lsof_4.85/lsof_4.85_src/lib/rnmh.c - nest-learning-thermostat/5.1/lsof - Git at Google

 /*
  * rnmh.c -- functions to read BSD format name cache information from a
  *	     kernel hash table
  */


 /*
  * Copyright 1997 Purdue Research Foundation, West Lafayette, Indiana
  * 47907.  All rights reserved.
  *
  * Written by Victor A. Abell
  *
  * This software is not subject to any license of the American Telephone
  * and Telegraph Company or the Regents of the University of California.
  *
  * Permission is granted to anyone to use this software for any purpose on
  * any computer system, and to alter it and redistribute it freely, subject
  * to the following restrictions:
  *
  * 1. Neither the authors nor Purdue University are responsible for any
  *    consequences of the use of this software.
  *
  * 2. The origin of this software must not be misrepresented, either by
  *    explicit claim or by omission.  Credit to the authors and Purdue
  *    University must appear in documentation and sources.
  *
  * 3. Altered versions must be plainly marked as such, and must not be
  *    misrepresented as being the original software.
  *
  * 4. This notice may not be removed or altered.
  */


 #include "../machine.h"

 #if	defined(HASNCACHE) && defined(USE_LIB_RNMH)

 # if	!defined(lint)
 static char copyright[] =
 "@(#) Copyright 1997 Purdue Research Foundation.\nAll rights reserved.\n";
 static char *rcsid = "$Id: rnmh.c,v 1.13 2008/10/21 16:13:23 abe Exp $";
 # endif	/* !defined(lint) */

 #include "../lsof.h"


 /*
  * rnmh.c - read BSD format hashed kernel name cache
  */

 /*
  * The caller must:
  *
  *	#include the relevant header file -- e.g., <sys/namei.h>.
  *
  *	Define X_NCACHE as the nickname for the kernel cache hash tables
  *	address.
  *
  *	Define X_NCSIZE as the nickname for the size of the kernel cache has
  *	table length.
  *
  *	Define NCACHE_NO_ROOT if the calling dialect doesn't support
  *	the locating of the root node of a file system.
  *
  *	Define the name of the name cache structure -- e.g.,
  *
  *		#define NCACHE	<structure name>
  *
  *
  *	Define the following casts, if they differ from the defaults:
  *
  *		NCACHE_SZ_CAST	case for X_NCSIZE (default unsigned long)
  *
  *	Define the names of these elements of struct NCACHE:
  *
  *		#define NCACHE_NM	<name>
  *		#define NCACHE_NXT	<link to next entry>
  *		#define NCACHE_NODEADDR	<node address>
  *		#define NCACHE_PARADDR	<parent node address>
  *
  *	Optionally define:
  *
  *		#define NCACHE_NMLEN	<name length>
  *
  *	Optionally define *both*:
  *
  *		#define	NCACHE_NODEID	<node capability ID>
  *		#define	NCACHE_PARID	<parent node capability ID>
  *
  * The caller may need to:
  *
  *	Define this prototype for ncache_load():
  *
  *		_PROTOTYPE(static void ncache_load,(void));
  *
  *	Define NCACHE_VROOT to be the value of the flag that signifies that
  *	the vnode is the root of its file system.
  *
  *		E.g., for BSDI >= 5:
  *
  *			#define NCACHE_VROOT	VV_ROOT
  *
  *	If not defined, NCACHE_VROOT is defined as "VROOT".
  *
  *	Define VNODE_VFLAG if the vnode's flag member's name isn't v_flag.
  *
  * Note: if NCHNAMLEN is defined, the name is assumed to be in
  * NCACHE_NM[NCHNAMLEN]; if it isn't defined, the name is assumed to be in an
  * extension that begins at NCACHE_NM[0].
  *
  * Note: if NCACHE_NMLEN is not defined, then NCACHE_NM must be a pointer to
  * a kernel allocated, NUL-terminated, string buffer.
  */


 /*
  * Casts
  */

 # if	!defined(NCACHE_NC_CAST)
 #define	NCACHE_SZ_CAST  unsigned long
 # endif	/* !defined(NCACHE_NC_CAST) */


 /*
  * Flags
  */

 # if	!defined(NCACHE_NMLEN)
 #undef	NCHNAMLEN
 # endif	/* !defined(NCACHE_NMLEN) */

 # if	!defined(NCACHE_VROOT)
 #define	NCACHE_VROOT	VROOT		/* vnode is root of its file system */
 # endif	/* !defined(NCACHE_VROOT) */

 # if	!defined(VNODE_VFLAG)
 #define	VNODE_VFLAG	v_flag
 # endif	/* !defined(VNODE_VFLAG) */


 /*
  * Local static values
  */

 static int Mch;				/* name cache hash mask */

 struct l_nch {
 	KA_T na;			/* node address */
 	KA_T pa;			/* parent node address */
 	struct l_nch *pla;		/* parent local node address */
 	int nl;				/* name length */
 	struct l_nch *next;		/* next entry */

 # if	defined(NCACHE_NODEID)
 	unsigned long id;		/* capability ID */
 	unsigned long did;		/* parent capability ID */
 # endif	/* defined(NCACHE_NODEID) */

 # if	defined(NCHNAMLEN)
 	char nm[NCHNAMLEN + 1];		/* name */
 # else	/* !defined(NCHNAMLEN) */
 	char nm[1];			/* variable length name */
 # endif	/* defined(NCHNAMLEN) */

 };

 static struct l_nch *Ncache = (struct l_nch *)NULL;
 					/* the head of the local name cache */
 static struct l_nch **Nchash = (struct l_nch **)NULL;
 					/* Ncache hash pointers */

 # if	defined(NCACHE_NODEID)
 #define ncachehash(i,n)		Nchash+(((((int)(n)>>2)+((int)(i)))*31415)&Mch)
 _PROTOTYPE(static struct l_nch *ncache_addr,(unsigned long i, KA_T na));
 # else	/* !defined(NCACHE_NODEID) */
 #define ncachehash(n)		Nchash+((((int)(n)>>2)*31415)&Mch)
 _PROTOTYPE(static struct l_nch *ncache_addr,(KA_T na));
 # endif	/* defined(NCACHE_NODEID) */

 # if	!defined(NCACHE_NO_ROOT)
 _PROTOTYPE(static int ncache_isroot,(KA_T na, char *cp));
 # endif	/* !defined(NCACHE_NO_ROOT) */


 /*
  * ncache_addr() - look up a node's local ncache address
  */

 static struct l_nch *

 # if	defined(NCACHE_NODEID)
 ncache_addr(i, na)
 	unsigned long i;		/* node's capability ID */
 # else	/* !defined(NCACHE_NODEID) */
 ncache_addr(na)
 # endif	/* defined(NCACHE_NODEID) */

 	KA_T na;			/* node's address */
 {
 	struct l_nch **hp;

 # if	defined(NCACHE_NODEID)
 	for (hp = ncachehash(i, na); *hp; hp++)
 # else	/* !defined(NCACHE_NODEID) */
 	for (hp = ncachehash(na); *hp; hp++)
 # endif	/* defined(NCACHE_NODEID) */

 	{

 # if	defined(NCACHE_NODEID)
 	    if ((*hp)->id == i && (*hp)->na == na)
 # else	/* !defined(NCACHE_NODEID) */
 	    if ((*hp)->na == na)
 # endif	/* defined(NCACHE_NODEID) */

 		return(*hp);
 	}
 	return((struct l_nch *)NULL);
 }


 # if	!defined(NCACHE_NO_ROOT)
 /*
  * ncache_isroot() - is head of name cache path a file system root?
  */

 static int
 ncache_isroot(na, cp)
 	KA_T na;			/* kernel node address */
 	char *cp;			/* partial path */
 {
 	char buf[MAXPATHLEN];
 	int i;
 	MALLOC_S len;
 	struct mounts *mtp;
 	static int nca = 0;
 	static int ncn = 0;
 	static KA_T *nc = (KA_T *)NULL;
 	struct stat sb;
 	struct vnode v;

 	if (!na)
 	    return(0);
 /*
  * Search the root vnode cache.
  */
 	for (i = 0; i < ncn; i++) {
 	    if (na == nc[i])
 		return(1);
 	}
 /*
  * Read the vnode and see if it's a VDIR node with the NCACHE_VROOT flag set.
  * If it is, then the path is complete.
  *
  * If it isn't, and if the file has an inode number, search the mount table
  * and see if the file system's inode number is known.  If it is, form the
  * possible full path, safely stat() it, and see if it's inode number matches
  * the one we have for this file.  If it does, then the path is complete.
  */
 	if (kread((KA_T)na, (char *)&v, sizeof(v))
 	||  v.v_type != VDIR || !(v.VNODE_VFLAG & NCACHE_VROOT)) {

 	/*
 	 * The vnode tests failed.  Try the inode tests.
 	 */
 	    if (Lf->inp_ty != 1 || !Lf->inode
 	    ||  !Lf->fsdir || (len = strlen(Lf->fsdir)) < 1)
 		return(0);
 	    if ((len + 1 + strlen(cp) + 1) > sizeof(buf))
 		return(0);
 	    for (mtp = readmnt(); mtp; mtp = mtp->next) {
 		if (!mtp->dir || !mtp->inode)
 		    continue;
 		if (strcmp(Lf->fsdir, mtp->dir) == 0)
 		    break;
 	    }
 	    if (!mtp)
 		return(0);
 	    (void) strcpy(buf, Lf->fsdir);
 	    if (buf[len - 1] != '/')
 		buf[len++] = '/';
 	    (void) strcpy(&buf[len], cp);
 	    if (statsafely(buf, &sb) != 0
 	    ||  (unsigned long)sb.st_ino != Lf->inode)
 		return(0);
 	}
 /*
  * Add the node address to the root node cache.
  */
 	if (ncn >= nca) {
 	    if (!nca) {
 		len = (MALLOC_S)(10 * sizeof(KA_T));
 		nc = (KA_T *)malloc(len);
 	    } else {
 		len = (MALLOC_S)((nca + 10) * sizeof(KA_T));
 		nc = (KA_T *)realloc(nc, len);
 	    }
 	    if (!nc) {
 		(void) fprintf(stderr, "%s: no space for root node table\n",
 		    Pn);
 		Exit(1);
 	    }
 	    nca += 10;
 	}
 	nc[ncn++] = na;
 	return(1);
 }
 # endif	/* !defined(NCACHE_NO_ROOT) */


 /*
  * ncache_load() - load the kernel's name cache
  */

 void
 ncache_load()
 {
 	struct NCACHE c;
 	struct l_nch **hp, *ln;
 	KA_T ka, knx;
 	static struct NCACHE **khp = (struct namecache **)NULL;
 	static int khpl = 0;
 	NCACHE_SZ_CAST khsz;
 	unsigned long kx;
 	static struct l_nch *lc = (struct l_nch *)NULL;
 	static int lcl = 0;
 	int len, lim, n, nch, nchl, nlcl;
 	char tbuf[32];
 	KA_T v;

 # if	!defined(NCHNAMLEN)
 	int cin = sizeof(c.NCACHE_NM);
 	KA_T nmo = (KA_T)offsetof(struct NCACHE, NCACHE_NM);
 # endif	/* !defined(NCHNAMLEN) */

 # if	!defined(NCACHE_NMLEN)
 	char nbf[MAXPATHLEN + 1];
 	int nbfl = (int)(sizeof(nbf) - 1);
 	KA_T nk;
 	char *np;
 	int rl;

 	nbf[nbfl] = '\0';
 # endif	/* !defined(NCACHE_NMLEN) */

 	if (!Fncache)
 	    return;
 /*
  * Free previously allocated space.
  */
 	for (lc = Ncache; lc; lc = ln) {
 	    ln = lc->next;
 	    (void) free((FREE_P *)lc);
 	}
 	Ncache = (struct l_nch *)NULL;
 	if (Nchash)
 	    (void) free((FREE_P *)Nchash);
 	Nchash = (struct l_nch **)NULL;
 /*
  * Get kernel cache hash table size
  */
 	v = (KA_T)0;
 	if (get_Nl_value(X_NCSIZE, (struct drive_Nl *)NULL, &v) < 0
 	||  !v
 	||  kread((KA_T)v, (char *)&khsz, sizeof(khsz)))
 	{
 	    if (!Fwarn)
 		(void) fprintf(stderr,
 		    "%s: WARNING: can't read name cache hash size: %s\n",
 		    Pn, print_kptr(v, (char *)NULL, 0));
 	    return;
 	}
 	if (khsz < 1) {
 	    if (!Fwarn)
 		(void) fprintf(stderr,
 		    "%s: WARNING: name cache hash size length error: %#lx\n",
 		    Pn, khsz);
 	    return;
 	}
 /*
  * Get kernel cache hash table address.
  */
 	ka = (KA_T)0;
 	v = (KA_T)0;
 	if (get_Nl_value(X_NCACHE, (struct drive_Nl *)NULL, &v) < 0
 	||  !v
 	||  kread((KA_T)v, (char *)&ka, sizeof(ka))
 	||  !ka)
 	{
 	    if (!Fwarn)
 		(void) fprintf(stderr,
 		    "%s: WARNING: unusable name cache hash pointer: (%s)=%s\n",
 	            Pn, print_kptr(v, tbuf, sizeof(tbuf)),
 		    print_kptr(ka, (char *)NULL, 0));
 	    return;
 	}
 /*
  * Allocate space for the hash table pointers and read them.
  */
 	len = (MALLOC_S)(khsz * sizeof(struct NCACHE *));
 	if (len > khpl) {
 	    if (khp)
 		khp = (struct NCACHE **)realloc((MALLOC_P *)khp, len);
 	    else
 		khp = (struct NCACHE **)malloc(len);
 	    if (!khp) {
 		(void) fprintf(stderr,
 		    "%s: can't allocate %d bytes for name cache hash table\n",
 		    Pn, len);
 		Exit(1);
 	    }
 	    khpl = len;
 	}
 	if (kread((KA_T)ka, (char *)khp, len)) {
 	    (void) fprintf(stderr,
 		"%s: can't read name cache hash pointers from: %s\n",
 		Pn, print_kptr(ka, (char *)NULL, 0));
 	    return;
 	}
 /*
  * Process the kernel's name cache hash table buckets.
  */
 	lim = khsz * 10;
 	for (kx = nch = 0; kx < khsz; kx++) {

 	/*
 	 * Loop through the entries for a hash bucket.
 	 */
 	    for (ka = (KA_T)khp[kx], n = 0; ka; ka = knx, n++) {
 		if (n > lim) {
 		    if (!Fwarn)
 			(void) fprintf(stderr,
 			    "%s: WARNING: name cache hash chain too long\n",
 			    Pn);
 		    break;
 		}
 		if (kread(ka, (char *)&c, sizeof(c)))
 		    break;
 		knx = (KA_T)c.NCACHE_NXT;
 		if (!c.NCACHE_NODEADDR)
 		    continue;

 # if	defined(NCACHE_NMLEN)
 		if ((len = c.NCACHE_NMLEN) < 1)
 		    continue;
 # else	/* !defined(NCACHE_NMLEN) */
 	    /*
 	     * If it's possible to read the first four characters of the name,
 	     * do so and check for "." and "..".
 	     */
 		if (!c.NCACHE_NM
 		||  kread((KA_T)c.NCACHE_NM, nbf, 4))
 		    continue;
 		if (nbf[0] == '.') {
 		    if (!nbf[1]
 		    ||  ((nbf[1] == '.') && !nbf[2]))
 			continue;
 		}
 	   /*
 	    * Read the rest of the name, 32 characters at a time, until a NUL
 	    * character has been read or nbfl characters have been read.
 	    */
 		nbf[4] = '\0';
 		if ((len = (int)strlen(nbf)) < 4) {
 		    if (!len)
 			continue;
 		} else {
 		    for (np = &nbf[4]; len < nbfl; np += rl) {
 			if ((rl = nbfl - len) > 32) {
 			    rl = 32;
 			    nbf[len + rl] = '\0';
 			}
 			nk = (KA_T)((char *)c.NCACHE_NM + len);
 			if (kread(nk, np, rl)) {
 			    rl = -1;
 			    break;
 			}
 			rl = (int)strlen(np);
 			len += rl;
 			if (rl < 32)
 			    break;
 		    }
 		    if (rl < 0)
 			continue;
 		}
 # endif	/* defined(NCACHE_NMLEN) */

 	    /*
 	     * Allocate a cache entry long enough to contain the name and
 	     * move the name to it.
 	     */

 # if	defined(NCHNAMLEN)
 		if (len > NCHNAMLEN)
 		    continue;
 		if (len < 3 && c.NCACHE_NM[0] == '.') {
 		    if (len == 1 || (len == 2 && c.NCACHE_NM[1] == '.'))
 			continue;
 		}
 		if ((nlcl = sizeof(struct l_nch)) > lcl)
 # else	/* !defined(NCHNAMLEN) */
 		if ((nlcl = sizeof(struct l_nch) + len) > lcl)
 # endif	/* defined(NCHNAMLEN) */

 		{
 		    if (lc)
 			lc = (struct l_nch *)realloc(lc, nlcl);
 		    else
 			lc = (struct l_nch *)malloc(nlcl);
 		    if (!lc) {
 			(void) fprintf(stderr,
 			    "%s: can't allocate %d local name cache bytes\n",
 			    Pn, nlcl);
 			Exit(1);
 		    }
 		    lcl = nlcl;
 		}

 # if	defined(NCHNAMLEN)
 		(void) strncpy(lc->nm, c.NCACHE_NM, len);
 # else	/* !defined(NCHNAMLEN) */
 #  if	defined(NCACHE_NMLEN)
 		if ((len < 3) && (cin > 1)) {

 		/*
 		 * If this is a one or two character name, and if NCACHE_NM[]
 		 * in c has room for at least two characters, check for "."
 		 * and ".." first, ignoring this entry if the name is either.
 		 */
 		    if (len < 3 && c.NCACHE_NM[0] == '.') {
 			if (len == 1 || (len == 2 && c.NCACHE_NM[1] == '.'))
 			    continue;
 		    }
 		}
 		if (len > cin) {

 		/*
 		 * If not all (possibly not any, depending on the value in
 		 * cin) of the name has yet been read to lc->nm[], read it
 		 * or the rest of it.  If it wasn't possible before to check
 		 * for "." or "..", do that. too.
 		 */
 		    if (cin > 0)
 			(void) strncpy(lc->nm, c.NCACHE_NM, cin);
 		    if (kread(ka + (KA_T)(nmo + cin), &lc->nm[cin], len - cin))
 			continue;
 		    if ((cin < 2) && (len < 3) && (lc->nm[0] == '.')) {
 			if (len == 1 || (len == 2 && lc->nm[1] == '.'))
 			    continue;
 		    }
 		} else
 		    (void) strncpy(lc->nm, c.NCACHE_NM, len);
 #  else	/* !defined(NCACHE_NMLEN) */
 		(void) strncpy(lc->nm, nbf, len);
 #  endif	/* defined(NCACHE_NMLEN) */

 # endif	/* defined(NCHNAMLEN) */
 		lc->nm[len] = '\0';
 	    /*
 	     * Complete the new local cache entry and link it to the previous
 	     * local cache chain.
 	     */
 		lc->next = Ncache;
 		Ncache = lc;
 		lc->na = (KA_T)c.NCACHE_NODEADDR;
 		lc->nl = len;
 		lc->pa = (KA_T)c.NCACHE_PARADDR;
 		lc->pla = (struct l_nch *)NULL;

 # if	defined(NCACHE_NODEID)
 		lc->id = c.NCACHE_NODEID;
 		lc->did = c.NCACHE_PARID;
 # endif	/* defined(NCACHE_NODEID) */

 		lcl = 0;
 		lc = (struct l_nch *)NULL;
 		nch++;
 	    }
 	}
 /*
  * Reduce memory usage, as required.
  */
 	if (!RptTm) {
 	    (void) free((FREE_P *)khp);
 	    khp = (struct NCACHE **)NULL;
 	    khpl = 0;
 	}
 	if (nch < 1) {
 	    if (!Fwarn)
 		(void) fprintf(stderr,
 		    "%s: WARNING: unusable name cache size: %d\n", Pn, nch);
 	    return;
 	}
 /*
  * Build a hash table to locate Ncache entries.
  */
 	for (nchl = 1; nchl < nch; nchl <<= 1)
 	    ;
 	nchl <<= 1;
 	Mch = nchl - 1;
 	len = nchl + nch;
 	if (!(Nchash = (struct l_nch **)calloc(len, sizeof(struct l_nch *)))) {
 	    if (!Fwarn)
 		(void) fprintf(stderr,
 		    "%s: no space for %d local name cache hash pointers\n",
 		    Pn, len);
 	    Exit(1);
 	}
 	for (lc = Ncache; lc; lc = lc->next) {

 # if	defined(NCACHE_NODEID)
 	    for (hp = ncachehash(lc->id, lc->na),
 # else	/* !defined(NCACHE_NODEID) */
 	    for (hp = ncachehash(lc->na),
 # endif	/* defined(NCACHE_NODEID) */

 		    n = 1; *hp; hp++)
 		{
 		if ((*hp)->na == lc->na && strcmp((*hp)->nm, lc->nm) == 0) {
 		    n = 0;
 		    break;
 		}
 	    }
 	    if (n)
 		*hp = lc;
 	    else
 		lc->pa = (KA_T)0;
 	}
 /*
  * Make a final pass through the local cache and convert parent node
  * addresses to local name cache pointers.
  */
 	for (lc = Ncache; lc; lc = lc->next) {
 	    if (!lc->pa)
 		continue;

 # if	defined(NCACHE_NODEID)
 	    lc->pla = ncache_addr(lc->did, lc->pa);
 # else	/* !defined(NCACHE_NODEID) */
 	    lc->pla = ncache_addr(lc->pa);
 # endif	/* defined(NCACHE_NODEID) */

 	}
 }


 /*
  * ncache_lookup() - look up a node's name in the kernel's name cache
  */

 char *
 ncache_lookup(buf, blen, fp)
 	char *buf;			/* receiving name buffer */
 	int blen;			/* receiving buffer length */
 	int *fp;			/* full path reply */
 {
 	char *cp = buf;
 	struct l_nch *lc;
 	struct mounts *mtp;
 	int nl, rlen;

 	*cp = '\0';
 	*fp = 0;

 # if	defined(HASFSINO)
 /*
  * If the entry has an inode number that matches the inode number of the
  * file system mount point, return an empty path reply.  That tells the
  * caller to print the file system mount point name only.
  */
 	if ((Lf->inp_ty == 1) && Lf->fs_ino && (Lf->inode == Lf->fs_ino))
 	    return(cp);
 # endif	/* defined(HASFSINO) */

 /*
  * Look up the name cache entry for the node address.
  */

 # if	defined(NCACHE_NODEID)
 	if (!Nchash || !(lc = ncache_addr(Lf->id, Lf->na)))
 # else	/* !defined(NCACHE_NODEID) */
 	if (!Nchash || !(lc = ncache_addr(Lf->na)))
 # endif	/* defined(NCACHE_NODEID) */

 	{

 	/*
 	 * If the node has no cache entry, see if it's the mount
 	 * point of a known file system.
 	 */
 	    if (!Lf->fsdir || !Lf->dev_def || Lf->inp_ty != 1)
 		return((char *)NULL);
 	    for (mtp = readmnt(); mtp; mtp = mtp->next) {
 		if (!mtp->dir || !mtp->inode)
 		    continue;
 		if (Lf->dev == mtp->dev
 		&&  mtp->inode == Lf->inode
 		&&  (strcmp(mtp->dir, Lf->fsdir) == 0))
 		    return(cp);
 	    }
 	    return((char *)NULL);
 	}
 /*
  * Start the path assembly.
  */
 	if ((nl = lc->nl) > (blen - 1))
 	    return((char *)NULL);
 	cp = buf + blen - nl - 1;
 	rlen = blen - nl - 1;
 	(void) strcpy(cp, lc->nm);
 /*
  * Look up the name cache entries that are parents of the node address.
  * Quit when:
  *
  *	there's no parent;
  *	the name length is too large to fit in the receiving buffer.
  */
 	for (;;) {
 	    if (!lc->pla) {

 #  if	!defined(NCACHE_NO_ROOT)
 		if (ncache_isroot(lc->pa, cp))
 		    *fp = 1;
 #  endif	/* !defined(NCACHE_NO_ROOT) */

 		break;
 	    }
 	    lc = lc->pla;
 	    if (((nl = lc->nl) + 1) > rlen)
 		break;
 	    *(cp - 1) = '/';
 	    cp--;
 	    rlen--;
 	    (void) strncpy((cp - nl), lc->nm, nl);
 	    cp -= nl;
 	    rlen -= nl;
 	}
 	return(cp);
 }
 #else	/* !defined(HASNCACHE) || !defined(USE_LIB_RNMH) */
 char rnmh_d1[] = "d"; char *rnmh_d2 = rnmh_d1;
 #endif	/* defined(HASNCACHE) && defined(USE_LIB_RNMH) */
	/*
	* rnmh.c -- functions to read BSD format name cache information from a
	* kernel hash table
	*/


	/*
	* Copyright 1997 Purdue Research Foundation, West Lafayette, Indiana
	* 47907. All rights reserved.
	*
	* Written by Victor A. Abell
	*
	* This software is not subject to any license of the American Telephone
	* and Telegraph Company or the Regents of the University of California.
	*
	* Permission is granted to anyone to use this software for any purpose on
	* any computer system, and to alter it and redistribute it freely, subject
	* to the following restrictions:
	*
	* 1. Neither the authors nor Purdue University are responsible for any
	* consequences of the use of this software.
	*
	* 2. The origin of this software must not be misrepresented, either by
	* explicit claim or by omission. Credit to the authors and Purdue
	* University must appear in documentation and sources.
	*
	* 3. Altered versions must be plainly marked as such, and must not be
	* misrepresented as being the original software.
	*
	* 4. This notice may not be removed or altered.
	*/


	#include "../machine.h"

	#if defined(HASNCACHE) && defined(USE_LIB_RNMH)

	# if !defined(lint)
	static char copyright[] =
	"@(#) Copyright 1997 Purdue Research Foundation.\nAll rights reserved.\n";
	static char *rcsid = "$Id: rnmh.c,v 1.13 2008/10/21 16:13:23 abe Exp $";
	# endif /* !defined(lint) */

	#include "../lsof.h"


	/*
	* rnmh.c - read BSD format hashed kernel name cache
	*/

	/*
	* The caller must:
	*
	* #include the relevant header file -- e.g., <sys/namei.h>.
	*
	* Define X_NCACHE as the nickname for the kernel cache hash tables
	* address.
	*
	* Define X_NCSIZE as the nickname for the size of the kernel cache has
	* table length.
	*
	* Define NCACHE_NO_ROOT if the calling dialect doesn't support
	* the locating of the root node of a file system.
	*
	* Define the name of the name cache structure -- e.g.,
	*
	* #define NCACHE <structure name>
	*
	*
	* Define the following casts, if they differ from the defaults:
	*
	* NCACHE_SZ_CAST case for X_NCSIZE (default unsigned long)
	*
	* Define the names of these elements of struct NCACHE:
	*
	* #define NCACHE_NM <name>
	* #define NCACHE_NXT <link to next entry>
	* #define NCACHE_NODEADDR <node address>
	* #define NCACHE_PARADDR <parent node address>
	*
	* Optionally define:
	*
	* #define NCACHE_NMLEN <name length>
	*
	* Optionally define both:
	*
	* #define NCACHE_NODEID <node capability ID>
	* #define NCACHE_PARID <parent node capability ID>
	*
	* The caller may need to:
	*
	* Define this prototype for ncache_load():
	*
	* _PROTOTYPE(static void ncache_load,(void));
	*
	* Define NCACHE_VROOT to be the value of the flag that signifies that
	* the vnode is the root of its file system.
	*
	* E.g., for BSDI >= 5:
	*
	* #define NCACHE_VROOT VV_ROOT
	*
	* If not defined, NCACHE_VROOT is defined as "VROOT".
	*
	* Define VNODE_VFLAG if the vnode's flag member's name isn't v_flag.
	*
	* Note: if NCHNAMLEN is defined, the name is assumed to be in
	* NCACHE_NM[NCHNAMLEN]; if it isn't defined, the name is assumed to be in an
	* extension that begins at NCACHE_NM[0].
	*
	* Note: if NCACHE_NMLEN is not defined, then NCACHE_NM must be a pointer to
	* a kernel allocated, NUL-terminated, string buffer.
	*/


	/*
	* Casts
	*/

	# if !defined(NCACHE_NC_CAST)
	#define NCACHE_SZ_CAST unsigned long
	# endif /* !defined(NCACHE_NC_CAST) */


	/*
	* Flags
	*/

	# if !defined(NCACHE_NMLEN)
	#undef NCHNAMLEN
	# endif /* !defined(NCACHE_NMLEN) */

	# if !defined(NCACHE_VROOT)
	#define NCACHE_VROOT VROOT /* vnode is root of its file system */
	# endif /* !defined(NCACHE_VROOT) */

	# if !defined(VNODE_VFLAG)
	#define VNODE_VFLAG v_flag
	# endif /* !defined(VNODE_VFLAG) */


	/*
	* Local static values
	*/

	static int Mch; /* name cache hash mask */

	struct l_nch {
	KA_T na; /* node address */
	KA_T pa; /* parent node address */
	struct l_nch pla; / parent local node address */
	int nl; /* name length */
	struct l_nch next; / next entry */

	# if defined(NCACHE_NODEID)
	unsigned long id; /* capability ID */
	unsigned long did; /* parent capability ID */
	# endif /* defined(NCACHE_NODEID) */

	# if defined(NCHNAMLEN)
	char nm[NCHNAMLEN + 1]; /* name */
	# else /* !defined(NCHNAMLEN) */
	char nm[1]; /* variable length name */
	# endif /* defined(NCHNAMLEN) */

	};

	static struct l_nch Ncache = (struct l_nch )NULL;
	/* the head of the local name cache */
	static struct l_nch Nchash = (struct l_nch )NULL;
	/* Ncache hash pointers */

	# if defined(NCACHE_NODEID)
	#define ncachehash(i,n) Nchash+(((((int)(n)>>2)+((int)(i)))*31415)&Mch)
	_PROTOTYPE(static struct l_nch *ncache_addr,(unsigned long i, KA_T na));
	# else /* !defined(NCACHE_NODEID) */
	#define ncachehash(n) Nchash+((((int)(n)>>2)*31415)&Mch)
	_PROTOTYPE(static struct l_nch *ncache_addr,(KA_T na));
	# endif /* defined(NCACHE_NODEID) */

	# if !defined(NCACHE_NO_ROOT)
	_PROTOTYPE(static int ncache_isroot,(KA_T na, char *cp));
	# endif /* !defined(NCACHE_NO_ROOT) */


	/*
	* ncache_addr() - look up a node's local ncache address
	*/

	static struct l_nch *

	# if defined(NCACHE_NODEID)
	ncache_addr(i, na)
	unsigned long i; /* node's capability ID */
	# else /* !defined(NCACHE_NODEID) */
	ncache_addr(na)
	# endif /* defined(NCACHE_NODEID) */

	KA_T na; /* node's address */
	{
	struct l_nch **hp;

	# if defined(NCACHE_NODEID)
	for (hp = ncachehash(i, na); *hp; hp++)
	# else /* !defined(NCACHE_NODEID) */
	for (hp = ncachehash(na); *hp; hp++)
	# endif /* defined(NCACHE_NODEID) */

	{

	# if defined(NCACHE_NODEID)
	if ((hp)->id == i && (hp)->na == na)
	# else /* !defined(NCACHE_NODEID) */
	if ((*hp)->na == na)
	# endif /* defined(NCACHE_NODEID) */

	return(*hp);
	}
	return((struct l_nch *)NULL);
	}


	# if !defined(NCACHE_NO_ROOT)
	/*
	* ncache_isroot() - is head of name cache path a file system root?
	*/

	static int
	ncache_isroot(na, cp)
	KA_T na; /* kernel node address */
	char cp; / partial path */
	{
	char buf[MAXPATHLEN];
	int i;
	MALLOC_S len;
	struct mounts *mtp;
	static int nca = 0;
	static int ncn = 0;
	static KA_T nc = (KA_T )NULL;
	struct stat sb;
	struct vnode v;

	if (!na)
	return(0);
	/*
	* Search the root vnode cache.
	*/
	for (i = 0; i < ncn; i++) {
	if (na == nc[i])
	return(1);
	}
	/*
	* Read the vnode and see if it's a VDIR node with the NCACHE_VROOT flag set.
	* If it is, then the path is complete.
	*
	* If it isn't, and if the file has an inode number, search the mount table
	* and see if the file system's inode number is known. If it is, form the
	* possible full path, safely stat() it, and see if it's inode number matches
	* the one we have for this file. If it does, then the path is complete.
	*/
	if (kread((KA_T)na, (char *)&v, sizeof(v))
	\|\| v.v_type != VDIR \|\| !(v.VNODE_VFLAG & NCACHE_VROOT)) {

	/*
	* The vnode tests failed. Try the inode tests.
	*/
	if (Lf->inp_ty != 1 \|\| !Lf->inode
	\|\| !Lf->fsdir \|\| (len = strlen(Lf->fsdir)) < 1)
	return(0);
	if ((len + 1 + strlen(cp) + 1) > sizeof(buf))
	return(0);
	for (mtp = readmnt(); mtp; mtp = mtp->next) {
	if (!mtp->dir \|\| !mtp->inode)
	continue;
	if (strcmp(Lf->fsdir, mtp->dir) == 0)
	break;
	}
	if (!mtp)
	return(0);
	(void) strcpy(buf, Lf->fsdir);
	if (buf[len - 1] != '/')
	buf[len++] = '/';
	(void) strcpy(&buf[len], cp);
	if (statsafely(buf, &sb) != 0
	\|\| (unsigned long)sb.st_ino != Lf->inode)
	return(0);
	}
	/*
	* Add the node address to the root node cache.
	*/
	if (ncn >= nca) {
	if (!nca) {
	len = (MALLOC_S)(10 * sizeof(KA_T));
	nc = (KA_T *)malloc(len);
	} else {
	len = (MALLOC_S)((nca + 10) * sizeof(KA_T));
	nc = (KA_T *)realloc(nc, len);
	}
	if (!nc) {
	(void) fprintf(stderr, "%s: no space for root node table\n",
	Pn);
	Exit(1);
	}
	nca += 10;
	}
	nc[ncn++] = na;
	return(1);
	}
	# endif /* !defined(NCACHE_NO_ROOT) */


	/*
	* ncache_load() - load the kernel's name cache
	*/

	void
	ncache_load()
	{
	struct NCACHE c;
	struct l_nch *hp, ln;
	KA_T ka, knx;
	static struct NCACHE khp = (struct namecache )NULL;
	static int khpl = 0;
	NCACHE_SZ_CAST khsz;
	unsigned long kx;
	static struct l_nch lc = (struct l_nch )NULL;
	static int lcl = 0;
	int len, lim, n, nch, nchl, nlcl;
	char tbuf[32];
	KA_T v;

	# if !defined(NCHNAMLEN)
	int cin = sizeof(c.NCACHE_NM);
	KA_T nmo = (KA_T)offsetof(struct NCACHE, NCACHE_NM);
	# endif /* !defined(NCHNAMLEN) */

	# if !defined(NCACHE_NMLEN)
	char nbf[MAXPATHLEN + 1];
	int nbfl = (int)(sizeof(nbf) - 1);
	KA_T nk;
	char *np;
	int rl;

	nbf[nbfl] = '\0';
	# endif /* !defined(NCACHE_NMLEN) */

	if (!Fncache)
	return;
	/*
	* Free previously allocated space.
	*/
	for (lc = Ncache; lc; lc = ln) {
	ln = lc->next;
	(void) free((FREE_P *)lc);
	}
	Ncache = (struct l_nch *)NULL;
	if (Nchash)
	(void) free((FREE_P *)Nchash);
	Nchash = (struct l_nch **)NULL;
	/*
	* Get kernel cache hash table size
	*/
	v = (KA_T)0;
	if (get_Nl_value(X_NCSIZE, (struct drive_Nl *)NULL, &v) < 0
	\|\| !v
	\|\| kread((KA_T)v, (char *)&khsz, sizeof(khsz)))
	{
	if (!Fwarn)
	(void) fprintf(stderr,
	"%s: WARNING: can't read name cache hash size: %s\n",
	Pn, print_kptr(v, (char *)NULL, 0));
	return;
	}
	if (khsz < 1) {
	if (!Fwarn)
	(void) fprintf(stderr,
	"%s: WARNING: name cache hash size length error: %#lx\n",
	Pn, khsz);
	return;
	}
	/*
	* Get kernel cache hash table address.
	*/
	ka = (KA_T)0;
	v = (KA_T)0;
	if (get_Nl_value(X_NCACHE, (struct drive_Nl *)NULL, &v) < 0
	\|\| !v
	\|\| kread((KA_T)v, (char *)&ka, sizeof(ka))
	\|\| !ka)
	{
	if (!Fwarn)
	(void) fprintf(stderr,
	"%s: WARNING: unusable name cache hash pointer: (%s)=%s\n",
	Pn, print_kptr(v, tbuf, sizeof(tbuf)),
	print_kptr(ka, (char *)NULL, 0));
	return;
	}
	/*
	* Allocate space for the hash table pointers and read them.
	*/
	len = (MALLOC_S)(khsz * sizeof(struct NCACHE *));
	if (len > khpl) {
	if (khp)
	khp = (struct NCACHE *)realloc((MALLOC_P )khp, len);
	else
	khp = (struct NCACHE **)malloc(len);
	if (!khp) {
	(void) fprintf(stderr,
	"%s: can't allocate %d bytes for name cache hash table\n",
	Pn, len);
	Exit(1);
	}
	khpl = len;
	}
	if (kread((KA_T)ka, (char *)khp, len)) {
	(void) fprintf(stderr,
	"%s: can't read name cache hash pointers from: %s\n",
	Pn, print_kptr(ka, (char *)NULL, 0));
	return;
	}
	/*
	* Process the kernel's name cache hash table buckets.
	*/
	lim = khsz * 10;
	for (kx = nch = 0; kx < khsz; kx++) {

	/*
	* Loop through the entries for a hash bucket.
	*/
	for (ka = (KA_T)khp[kx], n = 0; ka; ka = knx, n++) {
	if (n > lim) {
	if (!Fwarn)
	(void) fprintf(stderr,
	"%s: WARNING: name cache hash chain too long\n",
	Pn);
	break;
	}
	if (kread(ka, (char *)&c, sizeof(c)))
	break;
	knx = (KA_T)c.NCACHE_NXT;
	if (!c.NCACHE_NODEADDR)
	continue;

	# if defined(NCACHE_NMLEN)
	if ((len = c.NCACHE_NMLEN) < 1)
	continue;
	# else /* !defined(NCACHE_NMLEN) */
	/*
	* If it's possible to read the first four characters of the name,
	* do so and check for "." and "..".
	*/
	if (!c.NCACHE_NM
	\|\| kread((KA_T)c.NCACHE_NM, nbf, 4))
	continue;
	if (nbf[0] == '.') {
	if (!nbf[1]
	\|\| ((nbf[1] == '.') && !nbf[2]))
	continue;
	}
	/*
	* Read the rest of the name, 32 characters at a time, until a NUL
	* character has been read or nbfl characters have been read.
	*/
	nbf[4] = '\0';
	if ((len = (int)strlen(nbf)) < 4) {
	if (!len)
	continue;
	} else {
	for (np = &nbf[4]; len < nbfl; np += rl) {
	if ((rl = nbfl - len) > 32) {
	rl = 32;
	nbf[len + rl] = '\0';
	}
	nk = (KA_T)((char *)c.NCACHE_NM + len);
	if (kread(nk, np, rl)) {
	rl = -1;
	break;
	}
	rl = (int)strlen(np);
	len += rl;
	if (rl < 32)
	break;
	}
	if (rl < 0)
	continue;
	}
	# endif /* defined(NCACHE_NMLEN) */

	/*
	* Allocate a cache entry long enough to contain the name and
	* move the name to it.
	*/

	# if defined(NCHNAMLEN)
	if (len > NCHNAMLEN)
	continue;
	if (len < 3 && c.NCACHE_NM[0] == '.') {
	if (len == 1 \|\| (len == 2 && c.NCACHE_NM[1] == '.'))
	continue;
	}
	if ((nlcl = sizeof(struct l_nch)) > lcl)
	# else /* !defined(NCHNAMLEN) */
	if ((nlcl = sizeof(struct l_nch) + len) > lcl)
	# endif /* defined(NCHNAMLEN) */

	{
	if (lc)
	lc = (struct l_nch *)realloc(lc, nlcl);
	else
	lc = (struct l_nch *)malloc(nlcl);
	if (!lc) {
	(void) fprintf(stderr,
	"%s: can't allocate %d local name cache bytes\n",
	Pn, nlcl);
	Exit(1);
	}
	lcl = nlcl;
	}

	# if defined(NCHNAMLEN)
	(void) strncpy(lc->nm, c.NCACHE_NM, len);
	# else /* !defined(NCHNAMLEN) */
	# if defined(NCACHE_NMLEN)
	if ((len < 3) && (cin > 1)) {

	/*
	* If this is a one or two character name, and if NCACHE_NM[]
	* in c has room for at least two characters, check for "."
	* and ".." first, ignoring this entry if the name is either.
	*/
	if (len < 3 && c.NCACHE_NM[0] == '.') {
	if (len == 1 \|\| (len == 2 && c.NCACHE_NM[1] == '.'))
	continue;
	}
	}
	if (len > cin) {

	/*
	* If not all (possibly not any, depending on the value in
	* cin) of the name has yet been read to lc->nm[], read it
	* or the rest of it. If it wasn't possible before to check
	* for "." or "..", do that. too.
	*/
	if (cin > 0)
	(void) strncpy(lc->nm, c.NCACHE_NM, cin);
	if (kread(ka + (KA_T)(nmo + cin), &lc->nm[cin], len - cin))
	continue;
	if ((cin < 2) && (len < 3) && (lc->nm[0] == '.')) {
	if (len == 1 \|\| (len == 2 && lc->nm[1] == '.'))
	continue;
	}
	} else
	(void) strncpy(lc->nm, c.NCACHE_NM, len);
	# else /* !defined(NCACHE_NMLEN) */
	(void) strncpy(lc->nm, nbf, len);
	# endif /* defined(NCACHE_NMLEN) */

	# endif /* defined(NCHNAMLEN) */
	lc->nm[len] = '\0';
	/*
	* Complete the new local cache entry and link it to the previous
	* local cache chain.
	*/
	lc->next = Ncache;
	Ncache = lc;
	lc->na = (KA_T)c.NCACHE_NODEADDR;
	lc->nl = len;
	lc->pa = (KA_T)c.NCACHE_PARADDR;
	lc->pla = (struct l_nch *)NULL;

	# if defined(NCACHE_NODEID)
	lc->id = c.NCACHE_NODEID;
	lc->did = c.NCACHE_PARID;
	# endif /* defined(NCACHE_NODEID) */

	lcl = 0;
	lc = (struct l_nch *)NULL;
	nch++;
	}
	}
	/*
	* Reduce memory usage, as required.
	*/
	if (!RptTm) {
	(void) free((FREE_P *)khp);
	khp = (struct NCACHE **)NULL;
	khpl = 0;
	}
	if (nch < 1) {
	if (!Fwarn)
	(void) fprintf(stderr,
	"%s: WARNING: unusable name cache size: %d\n", Pn, nch);
	return;
	}
	/*
	* Build a hash table to locate Ncache entries.
	*/
	for (nchl = 1; nchl < nch; nchl <<= 1)
	;
	nchl <<= 1;
	Mch = nchl - 1;
	len = nchl + nch;
	if (!(Nchash = (struct l_nch *)calloc(len, sizeof(struct l_nch )))) {
	if (!Fwarn)
	(void) fprintf(stderr,
	"%s: no space for %d local name cache hash pointers\n",
	Pn, len);
	Exit(1);
	}
	for (lc = Ncache; lc; lc = lc->next) {

	# if defined(NCACHE_NODEID)
	for (hp = ncachehash(lc->id, lc->na),
	# else /* !defined(NCACHE_NODEID) */
	for (hp = ncachehash(lc->na),
	# endif /* defined(NCACHE_NODEID) */

	n = 1; *hp; hp++)
	{
	if ((hp)->na == lc->na && strcmp((hp)->nm, lc->nm) == 0) {
	n = 0;
	break;
	}
	}
	if (n)
	*hp = lc;
	else
	lc->pa = (KA_T)0;
	}
	/*
	* Make a final pass through the local cache and convert parent node
	* addresses to local name cache pointers.
	*/
	for (lc = Ncache; lc; lc = lc->next) {
	if (!lc->pa)
	continue;

	# if defined(NCACHE_NODEID)
	lc->pla = ncache_addr(lc->did, lc->pa);
	# else /* !defined(NCACHE_NODEID) */
	lc->pla = ncache_addr(lc->pa);
	# endif /* defined(NCACHE_NODEID) */

	}
	}


	/*
	* ncache_lookup() - look up a node's name in the kernel's name cache
	*/

	char *
	ncache_lookup(buf, blen, fp)
	char buf; / receiving name buffer */
	int blen; /* receiving buffer length */
	int fp; / full path reply */
	{
	char *cp = buf;
	struct l_nch *lc;
	struct mounts *mtp;
	int nl, rlen;

	*cp = '\0';
	*fp = 0;

	# if defined(HASFSINO)
	/*
	* If the entry has an inode number that matches the inode number of the
	* file system mount point, return an empty path reply. That tells the
	* caller to print the file system mount point name only.
	*/
	if ((Lf->inp_ty == 1) && Lf->fs_ino && (Lf->inode == Lf->fs_ino))
	return(cp);
	# endif /* defined(HASFSINO) */

	/*
	* Look up the name cache entry for the node address.
	*/

	# if defined(NCACHE_NODEID)
	if (!Nchash \|\| !(lc = ncache_addr(Lf->id, Lf->na)))
	# else /* !defined(NCACHE_NODEID) */
	if (!Nchash \|\| !(lc = ncache_addr(Lf->na)))
	# endif /* defined(NCACHE_NODEID) */

	{

	/*
	* If the node has no cache entry, see if it's the mount
	* point of a known file system.
	*/
	if (!Lf->fsdir \|\| !Lf->dev_def \|\| Lf->inp_ty != 1)
	return((char *)NULL);
	for (mtp = readmnt(); mtp; mtp = mtp->next) {
	if (!mtp->dir \|\| !mtp->inode)
	continue;
	if (Lf->dev == mtp->dev
	&& mtp->inode == Lf->inode
	&& (strcmp(mtp->dir, Lf->fsdir) == 0))
	return(cp);
	}
	return((char *)NULL);
	}
	/*
	* Start the path assembly.
	*/
	if ((nl = lc->nl) > (blen - 1))
	return((char *)NULL);
	cp = buf + blen - nl - 1;
	rlen = blen - nl - 1;
	(void) strcpy(cp, lc->nm);
	/*
	* Look up the name cache entries that are parents of the node address.
	* Quit when:
	*
	* there's no parent;
	* the name length is too large to fit in the receiving buffer.
	*/
	for (;;) {
	if (!lc->pla) {

	# if !defined(NCACHE_NO_ROOT)
	if (ncache_isroot(lc->pa, cp))
	*fp = 1;
	# endif /* !defined(NCACHE_NO_ROOT) */

	break;
	}
	lc = lc->pla;
	if (((nl = lc->nl) + 1) > rlen)
	break;
	*(cp - 1) = '/';
	cp--;
	rlen--;
	(void) strncpy((cp - nl), lc->nm, nl);
	cp -= nl;
	rlen -= nl;
	}
	return(cp);
	}
	#else /* !defined(HASNCACHE) \|\| !defined(USE_LIB_RNMH) */
	char rnmh_d1[] = "d"; char *rnmh_d2 = rnmh_d1;
	#endif /* defined(HASNCACHE) && defined(USE_LIB_RNMH) */