ntp_monitor.c   [plain text]

/*
 * ntp_monitor.c - monitor who is using the ntpd server
 */

#ifdef HAVE_CONFIG_H
# include <config.h>
#endif

#include "ntpd.h"
#include "ntp_io.h"
#include "ntp_if.h"
#include "ntp_stdlib.h"

#include <stdio.h>
#include <signal.h>
#ifdef HAVE_SYS_IOCTL_H
# include <sys/ioctl.h>
#endif

/*
 * I'm still not sure I like what I've done here.  It certainly consumes
 * memory like it is going out of style, and also may not be as low
 * overhead as I'd imagined.
 *
 * Anyway, we record statistics based on source address, mode and version
 * (for now, anyway.  Check the code).  The receive procedure calls us with
 * the incoming rbufp before it does anything else.
 *
 * Each entry is doubly linked into two lists, a hash table and a
 * most-recently-used list.  When a packet arrives it is looked up
 * in the hash table.  If found, the statistics are updated and the
 * entry relinked at the head of the MRU list.  If not found, a new
 * entry is allocated, initialized and linked into both the hash
 * table and at the head of the MRU list.
 *
 * Memory is usually allocated by grabbing a big chunk of new memory
 * and cutting it up into littler pieces.  The exception to this when we
 * hit the memory limit.  Then we free memory by grabbing entries off
 * the tail for the MRU list, unlinking from the hash table, and
 * reinitializing.
 *
 * trimmed back memory consumption ... jdg 8/94
 */

/*
 * Limits on the number of structures allocated.  This limit is picked
 * with the illicit knowlege that we can only return somewhat less
 * than 8K bytes in a mode 7 response packet, and that each structure
 * will require about 20 bytes of space in the response.
 *
 * ... I don't believe the above is true anymore ... jdg
 */
#ifndef MAXMONMEM
#define	MAXMONMEM	600	/* we allocate up to 600 structures */
#endif
#ifndef MONMEMINC
#define	MONMEMINC	40	/* allocate them 40 at a time */
#endif

/*
 * Hashing stuff
 */
#define	MON_HASH_SIZE	128
#define	MON_HASH_MASK	(MON_HASH_SIZE-1)
#define	MON_HASH(addr)	((int)(ntohl((addr)) & MON_HASH_MASK))

/*
 * Pointers to the hash table, the MRU list and the count table.  Memory
 * for the hash and count tables is only allocated if monitoring is turned on.
 */
static  struct mon_data *mon_hash[MON_HASH_SIZE];  /* array of list ptrs */
struct mon_data mon_mru_list;
struct mon_data mon_fifo_list;
/*
 * List of free structures structures, and counters of free and total
 * structures.  The free structures are linked with the hash_next field.
 */
static  struct mon_data *mon_free;      /* the free list or null if none */

static	int mon_total_mem;		/* total number of structures allocated */
static	int mon_mem_increments;		/* number of times we've called malloc() */

/*
 * Initialization state.  We may be monitoring, we may not.  If
 * we aren't, we may not even have allocated any memory yet.
 */
int mon_enabled;
static	int mon_have_memory;

static	void	mon_getmoremem	P((void));
static	void	remove_from_hash P((struct mon_data *));

/*
 * init_mon - initialize monitoring global data
 */
void
init_mon(void)
{
	/*
	 * Don't do much of anything here.  We don't allocate memory
	 * until someone explicitly starts us.
	 */
	mon_enabled = MON_OFF;
	mon_have_memory = 0;

	mon_total_mem = 0;
	mon_mem_increments = 0;
	mon_free = NULL;
	memset((char *)&mon_hash[0], 0, sizeof mon_hash);
	memset((char *)&mon_mru_list, 0, sizeof mon_mru_list);
	memset((char *)&mon_fifo_list, 0, sizeof mon_fifo_list);
}


/*
 * mon_start - start up the monitoring software
 */
void
mon_start(
	int mode
	)
{

	if (mon_enabled != MON_OFF) {
		mon_enabled |= mode;
		return;
	}
	if (mode == MON_OFF)
	    return;		/* Ooops.. */
	
	if (!mon_have_memory) {
		mon_total_mem = 0;
		mon_mem_increments = 0;
		mon_free = NULL;
		mon_getmoremem();
		mon_have_memory = 1;
	}

	mon_mru_list.mru_next = &mon_mru_list;
	mon_mru_list.mru_prev = &mon_mru_list;

	mon_fifo_list.fifo_next = &mon_fifo_list;
	mon_fifo_list.fifo_prev = &mon_fifo_list;

	mon_enabled = mode;
}


/*
 * mon_stop - stop the monitoring software
 */
void
mon_stop(
	int mode
	)
{
	register struct mon_data *md, *md_next;
	register int i;

	if (mon_enabled == MON_OFF)
	    return;
	if ((mon_enabled & mode) == 0 || mode == MON_OFF)
	    return;

	mon_enabled &= ~mode;
	if (mon_enabled != MON_OFF)
	    return;
	
	/*
	 * Put everything back on the free list
	 */
	for (i = 0; i < MON_HASH_SIZE; i++) {
		md = mon_hash[i];               /* get next list */
		mon_hash[i] = NULL;             /* zero the list head */
		while (md != NULL) {
			md_next = md->hash_next;
			md->hash_next = mon_free;
			mon_free = md;
			md = md_next;
		}
	}

	mon_mru_list.mru_next = &mon_mru_list;
	mon_mru_list.mru_prev = &mon_mru_list;

	mon_fifo_list.fifo_next = &mon_fifo_list;
	mon_fifo_list.fifo_prev = &mon_fifo_list;
}


/*
 * ntp_monitor - record stats about this packet
 */
void
ntp_monitor(
	struct recvbuf *rbufp
	)
{
	register struct pkt *pkt;
	register struct mon_data *md;
	register u_long netnum;
	register int hash;
	register int mode;

	if (mon_enabled == MON_OFF)
	    return;

	pkt = &rbufp->recv_pkt;
	netnum = NSRCADR(&rbufp->recv_srcadr);
	hash = MON_HASH(netnum);
	mode = PKT_MODE(pkt->li_vn_mode);

	md = mon_hash[hash];
	while (md != NULL) {
		if (md->rmtadr == netnum && 
		    /* ?? md->interface == rbufp->dstadr && ?? */
		    md->mode == (u_char)mode) {
			md->lasttime = current_time;
			md->count++;
			md->version = PKT_VERSION(pkt->li_vn_mode);
			md->rmtport = NSRCPORT(&rbufp->recv_srcadr);

			/*
			 * Shuffle him to the head of the
			 * mru list.  What a crock.
			 */
			md->mru_next->mru_prev = md->mru_prev;
			md->mru_prev->mru_next = md->mru_next;
			md->mru_next = mon_mru_list.mru_next;
			md->mru_prev = &mon_mru_list;
			mon_mru_list.mru_next->mru_prev = md;
			mon_mru_list.mru_next = md;

			return;
		}
		md = md->hash_next;
	}

	/*
	 * If we got here, this is the first we've heard of this
	 * guy.  Get him some memory, either from the free list
	 * or from the tail of the MRU list.
	 */
	if (mon_free == NULL && mon_total_mem >= MAXMONMEM) {
		/*
		 * Get it from MRU list
		 */
		md = mon_mru_list.mru_prev;
		md->mru_prev->mru_next = &mon_mru_list;
		mon_mru_list.mru_prev = md->mru_prev;

		remove_from_hash(md);

		/*
		 * Get it from FIFO list
		 */
		md->fifo_prev->fifo_next = md->fifo_next;
		md->fifo_next->fifo_prev = md->fifo_prev;
		
	} else {
		if (mon_free == NULL)           /* if free list empty */
		    mon_getmoremem();       /* then get more */
		md = mon_free;
		mon_free = md->hash_next;
	}

	/*
	 * Got one, initialize it
	 */
	md->lasttime = md->firsttime = current_time;
	md->lastdrop = 0;
	md->count = 1;
	md->rmtadr = netnum;
	md->rmtport = NSRCPORT(&rbufp->recv_srcadr);
	md->mode = (u_char) mode;
	md->version = PKT_VERSION(pkt->li_vn_mode);
	md->interface = rbufp->dstadr;
	md->cast_flags = ((rbufp->dstadr->flags & INT_MULTICAST) &&
			  rbufp->fd == md->interface->fd) ? MDF_MCAST: rbufp->fd ==
		md->interface->bfd ? MDF_BCAST : MDF_UCAST;

	/*
	 * Drop him into front of the hash table.
	 * Also put him on top of the MRU list
	 * and at bottom of FIFO list
	 */

	md->hash_next = mon_hash[hash];
	mon_hash[hash] = md;

	md->mru_next = mon_mru_list.mru_next;
	md->mru_prev = &mon_mru_list;
	mon_mru_list.mru_next->mru_prev = md;
	mon_mru_list.mru_next = md;

	md->fifo_prev = mon_fifo_list.fifo_prev;
	md->fifo_next = &mon_fifo_list;
	mon_fifo_list.fifo_prev->fifo_next = md;
	mon_fifo_list.fifo_prev = md;
}


/*
 * mon_getmoremem - get more memory and put it on the free list
 */
static void
mon_getmoremem(void)
{
	register struct mon_data *md;
	register int i;
	struct mon_data *freedata;      /* 'old' free list (null) */

	md = (struct mon_data *)emalloc(MONMEMINC * sizeof(struct mon_data));
	freedata = mon_free;
	mon_free = md;

	for (i = 0; i < (MONMEMINC-1); i++) {
		md->hash_next = (md + 1);
		md++;
	}

	/*
	 * md now points at the last.  Link in the rest of the chain.
	 */
	md->hash_next = freedata;

	mon_total_mem += MONMEMINC;
	mon_mem_increments++;
}

static void
remove_from_hash(
	struct mon_data *md
	)
{
	register int hash;
	register struct mon_data *md_prev;

	hash = MON_HASH(md->rmtadr);
	if (mon_hash[hash] == md) {
		mon_hash[hash] = md->hash_next;
	} else {
		md_prev = mon_hash[hash];
		while (md_prev->hash_next != md) {
			md_prev = md_prev->hash_next;
			if (md_prev == NULL) {
				/* logic error */
				return;
			}
		}
		md_prev->hash_next = md->hash_next;
	}
}