtime_1(struct xtm *r, time_t time)

{

	unsigned int v, w;

	/* Each day has 86400s, so finding the hour/minute is actually easy. */

	v         = time % 86400;

	r->second = v % 60;

	w         = v / 60;

	r->minute = w % 60;

	r->hour   = w / 60;

	return v;

}

static inline void localtime_2(struct xtm *r, time_t time)

{

	/*

	 * Here comes the rest (weekday, monthday). First, divide the SSTE

	 * by seconds-per-day to get the number of _days_ since the epoch.

	 */

	r->dse = time / 86400;

	/* 1970-01-01 (w=0) was a Thursday (4). */

	r->weekday = (4 + r->dse) % 7;

}

static void localtime_3(struct xtm *r, time_t time)

{

	unsigned int year, i, w = r->dse;

	/*

	 * In each year, a certain number of days-since-the-epoch have passed.

	 * Find the year that is closest to said days.

	 *

	 * Consider, for example, w=21612 (2029-03-04). Loop will abort on

	 * dse[i] <= w, which happens when dse[i] == 21550. This implies

	 * year == 2009. w will then be 62.

	 */

	for (i = 0, year = DSE_FIRST; days_since_epoch[i] > w;

	    ++i, --year)

		/* just loop */;

	w -= days_since_epoch[i];

	/*

	 * By now we have the current year, and the day of the year.

	 * r->yearday = w;

	 *

	 * On to finding the month (like above). In each month, a certain

	 * number of days-since-New Year have passed, and find the closest

	 * one.

	 *

	 * Consider w=62 (in a non-leap year). Loop will abort on

	 * dsy[i] < w, which happens when dsy[i] == 31+28 (i == 2).

	 * Concludes i == 2, i.e. 3rd month => March.

	 *

	 * (A different approach to use would be to subtract a monthlength

	 * from w repeatedly while counting.)

	 */

	if (is_leap(year)) {

		for (i = ARRAY_SIZE(days_since_leapyear) - 1;

		    i > 0 && days_since_year[i] > w; --i)

			/* just loop */;

	} else {

		for (i = ARRAY_SIZE(days_since_year) - 1;

		    i > 0 && days_since_year[i] > w; --i)

			/* just loop */;

	}

	r->month    = i + 1;

	r->monthday = w - days_since_year[i] + 1;

	return;

}

static bool xt_time_match(const struct sk_buff *skb,

                          const struct net_device *in,

                          const struct net_device *out,

                          const struct xt_match *match, const void *matchinfo,

                          int offset, unsigned int protoff, bool *hotdrop)

{

	const struct xt_time_info *info = matchinfo;

	unsigned int packet_time;

	struct xtm current_time;

	s64 stamp;

	/*

	 * We cannot use get_seconds() instead of __net_timestamp() here.

	 * Suppose you have two rules:

	 * 	1. match before 13:00

	 * 	2. match after 13:00

	 * If you match against processing time (get_seconds) it

	 * may happen that the same packet matches both rules if

	 * it arrived at the right moment before 13:00.

	 */

	if (skb->tstamp.tv64 == 0)

		__net_timestamp((struct sk_buff *)skb);

	stamp = skb->tstamp.tv64;

	do_div(stamp, NSEC_PER_SEC);

	if (info->flags & XT_TIME_LOCAL_TZ)

		/* Adjust for local timezone */

		stamp -= 60 * sys_tz.tz_minuteswest;

	/*

	 * xt_time will match when _all_ of the following hold:

	 *   - 'now' is in the global time range date_start..date_end

	 *   - 'now' is in the monthday mask

	 *   - 'now' is in the weekday mask

	 *   - 'now' is in the daytime range time_start..time_end

	 * (and by default, libxt_time will set these so as to match)

	 */

	if (stamp < info->date_start || stamp > info->date_stop)

		return false;

	packet_time = localtime_1(&current_time, stamp);

	if (info->daytime_start < info->daytime_stop) {

		if (packet_time < info->daytime_start ||

		    packet_time > info->daytime_stop)

			return false;

	} else {

		if (packet_time < info->daytime_start &&

		    packet_time > info->daytime_stop)

			return false;

	}

	localtime_2(&current_time, stamp);

	if (!(info->weekdays_match & (1 << current_time.weekday)))

		return false;

	/* Do not spend time computing monthday if all days match anyway */

	if (info->monthdays_match != XT_TIME_ALL_MONTHDAYS) {

		localtime_3(&current_time, stamp);

		if (!(info->monthdays_match & (1 << current_time.monthday)))

			return false;

	}

	return true;

}

static bool xt_time_check(const char *tablename, const void *ip,

                          const struct xt_match *match, void *matchinfo,

                          unsigned int hook_mask)

{

	struct xt_time_info *info = matchinfo;

	if (info->daytime_start > XT_TIME_MAX_DAYTIME ||

	    info->daytime_stop > XT_TIME_MAX_DAYTIME) {

		printk(KERN_WARNING "xt_time: invalid argument - start or "

		       "stop time greater than 23:59:59\n");

		return false;

	}

	return true;

}

static struct xt_match xt_time_reg[] __read_mostly = {

	{

		.name       = "time",

		.family     = AF_INET,

		.match      = xt_time_match,

		.matchsize  = sizeof(struct xt_time_info),

		.checkentry = xt_time_check,

		.me         = THIS_MODULE,

	},

	{

		.name       = "time",

		.family     = AF_INET6,

		.match      = xt_time_match,

		.matchsize  = sizeof(struct xt_time_info),

		.checkentry = xt_time_check,

		.me         = THIS_MODULE,

	},

};

static int __init xt_time_init(void)

{

	return xt_register_matches(xt_time_reg, ARRAY_SIZE(xt_time_reg));

}

static void __exit xt_time_exit(void)

{

	xt_unregister_matches(xt_time_reg, ARRAY_SIZE(xt_time_reg));

}

module_init(xt_time_init);

module_exit(xt_time_exit);

MODULE_AUTHOR("Jan Engelhardt <jengelh@computergmbh.de>");

MODULE_DESCRIPTION("netfilter time match");

MODULE_LICENSE("GPL");

MODULE_ALIAS("ipt_time");

MODULE_ALIAS("ip6t_time");