sys/kern/uipc_mbuf.c

1.181.2.6  pgoyette /*	$NetBSD: uipc_mbuf.c,v 1.181.2.6 2018/05/21 04:36:15 pgoyette Exp $	*/
     1.42   thorpej
    1.177      maxv /*
     1.53   thorpej  * Copyright (c) 1999, 2001 The NetBSD Foundation, Inc.
     1.42   thorpej  * All rights reserved.
     1.42   thorpej  *
     1.42   thorpej  * This code is derived from software contributed to The NetBSD Foundation
     1.42   thorpej  * by Jason R. Thorpe of the Numerical Aerospace Simulation Facility,
     1.42   thorpej  * NASA Ames Research Center.
     1.42   thorpej  *
     1.42   thorpej  * Redistribution and use in source and binary forms, with or without
     1.42   thorpej  * modification, are permitted provided that the following conditions
     1.42   thorpej  * are met:
     1.42   thorpej  * 1. Redistributions of source code must retain the above copyright
     1.42   thorpej  *    notice, this list of conditions and the following disclaimer.
     1.42   thorpej  * 2. Redistributions in binary form must reproduce the above copyright
     1.42   thorpej  *    notice, this list of conditions and the following disclaimer in the
     1.42   thorpej  *    documentation and/or other materials provided with the distribution.
     1.42   thorpej  *
     1.42   thorpej  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
     1.42   thorpej  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
     1.42   thorpej  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
     1.42   thorpej  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
     1.42   thorpej  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
     1.42   thorpej  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
     1.42   thorpej  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
     1.42   thorpej  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
     1.42   thorpej  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
     1.42   thorpej  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
     1.42   thorpej  * POSSIBILITY OF SUCH DAMAGE.
     1.42   thorpej  */
     1.10       cgd
      1.1       cgd /*
      1.9   mycroft  * Copyright (c) 1982, 1986, 1988, 1991, 1993
      1.9   mycroft  *	The Regents of the University of California.  All rights reserved.
      1.1       cgd  *
      1.1       cgd  * Redistribution and use in source and binary forms, with or without
      1.1       cgd  * modification, are permitted provided that the following conditions
      1.1       cgd  * are met:
      1.1       cgd  * 1. Redistributions of source code must retain the above copyright
      1.1       cgd  *    notice, this list of conditions and the following disclaimer.
      1.1       cgd  * 2. Redistributions in binary form must reproduce the above copyright
      1.1       cgd  *    notice, this list of conditions and the following disclaimer in the
      1.1       cgd  *    documentation and/or other materials provided with the distribution.
     1.70       agc  * 3. Neither the name of the University nor the names of its contributors
      1.1       cgd  *    may be used to endorse or promote products derived from this software
      1.1       cgd  *    without specific prior written permission.
      1.1       cgd  *
      1.1       cgd  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
      1.1       cgd  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
      1.1       cgd  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
      1.1       cgd  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
      1.1       cgd  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
      1.1       cgd  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
      1.1       cgd  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
      1.1       cgd  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
      1.1       cgd  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
      1.1       cgd  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
      1.1       cgd  * SUCH DAMAGE.
      1.1       cgd  *
     1.26      fvdl  *	@(#)uipc_mbuf.c	8.4 (Berkeley) 2/14/95
      1.1       cgd  */
     1.56     lukem
     1.56     lukem #include <sys/cdefs.h>
1.181.2.6  pgoyette __KERNEL_RCSID(0, "$NetBSD: uipc_mbuf.c,v 1.181.2.6 2018/05/21 04:36:15 pgoyette Exp $");
     1.69    martin
    1.163     pooka #ifdef _KERNEL_OPT
     1.69    martin #include "opt_mbuftrace.h"
    1.133     joerg #include "opt_nmbclusters.h"
    1.105      yamt #include "opt_ddb.h"
    1.163     pooka #endif
     1.24       mrg
      1.6   mycroft #include <sys/param.h>
      1.6   mycroft #include <sys/systm.h>
    1.125      yamt #include <sys/atomic.h>
    1.124      yamt #include <sys/cpu.h>
      1.6   mycroft #include <sys/proc.h>
      1.6   mycroft #include <sys/mbuf.h>
      1.6   mycroft #include <sys/kernel.h>
      1.6   mycroft #include <sys/syslog.h>
      1.6   mycroft #include <sys/domain.h>
      1.6   mycroft #include <sys/protosw.h>
    1.124      yamt #include <sys/percpu.h>
     1.28   thorpej #include <sys/pool.h>
     1.27      matt #include <sys/socket.h>
     1.55    simonb #include <sys/sysctl.h>
     1.55    simonb
     1.27      matt #include <net/if.h>
     1.14  christos
    1.122        ad pool_cache_t mb_cache;	/* mbuf cache */
    1.122        ad pool_cache_t mcl_cache;	/* mbuf cluster cache */
     1.53   thorpej
     1.18   thorpej struct mbstat mbstat;
1.181.2.5  pgoyette int max_linkhdr;
1.181.2.5  pgoyette int max_protohdr;
1.181.2.5  pgoyette int max_hdr;
1.181.2.5  pgoyette int max_datalen;
     1.18   thorpej
1.181.2.5  pgoyette static void mb_drain(void *, int);
     1.65   thorpej static int mb_ctor(void *, void *, int);
     1.65   thorpej
1.181.2.5  pgoyette static void sysctl_kern_mbuf_setup(void);
    1.129     pooka
    1.129     pooka static struct sysctllog *mbuf_sysctllog;
    1.129     pooka
1.181.2.5  pgoyette static struct mbuf *m_copy_internal(struct mbuf *, int, int, int, bool);
1.181.2.5  pgoyette static struct mbuf *m_split_internal(struct mbuf *, int, int, bool);
1.181.2.5  pgoyette static int m_copyback_internal(struct mbuf **, int, int, const void *,
1.181.2.5  pgoyette     int, int);
1.181.2.5  pgoyette
1.181.2.5  pgoyette /* Flags for m_copyback_internal. */
1.181.2.5  pgoyette #define	CB_COPYBACK	0x0001	/* copyback from cp */
1.181.2.5  pgoyette #define	CB_PRESERVE	0x0002	/* preserve original data */
1.181.2.5  pgoyette #define	CB_COW		0x0004	/* do copy-on-write */
1.181.2.5  pgoyette #define	CB_EXTEND	0x0008	/* extend chain */
     1.28   thorpej
    1.103   thorpej static const char mclpool_warnmsg[] =
    1.133     joerg     "WARNING: mclpool limit reached; increase kern.mbuf.nmbclusters";
     1.63   thorpej
     1.63   thorpej MALLOC_DEFINE(M_MBUF, "mbuf", "mbuf");
     1.42   thorpej
    1.124      yamt static percpu_t *mbstat_percpu;
    1.124      yamt
     1.64      matt #ifdef MBUFTRACE
     1.64      matt struct mownerhead mowners = LIST_HEAD_INITIALIZER(mowners);
     1.64      matt struct mowner unknown_mowners[] = {
    1.114    dogcow 	MOWNER_INIT("unknown", "free"),
    1.114    dogcow 	MOWNER_INIT("unknown", "data"),
    1.114    dogcow 	MOWNER_INIT("unknown", "header"),
    1.114    dogcow 	MOWNER_INIT("unknown", "soname"),
    1.114    dogcow 	MOWNER_INIT("unknown", "soopts"),
    1.114    dogcow 	MOWNER_INIT("unknown", "ftable"),
    1.114    dogcow 	MOWNER_INIT("unknown", "control"),
    1.114    dogcow 	MOWNER_INIT("unknown", "oobdata"),
     1.64      matt };
    1.114    dogcow struct mowner revoked_mowner = MOWNER_INIT("revoked", "");
     1.64      matt #endif
     1.64      matt
    1.125      yamt #define	MEXT_ISEMBEDDED(m) ((m)->m_ext_ref == (m))
    1.125      yamt
    1.125      yamt #define	MCLADDREFERENCE(o, n)						\
    1.125      yamt do {									\
    1.125      yamt 	KASSERT(((o)->m_flags & M_EXT) != 0);				\
    1.125      yamt 	KASSERT(((n)->m_flags & M_EXT) == 0);				\
    1.125      yamt 	KASSERT((o)->m_ext.ext_refcnt >= 1);				\
    1.125      yamt 	(n)->m_flags |= ((o)->m_flags & M_EXTCOPYFLAGS);		\
    1.125      yamt 	atomic_inc_uint(&(o)->m_ext.ext_refcnt);			\
    1.125      yamt 	(n)->m_ext_ref = (o)->m_ext_ref;				\
    1.125      yamt 	mowner_ref((n), (n)->m_flags);					\
    1.125      yamt } while (/* CONSTCOND */ 0)
    1.125      yamt
    1.133     joerg static int
    1.133     joerg nmbclusters_limit(void)
    1.133     joerg {
    1.136     pooka #if defined(PMAP_MAP_POOLPAGE)
    1.147      para 	/* direct mapping, doesn't use space in kmem_arena */
    1.133     joerg 	vsize_t max_size = physmem / 4;
    1.133     joerg #else
    1.145      para 	vsize_t max_size = MIN(physmem / 4, nkmempages / 4);
    1.133     joerg #endif
    1.133     joerg
    1.133     joerg 	max_size = max_size * PAGE_SIZE / MCLBYTES;
    1.133     joerg #ifdef NMBCLUSTERS_MAX
    1.133     joerg 	max_size = MIN(max_size, NMBCLUSTERS_MAX);
    1.133     joerg #endif
    1.133     joerg
    1.133     joerg #ifdef NMBCLUSTERS
    1.133     joerg 	return MIN(max_size, NMBCLUSTERS);
    1.133     joerg #else
    1.133     joerg 	return max_size;
    1.133     joerg #endif
    1.133     joerg }
    1.133     joerg
     1.28   thorpej /*
     1.68    simonb  * Initialize the mbuf allocator.
     1.28   thorpej  */
      1.4       jtc void
     1.62   thorpej mbinit(void)
      1.1       cgd {
     1.65   thorpej
    1.128      matt 	CTASSERT(sizeof(struct _m_ext) <= MHLEN);
    1.128      matt 	CTASSERT(sizeof(struct mbuf) == MSIZE);
     1.65   thorpej
    1.129     pooka 	sysctl_kern_mbuf_setup();
    1.129     pooka
    1.122        ad 	mb_cache = pool_cache_init(msize, 0, 0, 0, "mbpl",
    1.122        ad 	    NULL, IPL_VM, mb_ctor, NULL, NULL);
    1.122        ad 	KASSERT(mb_cache != NULL);
    1.122        ad
    1.135     rmind 	mcl_cache = pool_cache_init(mclbytes, 0, 0, 0, "mclpl", NULL,
    1.135     rmind 	    IPL_VM, NULL, NULL, NULL);
    1.122        ad 	KASSERT(mcl_cache != NULL);
     1.59   thorpej
1.181.2.5  pgoyette 	pool_cache_set_drain_hook(mb_cache, mb_drain, NULL);
1.181.2.5  pgoyette 	pool_cache_set_drain_hook(mcl_cache, mb_drain, NULL);
     1.37   thorpej
     1.37   thorpej 	/*
    1.133     joerg 	 * Set an arbitrary default limit on the number of mbuf clusters.
    1.133     joerg 	 */
    1.133     joerg #ifdef NMBCLUSTERS
    1.133     joerg 	nmbclusters = nmbclusters_limit();
    1.133     joerg #else
    1.133     joerg 	nmbclusters = MAX(1024,
    1.133     joerg 	    (vsize_t)physmem * PAGE_SIZE / MCLBYTES / 16);
    1.133     joerg 	nmbclusters = MIN(nmbclusters, nmbclusters_limit());
    1.133     joerg #endif
    1.133     joerg
    1.133     joerg 	/*
     1.39   thorpej 	 * Set the hard limit on the mclpool to the number of
     1.39   thorpej 	 * mbuf clusters the kernel is to support.  Log the limit
     1.39   thorpej 	 * reached message max once a minute.
     1.39   thorpej 	 */
    1.122        ad 	pool_cache_sethardlimit(mcl_cache, nmbclusters, mclpool_warnmsg, 60);
     1.42   thorpej
    1.124      yamt 	mbstat_percpu = percpu_alloc(sizeof(struct mbstat_cpu));
    1.124      yamt
     1.39   thorpej 	/*
     1.42   thorpej 	 * Set a low water mark for both mbufs and clusters.  This should
     1.42   thorpej 	 * help ensure that they can be allocated in a memory starvation
     1.42   thorpej 	 * situation.  This is important for e.g. diskless systems which
     1.42   thorpej 	 * must allocate mbufs in order for the pagedaemon to clean pages.
     1.37   thorpej 	 */
    1.122        ad 	pool_cache_setlowat(mb_cache, mblowat);
    1.122        ad 	pool_cache_setlowat(mcl_cache, mcllowat);
     1.64      matt
     1.64      matt #ifdef MBUFTRACE
     1.64      matt 	{
     1.64      matt 		/*
     1.64      matt 		 * Attach the unknown mowners.
     1.64      matt 		 */
     1.64      matt 		int i;
     1.64      matt 		MOWNER_ATTACH(&revoked_mowner);
     1.64      matt 		for (i = sizeof(unknown_mowners)/sizeof(unknown_mowners[0]);
     1.64      matt 		     i-- > 0; )
     1.64      matt 			MOWNER_ATTACH(&unknown_mowners[i]);
     1.64      matt 	}
     1.64      matt #endif
     1.42   thorpej }
     1.42   thorpej
1.181.2.5  pgoyette static void
1.181.2.5  pgoyette mb_drain(void *arg, int flags)
1.181.2.5  pgoyette {
1.181.2.5  pgoyette 	struct domain *dp;
1.181.2.5  pgoyette 	const struct protosw *pr;
1.181.2.5  pgoyette 	struct ifnet *ifp;
1.181.2.5  pgoyette 	int s;
1.181.2.5  pgoyette
1.181.2.5  pgoyette 	KERNEL_LOCK(1, NULL);
1.181.2.5  pgoyette 	s = splvm();
1.181.2.5  pgoyette 	DOMAIN_FOREACH(dp) {
1.181.2.5  pgoyette 		for (pr = dp->dom_protosw;
1.181.2.5  pgoyette 		     pr < dp->dom_protoswNPROTOSW; pr++)
1.181.2.5  pgoyette 			if (pr->pr_drain)
1.181.2.5  pgoyette 				(*pr->pr_drain)();
1.181.2.5  pgoyette 	}
1.181.2.5  pgoyette 	/* XXX we cannot use psref in H/W interrupt */
1.181.2.5  pgoyette 	if (!cpu_intr_p()) {
1.181.2.5  pgoyette 		int bound = curlwp_bind();
1.181.2.5  pgoyette 		IFNET_READER_FOREACH(ifp) {
1.181.2.5  pgoyette 			struct psref psref;
1.181.2.5  pgoyette
1.181.2.5  pgoyette 			if_acquire(ifp, &psref);
1.181.2.5  pgoyette
1.181.2.5  pgoyette 			if (ifp->if_drain)
1.181.2.5  pgoyette 				(*ifp->if_drain)(ifp);
1.181.2.5  pgoyette
1.181.2.5  pgoyette 			if_release(ifp, &psref);
1.181.2.5  pgoyette 		}
1.181.2.5  pgoyette 		curlwp_bindx(bound);
1.181.2.5  pgoyette 	}
1.181.2.5  pgoyette 	splx(s);
1.181.2.5  pgoyette 	mbstat.m_drain++;
1.181.2.5  pgoyette 	KERNEL_UNLOCK_ONE(NULL);
1.181.2.5  pgoyette }
1.181.2.5  pgoyette
     1.75    atatat /*
    1.133     joerg  * sysctl helper routine for the kern.mbuf subtree.
    1.133     joerg  * nmbclusters, mblowat and mcllowat need range
     1.75    atatat  * checking and pool tweaking after being reset.
     1.75    atatat  */
     1.75    atatat static int
     1.75    atatat sysctl_kern_mbuf(SYSCTLFN_ARGS)
     1.42   thorpej {
     1.42   thorpej 	int error, newval;
     1.75    atatat 	struct sysctlnode node;
     1.42   thorpej
     1.75    atatat 	node = *rnode;
     1.75    atatat 	node.sysctl_data = &newval;
     1.75    atatat 	switch (rnode->sysctl_num) {
     1.42   thorpej 	case MBUF_NMBCLUSTERS:
     1.42   thorpej 	case MBUF_MBLOWAT:
     1.42   thorpej 	case MBUF_MCLLOWAT:
     1.75    atatat 		newval = *(int*)rnode->sysctl_data;
     1.75    atatat 		break;
     1.75    atatat 	default:
1.181.2.5  pgoyette 		return EOPNOTSUPP;
     1.75    atatat 	}
     1.75    atatat
     1.75    atatat 	error = sysctl_lookup(SYSCTLFN_CALL(&node));
     1.75    atatat 	if (error || newp == NULL)
1.181.2.5  pgoyette 		return error;
     1.75    atatat 	if (newval < 0)
1.181.2.5  pgoyette 		return EINVAL;
     1.75    atatat
     1.75    atatat 	switch (node.sysctl_num) {
     1.75    atatat 	case MBUF_NMBCLUSTERS:
     1.75    atatat 		if (newval < nmbclusters)
1.181.2.5  pgoyette 			return EINVAL;
    1.133     joerg 		if (newval > nmbclusters_limit())
1.181.2.5  pgoyette 			return EINVAL;
     1.75    atatat 		nmbclusters = newval;
    1.122        ad 		pool_cache_sethardlimit(mcl_cache, nmbclusters,
    1.122        ad 		    mclpool_warnmsg, 60);
     1.75    atatat 		break;
     1.75    atatat 	case MBUF_MBLOWAT:
     1.75    atatat 		mblowat = newval;
    1.122        ad 		pool_cache_setlowat(mb_cache, mblowat);
     1.75    atatat 		break;
     1.75    atatat 	case MBUF_MCLLOWAT:
     1.76    atatat 		mcllowat = newval;
    1.122        ad 		pool_cache_setlowat(mcl_cache, mcllowat);
     1.75    atatat 		break;
     1.75    atatat 	}
     1.75    atatat
1.181.2.5  pgoyette 	return 0;
     1.75    atatat }
     1.75    atatat
     1.64      matt #ifdef MBUFTRACE
    1.124      yamt static void
    1.124      yamt mowner_conver_to_user_cb(void *v1, void *v2, struct cpu_info *ci)
    1.124      yamt {
    1.124      yamt 	struct mowner_counter *mc = v1;
    1.124      yamt 	struct mowner_user *mo_user = v2;
    1.124      yamt 	int i;
    1.124      yamt
    1.124      yamt 	for (i = 0; i < MOWNER_COUNTER_NCOUNTERS; i++) {
    1.124      yamt 		mo_user->mo_counter[i] += mc->mc_counter[i];
    1.124      yamt 	}
    1.124      yamt }
    1.124      yamt
    1.124      yamt static void
    1.124      yamt mowner_convert_to_user(struct mowner *mo, struct mowner_user *mo_user)
    1.124      yamt {
    1.124      yamt
    1.124      yamt 	memset(mo_user, 0, sizeof(*mo_user));
    1.128      matt 	CTASSERT(sizeof(mo_user->mo_name) == sizeof(mo->mo_name));
    1.128      matt 	CTASSERT(sizeof(mo_user->mo_descr) == sizeof(mo->mo_descr));
    1.124      yamt 	memcpy(mo_user->mo_name, mo->mo_name, sizeof(mo->mo_name));
    1.124      yamt 	memcpy(mo_user->mo_descr, mo->mo_descr, sizeof(mo->mo_descr));
    1.124      yamt 	percpu_foreach(mo->mo_counters, mowner_conver_to_user_cb, mo_user);
    1.124      yamt }
    1.124      yamt
     1.75    atatat static int
     1.75    atatat sysctl_kern_mbuf_mowners(SYSCTLFN_ARGS)
     1.75    atatat {
     1.75    atatat 	struct mowner *mo;
     1.75    atatat 	size_t len = 0;
     1.75    atatat 	int error = 0;
     1.75    atatat
     1.75    atatat 	if (namelen != 0)
1.181.2.5  pgoyette 		return EINVAL;
     1.75    atatat 	if (newp != NULL)
1.181.2.5  pgoyette 		return EPERM;
     1.75    atatat
     1.75    atatat 	LIST_FOREACH(mo, &mowners, mo_link) {
    1.124      yamt 		struct mowner_user mo_user;
    1.124      yamt
    1.124      yamt 		mowner_convert_to_user(mo, &mo_user);
    1.124      yamt
     1.75    atatat 		if (oldp != NULL) {
    1.124      yamt 			if (*oldlenp - len < sizeof(mo_user)) {
     1.75    atatat 				error = ENOMEM;
     1.75    atatat 				break;
     1.75    atatat 			}
    1.124      yamt 			error = copyout(&mo_user, (char *)oldp + len,
    1.124      yamt 			    sizeof(mo_user));
     1.75    atatat 			if (error)
     1.75    atatat 				break;
     1.64      matt 		}
    1.124      yamt 		len += sizeof(mo_user);
     1.75    atatat 	}
     1.75    atatat
     1.75    atatat 	if (error == 0)
     1.64      matt 		*oldlenp = len;
     1.75    atatat
1.181.2.5  pgoyette 	return error;
     1.75    atatat }
     1.75    atatat #endif /* MBUFTRACE */
     1.75    atatat
1.181.2.5  pgoyette void
1.181.2.5  pgoyette mbstat_type_add(int type, int diff)
1.181.2.5  pgoyette {
1.181.2.5  pgoyette 	struct mbstat_cpu *mb;
1.181.2.5  pgoyette 	int s;
1.181.2.5  pgoyette
1.181.2.5  pgoyette 	s = splvm();
1.181.2.5  pgoyette 	mb = percpu_getref(mbstat_percpu);
1.181.2.5  pgoyette 	mb->m_mtypes[type] += diff;
1.181.2.5  pgoyette 	percpu_putref(mbstat_percpu);
1.181.2.5  pgoyette 	splx(s);
1.181.2.5  pgoyette }
1.181.2.5  pgoyette
    1.124      yamt static void
    1.124      yamt mbstat_conver_to_user_cb(void *v1, void *v2, struct cpu_info *ci)
    1.124      yamt {
    1.124      yamt 	struct mbstat_cpu *mbsc = v1;
    1.124      yamt 	struct mbstat *mbs = v2;
    1.124      yamt 	int i;
    1.124      yamt
    1.124      yamt 	for (i = 0; i < __arraycount(mbs->m_mtypes); i++) {
    1.124      yamt 		mbs->m_mtypes[i] += mbsc->m_mtypes[i];
    1.124      yamt 	}
    1.124      yamt }
    1.124      yamt
    1.124      yamt static void
    1.124      yamt mbstat_convert_to_user(struct mbstat *mbs)
    1.124      yamt {
    1.124      yamt
    1.124      yamt 	memset(mbs, 0, sizeof(*mbs));
    1.124      yamt 	mbs->m_drain = mbstat.m_drain;
    1.124      yamt 	percpu_foreach(mbstat_percpu, mbstat_conver_to_user_cb, mbs);
    1.124      yamt }
    1.124      yamt
    1.124      yamt static int
    1.124      yamt sysctl_kern_mbuf_stats(SYSCTLFN_ARGS)
    1.124      yamt {
    1.124      yamt 	struct sysctlnode node;
    1.124      yamt 	struct mbstat mbs;
    1.124      yamt
    1.124      yamt 	mbstat_convert_to_user(&mbs);
    1.124      yamt 	node = *rnode;
    1.124      yamt 	node.sysctl_data = &mbs;
    1.124      yamt 	node.sysctl_size = sizeof(mbs);
    1.124      yamt 	return sysctl_lookup(SYSCTLFN_CALL(&node));
    1.124      yamt }
    1.124      yamt
    1.129     pooka static void
    1.131    cegger sysctl_kern_mbuf_setup(void)
     1.75    atatat {
     1.75    atatat
    1.129     pooka 	KASSERT(mbuf_sysctllog == NULL);
    1.129     pooka 	sysctl_createv(&mbuf_sysctllog, 0, NULL, NULL,
     1.80    atatat 		       CTLFLAG_PERMANENT,
     1.82    atatat 		       CTLTYPE_NODE, "mbuf",
     1.82    atatat 		       SYSCTL_DESCR("mbuf control variables"),
     1.75    atatat 		       NULL, 0, NULL, 0,
     1.75    atatat 		       CTL_KERN, KERN_MBUF, CTL_EOL);
     1.75    atatat
    1.129     pooka 	sysctl_createv(&mbuf_sysctllog, 0, NULL, NULL,
     1.80    atatat 		       CTLFLAG_PERMANENT|CTLFLAG_IMMEDIATE,
     1.82    atatat 		       CTLTYPE_INT, "msize",
     1.82    atatat 		       SYSCTL_DESCR("mbuf base size"),
     1.75    atatat 		       NULL, msize, NULL, 0,
     1.75    atatat 		       CTL_KERN, KERN_MBUF, MBUF_MSIZE, CTL_EOL);
    1.129     pooka 	sysctl_createv(&mbuf_sysctllog, 0, NULL, NULL,
     1.80    atatat 		       CTLFLAG_PERMANENT|CTLFLAG_IMMEDIATE,
     1.82    atatat 		       CTLTYPE_INT, "mclbytes",
     1.82    atatat 		       SYSCTL_DESCR("mbuf cluster size"),
     1.75    atatat 		       NULL, mclbytes, NULL, 0,
     1.75    atatat 		       CTL_KERN, KERN_MBUF, MBUF_MCLBYTES, CTL_EOL);
    1.129     pooka 	sysctl_createv(&mbuf_sysctllog, 0, NULL, NULL,
     1.80    atatat 		       CTLFLAG_PERMANENT|CTLFLAG_READWRITE,
     1.82    atatat 		       CTLTYPE_INT, "nmbclusters",
     1.82    atatat 		       SYSCTL_DESCR("Limit on the number of mbuf clusters"),
     1.75    atatat 		       sysctl_kern_mbuf, 0, &nmbclusters, 0,
     1.75    atatat 		       CTL_KERN, KERN_MBUF, MBUF_NMBCLUSTERS, CTL_EOL);
    1.129     pooka 	sysctl_createv(&mbuf_sysctllog, 0, NULL, NULL,
     1.80    atatat 		       CTLFLAG_PERMANENT|CTLFLAG_READWRITE,
     1.82    atatat 		       CTLTYPE_INT, "mblowat",
     1.82    atatat 		       SYSCTL_DESCR("mbuf low water mark"),
     1.75    atatat 		       sysctl_kern_mbuf, 0, &mblowat, 0,
     1.75    atatat 		       CTL_KERN, KERN_MBUF, MBUF_MBLOWAT, CTL_EOL);
    1.129     pooka 	sysctl_createv(&mbuf_sysctllog, 0, NULL, NULL,
     1.80    atatat 		       CTLFLAG_PERMANENT|CTLFLAG_READWRITE,
     1.82    atatat 		       CTLTYPE_INT, "mcllowat",
     1.82    atatat 		       SYSCTL_DESCR("mbuf cluster low water mark"),
     1.75    atatat 		       sysctl_kern_mbuf, 0, &mcllowat, 0,
     1.75    atatat 		       CTL_KERN, KERN_MBUF, MBUF_MCLLOWAT, CTL_EOL);
    1.129     pooka 	sysctl_createv(&mbuf_sysctllog, 0, NULL, NULL,
     1.80    atatat 		       CTLFLAG_PERMANENT,
     1.82    atatat 		       CTLTYPE_STRUCT, "stats",
     1.82    atatat 		       SYSCTL_DESCR("mbuf allocation statistics"),
    1.124      yamt 		       sysctl_kern_mbuf_stats, 0, NULL, 0,
     1.75    atatat 		       CTL_KERN, KERN_MBUF, MBUF_STATS, CTL_EOL);
     1.75    atatat #ifdef MBUFTRACE
    1.129     pooka 	sysctl_createv(&mbuf_sysctllog, 0, NULL, NULL,
     1.80    atatat 		       CTLFLAG_PERMANENT,
     1.82    atatat 		       CTLTYPE_STRUCT, "mowners",
     1.82    atatat 		       SYSCTL_DESCR("Information about mbuf owners"),
     1.75    atatat 		       sysctl_kern_mbuf_mowners, 0, NULL, 0,
     1.75    atatat 		       CTL_KERN, KERN_MBUF, MBUF_MOWNERS, CTL_EOL);
1.181.2.5  pgoyette #endif
     1.28   thorpej }
     1.28   thorpej
     1.65   thorpej static int
    1.116      yamt mb_ctor(void *arg, void *object, int flags)
     1.65   thorpej {
     1.65   thorpej 	struct mbuf *m = object;
     1.65   thorpej
     1.65   thorpej #ifdef POOL_VTOPHYS
     1.65   thorpej 	m->m_paddr = POOL_VTOPHYS(m);
     1.65   thorpej #else
     1.65   thorpej 	m->m_paddr = M_PADDR_INVALID;
     1.65   thorpej #endif
1.181.2.5  pgoyette 	return 0;
1.181.2.1  pgoyette }
1.181.2.1  pgoyette
    1.150  christos /*
    1.150  christos  * Add mbuf to the end of a chain
    1.150  christos  */
    1.150  christos struct mbuf *
    1.179      maxv m_add(struct mbuf *c, struct mbuf *m)
    1.179      maxv {
    1.150  christos 	struct mbuf *n;
    1.150  christos
    1.150  christos 	if (c == NULL)
    1.150  christos 		return m;
    1.150  christos
    1.150  christos 	for (n = c; n->m_next != NULL; n = n->m_next)
    1.150  christos 		continue;
    1.150  christos 	n->m_next = m;
    1.150  christos 	return c;
    1.150  christos }
    1.150  christos
      1.1       cgd struct mbuf *
1.181.2.5  pgoyette m_get(int how, int type)
      1.1       cgd {
     1.27      matt 	struct mbuf *m;
      1.1       cgd
    1.142    dyoung 	KASSERT(type != MT_FREE);
    1.142    dyoung
    1.124      yamt 	m = pool_cache_get(mb_cache,
1.181.2.5  pgoyette 	    how == M_WAIT ? PR_WAITOK|PR_LIMITFAIL : PR_NOWAIT);
    1.124      yamt 	if (m == NULL)
    1.124      yamt 		return NULL;
    1.124      yamt
    1.124      yamt 	mbstat_type_add(type, 1);
    1.164  knakahar
1.181.2.2  pgoyette 	mowner_init(m, type);
1.181.2.2  pgoyette 	m->m_ext_ref = m; /* default */
1.181.2.2  pgoyette 	m->m_type = type;
1.181.2.2  pgoyette 	m->m_len = 0;
1.181.2.2  pgoyette 	m->m_next = NULL;
1.181.2.2  pgoyette 	m->m_nextpkt = NULL; /* default */
1.181.2.2  pgoyette 	m->m_data = m->m_dat;
1.181.2.2  pgoyette 	m->m_flags = 0; /* default */
    1.124      yamt
    1.124      yamt 	return m;
      1.1       cgd }
      1.1       cgd
      1.1       cgd struct mbuf *
1.181.2.5  pgoyette m_gethdr(int how, int type)
      1.1       cgd {
     1.27      matt 	struct mbuf *m;
      1.1       cgd
1.181.2.5  pgoyette 	m = m_get(how, type);
    1.124      yamt 	if (m == NULL)
    1.124      yamt 		return NULL;
    1.124      yamt
1.181.2.2  pgoyette 	m->m_data = m->m_pktdat;
1.181.2.2  pgoyette 	m->m_flags = M_PKTHDR;
1.181.2.2  pgoyette
1.181.2.2  pgoyette 	m_reset_rcvif(m);
1.181.2.2  pgoyette 	m->m_pkthdr.len = 0;
1.181.2.2  pgoyette 	m->m_pkthdr.csum_flags = 0;
1.181.2.2  pgoyette 	m->m_pkthdr.csum_data = 0;
1.181.2.2  pgoyette 	SLIST_INIT(&m->m_pkthdr.tags);
1.181.2.2  pgoyette
1.181.2.2  pgoyette 	m->m_pkthdr.pattr_class = NULL;
1.181.2.2  pgoyette 	m->m_pkthdr.pattr_af = AF_UNSPEC;
1.181.2.2  pgoyette 	m->m_pkthdr.pattr_hdr = NULL;
    1.124      yamt
    1.124      yamt 	return m;
      1.1       cgd }
      1.1       cgd
     1.64      matt void
1.181.2.5  pgoyette m_clget(struct mbuf *m, int how)
     1.64      matt {
1.181.2.5  pgoyette 	m->m_ext_storage.ext_buf = (char *)pool_cache_get_paddr(mcl_cache,
1.181.2.5  pgoyette 	    how == M_WAIT ? (PR_WAITOK|PR_LIMITFAIL) : PR_NOWAIT,
1.181.2.5  pgoyette 	    &m->m_ext_storage.ext_paddr);
     1.71    simonb
1.181.2.5  pgoyette 	if (m->m_ext_storage.ext_buf == NULL)
1.181.2.5  pgoyette 		return;
     1.64      matt
1.181.2.5  pgoyette 	MCLINITREFERENCE(m);
1.181.2.5  pgoyette 	m->m_data = m->m_ext.ext_buf;
1.181.2.5  pgoyette 	m->m_flags = (m->m_flags & ~M_EXTCOPYFLAGS) |
1.181.2.5  pgoyette 	    M_EXT|M_EXT_CLUSTER|M_EXT_RW;
1.181.2.5  pgoyette 	m->m_ext.ext_size = MCLBYTES;
1.181.2.5  pgoyette 	m->m_ext.ext_free = NULL;
1.181.2.5  pgoyette 	m->m_ext.ext_arg = NULL;
1.181.2.5  pgoyette 	/* ext_paddr initialized above */
     1.71    simonb
1.181.2.5  pgoyette 	mowner_ref(m, M_EXT|M_EXT_CLUSTER);
     1.64      matt }
     1.64      matt
      1.1       cgd /*
1.181.2.5  pgoyette  * Utility function for M_PREPEND. Do *NOT* use it directly.
      1.1       cgd  */
      1.1       cgd struct mbuf *
     1.62   thorpej m_prepend(struct mbuf *m, int len, int how)
      1.1       cgd {
      1.1       cgd 	struct mbuf *mn;
      1.1       cgd
    1.180      maxv 	if (__predict_false(len > MHLEN)) {
    1.180      maxv 		panic("%s: len > MHLEN", __func__);
    1.180      maxv 	}
    1.180      maxv
    1.156  christos 	KASSERT(len != M_COPYALL);
    1.153  christos 	mn = m_get(how, m->m_type);
    1.143    plunky 	if (mn == NULL) {
      1.1       cgd 		m_freem(m);
    1.179      maxv 		return NULL;
      1.1       cgd 	}
    1.178      maxv
      1.1       cgd 	if (m->m_flags & M_PKTHDR) {
    1.101      yamt 		M_MOVE_PKTHDR(mn, m);
     1.64      matt 	} else {
     1.64      matt 		MCLAIM(mn, m->m_owner);
      1.1       cgd 	}
      1.1       cgd 	mn->m_next = m;
      1.1       cgd 	m = mn;
    1.178      maxv
    1.178      maxv 	if (m->m_flags & M_PKTHDR) {
    1.178      maxv 		if (len < MHLEN)
    1.178      maxv 			MH_ALIGN(m, len);
    1.178      maxv 	} else {
    1.178      maxv 		if (len < MLEN)
    1.178      maxv 			M_ALIGN(m, len);
    1.178      maxv 	}
    1.178      maxv
      1.1       cgd 	m->m_len = len;
    1.179      maxv 	return m;
      1.1       cgd }
      1.1       cgd
      1.1       cgd struct mbuf *
1.181.2.5  pgoyette m_copym(struct mbuf *m, int off, int len, int wait)
      1.1       cgd {
1.181.2.5  pgoyette 	/* Shallow copy on M_EXT. */
1.181.2.5  pgoyette 	return m_copy_internal(m, off, len, wait, false);
     1.44    itojun }
     1.44    itojun
     1.44    itojun struct mbuf *
1.181.2.5  pgoyette m_dup(struct mbuf *m, int off, int len, int wait)
     1.44    itojun {
1.181.2.5  pgoyette 	/* Deep copy. */
1.181.2.5  pgoyette 	return m_copy_internal(m, off, len, wait, true);
     1.44    itojun }
     1.44    itojun
    1.154  christos static inline int
    1.179      maxv m_copylen(int len, int copylen)
    1.179      maxv {
    1.179      maxv 	return (len == M_COPYALL) ? copylen : min(len, copylen);
    1.154  christos }
    1.154  christos
     1.44    itojun static struct mbuf *
1.181.2.5  pgoyette m_copy_internal(struct mbuf *m, int off0, int len, int wait, bool deep)
     1.44    itojun {
     1.27      matt 	struct mbuf *n, **np;
     1.27      matt 	int off = off0;
      1.1       cgd 	struct mbuf *top;
      1.1       cgd 	int copyhdr = 0;
      1.1       cgd
    1.154  christos 	if (off < 0 || (len != M_COPYALL && len < 0))
1.181.2.5  pgoyette 		panic("%s: off %d, len %d", __func__, off, len);
      1.1       cgd 	if (off == 0 && m->m_flags & M_PKTHDR)
      1.1       cgd 		copyhdr = 1;
      1.1       cgd 	while (off > 0) {
    1.179      maxv 		if (m == NULL)
1.181.2.5  pgoyette 			panic("%s: m == NULL, off %d", __func__, off);
      1.1       cgd 		if (off < m->m_len)
      1.1       cgd 			break;
      1.1       cgd 		off -= m->m_len;
      1.1       cgd 		m = m->m_next;
      1.1       cgd 	}
    1.179      maxv
      1.1       cgd 	np = &top;
    1.179      maxv 	top = NULL;
    1.155     skrll 	while (len == M_COPYALL || len > 0) {
    1.179      maxv 		if (m == NULL) {
      1.1       cgd 			if (len != M_COPYALL)
1.181.2.5  pgoyette 				panic("%s: m == NULL, len %d [!COPYALL]",
1.181.2.5  pgoyette 				    __func__, len);
      1.1       cgd 			break;
      1.1       cgd 		}
    1.179      maxv
    1.153  christos 		n = m_get(wait, m->m_type);
      1.1       cgd 		*np = n;
    1.179      maxv 		if (n == NULL)
      1.1       cgd 			goto nospace;
     1.64      matt 		MCLAIM(n, m->m_owner);
    1.179      maxv
      1.1       cgd 		if (copyhdr) {
      1.1       cgd 			M_COPY_PKTHDR(n, m);
      1.1       cgd 			if (len == M_COPYALL)
      1.1       cgd 				n->m_pkthdr.len -= off0;
      1.1       cgd 			else
      1.1       cgd 				n->m_pkthdr.len = len;
      1.1       cgd 			copyhdr = 0;
      1.1       cgd 		}
    1.154  christos 		n->m_len = m_copylen(len, m->m_len - off);
    1.179      maxv
      1.1       cgd 		if (m->m_flags & M_EXT) {
     1.44    itojun 			if (!deep) {
     1.44    itojun 				n->m_data = m->m_data + off;
     1.44    itojun 				MCLADDREFERENCE(m, n);
     1.44    itojun 			} else {
     1.48    itojun 				/*
    1.181      maxv 				 * We don't care if MCLGET fails. n->m_len is
    1.181      maxv 				 * recomputed and handles that.
     1.48    itojun 				 */
     1.44    itojun 				MCLGET(n, wait);
    1.161   mlelstv 				n->m_len = 0;
     1.50    itojun 				n->m_len = M_TRAILINGSPACE(n);
    1.154  christos 				n->m_len = m_copylen(len, n->m_len);
     1.50    itojun 				n->m_len = min(n->m_len, m->m_len - off);
    1.119  christos 				memcpy(mtod(n, void *), mtod(m, char *) + off,
     1.44    itojun 				    (unsigned)n->m_len);
     1.44    itojun 			}
    1.179      maxv 		} else {
    1.119  christos 			memcpy(mtod(n, void *), mtod(m, char *) + off,
      1.1       cgd 			    (unsigned)n->m_len);
    1.179      maxv 		}
    1.179      maxv
      1.1       cgd 		if (len != M_COPYALL)
      1.1       cgd 			len -= n->m_len;
     1.50    itojun 		off += n->m_len;
1.181.2.5  pgoyette
1.181.2.5  pgoyette 		KASSERT(off <= m->m_len);
1.181.2.5  pgoyette
     1.50    itojun 		if (off == m->m_len) {
     1.50    itojun 			m = m->m_next;
     1.50    itojun 			off = 0;
     1.50    itojun 		}
      1.1       cgd 		np = &n->m_next;
      1.1       cgd 	}
    1.179      maxv
    1.179      maxv 	return top;
    1.179      maxv
      1.1       cgd nospace:
      1.1       cgd 	m_freem(top);
    1.179      maxv 	return NULL;
      1.1       cgd }
      1.1       cgd
      1.1       cgd /*
     1.18   thorpej  * Copy an entire packet, including header (which must be present).
    1.181      maxv  * An optimization of the common case 'm_copym(m, 0, M_COPYALL, how)'.
     1.18   thorpej  */
     1.18   thorpej struct mbuf *
     1.62   thorpej m_copypacket(struct mbuf *m, int how)
     1.18   thorpej {
     1.18   thorpej 	struct mbuf *top, *n, *o;
     1.18   thorpej
1.181.2.5  pgoyette 	if (__predict_false((m->m_flags & M_PKTHDR) == 0)) {
1.181.2.5  pgoyette 		panic("%s: no header (m = %p)", __func__, m);
1.181.2.5  pgoyette 	}
1.181.2.5  pgoyette
    1.153  christos 	n = m_get(how, m->m_type);
     1.18   thorpej 	top = n;
     1.18   thorpej 	if (!n)
     1.18   thorpej 		goto nospace;
     1.18   thorpej
     1.64      matt 	MCLAIM(n, m->m_owner);
     1.18   thorpej 	M_COPY_PKTHDR(n, m);
     1.18   thorpej 	n->m_len = m->m_len;
     1.18   thorpej 	if (m->m_flags & M_EXT) {
     1.18   thorpej 		n->m_data = m->m_data;
     1.18   thorpej 		MCLADDREFERENCE(m, n);
     1.18   thorpej 	} else {
     1.30     perry 		memcpy(mtod(n, char *), mtod(m, char *), n->m_len);
     1.18   thorpej 	}
     1.18   thorpej
     1.18   thorpej 	m = m->m_next;
     1.18   thorpej 	while (m) {
    1.153  christos 		o = m_get(how, m->m_type);
     1.18   thorpej 		if (!o)
     1.18   thorpej 			goto nospace;
     1.18   thorpej
     1.64      matt 		MCLAIM(o, m->m_owner);
     1.18   thorpej 		n->m_next = o;
     1.18   thorpej 		n = n->m_next;
     1.18   thorpej
     1.18   thorpej 		n->m_len = m->m_len;
     1.18   thorpej 		if (m->m_flags & M_EXT) {
     1.18   thorpej 			n->m_data = m->m_data;
     1.18   thorpej 			MCLADDREFERENCE(m, n);
     1.18   thorpej 		} else {
     1.30     perry 			memcpy(mtod(n, char *), mtod(m, char *), n->m_len);
     1.18   thorpej 		}
     1.18   thorpej
     1.18   thorpej 		m = m->m_next;
     1.18   thorpej 	}
     1.18   thorpej 	return top;
    1.181      maxv
     1.18   thorpej nospace:
     1.18   thorpej 	m_freem(top);
     1.71    simonb 	return NULL;
     1.18   thorpej }
     1.18   thorpej
     1.14  christos void
1.181.2.5  pgoyette m_copydata(struct mbuf *m, int off, int len, void *cp)
      1.1       cgd {
1.181.2.5  pgoyette 	unsigned int count;
    1.179      maxv 	struct mbuf *m0 = m;
    1.179      maxv 	int len0 = len;
    1.179      maxv 	int off0 = off;
1.181.2.5  pgoyette 	void *cp0 = cp;
      1.1       cgd
    1.156  christos 	KASSERT(len != M_COPYALL);
      1.1       cgd 	if (off < 0 || len < 0)
     1.90      matt 		panic("m_copydata: off %d, len %d", off, len);
      1.1       cgd 	while (off > 0) {
     1.94      tron 		if (m == NULL)
    1.151      matt 			panic("m_copydata(%p,%d,%d,%p): m=NULL, off=%d (%d)",
1.181.2.5  pgoyette 			    m0, len0, off0, cp0, off, off0 - off);
      1.1       cgd 		if (off < m->m_len)
      1.1       cgd 			break;
      1.1       cgd 		off -= m->m_len;
      1.1       cgd 		m = m->m_next;
      1.1       cgd 	}
      1.1       cgd 	while (len > 0) {
     1.94      tron 		if (m == NULL)
    1.151      matt 			panic("m_copydata(%p,%d,%d,%p): "
    1.151      matt 			    "m=NULL, off=%d (%d), len=%d (%d)",
1.181.2.5  pgoyette 			    m0, len0, off0, cp0,
    1.151      matt 			    off, off0 - off, len, len0 - len);
      1.9   mycroft 		count = min(m->m_len - off, len);
    1.119  christos 		memcpy(cp, mtod(m, char *) + off, count);
      1.1       cgd 		len -= count;
    1.119  christos 		cp = (char *)cp + count;
      1.1       cgd 		off = 0;
      1.1       cgd 		m = m->m_next;
      1.1       cgd 	}
      1.1       cgd }
      1.1       cgd
      1.1       cgd /*
      1.1       cgd  * Concatenate mbuf chain n to m.
     1.72    itojun  * n might be copied into m (when n->m_len is small), therefore data portion of
     1.72    itojun  * n could be copied into an mbuf of different mbuf type.
      1.1       cgd  * Any m_pkthdr is not updated.
      1.1       cgd  */
     1.14  christos void
     1.62   thorpej m_cat(struct mbuf *m, struct mbuf *n)
      1.1       cgd {
     1.73      yamt
      1.1       cgd 	while (m->m_next)
      1.1       cgd 		m = m->m_next;
      1.1       cgd 	while (n) {
     1.77    itojun 		if (M_READONLY(m) || n->m_len > M_TRAILINGSPACE(m)) {
      1.1       cgd 			/* just join the two chains */
      1.1       cgd 			m->m_next = n;
      1.1       cgd 			return;
      1.1       cgd 		}
      1.1       cgd 		/* splat the data from one into the other */
    1.119  christos 		memcpy(mtod(m, char *) + m->m_len, mtod(n, void *),
      1.1       cgd 		    (u_int)n->m_len);
      1.1       cgd 		m->m_len += n->m_len;
      1.1       cgd 		n = m_free(n);
      1.1       cgd 	}
      1.1       cgd }
      1.1       cgd
     1.11   mycroft void
     1.62   thorpej m_adj(struct mbuf *mp, int req_len)
      1.1       cgd {
     1.27      matt 	int len = req_len;
     1.27      matt 	struct mbuf *m;
     1.27      matt 	int count;
      1.1       cgd
      1.1       cgd 	if ((m = mp) == NULL)
      1.1       cgd 		return;
      1.1       cgd 	if (len >= 0) {
      1.1       cgd 		/*
      1.1       cgd 		 * Trim from head.
      1.1       cgd 		 */
      1.1       cgd 		while (m != NULL && len > 0) {
      1.1       cgd 			if (m->m_len <= len) {
      1.1       cgd 				len -= m->m_len;
      1.1       cgd 				m->m_len = 0;
      1.1       cgd 				m = m->m_next;
      1.1       cgd 			} else {
      1.1       cgd 				m->m_len -= len;
      1.1       cgd 				m->m_data += len;
      1.1       cgd 				len = 0;
      1.1       cgd 			}
      1.1       cgd 		}
      1.1       cgd 		if (mp->m_flags & M_PKTHDR)
    1.181      maxv 			mp->m_pkthdr.len -= (req_len - len);
      1.1       cgd 	} else {
      1.1       cgd 		/*
      1.1       cgd 		 * Trim from tail.  Scan the mbuf chain,
      1.1       cgd 		 * calculating its length and finding the last mbuf.
      1.1       cgd 		 * If the adjustment only affects this mbuf, then just
      1.1       cgd 		 * adjust and return.  Otherwise, rescan and truncate
      1.1       cgd 		 * after the remaining size.
      1.1       cgd 		 */
      1.1       cgd 		len = -len;
      1.1       cgd 		count = 0;
      1.1       cgd 		for (;;) {
      1.1       cgd 			count += m->m_len;
    1.181      maxv 			if (m->m_next == NULL)
      1.1       cgd 				break;
      1.1       cgd 			m = m->m_next;
      1.1       cgd 		}
      1.1       cgd 		if (m->m_len >= len) {
      1.1       cgd 			m->m_len -= len;
      1.8   deraadt 			if (mp->m_flags & M_PKTHDR)
      1.8   deraadt 				mp->m_pkthdr.len -= len;
      1.1       cgd 			return;
      1.1       cgd 		}
    1.181      maxv
      1.1       cgd 		count -= len;
      1.1       cgd 		if (count < 0)
      1.1       cgd 			count = 0;
    1.181      maxv
      1.1       cgd 		/*
      1.1       cgd 		 * Correct length for chain is "count".
      1.1       cgd 		 * Find the mbuf with last data, adjust its length,
      1.1       cgd 		 * and toss data from remaining mbufs on chain.
      1.1       cgd 		 */
      1.1       cgd 		m = mp;
      1.1       cgd 		if (m->m_flags & M_PKTHDR)
      1.1       cgd 			m->m_pkthdr.len = count;
      1.1       cgd 		for (; m; m = m->m_next) {
      1.1       cgd 			if (m->m_len >= count) {
      1.1       cgd 				m->m_len = count;
      1.1       cgd 				break;
      1.1       cgd 			}
      1.1       cgd 			count -= m->m_len;
      1.1       cgd 		}
    1.181      maxv 		if (m) {
    1.110  christos 			while (m->m_next)
    1.110  christos 				(m = m->m_next)->m_len = 0;
    1.181      maxv 		}
      1.1       cgd 	}
      1.1       cgd }
      1.1       cgd
      1.1       cgd /*
    1.148     rmind  * m_ensure_contig: rearrange an mbuf chain that given length of bytes
    1.148     rmind  * would be contiguous and in the data area of an mbuf (therefore, mtod()
    1.148     rmind  * would work for a structure of given length).
    1.148     rmind  *
    1.148     rmind  * => On success, returns true and the resulting mbuf chain; false otherwise.
    1.148     rmind  * => The mbuf chain may change, but is always preserved valid.
      1.1       cgd  */
    1.148     rmind bool
    1.148     rmind m_ensure_contig(struct mbuf **m0, int len)
      1.1       cgd {
    1.148     rmind 	struct mbuf *n = *m0, *m;
    1.148     rmind 	size_t count, space;
      1.1       cgd
    1.156  christos 	KASSERT(len != M_COPYALL);
      1.1       cgd 	/*
      1.1       cgd 	 * If first mbuf has no cluster, and has room for len bytes
      1.1       cgd 	 * without shifting current data, pullup into it,
      1.1       cgd 	 * otherwise allocate a new mbuf to prepend to the chain.
      1.1       cgd 	 */
      1.1       cgd 	if ((n->m_flags & M_EXT) == 0 &&
      1.1       cgd 	    n->m_data + len < &n->m_dat[MLEN] && n->m_next) {
    1.148     rmind 		if (n->m_len >= len) {
    1.148     rmind 			return true;
    1.148     rmind 		}
      1.1       cgd 		m = n;
      1.1       cgd 		n = n->m_next;
      1.1       cgd 		len -= m->m_len;
      1.1       cgd 	} else {
    1.148     rmind 		if (len > MHLEN) {
    1.148     rmind 			return false;
    1.148     rmind 		}
    1.153  christos 		m = m_get(M_DONTWAIT, n->m_type);
    1.148     rmind 		if (m == NULL) {
    1.148     rmind 			return false;
    1.148     rmind 		}
     1.64      matt 		MCLAIM(m, n->m_owner);
      1.1       cgd 		if (n->m_flags & M_PKTHDR) {
    1.101      yamt 			M_MOVE_PKTHDR(m, n);
      1.1       cgd 		}
      1.1       cgd 	}
      1.1       cgd 	space = &m->m_dat[MLEN] - (m->m_data + m->m_len);
      1.1       cgd 	do {
    1.148     rmind 		count = MIN(MIN(MAX(len, max_protohdr), space), n->m_len);
    1.119  christos 		memcpy(mtod(m, char *) + m->m_len, mtod(n, void *),
      1.1       cgd 		  (unsigned)count);
      1.1       cgd 		len -= count;
      1.1       cgd 		m->m_len += count;
      1.1       cgd 		n->m_len -= count;
      1.1       cgd 		space -= count;
      1.1       cgd 		if (n->m_len)
      1.1       cgd 			n->m_data += count;
      1.1       cgd 		else
      1.1       cgd 			n = m_free(n);
      1.1       cgd 	} while (len > 0 && n);
    1.148     rmind
    1.148     rmind 	m->m_next = n;
    1.148     rmind 	*m0 = m;
    1.148     rmind
    1.148     rmind 	return len <= 0;
    1.148     rmind }
    1.148     rmind
    1.148     rmind /*
    1.148     rmind  * m_pullup: same as m_ensure_contig(), but destroys mbuf chain on error.
    1.148     rmind  */
    1.148     rmind struct mbuf *
    1.148     rmind m_pullup(struct mbuf *n, int len)
    1.148     rmind {
    1.148     rmind 	struct mbuf *m = n;
    1.148     rmind
    1.156  christos 	KASSERT(len != M_COPYALL);
    1.148     rmind 	if (!m_ensure_contig(&m, len)) {
    1.148     rmind 		KASSERT(m != NULL);
    1.148     rmind 		m_freem(m);
    1.148     rmind 		m = NULL;
      1.1       cgd 	}
    1.148     rmind 	return m;
     1.60   thorpej }
     1.60   thorpej
     1.60   thorpej /*
     1.60   thorpej  * Like m_pullup(), except a new mbuf is always allocated, and we allow
     1.60   thorpej  * the amount of empty space before the data in the new mbuf to be specified
     1.60   thorpej  * (in the event that the caller expects to prepend later).
     1.60   thorpej  */
     1.60   thorpej struct mbuf *
     1.60   thorpej m_copyup(struct mbuf *n, int len, int dstoff)
     1.60   thorpej {
     1.60   thorpej 	struct mbuf *m;
     1.60   thorpej 	int count, space;
     1.60   thorpej
    1.156  christos 	KASSERT(len != M_COPYALL);
1.181.2.4  pgoyette 	if (len > ((int)MHLEN - dstoff))
     1.60   thorpej 		goto bad;
    1.153  christos 	m = m_get(M_DONTWAIT, n->m_type);
     1.60   thorpej 	if (m == NULL)
     1.60   thorpej 		goto bad;
     1.64      matt 	MCLAIM(m, n->m_owner);
     1.60   thorpej 	if (n->m_flags & M_PKTHDR) {
    1.101      yamt 		M_MOVE_PKTHDR(m, n);
     1.60   thorpej 	}
     1.60   thorpej 	m->m_data += dstoff;
     1.60   thorpej 	space = &m->m_dat[MLEN] - (m->m_data + m->m_len);
     1.60   thorpej 	do {
     1.60   thorpej 		count = min(min(max(len, max_protohdr), space), n->m_len);
    1.119  christos 		memcpy(mtod(m, char *) + m->m_len, mtod(n, void *),
     1.60   thorpej 		    (unsigned)count);
     1.60   thorpej 		len -= count;
     1.60   thorpej 		m->m_len += count;
     1.60   thorpej 		n->m_len -= count;
     1.60   thorpej 		space -= count;
     1.60   thorpej 		if (n->m_len)
     1.60   thorpej 			n->m_data += count;
     1.60   thorpej 		else
     1.60   thorpej 			n = m_free(n);
     1.60   thorpej 	} while (len > 0 && n);
     1.60   thorpej 	if (len > 0) {
     1.60   thorpej 		(void) m_free(m);
     1.60   thorpej 		goto bad;
     1.60   thorpej 	}
     1.60   thorpej 	m->m_next = n;
1.181.2.5  pgoyette 	return m;
     1.60   thorpej  bad:
     1.60   thorpej 	m_freem(n);
1.181.2.5  pgoyette 	return NULL;
      1.9   mycroft }
      1.9   mycroft
      1.9   mycroft struct mbuf *
1.181.2.5  pgoyette m_split(struct mbuf *m0, int len, int wait)
      1.9   mycroft {
1.181.2.5  pgoyette 	return m_split_internal(m0, len, wait, true);
     1.85      yamt }
     1.85      yamt
     1.85      yamt static struct mbuf *
1.181.2.5  pgoyette m_split_internal(struct mbuf *m0, int len0, int wait, bool copyhdr)
     1.85      yamt {
     1.27      matt 	struct mbuf *m, *n;
     1.22   thorpej 	unsigned len = len0, remain, len_save;
      1.9   mycroft
    1.156  christos 	KASSERT(len0 != M_COPYALL);
      1.9   mycroft 	for (m = m0; m && len > m->m_len; m = m->m_next)
      1.9   mycroft 		len -= m->m_len;
    1.181      maxv 	if (m == NULL)
    1.181      maxv 		return NULL;
    1.181      maxv
      1.9   mycroft 	remain = m->m_len - len;
     1.85      yamt 	if (copyhdr && (m0->m_flags & M_PKTHDR)) {
    1.153  christos 		n = m_gethdr(wait, m0->m_type);
    1.153  christos 		if (n == NULL)
    1.153  christos 			return NULL;
    1.181      maxv
    1.112     pavel 		MCLAIM(n, m0->m_owner);
    1.167     ozaki 		m_copy_rcvif(n, m0);
      1.9   mycroft 		n->m_pkthdr.len = m0->m_pkthdr.len - len0;
     1.22   thorpej 		len_save = m0->m_pkthdr.len;
      1.9   mycroft 		m0->m_pkthdr.len = len0;
    1.181      maxv
      1.9   mycroft 		if (m->m_flags & M_EXT)
      1.9   mycroft 			goto extpacket;
    1.181      maxv
      1.9   mycroft 		if (remain > MHLEN) {
      1.9   mycroft 			/* m can't be the lead packet */
      1.9   mycroft 			MH_ALIGN(n, 0);
    1.132    bouyer 			n->m_len = 0;
      1.9   mycroft 			n->m_next = m_split(m, len, wait);
    1.181      maxv 			if (n->m_next == NULL) {
    1.181      maxv 				(void)m_free(n);
     1.22   thorpej 				m0->m_pkthdr.len = len_save;
    1.181      maxv 				return NULL;
    1.181      maxv 			}
    1.181      maxv 			return n;
    1.181      maxv 		} else {
      1.9   mycroft 			MH_ALIGN(n, remain);
    1.181      maxv 		}
      1.9   mycroft 	} else if (remain == 0) {
      1.9   mycroft 		n = m->m_next;
    1.181      maxv 		m->m_next = NULL;
    1.181      maxv 		return n;
      1.9   mycroft 	} else {
    1.153  christos 		n = m_get(wait, m->m_type);
    1.181      maxv 		if (n == NULL)
    1.181      maxv 			return NULL;
     1.64      matt 		MCLAIM(n, m->m_owner);
      1.9   mycroft 		M_ALIGN(n, remain);
      1.9   mycroft 	}
    1.181      maxv
      1.9   mycroft extpacket:
      1.9   mycroft 	if (m->m_flags & M_EXT) {
    1.125      yamt 		n->m_data = m->m_data + len;
     1.18   thorpej 		MCLADDREFERENCE(m, n);
      1.9   mycroft 	} else {
    1.119  christos 		memcpy(mtod(n, void *), mtod(m, char *) + len, remain);
      1.9   mycroft 	}
    1.181      maxv
      1.9   mycroft 	n->m_len = remain;
      1.9   mycroft 	m->m_len = len;
      1.9   mycroft 	n->m_next = m->m_next;
    1.181      maxv 	m->m_next = NULL;
    1.181      maxv 	return n;
      1.9   mycroft }
    1.181      maxv
      1.9   mycroft /*
      1.9   mycroft  * Routine to copy from device local memory into mbufs.
      1.9   mycroft  */
      1.9   mycroft struct mbuf *
     1.62   thorpej m_devget(char *buf, int totlen, int off0, struct ifnet *ifp,
     1.62   thorpej     void (*copy)(const void *from, void *to, size_t len))
      1.9   mycroft {
     1.27      matt 	struct mbuf *m;
    1.181      maxv 	struct mbuf *top = NULL, **mp = &top;
     1.27      matt 	int off = off0, len;
    1.181      maxv 	char *cp, *epkt;
      1.9   mycroft
      1.9   mycroft 	cp = buf;
      1.9   mycroft 	epkt = cp + totlen;
      1.9   mycroft 	if (off) {
     1.13       cgd 		/*
     1.13       cgd 		 * If 'off' is non-zero, packet is trailer-encapsulated,
     1.13       cgd 		 * so we have to skip the type and length fields.
     1.13       cgd 		 */
    1.104     perry 		cp += off + 2 * sizeof(uint16_t);
    1.104     perry 		totlen -= 2 * sizeof(uint16_t);
      1.9   mycroft 	}
    1.181      maxv
    1.153  christos 	m = m_gethdr(M_DONTWAIT, MT_DATA);
    1.153  christos 	if (m == NULL)
    1.153  christos 		return NULL;
    1.166     ozaki 	m_set_rcvif(m, ifp);
      1.9   mycroft 	m->m_pkthdr.len = totlen;
      1.9   mycroft 	m->m_len = MHLEN;
      1.9   mycroft
      1.9   mycroft 	while (totlen > 0) {
      1.9   mycroft 		if (top) {
    1.153  christos 			m = m_get(M_DONTWAIT, MT_DATA);
    1.181      maxv 			if (m == NULL) {
      1.9   mycroft 				m_freem(top);
    1.181      maxv 				return NULL;
      1.9   mycroft 			}
      1.9   mycroft 			m->m_len = MLEN;
      1.9   mycroft 		}
    1.181      maxv
      1.9   mycroft 		len = min(totlen, epkt - cp);
    1.181      maxv
      1.9   mycroft 		if (len >= MINCLSIZE) {
      1.9   mycroft 			MCLGET(m, M_DONTWAIT);
     1.19   mycroft 			if ((m->m_flags & M_EXT) == 0) {
     1.20   mycroft 				m_free(m);
     1.19   mycroft 				m_freem(top);
    1.181      maxv 				return NULL;
     1.19   mycroft 			}
     1.19   mycroft 			m->m_len = len = min(len, MCLBYTES);
      1.9   mycroft 		} else {
      1.9   mycroft 			/*
      1.9   mycroft 			 * Place initial small packet/header at end of mbuf.
      1.9   mycroft 			 */
      1.9   mycroft 			if (len < m->m_len) {
      1.9   mycroft 				if (top == 0 && len + max_linkhdr <= m->m_len)
      1.9   mycroft 					m->m_data += max_linkhdr;
      1.9   mycroft 				m->m_len = len;
      1.9   mycroft 			} else
      1.9   mycroft 				len = m->m_len;
      1.9   mycroft 		}
    1.181      maxv
      1.9   mycroft 		if (copy)
    1.119  christos 			copy(cp, mtod(m, void *), (size_t)len);
      1.9   mycroft 		else
    1.119  christos 			memcpy(mtod(m, void *), cp, (size_t)len);
    1.181      maxv
      1.9   mycroft 		cp += len;
      1.9   mycroft 		*mp = m;
      1.9   mycroft 		mp = &m->m_next;
      1.9   mycroft 		totlen -= len;
      1.9   mycroft 		if (cp == epkt)
      1.9   mycroft 			cp = buf;
      1.9   mycroft 	}
    1.181      maxv
    1.181      maxv 	return top;
     1.18   thorpej }
     1.18   thorpej
     1.18   thorpej /*
     1.18   thorpej  * Copy data from a buffer back into the indicated mbuf chain,
     1.18   thorpej  * starting "off" bytes from the beginning, extending the mbuf
     1.18   thorpej  * chain if necessary.
     1.18   thorpej  */
     1.18   thorpej void
     1.86      yamt m_copyback(struct mbuf *m0, int off, int len, const void *cp)
     1.18   thorpej {
     1.85      yamt #if defined(DEBUG)
     1.85      yamt 	struct mbuf *origm = m0;
     1.85      yamt 	int error;
    1.181      maxv #endif
     1.85      yamt
     1.85      yamt 	if (m0 == NULL)
     1.85      yamt 		return;
     1.85      yamt
     1.85      yamt #if defined(DEBUG)
     1.85      yamt 	error =
    1.181      maxv #endif
1.181.2.5  pgoyette 	m_copyback_internal(&m0, off, len, cp, CB_COPYBACK|CB_EXTEND,
1.181.2.5  pgoyette 	    M_DONTWAIT);
     1.85      yamt
     1.85      yamt #if defined(DEBUG)
     1.85      yamt 	if (error != 0 || (m0 != NULL && origm != m0))
     1.85      yamt 		panic("m_copyback");
    1.181      maxv #endif
     1.85      yamt }
     1.85      yamt
     1.85      yamt struct mbuf *
     1.86      yamt m_copyback_cow(struct mbuf *m0, int off, int len, const void *cp, int how)
     1.85      yamt {
     1.85      yamt 	int error;
     1.85      yamt
     1.85      yamt 	/* don't support chain expansion */
    1.156  christos 	KASSERT(len != M_COPYALL);
     1.85      yamt 	KDASSERT(off + len <= m_length(m0));
     1.85      yamt
1.181.2.5  pgoyette 	error = m_copyback_internal(&m0, off, len, cp, CB_COPYBACK|CB_COW,
1.181.2.5  pgoyette 	    how);
     1.85      yamt 	if (error) {
     1.85      yamt 		/*
     1.85      yamt 		 * no way to recover from partial success.
     1.85      yamt 		 * just free the chain.
     1.85      yamt 		 */
     1.85      yamt 		m_freem(m0);
     1.85      yamt 		return NULL;
     1.85      yamt 	}
     1.85      yamt 	return m0;
     1.85      yamt }
     1.85      yamt
     1.85      yamt int
     1.85      yamt m_makewritable(struct mbuf **mp, int off, int len, int how)
     1.85      yamt {
     1.85      yamt 	int error;
     1.85      yamt #if defined(DEBUG)
    1.156  christos 	int origlen = m_length(*mp);
    1.181      maxv #endif
     1.85      yamt
1.181.2.5  pgoyette 	error = m_copyback_internal(mp, off, len, NULL, CB_PRESERVE|CB_COW,
1.181.2.5  pgoyette 	    how);
    1.170  christos 	if (error)
    1.170  christos 		return error;
    1.170  christos
     1.85      yamt #if defined(DEBUG)
    1.156  christos 	int reslen = 0;
    1.156  christos 	for (struct mbuf *n = *mp; n; n = n->m_next)
     1.85      yamt 		reslen += n->m_len;
     1.85      yamt 	if (origlen != reslen)
     1.85      yamt 		panic("m_makewritable: length changed");
     1.85      yamt 	if (((*mp)->m_flags & M_PKTHDR) != 0 && reslen != (*mp)->m_pkthdr.len)
     1.85      yamt 		panic("m_makewritable: inconsist");
    1.181      maxv #endif
     1.85      yamt
    1.170  christos 	return 0;
     1.85      yamt }
     1.85      yamt
1.181.2.5  pgoyette static int
1.181.2.5  pgoyette m_copyback_internal(struct mbuf **mp0, int off, int len, const void *vp,
1.181.2.5  pgoyette     int flags, int how)
     1.85      yamt {
     1.27      matt 	int mlen;
     1.85      yamt 	struct mbuf *m, *n;
     1.85      yamt 	struct mbuf **mp;
     1.18   thorpej 	int totlen = 0;
     1.86      yamt 	const char *cp = vp;
     1.18   thorpej
     1.85      yamt 	KASSERT(mp0 != NULL);
     1.85      yamt 	KASSERT(*mp0 != NULL);
1.181.2.5  pgoyette 	KASSERT((flags & CB_PRESERVE) == 0 || cp == NULL);
1.181.2.5  pgoyette 	KASSERT((flags & CB_COPYBACK) == 0 || cp != NULL);
     1.85      yamt
    1.156  christos 	if (len == M_COPYALL)
    1.156  christos 		len = m_length(*mp0) - off;
    1.156  christos
    1.106      yamt 	/*
1.181.2.5  pgoyette 	 * we don't bother to update "totlen" in the case of CB_COW,
1.181.2.5  pgoyette 	 * assuming that CB_EXTEND and CB_COW are exclusive.
    1.106      yamt 	 */
    1.106      yamt
1.181.2.5  pgoyette 	KASSERT((~flags & (CB_EXTEND|CB_COW)) != 0);
    1.106      yamt
     1.85      yamt 	mp = mp0;
     1.85      yamt 	m = *mp;
     1.18   thorpej 	while (off > (mlen = m->m_len)) {
     1.18   thorpej 		off -= mlen;
     1.18   thorpej 		totlen += mlen;
    1.109      yamt 		if (m->m_next == NULL) {
    1.109      yamt 			int tspace;
    1.109      yamt extend:
1.181.2.5  pgoyette 			if ((flags & CB_EXTEND) == 0)
     1.85      yamt 				goto out;
    1.109      yamt
    1.109      yamt 			/*
    1.109      yamt 			 * try to make some space at the end of "m".
    1.109      yamt 			 */
    1.109      yamt
    1.109      yamt 			mlen = m->m_len;
    1.109      yamt 			if (off + len >= MINCLSIZE &&
    1.109      yamt 			    (m->m_flags & M_EXT) == 0 && m->m_len == 0) {
    1.109      yamt 				MCLGET(m, how);
    1.109      yamt 			}
    1.109      yamt 			tspace = M_TRAILINGSPACE(m);
    1.109      yamt 			if (tspace > 0) {
    1.109      yamt 				tspace = min(tspace, off + len);
    1.109      yamt 				KASSERT(tspace > 0);
    1.109      yamt 				memset(mtod(m, char *) + m->m_len, 0,
    1.109      yamt 				    min(off, tspace));
    1.109      yamt 				m->m_len += tspace;
    1.109      yamt 				off += mlen;
    1.109      yamt 				totlen -= mlen;
    1.109      yamt 				continue;
    1.109      yamt 			}
    1.109      yamt
    1.109      yamt 			/*
    1.109      yamt 			 * need to allocate an mbuf.
    1.109      yamt 			 */
    1.109      yamt
    1.109      yamt 			if (off + len >= MINCLSIZE) {
    1.109      yamt 				n = m_getcl(how, m->m_type, 0);
    1.109      yamt 			} else {
    1.109      yamt 				n = m_get(how, m->m_type);
    1.109      yamt 			}
    1.109      yamt 			if (n == NULL) {
     1.18   thorpej 				goto out;
    1.109      yamt 			}
    1.109      yamt 			n->m_len = min(M_TRAILINGSPACE(n), off + len);
    1.109      yamt 			memset(mtod(n, char *), 0, min(n->m_len, off));
     1.18   thorpej 			m->m_next = n;
     1.18   thorpej 		}
     1.85      yamt 		mp = &m->m_next;
     1.18   thorpej 		m = m->m_next;
     1.18   thorpej 	}
     1.18   thorpej 	while (len > 0) {
     1.85      yamt 		mlen = m->m_len - off;
     1.85      yamt 		if (mlen != 0 && M_READONLY(m)) {
     1.85      yamt 			/*
1.181.2.5  pgoyette 			 * This mbuf is read-only. Allocate a new writable
1.181.2.5  pgoyette 			 * mbuf and try again.
     1.85      yamt 			 */
1.181.2.5  pgoyette 			char *datap;
1.181.2.5  pgoyette 			int eatlen;
     1.85      yamt
1.181.2.5  pgoyette 			KASSERT((flags & CB_COW) != 0);
     1.85      yamt
     1.85      yamt 			/*
     1.85      yamt 			 * if we're going to write into the middle of
     1.85      yamt 			 * a mbuf, split it first.
     1.85      yamt 			 */
    1.137     seanb 			if (off > 0) {
1.181.2.5  pgoyette 				n = m_split_internal(m, off, how, false);
     1.85      yamt 				if (n == NULL)
     1.85      yamt 					goto enobufs;
     1.85      yamt 				m->m_next = n;
     1.85      yamt 				mp = &m->m_next;
     1.85      yamt 				m = n;
     1.85      yamt 				off = 0;
     1.85      yamt 				continue;
     1.85      yamt 			}
     1.85      yamt
     1.85      yamt 			/*
     1.85      yamt 			 * XXX TODO coalesce into the trailingspace of
     1.85      yamt 			 * the previous mbuf when possible.
     1.85      yamt 			 */
     1.85      yamt
     1.85      yamt 			/*
     1.85      yamt 			 * allocate a new mbuf.  copy packet header if needed.
     1.85      yamt 			 */
    1.153  christos 			n = m_get(how, m->m_type);
     1.85      yamt 			if (n == NULL)
     1.85      yamt 				goto enobufs;
     1.85      yamt 			MCLAIM(n, m->m_owner);
     1.85      yamt 			if (off == 0 && (m->m_flags & M_PKTHDR) != 0) {
    1.101      yamt 				M_MOVE_PKTHDR(n, m);
     1.85      yamt 				n->m_len = MHLEN;
     1.85      yamt 			} else {
     1.85      yamt 				if (len >= MINCLSIZE)
     1.85      yamt 					MCLGET(n, M_DONTWAIT);
     1.85      yamt 				n->m_len =
     1.85      yamt 				    (n->m_flags & M_EXT) ? MCLBYTES : MLEN;
     1.85      yamt 			}
     1.85      yamt 			if (n->m_len > len)
     1.85      yamt 				n->m_len = len;
     1.85      yamt
     1.85      yamt 			/*
     1.85      yamt 			 * free the region which has been overwritten.
     1.85      yamt 			 * copying data from old mbufs if requested.
     1.85      yamt 			 */
1.181.2.5  pgoyette 			if (flags & CB_PRESERVE)
     1.85      yamt 				datap = mtod(n, char *);
     1.85      yamt 			else
     1.85      yamt 				datap = NULL;
     1.85      yamt 			eatlen = n->m_len;
     1.85      yamt 			while (m != NULL && M_READONLY(m) &&
     1.85      yamt 			    n->m_type == m->m_type && eatlen > 0) {
     1.85      yamt 				mlen = min(eatlen, m->m_len);
     1.85      yamt 				if (datap) {
     1.85      yamt 					m_copydata(m, 0, mlen, datap);
     1.85      yamt 					datap += mlen;
     1.85      yamt 				}
     1.85      yamt 				m->m_data += mlen;
     1.85      yamt 				m->m_len -= mlen;
     1.85      yamt 				eatlen -= mlen;
     1.85      yamt 				if (m->m_len == 0)
     1.85      yamt 					*mp = m = m_free(m);
     1.85      yamt 			}
     1.85      yamt 			if (eatlen > 0)
     1.85      yamt 				n->m_len -= eatlen;
     1.85      yamt 			n->m_next = m;
     1.85      yamt 			*mp = m = n;
     1.85      yamt 			continue;
     1.85      yamt 		}
     1.85      yamt 		mlen = min(mlen, len);
1.181.2.5  pgoyette 		if (flags & CB_COPYBACK) {
    1.119  christos 			memcpy(mtod(m, char *) + off, cp, (unsigned)mlen);
     1.85      yamt 			cp += mlen;
     1.85      yamt 		}
     1.18   thorpej 		len -= mlen;
     1.18   thorpej 		mlen += off;
     1.18   thorpej 		off = 0;
     1.18   thorpej 		totlen += mlen;
     1.18   thorpej 		if (len == 0)
     1.18   thorpej 			break;
    1.109      yamt 		if (m->m_next == NULL) {
    1.109      yamt 			goto extend;
     1.18   thorpej 		}
     1.85      yamt 		mp = &m->m_next;
     1.18   thorpej 		m = m->m_next;
     1.18   thorpej 	}
1.181.2.5  pgoyette
1.181.2.5  pgoyette out:
1.181.2.5  pgoyette 	if (((m = *mp0)->m_flags & M_PKTHDR) && (m->m_pkthdr.len < totlen)) {
1.181.2.5  pgoyette 		KASSERT((flags & CB_EXTEND) != 0);
     1.18   thorpej 		m->m_pkthdr.len = totlen;
    1.106      yamt 	}
     1.85      yamt
     1.85      yamt 	return 0;
     1.85      yamt
     1.85      yamt enobufs:
     1.85      yamt 	return ENOBUFS;
     1.66   thorpej }
     1.66   thorpej
1.181.2.5  pgoyette /*
1.181.2.5  pgoyette  * Compress the mbuf chain. Return the new mbuf chain on success, NULL on
1.181.2.5  pgoyette  * failure. The first mbuf is preserved, and on success the pointer returned
1.181.2.5  pgoyette  * is the same as the one passed.
1.181.2.5  pgoyette  */
1.181.2.5  pgoyette struct mbuf *
1.181.2.5  pgoyette m_defrag(struct mbuf *m, int how)
1.181.2.5  pgoyette {
1.181.2.5  pgoyette 	struct mbuf *m0, *mn, *n;
1.181.2.5  pgoyette 	int sz;
1.181.2.5  pgoyette
1.181.2.5  pgoyette 	KASSERT((m->m_flags & M_PKTHDR) != 0);
1.181.2.5  pgoyette
1.181.2.5  pgoyette 	if (m->m_next == NULL)
1.181.2.5  pgoyette 		return m;
1.181.2.5  pgoyette
1.181.2.5  pgoyette 	m0 = m_get(how, MT_DATA);
1.181.2.5  pgoyette 	if (m0 == NULL)
1.181.2.5  pgoyette 		return NULL;
1.181.2.5  pgoyette 	mn = m0;
1.181.2.5  pgoyette
1.181.2.5  pgoyette 	sz = m->m_pkthdr.len - m->m_len;
1.181.2.5  pgoyette 	KASSERT(sz >= 0);
1.181.2.5  pgoyette
1.181.2.5  pgoyette 	do {
1.181.2.5  pgoyette 		if (sz > MLEN) {
1.181.2.5  pgoyette 			MCLGET(mn, how);
1.181.2.5  pgoyette 			if ((mn->m_flags & M_EXT) == 0) {
1.181.2.5  pgoyette 				m_freem(m0);
1.181.2.5  pgoyette 				return NULL;
1.181.2.5  pgoyette 			}
1.181.2.5  pgoyette 		}
1.181.2.5  pgoyette
1.181.2.5  pgoyette 		mn->m_len = MIN(sz, MCLBYTES);
1.181.2.5  pgoyette
1.181.2.5  pgoyette 		m_copydata(m, m->m_pkthdr.len - sz, mn->m_len,
1.181.2.5  pgoyette 		     mtod(mn, void *));
1.181.2.5  pgoyette
1.181.2.5  pgoyette 		sz -= mn->m_len;
1.181.2.5  pgoyette
1.181.2.5  pgoyette 		if (sz > 0) {
1.181.2.5  pgoyette 			/* need more mbufs */
1.181.2.5  pgoyette 			n = m_get(how, MT_DATA);
1.181.2.5  pgoyette 			if (n == NULL) {
1.181.2.5  pgoyette 				m_freem(m0);
1.181.2.5  pgoyette 				return NULL;
1.181.2.5  pgoyette 			}
1.181.2.5  pgoyette
1.181.2.5  pgoyette 			mn->m_next = n;
1.181.2.5  pgoyette 			mn = n;
1.181.2.5  pgoyette 		}
1.181.2.5  pgoyette 	} while (sz > 0);
1.181.2.5  pgoyette
1.181.2.5  pgoyette 	m_freem(m->m_next);
1.181.2.5  pgoyette 	m->m_next = m0;
1.181.2.5  pgoyette
1.181.2.5  pgoyette 	return m;
1.181.2.5  pgoyette }
1.181.2.5  pgoyette
1.181.2.5  pgoyette void
1.181.2.6  pgoyette m_remove_pkthdr(struct mbuf *m)
1.181.2.5  pgoyette {
1.181.2.5  pgoyette 	KASSERT(m->m_flags & M_PKTHDR);
1.181.2.5  pgoyette
1.181.2.5  pgoyette 	m_tag_delete_chain(m, NULL);
1.181.2.5  pgoyette 	m->m_flags &= ~M_PKTHDR;
1.181.2.5  pgoyette 	memset(&m->m_pkthdr, 0, sizeof(m->m_pkthdr));
1.181.2.5  pgoyette }
1.181.2.5  pgoyette
1.181.2.5  pgoyette void
1.181.2.5  pgoyette m_copy_pkthdr(struct mbuf *to, struct mbuf *from)
1.181.2.5  pgoyette {
1.181.2.6  pgoyette 	KASSERT((to->m_flags & M_EXT) == 0);
1.181.2.6  pgoyette 	KASSERT((to->m_flags & M_PKTHDR) == 0 || m_tag_first(to) == NULL);
1.181.2.5  pgoyette 	KASSERT((from->m_flags & M_PKTHDR) != 0);
1.181.2.5  pgoyette
1.181.2.5  pgoyette 	to->m_pkthdr = from->m_pkthdr;
1.181.2.5  pgoyette 	to->m_flags = from->m_flags & M_COPYFLAGS;
1.181.2.6  pgoyette 	to->m_data = to->m_pktdat;
1.181.2.6  pgoyette
1.181.2.5  pgoyette 	SLIST_INIT(&to->m_pkthdr.tags);
1.181.2.5  pgoyette 	m_tag_copy_chain(to, from);
1.181.2.5  pgoyette }
1.181.2.5  pgoyette
    1.101      yamt void
    1.101      yamt m_move_pkthdr(struct mbuf *to, struct mbuf *from)
    1.101      yamt {
    1.101      yamt 	KASSERT((to->m_flags & M_EXT) == 0);
    1.101      yamt 	KASSERT((to->m_flags & M_PKTHDR) == 0 || m_tag_first(to) == NULL);
    1.101      yamt 	KASSERT((from->m_flags & M_PKTHDR) != 0);
    1.101      yamt
    1.101      yamt 	to->m_pkthdr = from->m_pkthdr;
    1.101      yamt 	to->m_flags = from->m_flags & M_COPYFLAGS;
    1.101      yamt 	to->m_data = to->m_pktdat;
    1.101      yamt
    1.101      yamt 	from->m_flags &= ~M_PKTHDR;
    1.101      yamt }
    1.101      yamt
     1.66   thorpej /*
     1.66   thorpej  * Apply function f to the data in an mbuf chain starting "off" bytes from the
     1.66   thorpej  * beginning, continuing for "len" bytes.
     1.66   thorpej  */
     1.66   thorpej int
     1.66   thorpej m_apply(struct mbuf *m, int off, int len,
    1.119  christos     int (*f)(void *, void *, unsigned int), void *arg)
     1.66   thorpej {
     1.66   thorpej 	unsigned int count;
     1.66   thorpej 	int rval;
     1.66   thorpej
    1.156  christos 	KASSERT(len != M_COPYALL);
     1.66   thorpej 	KASSERT(len >= 0);
     1.66   thorpej 	KASSERT(off >= 0);
     1.66   thorpej
     1.66   thorpej 	while (off > 0) {
     1.66   thorpej 		KASSERT(m != NULL);
     1.66   thorpej 		if (off < m->m_len)
     1.66   thorpej 			break;
     1.66   thorpej 		off -= m->m_len;
     1.66   thorpej 		m = m->m_next;
     1.66   thorpej 	}
     1.66   thorpej 	while (len > 0) {
     1.66   thorpej 		KASSERT(m != NULL);
     1.66   thorpej 		count = min(m->m_len - off, len);
     1.66   thorpej
    1.119  christos 		rval = (*f)(arg, mtod(m, char *) + off, count);
     1.66   thorpej 		if (rval)
    1.181      maxv 			return rval;
     1.66   thorpej
     1.66   thorpej 		len -= count;
     1.66   thorpej 		off = 0;
     1.66   thorpej 		m = m->m_next;
     1.66   thorpej 	}
     1.66   thorpej
    1.181      maxv 	return 0;
     1.66   thorpej }
     1.66   thorpej
     1.66   thorpej /*
     1.66   thorpej  * Return a pointer to mbuf/offset of location in mbuf chain.
     1.66   thorpej  */
     1.66   thorpej struct mbuf *
     1.66   thorpej m_getptr(struct mbuf *m, int loc, int *off)
     1.66   thorpej {
     1.66   thorpej
     1.66   thorpej 	while (loc >= 0) {
     1.66   thorpej 		/* Normal end of search */
     1.66   thorpej 		if (m->m_len > loc) {
    1.177      maxv 			*off = loc;
    1.181      maxv 			return m;
    1.181      maxv 		}
    1.181      maxv
    1.181      maxv 		loc -= m->m_len;
    1.181      maxv
    1.181      maxv 		if (m->m_next == NULL) {
    1.181      maxv 			if (loc == 0) {
    1.181      maxv 				/* Point at the end of valid data */
    1.181      maxv 				*off = m->m_len;
    1.181      maxv 				return m;
    1.181      maxv 			}
    1.181      maxv 			return NULL;
     1.66   thorpej 		} else {
    1.181      maxv 			m = m->m_next;
     1.66   thorpej 		}
    1.177      maxv 	}
     1.66   thorpej
    1.181      maxv 	return NULL;
      1.1       cgd }
    1.105      yamt
    1.105      yamt #if defined(DDB)
    1.105      yamt void
    1.105      yamt m_print(const struct mbuf *m, const char *modif, void (*pr)(const char *, ...))
    1.105      yamt {
    1.105      yamt 	char ch;
    1.118   thorpej 	bool opt_c = false;
    1.105      yamt 	char buf[512];
    1.105      yamt
    1.105      yamt 	while ((ch = *(modif++)) != '\0') {
    1.105      yamt 		switch (ch) {
    1.105      yamt 		case 'c':
    1.118   thorpej 			opt_c = true;
    1.105      yamt 			break;
    1.105      yamt 		}
    1.105      yamt 	}
    1.105      yamt
    1.105      yamt nextchain:
    1.105      yamt 	(*pr)("MBUF %p\n", m);
    1.130  christos 	snprintb(buf, sizeof(buf), M_FLAGS_BITS, (u_int)m->m_flags);
    1.138    cegger 	(*pr)("  data=%p, len=%d, type=%d, flags=%s\n",
    1.105      yamt 	    m->m_data, m->m_len, m->m_type, buf);
    1.105      yamt 	(*pr)("  owner=%p, next=%p, nextpkt=%p\n", m->m_owner, m->m_next,
    1.105      yamt 	    m->m_nextpkt);
    1.105      yamt 	(*pr)("  leadingspace=%u, trailingspace=%u, readonly=%u\n",
    1.105      yamt 	    (int)M_LEADINGSPACE(m), (int)M_TRAILINGSPACE(m),
    1.105      yamt 	    (int)M_READONLY(m));
    1.105      yamt 	if ((m->m_flags & M_PKTHDR) != 0) {
    1.130  christos 		snprintb(buf, sizeof(buf), M_CSUM_BITS, m->m_pkthdr.csum_flags);
    1.172   msaitoh 		(*pr)("  pktlen=%d, rcvif=%p, csum_flags=%s, csum_data=0x%"
    1.105      yamt 		    PRIx32 ", segsz=%u\n",
    1.167     ozaki 		    m->m_pkthdr.len, m_get_rcvif_NOMPSAFE(m),
    1.105      yamt 		    buf, m->m_pkthdr.csum_data, m->m_pkthdr.segsz);
    1.105      yamt 	}
    1.105      yamt 	if ((m->m_flags & M_EXT)) {
    1.125      yamt 		(*pr)("  ext_refcnt=%u, ext_buf=%p, ext_size=%zd, "
    1.105      yamt 		    "ext_free=%p, ext_arg=%p\n",
    1.125      yamt 		    m->m_ext.ext_refcnt,
    1.105      yamt 		    m->m_ext.ext_buf, m->m_ext.ext_size,
    1.105      yamt 		    m->m_ext.ext_free, m->m_ext.ext_arg);
    1.105      yamt 	}
    1.105      yamt 	if ((~m->m_flags & (M_EXT|M_EXT_PAGES)) == 0) {
    1.108      yamt 		vaddr_t sva = (vaddr_t)m->m_ext.ext_buf;
    1.108      yamt 		vaddr_t eva = sva + m->m_ext.ext_size;
    1.108      yamt 		int n = (round_page(eva) - trunc_page(sva)) >> PAGE_SHIFT;
    1.108      yamt 		int i;
    1.105      yamt
    1.105      yamt 		(*pr)("  pages:");
    1.108      yamt 		for (i = 0; i < n; i ++) {
    1.108      yamt 			(*pr)(" %p", m->m_ext.ext_pgs[i]);
    1.105      yamt 		}
    1.105      yamt 		(*pr)("\n");
    1.105      yamt 	}
    1.105      yamt
    1.105      yamt 	if (opt_c) {
    1.105      yamt 		m = m->m_next;
    1.105      yamt 		if (m != NULL) {
    1.105      yamt 			goto nextchain;
    1.105      yamt 		}
    1.105      yamt 	}
    1.105      yamt }
    1.105      yamt #endif /* defined(DDB) */
    1.124      yamt
    1.124      yamt #if defined(MBUFTRACE)
    1.124      yamt void
    1.124      yamt mowner_attach(struct mowner *mo)
    1.124      yamt {
    1.124      yamt
    1.124      yamt 	KASSERT(mo->mo_counters == NULL);
    1.124      yamt 	mo->mo_counters = percpu_alloc(sizeof(struct mowner_counter));
    1.124      yamt
    1.124      yamt 	/* XXX lock */
    1.124      yamt 	LIST_INSERT_HEAD(&mowners, mo, mo_link);
    1.124      yamt }
    1.124      yamt
    1.124      yamt void
    1.124      yamt mowner_detach(struct mowner *mo)
    1.124      yamt {
    1.124      yamt
    1.124      yamt 	KASSERT(mo->mo_counters != NULL);
    1.124      yamt
    1.124      yamt 	/* XXX lock */
    1.124      yamt 	LIST_REMOVE(mo, mo_link);
    1.124      yamt
    1.124      yamt 	percpu_free(mo->mo_counters, sizeof(struct mowner_counter));
    1.124      yamt 	mo->mo_counters = NULL;
    1.124      yamt }
    1.124      yamt
    1.124      yamt void
    1.124      yamt mowner_init(struct mbuf *m, int type)
    1.124      yamt {
    1.124      yamt 	struct mowner_counter *mc;
    1.124      yamt 	struct mowner *mo;
    1.124      yamt 	int s;
    1.124      yamt
    1.124      yamt 	m->m_owner = mo = &unknown_mowners[type];
    1.124      yamt 	s = splvm();
    1.126   thorpej 	mc = percpu_getref(mo->mo_counters);
    1.124      yamt 	mc->mc_counter[MOWNER_COUNTER_CLAIMS]++;
    1.126   thorpej 	percpu_putref(mo->mo_counters);
    1.124      yamt 	splx(s);
    1.124      yamt }
    1.124      yamt
    1.124      yamt void
    1.124      yamt mowner_ref(struct mbuf *m, int flags)
    1.124      yamt {
    1.124      yamt 	struct mowner *mo = m->m_owner;
    1.124      yamt 	struct mowner_counter *mc;
    1.124      yamt 	int s;
    1.124      yamt
    1.124      yamt 	s = splvm();
    1.126   thorpej 	mc = percpu_getref(mo->mo_counters);
    1.124      yamt 	if ((flags & M_EXT) != 0)
    1.124      yamt 		mc->mc_counter[MOWNER_COUNTER_EXT_CLAIMS]++;
1.181.2.5  pgoyette 	if ((flags & M_EXT_CLUSTER) != 0)
    1.124      yamt 		mc->mc_counter[MOWNER_COUNTER_CLUSTER_CLAIMS]++;
    1.126   thorpej 	percpu_putref(mo->mo_counters);
    1.124      yamt 	splx(s);
    1.124      yamt }
    1.124      yamt
    1.124      yamt void
    1.124      yamt mowner_revoke(struct mbuf *m, bool all, int flags)
    1.124      yamt {
    1.124      yamt 	struct mowner *mo = m->m_owner;
    1.124      yamt 	struct mowner_counter *mc;
    1.124      yamt 	int s;
    1.124      yamt
    1.124      yamt 	s = splvm();
    1.126   thorpej 	mc = percpu_getref(mo->mo_counters);
    1.124      yamt 	if ((flags & M_EXT) != 0)
    1.124      yamt 		mc->mc_counter[MOWNER_COUNTER_EXT_RELEASES]++;
1.181.2.5  pgoyette 	if ((flags & M_EXT_CLUSTER) != 0)
    1.124      yamt 		mc->mc_counter[MOWNER_COUNTER_CLUSTER_RELEASES]++;
    1.124      yamt 	if (all)
    1.124      yamt 		mc->mc_counter[MOWNER_COUNTER_RELEASES]++;
    1.126   thorpej 	percpu_putref(mo->mo_counters);
    1.124      yamt 	splx(s);
    1.124      yamt 	if (all)
    1.124      yamt 		m->m_owner = &revoked_mowner;
    1.124      yamt }
    1.124      yamt
    1.124      yamt static void
    1.124      yamt mowner_claim(struct mbuf *m, struct mowner *mo)
    1.124      yamt {
    1.124      yamt 	struct mowner_counter *mc;
    1.124      yamt 	int flags = m->m_flags;
    1.124      yamt 	int s;
    1.124      yamt
    1.124      yamt 	s = splvm();
    1.126   thorpej 	mc = percpu_getref(mo->mo_counters);
    1.124      yamt 	mc->mc_counter[MOWNER_COUNTER_CLAIMS]++;
    1.124      yamt 	if ((flags & M_EXT) != 0)
    1.124      yamt 		mc->mc_counter[MOWNER_COUNTER_EXT_CLAIMS]++;
1.181.2.5  pgoyette 	if ((flags & M_EXT_CLUSTER) != 0)
    1.124      yamt 		mc->mc_counter[MOWNER_COUNTER_CLUSTER_CLAIMS]++;
    1.126   thorpej 	percpu_putref(mo->mo_counters);
    1.124      yamt 	splx(s);
    1.124      yamt 	m->m_owner = mo;
    1.124      yamt }
    1.124      yamt
    1.124      yamt void
    1.124      yamt m_claim(struct mbuf *m, struct mowner *mo)
    1.124      yamt {
    1.124      yamt
    1.124      yamt 	if (m->m_owner == mo || mo == NULL)
    1.124      yamt 		return;
    1.124      yamt
    1.124      yamt 	mowner_revoke(m, true, m->m_flags);
    1.124      yamt 	mowner_claim(m, mo);
    1.124      yamt }
1.181.2.5  pgoyette
1.181.2.5  pgoyette void
1.181.2.5  pgoyette m_claimm(struct mbuf *m, struct mowner *mo)
1.181.2.5  pgoyette {
1.181.2.5  pgoyette
1.181.2.5  pgoyette 	for (; m != NULL; m = m->m_next)
1.181.2.5  pgoyette 		m_claim(m, mo);
1.181.2.5  pgoyette }
    1.124      yamt #endif /* defined(MBUFTRACE) */
    1.169  christos
1.181.2.3  pgoyette #ifdef DIAGNOSTIC
1.181.2.3  pgoyette /*
1.181.2.3  pgoyette  * Verify that the mbuf chain is not malformed. Used only for diagnostic.
1.181.2.3  pgoyette  * Panics on error.
1.181.2.3  pgoyette  */
1.181.2.3  pgoyette void
1.181.2.3  pgoyette m_verify_packet(struct mbuf *m)
1.181.2.3  pgoyette {
1.181.2.3  pgoyette 	struct mbuf *n = m;
1.181.2.3  pgoyette 	char *low, *high, *dat;
1.181.2.3  pgoyette 	int totlen = 0, len;
1.181.2.3  pgoyette
1.181.2.3  pgoyette 	if (__predict_false((m->m_flags & M_PKTHDR) == 0)) {
1.181.2.3  pgoyette 		panic("%s: mbuf doesn't have M_PKTHDR", __func__);
1.181.2.3  pgoyette 	}
1.181.2.3  pgoyette
1.181.2.3  pgoyette 	while (n != NULL) {
1.181.2.3  pgoyette 		if (__predict_false(n->m_type == MT_FREE)) {
1.181.2.3  pgoyette 			panic("%s: mbuf already freed (n = %p)", __func__, n);
1.181.2.3  pgoyette 		}
1.181.2.4  pgoyette #if 0
1.181.2.4  pgoyette 		/*
1.181.2.4  pgoyette 		 * This ought to be a rule of the mbuf API. Unfortunately,
1.181.2.4  pgoyette 		 * many places don't respect that rule.
1.181.2.4  pgoyette 		 */
1.181.2.3  pgoyette 		if (__predict_false((n != m) && (n->m_flags & M_PKTHDR) != 0)) {
1.181.2.3  pgoyette 			panic("%s: M_PKTHDR set on secondary mbuf", __func__);
1.181.2.3  pgoyette 		}
1.181.2.4  pgoyette #endif
1.181.2.3  pgoyette 		if (__predict_false(n->m_nextpkt != NULL)) {
1.181.2.3  pgoyette 			panic("%s: m_nextpkt not null (m_nextpkt = %p)",
1.181.2.3  pgoyette 			    __func__, n->m_nextpkt);
1.181.2.3  pgoyette 		}
1.181.2.3  pgoyette
1.181.2.3  pgoyette 		dat = n->m_data;
1.181.2.3  pgoyette 		len = n->m_len;
1.181.2.3  pgoyette
1.181.2.3  pgoyette 		if (n->m_flags & M_EXT) {
1.181.2.3  pgoyette 			low = n->m_ext.ext_buf;
1.181.2.3  pgoyette 			high = low + n->m_ext.ext_size;
1.181.2.3  pgoyette 		} else if (n->m_flags & M_PKTHDR) {
1.181.2.3  pgoyette 			low = n->m_pktdat;
1.181.2.3  pgoyette 			high = low + MHLEN;
1.181.2.3  pgoyette 		} else {
1.181.2.3  pgoyette 			low = n->m_dat;
1.181.2.3  pgoyette 			high = low + MLEN;
1.181.2.3  pgoyette 		}
1.181.2.4  pgoyette 		if (__predict_false(dat + len < dat)) {
1.181.2.3  pgoyette 			panic("%s: incorrect length (len = %d)", __func__, len);
1.181.2.3  pgoyette 		}
1.181.2.3  pgoyette 		if (__predict_false((dat < low) || (dat + len > high))) {
1.181.2.3  pgoyette 			panic("%s: m_data not in packet"
1.181.2.3  pgoyette 			    "(dat = %p, len = %d, low = %p, high = %p)",
1.181.2.3  pgoyette 			    __func__, dat, len, low, high);
1.181.2.3  pgoyette 		}
1.181.2.3  pgoyette
1.181.2.3  pgoyette 		totlen += len;
1.181.2.3  pgoyette 		n = n->m_next;
1.181.2.3  pgoyette 	}
1.181.2.3  pgoyette
1.181.2.3  pgoyette 	if (__predict_false(totlen != m->m_pkthdr.len)) {
1.181.2.3  pgoyette 		panic("%s: inconsistent mbuf length (%d != %d)", __func__,
1.181.2.3  pgoyette 		    totlen, m->m_pkthdr.len);
1.181.2.3  pgoyette 	}
1.181.2.3  pgoyette }
1.181.2.3  pgoyette #endif
1.181.2.3  pgoyette
1.181.2.3  pgoyette /*
1.181.2.3  pgoyette  * Release a reference to the mbuf external storage.
1.181.2.3  pgoyette  *
1.181.2.3  pgoyette  * => free the mbuf m itself as well.
1.181.2.3  pgoyette  */
1.181.2.3  pgoyette static void
1.181.2.3  pgoyette m_ext_free(struct mbuf *m)
1.181.2.3  pgoyette {
1.181.2.3  pgoyette 	const bool embedded = MEXT_ISEMBEDDED(m);
1.181.2.3  pgoyette 	bool dofree = true;
1.181.2.3  pgoyette 	u_int refcnt;
1.181.2.3  pgoyette
1.181.2.3  pgoyette 	KASSERT((m->m_flags & M_EXT) != 0);
1.181.2.3  pgoyette 	KASSERT(MEXT_ISEMBEDDED(m->m_ext_ref));
1.181.2.3  pgoyette 	KASSERT((m->m_ext_ref->m_flags & M_EXT) != 0);
1.181.2.3  pgoyette 	KASSERT((m->m_flags & M_EXT_CLUSTER) ==
1.181.2.3  pgoyette 	    (m->m_ext_ref->m_flags & M_EXT_CLUSTER));
1.181.2.3  pgoyette
1.181.2.3  pgoyette 	if (__predict_false(m->m_type == MT_FREE)) {
1.181.2.3  pgoyette 		panic("mbuf %p already freed", m);
1.181.2.3  pgoyette 	}
1.181.2.3  pgoyette
1.181.2.3  pgoyette 	if (__predict_true(m->m_ext.ext_refcnt == 1)) {
1.181.2.3  pgoyette 		refcnt = m->m_ext.ext_refcnt = 0;
1.181.2.3  pgoyette 	} else {
1.181.2.3  pgoyette 		refcnt = atomic_dec_uint_nv(&m->m_ext.ext_refcnt);
1.181.2.3  pgoyette 	}
1.181.2.3  pgoyette
1.181.2.3  pgoyette 	if (refcnt > 0) {
1.181.2.3  pgoyette 		if (embedded) {
1.181.2.3  pgoyette 			/*
1.181.2.3  pgoyette 			 * other mbuf's m_ext_ref still points to us.
1.181.2.3  pgoyette 			 */
1.181.2.3  pgoyette 			dofree = false;
1.181.2.3  pgoyette 		} else {
1.181.2.3  pgoyette 			m->m_ext_ref = m;
1.181.2.3  pgoyette 		}
1.181.2.3  pgoyette 	} else {
1.181.2.3  pgoyette 		/*
1.181.2.3  pgoyette 		 * dropping the last reference
1.181.2.3  pgoyette 		 */
1.181.2.3  pgoyette 		if (!embedded) {
1.181.2.3  pgoyette 			m->m_ext.ext_refcnt++; /* XXX */
1.181.2.3  pgoyette 			m_ext_free(m->m_ext_ref);
1.181.2.3  pgoyette 			m->m_ext_ref = m;
1.181.2.3  pgoyette 		} else if ((m->m_flags & M_EXT_CLUSTER) != 0) {
1.181.2.5  pgoyette 			pool_cache_put_paddr(mcl_cache,
1.181.2.3  pgoyette 			    m->m_ext.ext_buf, m->m_ext.ext_paddr);
1.181.2.3  pgoyette 		} else if (m->m_ext.ext_free) {
1.181.2.3  pgoyette 			(*m->m_ext.ext_free)(m,
1.181.2.3  pgoyette 			    m->m_ext.ext_buf, m->m_ext.ext_size,
1.181.2.3  pgoyette 			    m->m_ext.ext_arg);
1.181.2.3  pgoyette 			/*
1.181.2.3  pgoyette 			 * 'm' is already freed by the ext_free callback.
1.181.2.3  pgoyette 			 */
1.181.2.3  pgoyette 			dofree = false;
1.181.2.3  pgoyette 		} else {
1.181.2.5  pgoyette 			free(m->m_ext.ext_buf, 0);
1.181.2.3  pgoyette 		}
1.181.2.3  pgoyette 	}
1.181.2.3  pgoyette
1.181.2.3  pgoyette 	if (dofree) {
1.181.2.3  pgoyette 		m->m_type = MT_FREE;
1.181.2.3  pgoyette 		m->m_data = NULL;
1.181.2.3  pgoyette 		pool_cache_put(mb_cache, m);
1.181.2.3  pgoyette 	}
1.181.2.3  pgoyette }
1.181.2.3  pgoyette
    1.169  christos /*
    1.175      maxv  * Free a single mbuf and associated external storage. Return the
    1.175      maxv  * successor, if any.
    1.175      maxv  */
    1.169  christos struct mbuf *
    1.175      maxv m_free(struct mbuf *m)
    1.169  christos {
    1.169  christos 	struct mbuf *n;
    1.169  christos
    1.175      maxv 	mowner_revoke(m, 1, m->m_flags);
    1.175      maxv 	mbstat_type_add(m->m_type, -1);
    1.175      maxv
    1.175      maxv 	if (m->m_flags & M_PKTHDR)
    1.175      maxv 		m_tag_delete_chain(m, NULL);
    1.175      maxv
    1.175      maxv 	n = m->m_next;
    1.175      maxv
    1.175      maxv 	if (m->m_flags & M_EXT) {
    1.175      maxv 		m_ext_free(m);
    1.175      maxv 	} else {
    1.175      maxv 		if (__predict_false(m->m_type == MT_FREE)) {
    1.175      maxv 			panic("mbuf %p already freed", m);
    1.175      maxv 		}
    1.175      maxv 		m->m_type = MT_FREE;
    1.175      maxv 		m->m_data = NULL;
    1.175      maxv 		pool_cache_put(mb_cache, m);
    1.175      maxv 	}
    1.175      maxv
    1.175      maxv 	return n;
    1.169  christos }
    1.169  christos
    1.169  christos void
    1.175      maxv m_freem(struct mbuf *m)
    1.169  christos {
    1.169  christos 	if (m == NULL)
    1.169  christos 		return;
    1.169  christos 	do {
    1.175      maxv 		m = m_free(m);
    1.169  christos 	} while (m);
    1.169  christos }