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|
/* $OpenBSD: bpf.c,v 1.169 2018/03/02 16:57:41 bluhm Exp $ */
/* $NetBSD: bpf.c,v 1.33 1997/02/21 23:59:35 thorpej Exp $ */
/*
* Copyright (c) 1990, 1991, 1993
* The Regents of the University of California. All rights reserved.
* Copyright (c) 2010, 2014 Henning Brauer <henning@openbsd.org>
*
* This code is derived from the Stanford/CMU enet packet filter,
* (net/enet.c) distributed as part of 4.3BSD, and code contributed
* to Berkeley by Steven McCanne and Van Jacobson both of Lawrence
* Berkeley Laboratory.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* @(#)bpf.c 8.2 (Berkeley) 3/28/94
*/
#include "bpfilter.h"
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/mbuf.h>
#include <sys/proc.h>
#include <sys/signalvar.h>
#include <sys/ioctl.h>
#include <sys/conf.h>
#include <sys/vnode.h>
#include <sys/fcntl.h>
#include <sys/socket.h>
#include <sys/poll.h>
#include <sys/kernel.h>
#include <sys/sysctl.h>
#include <sys/rwlock.h>
#include <sys/atomic.h>
#include <sys/srp.h>
#include <sys/specdev.h>
#include <sys/selinfo.h>
#include <sys/task.h>
#include <net/if.h>
#include <net/bpf.h>
#include <net/bpfdesc.h>
#include <netinet/in.h>
#include <netinet/if_ether.h>
#include "vlan.h"
#if NVLAN > 0
#include <net/if_vlan_var.h>
#endif
#define BPF_BUFSIZE 32768
#define PRINET 26 /* interruptible */
/* from kern/kern_clock.c; incremented each clock tick. */
extern int ticks;
/*
* The default read buffer size is patchable.
*/
int bpf_bufsize = BPF_BUFSIZE;
int bpf_maxbufsize = BPF_MAXBUFSIZE;
/*
* bpf_iflist is the list of interfaces; each corresponds to an ifnet
* bpf_d_list is the list of descriptors
*/
struct bpf_if *bpf_iflist;
LIST_HEAD(, bpf_d) bpf_d_list;
int bpf_allocbufs(struct bpf_d *);
void bpf_ifname(struct bpf_if*, struct ifreq *);
int _bpf_mtap(caddr_t, const struct mbuf *, u_int,
void (*)(const void *, void *, size_t));
void bpf_mcopy(const void *, void *, size_t);
int bpf_movein(struct uio *, u_int, struct mbuf **,
struct sockaddr *, struct bpf_insn *);
int bpf_setif(struct bpf_d *, struct ifreq *);
int bpfpoll(dev_t, int, struct proc *);
int bpfkqfilter(dev_t, struct knote *);
void bpf_wakeup(struct bpf_d *);
void bpf_wakeup_cb(void *);
void bpf_catchpacket(struct bpf_d *, u_char *, size_t, size_t,
void (*)(const void *, void *, size_t), struct timeval *);
int bpf_getdltlist(struct bpf_d *, struct bpf_dltlist *);
int bpf_setdlt(struct bpf_d *, u_int);
void filt_bpfrdetach(struct knote *);
int filt_bpfread(struct knote *, long);
int bpf_sysctl_locked(int *, u_int, void *, size_t *, void *, size_t);
struct bpf_d *bpfilter_lookup(int);
/*
* Called holding ``bd_mtx''.
*/
void bpf_attachd(struct bpf_d *, struct bpf_if *);
void bpf_detachd(struct bpf_d *);
void bpf_resetd(struct bpf_d *);
/*
* Reference count access to descriptor buffers
*/
void bpf_get(struct bpf_d *);
void bpf_put(struct bpf_d *);
/*
* garbage collector srps
*/
void bpf_d_ref(void *, void *);
void bpf_d_unref(void *, void *);
struct srpl_rc bpf_d_rc = SRPL_RC_INITIALIZER(bpf_d_ref, bpf_d_unref, NULL);
void bpf_insn_dtor(void *, void *);
struct srp_gc bpf_insn_gc = SRP_GC_INITIALIZER(bpf_insn_dtor, NULL);
struct rwlock bpf_sysctl_lk = RWLOCK_INITIALIZER("bpfsz");
int
bpf_movein(struct uio *uio, u_int linktype, struct mbuf **mp,
struct sockaddr *sockp, struct bpf_insn *filter)
{
struct mbuf *m;
struct m_tag *mtag;
int error;
u_int hlen;
u_int len;
u_int slen;
/*
* Build a sockaddr based on the data link layer type.
* We do this at this level because the ethernet header
* is copied directly into the data field of the sockaddr.
* In the case of SLIP, there is no header and the packet
* is forwarded as is.
* Also, we are careful to leave room at the front of the mbuf
* for the link level header.
*/
switch (linktype) {
case DLT_SLIP:
sockp->sa_family = AF_INET;
hlen = 0;
break;
case DLT_PPP:
sockp->sa_family = AF_UNSPEC;
hlen = 0;
break;
case DLT_EN10MB:
sockp->sa_family = AF_UNSPEC;
/* XXX Would MAXLINKHDR be better? */
hlen = ETHER_HDR_LEN;
break;
case DLT_IEEE802_11:
case DLT_IEEE802_11_RADIO:
sockp->sa_family = AF_UNSPEC;
hlen = 0;
break;
case DLT_RAW:
case DLT_NULL:
sockp->sa_family = AF_UNSPEC;
hlen = 0;
break;
case DLT_LOOP:
sockp->sa_family = AF_UNSPEC;
hlen = sizeof(u_int32_t);
break;
default:
return (EIO);
}
if (uio->uio_resid > MAXMCLBYTES)
return (EIO);
len = uio->uio_resid;
MGETHDR(m, M_WAIT, MT_DATA);
m->m_pkthdr.ph_ifidx = 0;
m->m_pkthdr.len = len - hlen;
if (len > MHLEN) {
MCLGETI(m, M_WAIT, NULL, len);
if ((m->m_flags & M_EXT) == 0) {
error = ENOBUFS;
goto bad;
}
}
m->m_len = len;
*mp = m;
error = uiomove(mtod(m, caddr_t), len, uio);
if (error)
goto bad;
slen = bpf_filter(filter, mtod(m, u_char *), len, len);
if (slen < len) {
error = EPERM;
goto bad;
}
if (m->m_len < hlen) {
error = EPERM;
goto bad;
}
/*
* Make room for link header, and copy it to sockaddr
*/
if (hlen != 0) {
if (linktype == DLT_LOOP) {
u_int32_t af;
/* the link header indicates the address family */
KASSERT(hlen == sizeof(u_int32_t));
memcpy(&af, m->m_data, hlen);
sockp->sa_family = ntohl(af);
} else
memcpy(sockp->sa_data, m->m_data, hlen);
m->m_len -= hlen;
m->m_data += hlen; /* XXX */
}
/*
* Prepend the data link type as a mbuf tag
*/
mtag = m_tag_get(PACKET_TAG_DLT, sizeof(u_int), M_WAIT);
*(u_int *)(mtag + 1) = linktype;
m_tag_prepend(m, mtag);
return (0);
bad:
m_freem(m);
return (error);
}
/*
* Attach file to the bpf interface, i.e. make d listen on bp.
*/
void
bpf_attachd(struct bpf_d *d, struct bpf_if *bp)
{
MUTEX_ASSERT_LOCKED(&d->bd_mtx);
/*
* Point d at bp, and add d to the interface's list of listeners.
* Finally, point the driver's bpf cookie at the interface so
* it will divert packets to bpf.
*/
d->bd_bif = bp;
KERNEL_ASSERT_LOCKED();
SRPL_INSERT_HEAD_LOCKED(&bpf_d_rc, &bp->bif_dlist, d, bd_next);
*bp->bif_driverp = bp;
}
/*
* Detach a file from its interface.
*/
void
bpf_detachd(struct bpf_d *d)
{
struct bpf_if *bp;
MUTEX_ASSERT_LOCKED(&d->bd_mtx);
bp = d->bd_bif;
/* Not attached. */
if (bp == NULL)
return;
/* Remove ``d'' from the interface's descriptor list. */
KERNEL_ASSERT_LOCKED();
SRPL_REMOVE_LOCKED(&bpf_d_rc, &bp->bif_dlist, d, bpf_d, bd_next);
if (SRPL_EMPTY_LOCKED(&bp->bif_dlist)) {
/*
* Let the driver know that there are no more listeners.
*/
*bp->bif_driverp = NULL;
}
d->bd_bif = NULL;
/*
* Check if this descriptor had requested promiscuous mode.
* If so, turn it off.
*/
if (d->bd_promisc) {
int error;
KASSERT(bp->bif_ifp != NULL);
d->bd_promisc = 0;
bpf_get(d);
mtx_leave(&d->bd_mtx);
NET_LOCK();
error = ifpromisc(bp->bif_ifp, 0);
NET_UNLOCK();
mtx_enter(&d->bd_mtx);
bpf_put(d);
if (error && !(error == EINVAL || error == ENODEV))
/*
* Something is really wrong if we were able to put
* the driver into promiscuous mode, but can't
* take it out.
*/
panic("bpf: ifpromisc failed");
}
}
void
bpfilterattach(int n)
{
LIST_INIT(&bpf_d_list);
}
/*
* Open ethernet device. Returns ENXIO for illegal minor device number,
* EBUSY if file is open by another process.
*/
int
bpfopen(dev_t dev, int flag, int mode, struct proc *p)
{
struct bpf_d *bd;
int unit = minor(dev);
if (unit & ((1 << CLONE_SHIFT) - 1))
return (ENXIO);
KASSERT(bpfilter_lookup(unit) == NULL);
/* create on demand */
if ((bd = malloc(sizeof(*bd), M_DEVBUF, M_NOWAIT|M_ZERO)) == NULL)
return (EBUSY);
/* Mark "free" and do most initialization. */
bd->bd_unit = unit;
bd->bd_bufsize = bpf_bufsize;
bd->bd_sig = SIGIO;
mtx_init(&bd->bd_mtx, IPL_NET);
task_set(&bd->bd_wake_task, bpf_wakeup_cb, bd);
if (flag & FNONBLOCK)
bd->bd_rtout = -1;
bpf_get(bd);
LIST_INSERT_HEAD(&bpf_d_list, bd, bd_list);
return (0);
}
/*
* Close the descriptor by detaching it from its interface,
* deallocating its buffers, and marking it free.
*/
int
bpfclose(dev_t dev, int flag, int mode, struct proc *p)
{
struct bpf_d *d;
d = bpfilter_lookup(minor(dev));
mtx_enter(&d->bd_mtx);
bpf_detachd(d);
bpf_wakeup(d);
LIST_REMOVE(d, bd_list);
mtx_leave(&d->bd_mtx);
bpf_put(d);
return (0);
}
/*
* Rotate the packet buffers in descriptor d. Move the store buffer
* into the hold slot, and the free buffer into the store slot.
* Zero the length of the new store buffer.
*/
#define ROTATE_BUFFERS(d) \
KASSERT(d->bd_in_uiomove == 0); \
MUTEX_ASSERT_LOCKED(&d->bd_mtx); \
(d)->bd_hbuf = (d)->bd_sbuf; \
(d)->bd_hlen = (d)->bd_slen; \
(d)->bd_sbuf = (d)->bd_fbuf; \
(d)->bd_slen = 0; \
(d)->bd_fbuf = NULL;
/*
* bpfread - read next chunk of packets from buffers
*/
int
bpfread(dev_t dev, struct uio *uio, int ioflag)
{
struct bpf_d *d;
caddr_t hbuf;
int hlen, error;
KERNEL_ASSERT_LOCKED();
d = bpfilter_lookup(minor(dev));
if (d->bd_bif == NULL)
return (ENXIO);
bpf_get(d);
mtx_enter(&d->bd_mtx);
/*
* Restrict application to use a buffer the same size as
* as kernel buffers.
*/
if (uio->uio_resid != d->bd_bufsize) {
error = EINVAL;
goto out;
}
/*
* If there's a timeout, bd_rdStart is tagged when we start the read.
* we can then figure out when we're done reading.
*/
if (d->bd_rtout != -1 && d->bd_rdStart == 0)
d->bd_rdStart = ticks;
else
d->bd_rdStart = 0;
/*
* If the hold buffer is empty, then do a timed sleep, which
* ends when the timeout expires or when enough packets
* have arrived to fill the store buffer.
*/
while (d->bd_hbuf == NULL) {
if (d->bd_bif == NULL) {
/* interface is gone */
if (d->bd_slen == 0) {
error = EIO;
goto out;
}
ROTATE_BUFFERS(d);
break;
}
if (d->bd_immediate && d->bd_slen != 0) {
/*
* A packet(s) either arrived since the previous
* read or arrived while we were asleep.
* Rotate the buffers and return what's here.
*/
ROTATE_BUFFERS(d);
break;
}
if (d->bd_rtout == -1) {
/* User requested non-blocking I/O */
error = EWOULDBLOCK;
} else {
if ((d->bd_rdStart + d->bd_rtout) < ticks) {
error = msleep(d, &d->bd_mtx, PRINET|PCATCH,
"bpf", d->bd_rtout);
} else
error = EWOULDBLOCK;
}
if (error == EINTR || error == ERESTART)
goto out;
if (error == EWOULDBLOCK) {
/*
* On a timeout, return what's in the buffer,
* which may be nothing. If there is something
* in the store buffer, we can rotate the buffers.
*/
if (d->bd_hbuf != NULL)
/*
* We filled up the buffer in between
* getting the timeout and arriving
* here, so we don't need to rotate.
*/
break;
if (d->bd_slen == 0) {
error = 0;
goto out;
}
ROTATE_BUFFERS(d);
break;
}
}
/*
* At this point, we know we have something in the hold slot.
*/
hbuf = d->bd_hbuf;
hlen = d->bd_hlen;
d->bd_hbuf = NULL;
d->bd_hlen = 0;
d->bd_fbuf = NULL;
d->bd_in_uiomove = 1;
/*
* Move data from hold buffer into user space.
* We know the entire buffer is transferred since
* we checked above that the read buffer is bpf_bufsize bytes.
*/
mtx_leave(&d->bd_mtx);
error = uiomove(hbuf, hlen, uio);
mtx_enter(&d->bd_mtx);
/* Ensure that bpf_resetd() or ROTATE_BUFFERS() haven't been called. */
KASSERT(d->bd_fbuf == NULL);
KASSERT(d->bd_hbuf == NULL);
d->bd_fbuf = hbuf;
d->bd_in_uiomove = 0;
out:
mtx_leave(&d->bd_mtx);
bpf_put(d);
return (error);
}
/*
* If there are processes sleeping on this descriptor, wake them up.
*/
void
bpf_wakeup(struct bpf_d *d)
{
MUTEX_ASSERT_LOCKED(&d->bd_mtx);
/*
* As long as csignal() and selwakeup() need to be protected
* by the KERNEL_LOCK() we have to delay the wakeup to
* another context to keep the hot path KERNEL_LOCK()-free.
*/
bpf_get(d);
if (!task_add(systq, &d->bd_wake_task))
bpf_put(d);
}
void
bpf_wakeup_cb(void *xd)
{
struct bpf_d *d = xd;
KERNEL_ASSERT_LOCKED();
wakeup(d);
if (d->bd_async && d->bd_sig)
csignal(d->bd_pgid, d->bd_sig, d->bd_siguid, d->bd_sigeuid);
selwakeup(&d->bd_sel);
bpf_put(d);
}
int
bpfwrite(dev_t dev, struct uio *uio, int ioflag)
{
struct bpf_d *d;
struct ifnet *ifp;
struct mbuf *m;
struct bpf_program *bf;
struct bpf_insn *fcode = NULL;
int error;
struct sockaddr_storage dst;
u_int dlt;
KERNEL_ASSERT_LOCKED();
d = bpfilter_lookup(minor(dev));
if (d->bd_bif == NULL)
return (ENXIO);
bpf_get(d);
ifp = d->bd_bif->bif_ifp;
if (ifp == NULL || (ifp->if_flags & IFF_UP) == 0) {
error = ENETDOWN;
goto out;
}
if (uio->uio_resid == 0) {
error = 0;
goto out;
}
KERNEL_ASSERT_LOCKED(); /* for accessing bd_wfilter */
bf = srp_get_locked(&d->bd_wfilter);
if (bf != NULL)
fcode = bf->bf_insns;
dlt = d->bd_bif->bif_dlt;
error = bpf_movein(uio, dlt, &m, sstosa(&dst), fcode);
if (error)
goto out;
if (m->m_pkthdr.len > ifp->if_mtu) {
m_freem(m);
error = EMSGSIZE;
goto out;
}
m->m_pkthdr.ph_rtableid = ifp->if_rdomain;
m->m_pkthdr.pf.prio = ifp->if_llprio;
if (d->bd_hdrcmplt && dst.ss_family == AF_UNSPEC)
dst.ss_family = pseudo_AF_HDRCMPLT;
NET_LOCK();
error = ifp->if_output(ifp, m, sstosa(&dst), NULL);
NET_UNLOCK();
out:
bpf_put(d);
return (error);
}
/*
* Reset a descriptor by flushing its packet buffer and clearing the
* receive and drop counts.
*/
void
bpf_resetd(struct bpf_d *d)
{
MUTEX_ASSERT_LOCKED(&d->bd_mtx);
KASSERT(d->bd_in_uiomove == 0);
if (d->bd_hbuf != NULL) {
/* Free the hold buffer. */
d->bd_fbuf = d->bd_hbuf;
d->bd_hbuf = NULL;
}
d->bd_slen = 0;
d->bd_hlen = 0;
d->bd_rcount = 0;
d->bd_dcount = 0;
}
/*
* FIONREAD Check for read packet available.
* BIOCGBLEN Get buffer len [for read()].
* BIOCSETF Set ethernet read filter.
* BIOCFLUSH Flush read packet buffer.
* BIOCPROMISC Put interface into promiscuous mode.
* BIOCGDLTLIST Get supported link layer types.
* BIOCGDLT Get link layer type.
* BIOCSDLT Set link layer type.
* BIOCGETIF Get interface name.
* BIOCSETIF Set interface.
* BIOCSRTIMEOUT Set read timeout.
* BIOCGRTIMEOUT Get read timeout.
* BIOCGSTATS Get packet stats.
* BIOCIMMEDIATE Set immediate mode.
* BIOCVERSION Get filter language version.
* BIOCGHDRCMPLT Get "header already complete" flag
* BIOCSHDRCMPLT Set "header already complete" flag
*/
int
bpfioctl(dev_t dev, u_long cmd, caddr_t addr, int flag, struct proc *p)
{
struct bpf_d *d;
int error = 0;
d = bpfilter_lookup(minor(dev));
if (d->bd_locked && suser(p) != 0) {
/* list of allowed ioctls when locked and not root */
switch (cmd) {
case BIOCGBLEN:
case BIOCFLUSH:
case BIOCGDLT:
case BIOCGDLTLIST:
case BIOCGETIF:
case BIOCGRTIMEOUT:
case BIOCGSTATS:
case BIOCVERSION:
case BIOCGRSIG:
case BIOCGHDRCMPLT:
case FIONREAD:
case BIOCLOCK:
case BIOCSRTIMEOUT:
case BIOCIMMEDIATE:
case TIOCGPGRP:
case BIOCGDIRFILT:
break;
default:
return (EPERM);
}
}
bpf_get(d);
switch (cmd) {
default:
error = EINVAL;
break;
/*
* Check for read packet available.
*/
case FIONREAD:
{
int n;
mtx_enter(&d->bd_mtx);
n = d->bd_slen;
if (d->bd_hbuf != NULL)
n += d->bd_hlen;
mtx_leave(&d->bd_mtx);
*(int *)addr = n;
break;
}
/*
* Get buffer len [for read()].
*/
case BIOCGBLEN:
*(u_int *)addr = d->bd_bufsize;
break;
/*
* Set buffer length.
*/
case BIOCSBLEN:
if (d->bd_bif != NULL)
error = EINVAL;
else {
u_int size = *(u_int *)addr;
if (size > bpf_maxbufsize)
*(u_int *)addr = size = bpf_maxbufsize;
else if (size < BPF_MINBUFSIZE)
*(u_int *)addr = size = BPF_MINBUFSIZE;
mtx_enter(&d->bd_mtx);
d->bd_bufsize = size;
mtx_leave(&d->bd_mtx);
}
break;
/*
* Set link layer read filter.
*/
case BIOCSETF:
error = bpf_setf(d, (struct bpf_program *)addr, 0);
break;
/*
* Set link layer write filter.
*/
case BIOCSETWF:
error = bpf_setf(d, (struct bpf_program *)addr, 1);
break;
/*
* Flush read packet buffer.
*/
case BIOCFLUSH:
mtx_enter(&d->bd_mtx);
bpf_resetd(d);
mtx_leave(&d->bd_mtx);
break;
/*
* Put interface into promiscuous mode.
*/
case BIOCPROMISC:
if (d->bd_bif == NULL) {
/*
* No interface attached yet.
*/
error = EINVAL;
} else if (d->bd_bif->bif_ifp != NULL) {
if (d->bd_promisc == 0) {
MUTEX_ASSERT_UNLOCKED(&d->bd_mtx);
NET_LOCK();
error = ifpromisc(d->bd_bif->bif_ifp, 1);
NET_UNLOCK();
if (error == 0)
d->bd_promisc = 1;
}
}
break;
/*
* Get a list of supported device parameters.
*/
case BIOCGDLTLIST:
if (d->bd_bif == NULL)
error = EINVAL;
else
error = bpf_getdltlist(d, (struct bpf_dltlist *)addr);
break;
/*
* Get device parameters.
*/
case BIOCGDLT:
if (d->bd_bif == NULL)
error = EINVAL;
else
*(u_int *)addr = d->bd_bif->bif_dlt;
break;
/*
* Set device parameters.
*/
case BIOCSDLT:
if (d->bd_bif == NULL)
error = EINVAL;
else {
mtx_enter(&d->bd_mtx);
error = bpf_setdlt(d, *(u_int *)addr);
mtx_leave(&d->bd_mtx);
}
break;
/*
* Set interface name.
*/
case BIOCGETIF:
if (d->bd_bif == NULL)
error = EINVAL;
else
bpf_ifname(d->bd_bif, (struct ifreq *)addr);
break;
/*
* Set interface.
*/
case BIOCSETIF:
error = bpf_setif(d, (struct ifreq *)addr);
break;
/*
* Set read timeout.
*/
case BIOCSRTIMEOUT:
{
struct timeval *tv = (struct timeval *)addr;
/* Compute number of ticks. */
d->bd_rtout = tv->tv_sec * hz + tv->tv_usec / tick;
if (d->bd_rtout == 0 && tv->tv_usec != 0)
d->bd_rtout = 1;
break;
}
/*
* Get read timeout.
*/
case BIOCGRTIMEOUT:
{
struct timeval *tv = (struct timeval *)addr;
tv->tv_sec = d->bd_rtout / hz;
tv->tv_usec = (d->bd_rtout % hz) * tick;
break;
}
/*
* Get packet stats.
*/
case BIOCGSTATS:
{
struct bpf_stat *bs = (struct bpf_stat *)addr;
bs->bs_recv = d->bd_rcount;
bs->bs_drop = d->bd_dcount;
break;
}
/*
* Set immediate mode.
*/
case BIOCIMMEDIATE:
d->bd_immediate = *(u_int *)addr;
break;
case BIOCVERSION:
{
struct bpf_version *bv = (struct bpf_version *)addr;
bv->bv_major = BPF_MAJOR_VERSION;
bv->bv_minor = BPF_MINOR_VERSION;
break;
}
case BIOCGHDRCMPLT: /* get "header already complete" flag */
*(u_int *)addr = d->bd_hdrcmplt;
break;
case BIOCSHDRCMPLT: /* set "header already complete" flag */
d->bd_hdrcmplt = *(u_int *)addr ? 1 : 0;
break;
case BIOCLOCK: /* set "locked" flag (no reset) */
d->bd_locked = 1;
break;
case BIOCGFILDROP: /* get "filter-drop" flag */
*(u_int *)addr = d->bd_fildrop;
break;
case BIOCSFILDROP: /* set "filter-drop" flag */
d->bd_fildrop = *(u_int *)addr ? 1 : 0;
break;
case BIOCGDIRFILT: /* get direction filter */
*(u_int *)addr = d->bd_dirfilt;
break;
case BIOCSDIRFILT: /* set direction filter */
d->bd_dirfilt = (*(u_int *)addr) &
(BPF_DIRECTION_IN|BPF_DIRECTION_OUT);
break;
case FIONBIO: /* Non-blocking I/O */
if (*(int *)addr)
d->bd_rtout = -1;
else
d->bd_rtout = 0;
break;
case FIOASYNC: /* Send signal on receive packets */
d->bd_async = *(int *)addr;
break;
/*
* N.B. ioctl (FIOSETOWN) and fcntl (F_SETOWN) both end up doing
* the equivalent of a TIOCSPGRP and hence end up here. *However*
* TIOCSPGRP's arg is a process group if it's positive and a process
* id if it's negative. This is exactly the opposite of what the
* other two functions want! Therefore there is code in ioctl and
* fcntl to negate the arg before calling here.
*/
case TIOCSPGRP: /* Process or group to send signals to */
d->bd_pgid = *(int *)addr;
d->bd_siguid = p->p_ucred->cr_ruid;
d->bd_sigeuid = p->p_ucred->cr_uid;
break;
case TIOCGPGRP:
*(int *)addr = d->bd_pgid;
break;
case BIOCSRSIG: /* Set receive signal */
{
u_int sig;
sig = *(u_int *)addr;
if (sig >= NSIG)
error = EINVAL;
else
d->bd_sig = sig;
break;
}
case BIOCGRSIG:
*(u_int *)addr = d->bd_sig;
break;
}
bpf_put(d);
return (error);
}
/*
* Set d's packet filter program to fp. If this file already has a filter,
* free it and replace it. Returns EINVAL for bogus requests.
*/
int
bpf_setf(struct bpf_d *d, struct bpf_program *fp, int wf)
{
struct bpf_program *bf;
struct srp *filter;
struct bpf_insn *fcode;
u_int flen, size;
KERNEL_ASSERT_LOCKED();
filter = wf ? &d->bd_wfilter : &d->bd_rfilter;
if (fp->bf_insns == 0) {
if (fp->bf_len != 0)
return (EINVAL);
srp_update_locked(&bpf_insn_gc, filter, NULL);
mtx_enter(&d->bd_mtx);
bpf_resetd(d);
mtx_leave(&d->bd_mtx);
return (0);
}
flen = fp->bf_len;
if (flen > BPF_MAXINSNS)
return (EINVAL);
fcode = mallocarray(flen, sizeof(*fp->bf_insns), M_DEVBUF,
M_WAITOK | M_CANFAIL);
if (fcode == NULL)
return (ENOMEM);
size = flen * sizeof(*fp->bf_insns);
if (copyin(fp->bf_insns, fcode, size) != 0 ||
bpf_validate(fcode, (int)flen) == 0) {
free(fcode, M_DEVBUF, size);
return (EINVAL);
}
bf = malloc(sizeof(*bf), M_DEVBUF, M_WAITOK);
bf->bf_len = flen;
bf->bf_insns = fcode;
srp_update_locked(&bpf_insn_gc, filter, bf);
mtx_enter(&d->bd_mtx);
bpf_resetd(d);
mtx_leave(&d->bd_mtx);
return (0);
}
/*
* Detach a file from its current interface (if attached at all) and attach
* to the interface indicated by the name stored in ifr.
* Return an errno or 0.
*/
int
bpf_setif(struct bpf_d *d, struct ifreq *ifr)
{
struct bpf_if *bp, *candidate = NULL;
int error = 0;
/*
* Look through attached interfaces for the named one.
*/
for (bp = bpf_iflist; bp != NULL; bp = bp->bif_next) {
if (strcmp(bp->bif_name, ifr->ifr_name) != 0)
continue;
if (candidate == NULL || candidate->bif_dlt > bp->bif_dlt)
candidate = bp;
}
/* Not found. */
if (candidate == NULL)
return (ENXIO);
/*
* Allocate the packet buffers if we need to.
* If we're already attached to requested interface,
* just flush the buffer.
*/
mtx_enter(&d->bd_mtx);
if (d->bd_sbuf == NULL) {
if ((error = bpf_allocbufs(d)))
goto out;
}
if (candidate != d->bd_bif) {
/*
* Detach if attached to something else.
*/
bpf_detachd(d);
bpf_attachd(d, candidate);
}
bpf_resetd(d);
out:
mtx_leave(&d->bd_mtx);
return (error);
}
/*
* Copy the interface name to the ifreq.
*/
void
bpf_ifname(struct bpf_if *bif, struct ifreq *ifr)
{
bcopy(bif->bif_name, ifr->ifr_name, sizeof(ifr->ifr_name));
}
/*
* Support for poll() system call
*/
int
bpfpoll(dev_t dev, int events, struct proc *p)
{
struct bpf_d *d;
int revents;
KERNEL_ASSERT_LOCKED();
/*
* An imitation of the FIONREAD ioctl code.
*/
d = bpfilter_lookup(minor(dev));
/*
* XXX The USB stack manages it to trigger some race condition
* which causes bpfilter_lookup to return NULL when a USB device
* gets detached while it is up and has an open bpf handler (e.g.
* dhclient). We still should recheck if we can fix the root
* cause of this issue.
*/
if (d == NULL)
return (POLLERR);
/* Always ready to write data */
revents = events & (POLLOUT | POLLWRNORM);
if (events & (POLLIN | POLLRDNORM)) {
mtx_enter(&d->bd_mtx);
if (d->bd_hlen != 0 || (d->bd_immediate && d->bd_slen != 0))
revents |= events & (POLLIN | POLLRDNORM);
else {
/*
* if there's a timeout, mark the time we
* started waiting.
*/
if (d->bd_rtout != -1 && d->bd_rdStart == 0)
d->bd_rdStart = ticks;
selrecord(p, &d->bd_sel);
}
mtx_leave(&d->bd_mtx);
}
return (revents);
}
struct filterops bpfread_filtops =
{ 1, NULL, filt_bpfrdetach, filt_bpfread };
int
bpfkqfilter(dev_t dev, struct knote *kn)
{
struct bpf_d *d;
struct klist *klist;
KERNEL_ASSERT_LOCKED();
d = bpfilter_lookup(minor(dev));
switch (kn->kn_filter) {
case EVFILT_READ:
klist = &d->bd_sel.si_note;
kn->kn_fop = &bpfread_filtops;
break;
default:
return (EINVAL);
}
bpf_get(d);
kn->kn_hook = d;
SLIST_INSERT_HEAD(klist, kn, kn_selnext);
mtx_enter(&d->bd_mtx);
if (d->bd_rtout != -1 && d->bd_rdStart == 0)
d->bd_rdStart = ticks;
mtx_leave(&d->bd_mtx);
return (0);
}
void
filt_bpfrdetach(struct knote *kn)
{
struct bpf_d *d = kn->kn_hook;
KERNEL_ASSERT_LOCKED();
SLIST_REMOVE(&d->bd_sel.si_note, kn, knote, kn_selnext);
bpf_put(d);
}
int
filt_bpfread(struct knote *kn, long hint)
{
struct bpf_d *d = kn->kn_hook;
KERNEL_ASSERT_LOCKED();
mtx_enter(&d->bd_mtx);
kn->kn_data = d->bd_hlen;
if (d->bd_immediate)
kn->kn_data += d->bd_slen;
mtx_leave(&d->bd_mtx);
return (kn->kn_data > 0);
}
/*
* Copy data from an mbuf chain into a buffer. This code is derived
* from m_copydata in sys/uipc_mbuf.c.
*/
void
bpf_mcopy(const void *src_arg, void *dst_arg, size_t len)
{
const struct mbuf *m;
u_int count;
u_char *dst;
m = src_arg;
dst = dst_arg;
while (len > 0) {
if (m == NULL)
panic("bpf_mcopy");
count = min(m->m_len, len);
bcopy(mtod(m, caddr_t), (caddr_t)dst, count);
m = m->m_next;
dst += count;
len -= count;
}
}
/*
* like bpf_mtap, but copy fn can be given. used by various bpf_mtap*
*/
int
_bpf_mtap(caddr_t arg, const struct mbuf *m, u_int direction,
void (*cpfn)(const void *, void *, size_t))
{
struct bpf_if *bp = (struct bpf_if *)arg;
struct srp_ref sr;
struct bpf_d *d;
size_t pktlen, slen;
const struct mbuf *m0;
struct timeval tv;
int gottime = 0;
int drop = 0;
if (m == NULL)
return (0);
if (cpfn == NULL)
cpfn = bpf_mcopy;
if (bp == NULL)
return (0);
pktlen = 0;
for (m0 = m; m0 != NULL; m0 = m0->m_next)
pktlen += m0->m_len;
SRPL_FOREACH(d, &sr, &bp->bif_dlist, bd_next) {
atomic_inc_long(&d->bd_rcount);
if ((direction & d->bd_dirfilt) != 0)
slen = 0;
else {
struct srp_ref bsr;
struct bpf_program *bf;
struct bpf_insn *fcode = NULL;
bf = srp_enter(&bsr, &d->bd_rfilter);
if (bf != NULL)
fcode = bf->bf_insns;
slen = bpf_mfilter(fcode, m, pktlen);
srp_leave(&bsr);
}
if (slen > 0) {
if (!gottime++)
microtime(&tv);
mtx_enter(&d->bd_mtx);
bpf_catchpacket(d, (u_char *)m, pktlen, slen, cpfn,
&tv);
mtx_leave(&d->bd_mtx);
if (d->bd_fildrop)
drop = 1;
}
}
SRPL_LEAVE(&sr);
return (drop);
}
/*
* Incoming linkage from device drivers, where a data buffer should be
* prepended by an arbitrary header. In this situation we already have a
* way of representing a chain of memory buffers, ie, mbufs, so reuse
* the existing functionality by attaching the buffers to mbufs.
*
* Con up a minimal mbuf chain to pacify bpf by allocating (only) a
* struct m_hdr each for the header and data on the stack.
*/
int
bpf_tap_hdr(caddr_t arg, const void *hdr, unsigned int hdrlen,
const void *buf, unsigned int buflen, u_int direction)
{
struct m_hdr mh, md;
struct mbuf *m0 = NULL;
struct mbuf **mp = &m0;
if (hdr != NULL) {
mh.mh_flags = 0;
mh.mh_next = NULL;
mh.mh_len = hdrlen;
mh.mh_data = (void *)hdr;
*mp = (struct mbuf *)&mh;
mp = &mh.mh_next;
}
if (buf != NULL) {
md.mh_flags = 0;
md.mh_next = NULL;
md.mh_len = buflen;
md.mh_data = (void *)buf;
*mp = (struct mbuf *)&md;
}
return _bpf_mtap(arg, m0, direction, bpf_mcopy);
}
/*
* Incoming linkage from device drivers, when packet is in an mbuf chain.
*/
int
bpf_mtap(caddr_t arg, const struct mbuf *m, u_int direction)
{
return _bpf_mtap(arg, m, direction, NULL);
}
/*
* Incoming linkage from device drivers, where we have a mbuf chain
* but need to prepend some arbitrary header from a linear buffer.
*
* Con up a minimal dummy header to pacify bpf. Allocate (only) a
* struct m_hdr on the stack. This is safe as bpf only reads from the
* fields in this header that we initialize, and will not try to free
* it or keep a pointer to it.
*/
int
bpf_mtap_hdr(caddr_t arg, caddr_t data, u_int dlen, const struct mbuf *m,
u_int direction, void (*cpfn)(const void *, void *, size_t))
{
struct m_hdr mh;
const struct mbuf *m0;
if (dlen > 0) {
mh.mh_flags = 0;
mh.mh_next = (struct mbuf *)m;
mh.mh_len = dlen;
mh.mh_data = data;
m0 = (struct mbuf *)&mh;
} else
m0 = m;
return _bpf_mtap(arg, m0, direction, cpfn);
}
/*
* Incoming linkage from device drivers, where we have a mbuf chain
* but need to prepend the address family.
*
* Con up a minimal dummy header to pacify bpf. We allocate (only) a
* struct m_hdr on the stack. This is safe as bpf only reads from the
* fields in this header that we initialize, and will not try to free
* it or keep a pointer to it.
*/
int
bpf_mtap_af(caddr_t arg, u_int32_t af, const struct mbuf *m, u_int direction)
{
u_int32_t afh;
afh = htonl(af);
return bpf_mtap_hdr(arg, (caddr_t)&afh, sizeof(afh),
m, direction, NULL);
}
/*
* Incoming linkage from device drivers, where we have a mbuf chain
* but need to prepend a VLAN encapsulation header.
*
* Con up a minimal dummy header to pacify bpf. Allocate (only) a
* struct m_hdr on the stack. This is safe as bpf only reads from the
* fields in this header that we initialize, and will not try to free
* it or keep a pointer to it.
*/
int
bpf_mtap_ether(caddr_t arg, const struct mbuf *m, u_int direction)
{
#if NVLAN > 0
struct ether_vlan_header evh;
struct m_hdr mh;
uint8_t prio;
if ((m->m_flags & M_VLANTAG) == 0)
#endif
{
return bpf_mtap(arg, m, direction);
}
#if NVLAN > 0
KASSERT(m->m_len >= ETHER_HDR_LEN);
prio = m->m_pkthdr.pf.prio;
if (prio <= 1)
prio = !prio;
memcpy(&evh, mtod(m, char *), ETHER_HDR_LEN);
evh.evl_proto = evh.evl_encap_proto;
evh.evl_encap_proto = htons(ETHERTYPE_VLAN);
evh.evl_tag = htons(m->m_pkthdr.ether_vtag |
(prio << EVL_PRIO_BITS));
mh.mh_flags = 0;
mh.mh_data = m->m_data + ETHER_HDR_LEN;
mh.mh_len = m->m_len - ETHER_HDR_LEN;
mh.mh_next = m->m_next;
return bpf_mtap_hdr(arg, (caddr_t)&evh, sizeof(evh),
(struct mbuf *)&mh, direction, NULL);
#endif
}
/*
* Move the packet data from interface memory (pkt) into the
* store buffer. Wake up listeners if needed.
* "copy" is the routine called to do the actual data
* transfer. bcopy is passed in to copy contiguous chunks, while
* bpf_mcopy is passed in to copy mbuf chains. In the latter case,
* pkt is really an mbuf.
*/
void
bpf_catchpacket(struct bpf_d *d, u_char *pkt, size_t pktlen, size_t snaplen,
void (*cpfn)(const void *, void *, size_t), struct timeval *tv)
{
struct bpf_hdr *hp;
int totlen, curlen;
int hdrlen, do_wakeup = 0;
MUTEX_ASSERT_LOCKED(&d->bd_mtx);
if (d->bd_bif == NULL)
return;
hdrlen = d->bd_bif->bif_hdrlen;
/*
* Figure out how many bytes to move. If the packet is
* greater or equal to the snapshot length, transfer that
* much. Otherwise, transfer the whole packet (unless
* we hit the buffer size limit).
*/
totlen = hdrlen + min(snaplen, pktlen);
if (totlen > d->bd_bufsize)
totlen = d->bd_bufsize;
/*
* Round up the end of the previous packet to the next longword.
*/
curlen = BPF_WORDALIGN(d->bd_slen);
if (curlen + totlen > d->bd_bufsize) {
/*
* This packet will overflow the storage buffer.
* Rotate the buffers if we can, then wakeup any
* pending reads.
*/
if (d->bd_fbuf == NULL) {
/*
* We haven't completed the previous read yet,
* so drop the packet.
*/
++d->bd_dcount;
return;
}
ROTATE_BUFFERS(d);
do_wakeup = 1;
curlen = 0;
}
/*
* Append the bpf header.
*/
hp = (struct bpf_hdr *)(d->bd_sbuf + curlen);
hp->bh_tstamp.tv_sec = tv->tv_sec;
hp->bh_tstamp.tv_usec = tv->tv_usec;
hp->bh_datalen = pktlen;
hp->bh_hdrlen = hdrlen;
/*
* Copy the packet data into the store buffer and update its length.
*/
(*cpfn)(pkt, (u_char *)hp + hdrlen, (hp->bh_caplen = totlen - hdrlen));
d->bd_slen = curlen + totlen;
if (d->bd_immediate) {
/*
* Immediate mode is set. A packet arrived so any
* reads should be woken up.
*/
do_wakeup = 1;
}
if (d->bd_rdStart && (d->bd_rtout + d->bd_rdStart < ticks)) {
/*
* we could be selecting on the bpf, and we
* may have timeouts set. We got here by getting
* a packet, so wake up the reader.
*/
if (d->bd_fbuf != NULL) {
d->bd_rdStart = 0;
ROTATE_BUFFERS(d);
do_wakeup = 1;
}
}
if (do_wakeup)
bpf_wakeup(d);
}
/*
* Initialize all nonzero fields of a descriptor.
*/
int
bpf_allocbufs(struct bpf_d *d)
{
MUTEX_ASSERT_LOCKED(&d->bd_mtx);
d->bd_fbuf = malloc(d->bd_bufsize, M_DEVBUF, M_NOWAIT);
if (d->bd_fbuf == NULL)
return (ENOMEM);
d->bd_sbuf = malloc(d->bd_bufsize, M_DEVBUF, M_NOWAIT);
if (d->bd_sbuf == NULL) {
free(d->bd_fbuf, M_DEVBUF, d->bd_bufsize);
return (ENOMEM);
}
d->bd_slen = 0;
d->bd_hlen = 0;
return (0);
}
void
bpf_get(struct bpf_d *bd)
{
atomic_inc_int(&bd->bd_ref);
}
/*
* Free buffers currently in use by a descriptor
* when the reference count drops to zero.
*/
void
bpf_put(struct bpf_d *bd)
{
if (atomic_dec_int_nv(&bd->bd_ref) > 0)
return;
free(bd->bd_sbuf, M_DEVBUF, 0);
free(bd->bd_hbuf, M_DEVBUF, 0);
free(bd->bd_fbuf, M_DEVBUF, 0);
KERNEL_ASSERT_LOCKED();
srp_update_locked(&bpf_insn_gc, &bd->bd_rfilter, NULL);
srp_update_locked(&bpf_insn_gc, &bd->bd_wfilter, NULL);
free(bd, M_DEVBUF, sizeof(*bd));
}
void *
bpfsattach(caddr_t *bpfp, const char *name, u_int dlt, u_int hdrlen)
{
struct bpf_if *bp;
if ((bp = malloc(sizeof(*bp), M_DEVBUF, M_NOWAIT)) == NULL)
panic("bpfattach");
SRPL_INIT(&bp->bif_dlist);
bp->bif_driverp = (struct bpf_if **)bpfp;
bp->bif_name = name;
bp->bif_ifp = NULL;
bp->bif_dlt = dlt;
bp->bif_next = bpf_iflist;
bpf_iflist = bp;
*bp->bif_driverp = NULL;
/*
* Compute the length of the bpf header. This is not necessarily
* equal to SIZEOF_BPF_HDR because we want to insert spacing such
* that the network layer header begins on a longword boundary (for
* performance reasons and to alleviate alignment restrictions).
*/
bp->bif_hdrlen = BPF_WORDALIGN(hdrlen + SIZEOF_BPF_HDR) - hdrlen;
return (bp);
}
void
bpfattach(caddr_t *driverp, struct ifnet *ifp, u_int dlt, u_int hdrlen)
{
struct bpf_if *bp;
bp = bpfsattach(driverp, ifp->if_xname, dlt, hdrlen);
bp->bif_ifp = ifp;
}
/* Detach an interface from its attached bpf device. */
void
bpfdetach(struct ifnet *ifp)
{
struct bpf_if *bp, *nbp, **pbp = &bpf_iflist;
KERNEL_ASSERT_LOCKED();
for (bp = bpf_iflist; bp; bp = nbp) {
nbp = bp->bif_next;
if (bp->bif_ifp == ifp) {
*pbp = nbp;
bpfsdetach(bp);
} else
pbp = &bp->bif_next;
}
ifp->if_bpf = NULL;
}
void
bpfsdetach(void *p)
{
struct bpf_if *bp = p;
struct bpf_d *bd;
int maj;
/* Locate the major number. */
for (maj = 0; maj < nchrdev; maj++)
if (cdevsw[maj].d_open == bpfopen)
break;
while ((bd = SRPL_FIRST_LOCKED(&bp->bif_dlist)))
vdevgone(maj, bd->bd_unit, bd->bd_unit, VCHR);
free(bp, M_DEVBUF, sizeof *bp);
}
int
bpf_sysctl_locked(int *name, u_int namelen, void *oldp, size_t *oldlenp,
void *newp, size_t newlen)
{
int newval;
int error;
switch (name[0]) {
case NET_BPF_BUFSIZE:
newval = bpf_bufsize;
error = sysctl_int(oldp, oldlenp, newp, newlen, &newval);
if (error)
return (error);
if (newval < BPF_MINBUFSIZE || newval > bpf_maxbufsize)
return (EINVAL);
bpf_bufsize = newval;
break;
case NET_BPF_MAXBUFSIZE:
newval = bpf_maxbufsize;
error = sysctl_int(oldp, oldlenp, newp, newlen, &newval);
if (error)
return (error);
if (newval < BPF_MINBUFSIZE)
return (EINVAL);
bpf_maxbufsize = newval;
break;
default:
return (EOPNOTSUPP);
}
return (0);
}
int
bpf_sysctl(int *name, u_int namelen, void *oldp, size_t *oldlenp, void *newp,
size_t newlen)
{
int flags = RW_INTR;
int error;
if (namelen != 1)
return (ENOTDIR);
flags |= (newp == NULL) ? RW_READ : RW_WRITE;
error = rw_enter(&bpf_sysctl_lk, flags);
if (error != 0)
return (error);
error = bpf_sysctl_locked(name, namelen, oldp, oldlenp, newp, newlen);
rw_exit(&bpf_sysctl_lk);
return (error);
}
struct bpf_d *
bpfilter_lookup(int unit)
{
struct bpf_d *bd;
KERNEL_ASSERT_LOCKED();
LIST_FOREACH(bd, &bpf_d_list, bd_list)
if (bd->bd_unit == unit)
return (bd);
return (NULL);
}
/*
* Get a list of available data link type of the interface.
*/
int
bpf_getdltlist(struct bpf_d *d, struct bpf_dltlist *bfl)
{
int n, error;
struct bpf_if *bp;
const char *name;
name = d->bd_bif->bif_name;
n = 0;
error = 0;
for (bp = bpf_iflist; bp != NULL; bp = bp->bif_next) {
if (strcmp(name, bp->bif_name) != 0)
continue;
if (bfl->bfl_list != NULL) {
if (n >= bfl->bfl_len)
return (ENOMEM);
error = copyout(&bp->bif_dlt,
bfl->bfl_list + n, sizeof(u_int));
if (error)
break;
}
n++;
}
bfl->bfl_len = n;
return (error);
}
/*
* Set the data link type of a BPF instance.
*/
int
bpf_setdlt(struct bpf_d *d, u_int dlt)
{
const char *name;
struct bpf_if *bp;
MUTEX_ASSERT_LOCKED(&d->bd_mtx);
if (d->bd_bif->bif_dlt == dlt)
return (0);
name = d->bd_bif->bif_name;
for (bp = bpf_iflist; bp != NULL; bp = bp->bif_next) {
if (strcmp(name, bp->bif_name) != 0)
continue;
if (bp->bif_dlt == dlt)
break;
}
if (bp == NULL)
return (EINVAL);
bpf_detachd(d);
bpf_attachd(d, bp);
bpf_resetd(d);
return (0);
}
void
bpf_d_ref(void *null, void *d)
{
bpf_get(d);
}
void
bpf_d_unref(void *null, void *d)
{
bpf_put(d);
}
void
bpf_insn_dtor(void *null, void *f)
{
struct bpf_program *bf = f;
struct bpf_insn *insns = bf->bf_insns;
free(insns, M_DEVBUF, bf->bf_len * sizeof(*insns));
free(bf, M_DEVBUF, sizeof(*bf));
}
u_int32_t bpf_mbuf_ldw(const void *, u_int32_t, int *);
u_int32_t bpf_mbuf_ldh(const void *, u_int32_t, int *);
u_int32_t bpf_mbuf_ldb(const void *, u_int32_t, int *);
int bpf_mbuf_copy(const struct mbuf *, u_int32_t,
void *, u_int32_t);
const struct bpf_ops bpf_mbuf_ops = {
bpf_mbuf_ldw,
bpf_mbuf_ldh,
bpf_mbuf_ldb,
};
int
bpf_mbuf_copy(const struct mbuf *m, u_int32_t off, void *buf, u_int32_t len)
{
u_int8_t *cp = buf;
u_int32_t count;
while (off >= m->m_len) {
off -= m->m_len;
m = m->m_next;
if (m == NULL)
return (-1);
}
for (;;) {
count = min(m->m_len - off, len);
memcpy(cp, m->m_data + off, count);
len -= count;
if (len == 0)
return (0);
m = m->m_next;
if (m == NULL)
break;
cp += count;
off = 0;
}
return (-1);
}
u_int32_t
bpf_mbuf_ldw(const void *m0, u_int32_t k, int *err)
{
u_int32_t v;
if (bpf_mbuf_copy(m0, k, &v, sizeof(v)) != 0) {
*err = 1;
return (0);
}
*err = 0;
return ntohl(v);
}
u_int32_t
bpf_mbuf_ldh(const void *m0, u_int32_t k, int *err)
{
u_int16_t v;
if (bpf_mbuf_copy(m0, k, &v, sizeof(v)) != 0) {
*err = 1;
return (0);
}
*err = 0;
return ntohs(v);
}
u_int32_t
bpf_mbuf_ldb(const void *m0, u_int32_t k, int *err)
{
const struct mbuf *m = m0;
u_int8_t v;
while (k >= m->m_len) {
k -= m->m_len;
m = m->m_next;
if (m == NULL) {
*err = 1;
return (0);
}
}
v = m->m_data[k];
*err = 0;
return v;
}
u_int
bpf_mfilter(const struct bpf_insn *pc, const struct mbuf *m, u_int wirelen)
{
return _bpf_filter(pc, &bpf_mbuf_ops, m, wirelen);
}
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