afad340a14
Reviewed by: tuexen Differential revision: https://reviews.freebsd.org/D33543
815 lines
31 KiB
C
815 lines
31 KiB
C
/*-
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* SPDX-License-Identifier: BSD-3-Clause
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*
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* Copyright (c) 1982, 1986, 1990, 1993
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* The Regents of the University of California.
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* Copyright (c) 2010-2011 Juniper Networks, Inc.
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* All rights reserved.
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*
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* Portions of this software were developed by Robert N. M. Watson under
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* contract to Juniper Networks, Inc.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. Neither the name of the University nor the names of its contributors
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* may be used to endorse or promote products derived from this software
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* without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*
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* @(#)in_pcb.h 8.1 (Berkeley) 6/10/93
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* $FreeBSD$
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*/
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#ifndef _NETINET_IN_PCB_H_
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#define _NETINET_IN_PCB_H_
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#include <sys/queue.h>
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#include <sys/epoch.h>
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#include <sys/_lock.h>
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#include <sys/_mutex.h>
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#include <sys/_rwlock.h>
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#include <net/route.h>
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#ifdef _KERNEL
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#include <sys/lock.h>
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#include <sys/proc.h>
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#include <sys/rwlock.h>
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#include <sys/smr.h>
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#include <net/vnet.h>
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#include <vm/uma.h>
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#endif
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#include <sys/ck.h>
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/*
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* struct inpcb is the common protocol control block structure used in most
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* IP transport protocols.
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*
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* Pointers to local and foreign host table entries, local and foreign socket
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* numbers, and pointers up (to a socket structure) and down (to a
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* protocol-specific control block) are stored here.
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*/
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CK_LIST_HEAD(inpcbhead, inpcb);
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CK_LIST_HEAD(inpcbporthead, inpcbport);
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CK_LIST_HEAD(inpcblbgrouphead, inpcblbgroup);
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typedef uint64_t inp_gen_t;
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/*
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* PCB with AF_INET6 null bind'ed laddr can receive AF_INET input packet.
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* So, AF_INET6 null laddr is also used as AF_INET null laddr, by utilizing
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* the following structure. This requires padding always be zeroed out,
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* which is done right after inpcb allocation and stays through its lifetime.
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*/
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struct in_addr_4in6 {
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u_int32_t ia46_pad32[3];
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struct in_addr ia46_addr4;
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};
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union in_dependaddr {
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struct in_addr_4in6 id46_addr;
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struct in6_addr id6_addr;
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};
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/*
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* NOTE: ipv6 addrs should be 64-bit aligned, per RFC 2553. in_conninfo has
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* some extra padding to accomplish this.
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* NOTE 2: tcp_syncache.c uses first 5 32-bit words, which identify fport,
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* lport, faddr to generate hash, so these fields shouldn't be moved.
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*/
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struct in_endpoints {
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u_int16_t ie_fport; /* foreign port */
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u_int16_t ie_lport; /* local port */
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/* protocol dependent part, local and foreign addr */
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union in_dependaddr ie_dependfaddr; /* foreign host table entry */
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union in_dependaddr ie_dependladdr; /* local host table entry */
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#define ie_faddr ie_dependfaddr.id46_addr.ia46_addr4
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#define ie_laddr ie_dependladdr.id46_addr.ia46_addr4
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#define ie6_faddr ie_dependfaddr.id6_addr
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#define ie6_laddr ie_dependladdr.id6_addr
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u_int32_t ie6_zoneid; /* scope zone id */
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};
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/*
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* XXX The defines for inc_* are hacks and should be changed to direct
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* references.
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*/
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struct in_conninfo {
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u_int8_t inc_flags;
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u_int8_t inc_len;
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u_int16_t inc_fibnum; /* XXX was pad, 16 bits is plenty */
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/* protocol dependent part */
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struct in_endpoints inc_ie;
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};
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/*
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* Flags for inc_flags.
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*/
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#define INC_ISIPV6 0x01
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#define INC_IPV6MINMTU 0x02
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#define inc_fport inc_ie.ie_fport
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#define inc_lport inc_ie.ie_lport
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#define inc_faddr inc_ie.ie_faddr
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#define inc_laddr inc_ie.ie_laddr
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#define inc6_faddr inc_ie.ie6_faddr
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#define inc6_laddr inc_ie.ie6_laddr
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#define inc6_zoneid inc_ie.ie6_zoneid
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#if defined(_KERNEL) || defined(_WANT_INPCB)
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/*
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* struct inpcb captures the network layer state for TCP, UDP, and raw IPv4 and
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* IPv6 sockets. In the case of TCP and UDP, further per-connection state is
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* hung off of inp_ppcb most of the time. Almost all fields of struct inpcb
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* are static after creation or protected by a per-inpcb rwlock, inp_lock.
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*
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* A inpcb database is indexed by addresses/ports hash as well as list of
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* all pcbs that belong to a certain proto. Database lookups or list traversals
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* are be performed inside SMR section. Once desired PCB is found its own
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* lock is to be obtained and SMR section exited.
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*
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* Key:
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* (b) - Protected by the hpts lock.
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* (c) - Constant after initialization
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* (e) - Protected by the SMR section
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* (i) - Protected by the inpcb lock
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* (p) - Protected by the pcbinfo lock for the inpcb
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* (h) - Protected by the pcbhash lock for the inpcb
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* (s) - Protected by another subsystem's locks
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* (x) - Undefined locking
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*
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* Notes on the tcp_hpts:
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*
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* First Hpts lock order is
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* 1) INP_WLOCK()
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* 2) HPTS_LOCK() i.e. hpts->pmtx
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*
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* To insert a TCB on the hpts you *must* be holding the INP_WLOCK().
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* You may check the inp->inp_in_hpts flag without the hpts lock.
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* The hpts is the only one that will clear this flag holding
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* only the hpts lock. This means that in your tcp_output()
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* routine when you test for the inp_in_hpts flag to be 1
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* it may be transitioning to 0 (by the hpts).
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* That's ok since that will just mean an extra call to tcp_output
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* that most likely will find the call you executed
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* (when the mis-match occured) will have put the TCB back
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* on the hpts and it will return. If your
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* call did not add the inp back to the hpts then you will either
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* over-send or the cwnd will block you from sending more.
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*
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* Note you should also be holding the INP_WLOCK() when you
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* call the remove from the hpts as well. Though usually
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* you are either doing this from a timer, where you need and have
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* the INP_WLOCK() or from destroying your TCB where again
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* you should already have the INP_WLOCK().
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*
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* The inp_hpts_cpu, inp_hpts_cpu_set, inp_input_cpu and
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* inp_input_cpu_set fields are controlled completely by
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* the hpts. Do not ever set these. The inp_hpts_cpu_set
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* and inp_input_cpu_set fields indicate if the hpts has
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* setup the respective cpu field. It is advised if this
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* field is 0, to enqueue the packet with the appropriate
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* hpts_immediate() call. If the _set field is 1, then
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* you may compare the inp_*_cpu field to the curcpu and
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* may want to again insert onto the hpts if these fields
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* are not equal (i.e. you are not on the expected CPU).
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*
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* A note on inp_hpts_calls and inp_input_calls, these
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* flags are set when the hpts calls either the output
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* or do_segment routines respectively. If the routine
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* being called wants to use this, then it needs to
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* clear the flag before returning. The hpts will not
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* clear the flag. The flags can be used to tell if
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* the hpts is the function calling the respective
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* routine.
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*
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* A few other notes:
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*
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* When a read lock is held, stability of the field is guaranteed; to write
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* to a field, a write lock must generally be held.
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*
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* netinet/netinet6-layer code should not assume that the inp_socket pointer
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* is safe to dereference without inp_lock being held, even for protocols
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* other than TCP (where the inpcb persists during TIMEWAIT even after the
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* socket has been freed), or there may be close(2)-related races.
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*
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* The inp_vflag field is overloaded, and would otherwise ideally be (c).
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*/
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struct icmp6_filter;
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struct inpcbpolicy;
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struct m_snd_tag;
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struct inpcb {
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/* Cache line #1 (amd64) */
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CK_LIST_ENTRY(inpcb) inp_hash; /* (w:h/r:e) hash list */
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struct rwlock inp_lock;
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/* Cache line #2 (amd64) */
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#define inp_start_zero inp_hpts
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#define inp_zero_size (sizeof(struct inpcb) - \
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offsetof(struct inpcb, inp_start_zero))
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TAILQ_ENTRY(inpcb) inp_hpts; /* pacing out queue next lock(b) */
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uint32_t inp_hpts_gencnt; /* XXXGL */
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uint32_t inp_hpts_request; /* Current hpts request, zero if
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* fits in the pacing window (i&b). */
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/*
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* Note the next fields are protected by a
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* different lock (hpts-lock). This means that
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* they must correspond in size to the smallest
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* protectable bit field (uint8_t on x86, and
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* other platfomrs potentially uint32_t?). Also
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* since CPU switches can occur at different times the two
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* fields can *not* be collapsed into a signal bit field.
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*/
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#if defined(__amd64__) || defined(__i386__)
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uint8_t inp_in_hpts; /* on output hpts (lock b) */
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#else
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uint32_t inp_in_hpts; /* on output hpts (lock b) */
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#endif
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volatile uint16_t inp_hpts_cpu; /* Lock (i) */
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volatile uint16_t inp_irq_cpu; /* Set by LRO in behalf of or the driver */
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u_int inp_refcount; /* (i) refcount */
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int inp_flags; /* (i) generic IP/datagram flags */
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int inp_flags2; /* (i) generic IP/datagram flags #2*/
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uint8_t inp_hpts_cpu_set :1, /* on output hpts (i) */
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inp_hpts_calls :1, /* (i) from output hpts */
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inp_irq_cpu_set :1, /* (i) from LRO/Driver */
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inp_spare_bits2 : 3;
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uint8_t inp_numa_domain; /* numa domain */
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void *inp_ppcb; /* (i) pointer to per-protocol pcb */
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struct socket *inp_socket; /* (i) back pointer to socket */
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int32_t inp_hptsslot; /* Hpts wheel slot this tcb is Lock(i&b) */
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uint32_t inp_hpts_drop_reas; /* reason we are dropping the PCB (lock i&b) */
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struct inpcbinfo *inp_pcbinfo; /* (c) PCB list info */
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struct ucred *inp_cred; /* (c) cache of socket cred */
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u_int32_t inp_flow; /* (i) IPv6 flow information */
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u_char inp_vflag; /* (i) IP version flag (v4/v6) */
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u_char inp_ip_ttl; /* (i) time to live proto */
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u_char inp_ip_p; /* (c) protocol proto */
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u_char inp_ip_minttl; /* (i) minimum TTL or drop */
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uint32_t inp_flowid; /* (x) flow id / queue id */
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struct m_snd_tag *inp_snd_tag; /* (i) send tag for outgoing mbufs */
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uint32_t inp_flowtype; /* (x) M_HASHTYPE value */
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uint32_t inp_rss_listen_bucket; /* (x) overridden RSS listen bucket */
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/* Local and foreign ports, local and foreign addr. */
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struct in_conninfo inp_inc; /* (i) list for PCB's local port */
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/* MAC and IPSEC policy information. */
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struct label *inp_label; /* (i) MAC label */
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struct inpcbpolicy *inp_sp; /* (s) for IPSEC */
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/* Protocol-dependent part; options. */
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struct {
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u_char inp_ip_tos; /* (i) type of service proto */
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struct mbuf *inp_options; /* (i) IP options */
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struct ip_moptions *inp_moptions; /* (i) mcast options */
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};
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struct {
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/* (i) IP options */
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struct mbuf *in6p_options;
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/* (i) IP6 options for outgoing packets */
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struct ip6_pktopts *in6p_outputopts;
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/* (i) IP multicast options */
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struct ip6_moptions *in6p_moptions;
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/* (i) ICMPv6 code type filter */
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struct icmp6_filter *in6p_icmp6filt;
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/* (i) IPV6_CHECKSUM setsockopt */
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int in6p_cksum;
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short in6p_hops;
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};
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CK_LIST_ENTRY(inpcb) inp_portlist; /* (r:e/w:h) port list */
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struct inpcbport *inp_phd; /* (r:e/w:h) head of this list */
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inp_gen_t inp_gencnt; /* (c) generation count */
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void *spare_ptr; /* Spare pointer. */
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rt_gen_t inp_rt_cookie; /* generation for route entry */
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union { /* cached L3 information */
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struct route inp_route;
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struct route_in6 inp_route6;
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};
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CK_LIST_ENTRY(inpcb) inp_list; /* (r:e/w:p) all PCBs for proto */
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};
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#endif /* _KERNEL */
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#define inp_fport inp_inc.inc_fport
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#define inp_lport inp_inc.inc_lport
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#define inp_faddr inp_inc.inc_faddr
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#define inp_laddr inp_inc.inc_laddr
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#define in6p_faddr inp_inc.inc6_faddr
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#define in6p_laddr inp_inc.inc6_laddr
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#define in6p_zoneid inp_inc.inc6_zoneid
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#define inp_vnet inp_pcbinfo->ipi_vnet
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/*
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* The range of the generation count, as used in this implementation, is 9e19.
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* We would have to create 300 billion connections per second for this number
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* to roll over in a year. This seems sufficiently unlikely that we simply
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* don't concern ourselves with that possibility.
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*/
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/*
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* Interface exported to userland by various protocols which use inpcbs. Hack
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* alert -- only define if struct xsocket is in scope.
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* Fields prefixed with "xi_" are unique to this structure, and the rest
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* match fields in the struct inpcb, to ease coding and porting.
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*
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* Legend:
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* (s) - used by userland utilities in src
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* (p) - used by utilities in ports
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* (3) - is known to be used by third party software not in ports
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* (n) - no known usage
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*/
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#ifdef _SYS_SOCKETVAR_H_
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struct xinpcb {
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ksize_t xi_len; /* length of this structure */
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struct xsocket xi_socket; /* (s,p) */
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struct in_conninfo inp_inc; /* (s,p) */
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uint64_t inp_gencnt; /* (s,p) */
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kvaddr_t inp_ppcb; /* (s) netstat(1) */
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int64_t inp_spare64[4];
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uint32_t inp_flow; /* (s) */
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uint32_t inp_flowid; /* (s) */
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uint32_t inp_flowtype; /* (s) */
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int32_t inp_flags; /* (s,p) */
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int32_t inp_flags2; /* (s) */
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int32_t inp_rss_listen_bucket; /* (n) */
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int32_t in6p_cksum; /* (n) */
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int32_t inp_spare32[4];
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uint16_t in6p_hops; /* (n) */
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uint8_t inp_ip_tos; /* (n) */
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int8_t pad8;
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uint8_t inp_vflag; /* (s,p) */
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uint8_t inp_ip_ttl; /* (n) */
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uint8_t inp_ip_p; /* (n) */
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uint8_t inp_ip_minttl; /* (n) */
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int8_t inp_spare8[4];
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} __aligned(8);
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struct xinpgen {
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ksize_t xig_len; /* length of this structure */
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u_int xig_count; /* number of PCBs at this time */
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uint32_t _xig_spare32;
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inp_gen_t xig_gen; /* generation count at this time */
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so_gen_t xig_sogen; /* socket generation count this time */
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uint64_t _xig_spare64[4];
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} __aligned(8);
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#ifdef _KERNEL
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void in_pcbtoxinpcb(const struct inpcb *, struct xinpcb *);
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#endif
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#endif /* _SYS_SOCKETVAR_H_ */
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#ifdef _KERNEL
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/*
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* Per-VNET pcb database for each high-level protocol (UDP, TCP, ...) in both
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* IPv4 and IPv6.
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*
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* The pcbs are protected with SMR section and thus all lists in inpcbinfo
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* are CK-lists. Locking is required to insert a pcb into database. Two
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* locks are provided: one for the hash and one for the global list of pcbs,
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* as well as overall count and generation count.
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*
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* Locking key:
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*
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* (c) Constant or nearly constant after initialisation
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* (e) Protected by SMR section
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* (g) Locked by ipi_lock
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* (h) Locked by ipi_hash_lock
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*/
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struct inpcbinfo {
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/*
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* Global lock protecting inpcb list modification
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*/
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struct mtx ipi_lock;
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struct inpcbhead ipi_listhead; /* (r:e/w:g) */
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u_int ipi_count; /* (g) */
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/*
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* Generation count -- incremented each time a connection is allocated
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* or freed.
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*/
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u_quad_t ipi_gencnt; /* (g) */
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/*
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* Fields associated with port lookup and allocation.
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*/
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u_short ipi_lastport; /* (h) */
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u_short ipi_lastlow; /* (h) */
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u_short ipi_lasthi; /* (h) */
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/*
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* UMA zone from which inpcbs are allocated for this protocol.
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*/
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uma_zone_t ipi_zone; /* (c) */
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uma_zone_t ipi_portzone; /* (c) */
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smr_t ipi_smr; /* (c) */
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/*
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* Global hash of inpcbs, hashed by local and foreign addresses and
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|
* port numbers.
|
|
*/
|
|
struct mtx ipi_hash_lock;
|
|
struct inpcbhead *ipi_hashbase; /* (r:e/w:h) */
|
|
u_long ipi_hashmask; /* (c) */
|
|
|
|
/*
|
|
* Global hash of inpcbs, hashed by only local port number.
|
|
*/
|
|
struct inpcbporthead *ipi_porthashbase; /* (h) */
|
|
u_long ipi_porthashmask; /* (h) */
|
|
|
|
/*
|
|
* Load balance groups used for the SO_REUSEPORT_LB option,
|
|
* hashed by local port.
|
|
*/
|
|
struct inpcblbgrouphead *ipi_lbgrouphashbase; /* (r:e/w:h) */
|
|
u_long ipi_lbgrouphashmask; /* (h) */
|
|
|
|
/*
|
|
* Pointer to network stack instance
|
|
*/
|
|
struct vnet *ipi_vnet; /* (c) */
|
|
};
|
|
|
|
/*
|
|
* Global allocation storage for each high-level protocol (UDP, TCP, ...).
|
|
* Each corresponding per-VNET inpcbinfo points into this one.
|
|
*/
|
|
struct inpcbstorage {
|
|
uma_zone_t ips_zone;
|
|
uma_zone_t ips_portzone;
|
|
uma_init ips_pcbinit;
|
|
const char * ips_zone_name;
|
|
const char * ips_portzone_name;
|
|
const char * ips_infolock_name;
|
|
const char * ips_hashlock_name;
|
|
};
|
|
|
|
#define INPCBSTORAGE_DEFINE(prot, lname, zname, iname, hname) \
|
|
static int \
|
|
prot##_inpcb_init(void *mem, int size __unused, int flags __unused) \
|
|
{ \
|
|
struct inpcb *inp = mem; \
|
|
\
|
|
rw_init_flags(&inp->inp_lock, lname, RW_RECURSE | RW_DUPOK); \
|
|
return (0); \
|
|
} \
|
|
static struct inpcbstorage prot = { \
|
|
.ips_pcbinit = prot##_inpcb_init, \
|
|
.ips_zone_name = zname, \
|
|
.ips_portzone_name = zname " ports", \
|
|
.ips_infolock_name = iname, \
|
|
.ips_hashlock_name = hname, \
|
|
}; \
|
|
SYSINIT(prot##_inpcbstorage_init, SI_SUB_PROTO_DOMAIN, \
|
|
SI_ORDER_SECOND, in_pcbstorage_init, &prot); \
|
|
SYSUNINIT(prot##_inpcbstorage_uninit, SI_SUB_PROTO_DOMAIN, \
|
|
SI_ORDER_SECOND, in_pcbstorage_destroy, &prot)
|
|
|
|
/*
|
|
* Load balance groups used for the SO_REUSEPORT_LB socket option. Each group
|
|
* (or unique address:port combination) can be re-used at most
|
|
* INPCBLBGROUP_SIZMAX (256) times. The inpcbs are stored in il_inp which
|
|
* is dynamically resized as processes bind/unbind to that specific group.
|
|
*/
|
|
struct inpcblbgroup {
|
|
CK_LIST_ENTRY(inpcblbgroup) il_list;
|
|
struct epoch_context il_epoch_ctx;
|
|
uint16_t il_lport; /* (c) */
|
|
u_char il_vflag; /* (c) */
|
|
u_int8_t il_numa_domain;
|
|
uint32_t il_pad2;
|
|
union in_dependaddr il_dependladdr; /* (c) */
|
|
#define il_laddr il_dependladdr.id46_addr.ia46_addr4
|
|
#define il6_laddr il_dependladdr.id6_addr
|
|
uint32_t il_inpsiz; /* max count in il_inp[] (h) */
|
|
uint32_t il_inpcnt; /* cur count in il_inp[] (h) */
|
|
struct inpcb *il_inp[]; /* (h) */
|
|
};
|
|
|
|
#define INP_LOCK_DESTROY(inp) rw_destroy(&(inp)->inp_lock)
|
|
#define INP_RLOCK(inp) rw_rlock(&(inp)->inp_lock)
|
|
#define INP_WLOCK(inp) rw_wlock(&(inp)->inp_lock)
|
|
#define INP_TRY_RLOCK(inp) rw_try_rlock(&(inp)->inp_lock)
|
|
#define INP_TRY_WLOCK(inp) rw_try_wlock(&(inp)->inp_lock)
|
|
#define INP_RUNLOCK(inp) rw_runlock(&(inp)->inp_lock)
|
|
#define INP_WUNLOCK(inp) rw_wunlock(&(inp)->inp_lock)
|
|
#define INP_UNLOCK(inp) rw_unlock(&(inp)->inp_lock)
|
|
#define INP_TRY_UPGRADE(inp) rw_try_upgrade(&(inp)->inp_lock)
|
|
#define INP_DOWNGRADE(inp) rw_downgrade(&(inp)->inp_lock)
|
|
#define INP_WLOCKED(inp) rw_wowned(&(inp)->inp_lock)
|
|
#define INP_LOCK_ASSERT(inp) rw_assert(&(inp)->inp_lock, RA_LOCKED)
|
|
#define INP_RLOCK_ASSERT(inp) rw_assert(&(inp)->inp_lock, RA_RLOCKED)
|
|
#define INP_WLOCK_ASSERT(inp) rw_assert(&(inp)->inp_lock, RA_WLOCKED)
|
|
#define INP_UNLOCK_ASSERT(inp) rw_assert(&(inp)->inp_lock, RA_UNLOCKED)
|
|
|
|
/*
|
|
* These locking functions are for inpcb consumers outside of sys/netinet,
|
|
* more specifically, they were added for the benefit of TOE drivers. The
|
|
* macros are reserved for use by the stack.
|
|
*/
|
|
void inp_wlock(struct inpcb *);
|
|
void inp_wunlock(struct inpcb *);
|
|
void inp_rlock(struct inpcb *);
|
|
void inp_runlock(struct inpcb *);
|
|
|
|
#ifdef INVARIANT_SUPPORT
|
|
void inp_lock_assert(struct inpcb *);
|
|
void inp_unlock_assert(struct inpcb *);
|
|
#else
|
|
#define inp_lock_assert(inp) do {} while (0)
|
|
#define inp_unlock_assert(inp) do {} while (0)
|
|
#endif
|
|
|
|
void inp_apply_all(void (*func)(struct inpcb *, void *), void *arg);
|
|
int inp_ip_tos_get(const struct inpcb *inp);
|
|
void inp_ip_tos_set(struct inpcb *inp, int val);
|
|
struct socket *
|
|
inp_inpcbtosocket(struct inpcb *inp);
|
|
struct tcpcb *
|
|
inp_inpcbtotcpcb(struct inpcb *inp);
|
|
void inp_4tuple_get(struct inpcb *inp, uint32_t *laddr, uint16_t *lp,
|
|
uint32_t *faddr, uint16_t *fp);
|
|
int inp_so_options(const struct inpcb *inp);
|
|
|
|
#endif /* _KERNEL */
|
|
|
|
#define INP_INFO_WLOCK(ipi) mtx_lock(&(ipi)->ipi_lock)
|
|
#define INP_INFO_WLOCKED(ipi) mtx_owned(&(ipi)->ipi_lock)
|
|
#define INP_INFO_WUNLOCK(ipi) mtx_unlock(&(ipi)->ipi_lock)
|
|
#define INP_INFO_LOCK_ASSERT(ipi) MPASS(SMR_ENTERED((ipi)->ipi_smr) || \
|
|
mtx_owned(&(ipi)->ipi_lock))
|
|
#define INP_INFO_WLOCK_ASSERT(ipi) mtx_assert(&(ipi)->ipi_lock, MA_OWNED)
|
|
#define INP_INFO_WUNLOCK_ASSERT(ipi) \
|
|
mtx_assert(&(ipi)->ipi_lock, MA_NOTOWNED)
|
|
|
|
#define INP_HASH_WLOCK(ipi) mtx_lock(&(ipi)->ipi_hash_lock)
|
|
#define INP_HASH_WUNLOCK(ipi) mtx_unlock(&(ipi)->ipi_hash_lock)
|
|
#define INP_HASH_LOCK_ASSERT(ipi) MPASS(SMR_ENTERED((ipi)->ipi_smr) || \
|
|
mtx_owned(&(ipi)->ipi_hash_lock))
|
|
#define INP_HASH_WLOCK_ASSERT(ipi) mtx_assert(&(ipi)->ipi_hash_lock, \
|
|
MA_OWNED)
|
|
|
|
/*
|
|
* Wildcard matching hash is not just a microoptimisation! The hash for
|
|
* wildcard IPv4 and wildcard IPv6 must be the same, otherwise AF_INET6
|
|
* wildcard bound pcb won't be able to receive AF_INET connections, while:
|
|
* jenkins_hash(&zeroes, 1, s) != jenkins_hash(&zeroes, 4, s)
|
|
* See also comment above struct in_addr_4in6.
|
|
*/
|
|
#define IN_ADDR_JHASH32(addr) \
|
|
((addr)->s_addr == INADDR_ANY ? V_in_pcbhashseed : \
|
|
jenkins_hash32((&(addr)->s_addr), 1, V_in_pcbhashseed))
|
|
#define IN6_ADDR_JHASH32(addr) \
|
|
(memcmp((addr), &in6addr_any, sizeof(in6addr_any)) == 0 ? \
|
|
V_in_pcbhashseed : \
|
|
jenkins_hash32((addr)->__u6_addr.__u6_addr32, \
|
|
nitems((addr)->__u6_addr.__u6_addr32), V_in_pcbhashseed))
|
|
|
|
#define INP_PCBHASH(faddr, lport, fport, mask) \
|
|
((IN_ADDR_JHASH32(faddr) ^ ntohs((lport) ^ (fport))) & (mask))
|
|
#define INP6_PCBHASH(faddr, lport, fport, mask) \
|
|
((IN6_ADDR_JHASH32(faddr) ^ ntohs((lport) ^ (fport))) & (mask))
|
|
|
|
#define INP_PCBHASH_WILD(lport, mask) \
|
|
((V_in_pcbhashseed ^ ntohs(lport)) & (mask))
|
|
|
|
#define INP_PCBLBGROUP_PKTHASH(faddr, lport, fport) \
|
|
(IN_ADDR_JHASH32(faddr) ^ ntohs((lport) ^ (fport)))
|
|
#define INP6_PCBLBGROUP_PKTHASH(faddr, lport, fport) \
|
|
(IN6_ADDR_JHASH32(faddr) ^ ntohs((lport) ^ (fport)))
|
|
|
|
#define INP_PCBPORTHASH(lport, mask) (ntohs((lport)) & (mask))
|
|
|
|
/*
|
|
* Flags for inp_vflags -- historically version flags only
|
|
*/
|
|
#define INP_IPV4 0x1
|
|
#define INP_IPV6 0x2
|
|
#define INP_IPV6PROTO 0x4 /* opened under IPv6 protocol */
|
|
|
|
/*
|
|
* Flags for inp_flags.
|
|
*/
|
|
#define INP_RECVOPTS 0x00000001 /* receive incoming IP options */
|
|
#define INP_RECVRETOPTS 0x00000002 /* receive IP options for reply */
|
|
#define INP_RECVDSTADDR 0x00000004 /* receive IP dst address */
|
|
#define INP_HDRINCL 0x00000008 /* user supplies entire IP header */
|
|
#define INP_HIGHPORT 0x00000010 /* user wants "high" port binding */
|
|
#define INP_LOWPORT 0x00000020 /* user wants "low" port binding */
|
|
#define INP_ANONPORT 0x00000040 /* port chosen for user */
|
|
#define INP_RECVIF 0x00000080 /* receive incoming interface */
|
|
#define INP_MTUDISC 0x00000100 /* user can do MTU discovery */
|
|
/* INP_FREED 0x00000200 private to in_pcb.c */
|
|
#define INP_RECVTTL 0x00000400 /* receive incoming IP TTL */
|
|
#define INP_DONTFRAG 0x00000800 /* don't fragment packet */
|
|
#define INP_BINDANY 0x00001000 /* allow bind to any address */
|
|
#define INP_INHASHLIST 0x00002000 /* in_pcbinshash() has been called */
|
|
#define INP_RECVTOS 0x00004000 /* receive incoming IP TOS */
|
|
#define IN6P_IPV6_V6ONLY 0x00008000 /* restrict AF_INET6 socket for v6 */
|
|
#define IN6P_PKTINFO 0x00010000 /* receive IP6 dst and I/F */
|
|
#define IN6P_HOPLIMIT 0x00020000 /* receive hoplimit */
|
|
#define IN6P_HOPOPTS 0x00040000 /* receive hop-by-hop options */
|
|
#define IN6P_DSTOPTS 0x00080000 /* receive dst options after rthdr */
|
|
#define IN6P_RTHDR 0x00100000 /* receive routing header */
|
|
#define IN6P_RTHDRDSTOPTS 0x00200000 /* receive dstoptions before rthdr */
|
|
#define IN6P_TCLASS 0x00400000 /* receive traffic class value */
|
|
#define IN6P_AUTOFLOWLABEL 0x00800000 /* attach flowlabel automatically */
|
|
#define INP_TIMEWAIT 0x01000000 /* in TIMEWAIT, ppcb is tcptw */
|
|
#define INP_ONESBCAST 0x02000000 /* send all-ones broadcast */
|
|
#define INP_DROPPED 0x04000000 /* protocol drop flag */
|
|
#define INP_SOCKREF 0x08000000 /* strong socket reference */
|
|
#define INP_RESERVED_0 0x10000000 /* reserved field */
|
|
#define INP_RESERVED_1 0x20000000 /* reserved field */
|
|
#define IN6P_RFC2292 0x40000000 /* used RFC2292 API on the socket */
|
|
#define IN6P_MTU 0x80000000 /* receive path MTU */
|
|
|
|
#define INP_CONTROLOPTS (INP_RECVOPTS|INP_RECVRETOPTS|INP_RECVDSTADDR|\
|
|
INP_RECVIF|INP_RECVTTL|INP_RECVTOS|\
|
|
IN6P_PKTINFO|IN6P_HOPLIMIT|IN6P_HOPOPTS|\
|
|
IN6P_DSTOPTS|IN6P_RTHDR|IN6P_RTHDRDSTOPTS|\
|
|
IN6P_TCLASS|IN6P_AUTOFLOWLABEL|IN6P_RFC2292|\
|
|
IN6P_MTU)
|
|
|
|
/*
|
|
* Flags for inp_flags2.
|
|
*/
|
|
#define INP_MBUF_L_ACKS 0x00000001 /* We need large mbufs for ack compression */
|
|
#define INP_MBUF_ACKCMP 0x00000002 /* TCP mbuf ack compression ok */
|
|
/* 0x00000004 */
|
|
#define INP_REUSEPORT 0x00000008 /* SO_REUSEPORT option is set */
|
|
/* 0x00000010 */
|
|
#define INP_REUSEADDR 0x00000020 /* SO_REUSEADDR option is set */
|
|
#define INP_BINDMULTI 0x00000040 /* IP_BINDMULTI option is set */
|
|
#define INP_RSS_BUCKET_SET 0x00000080 /* IP_RSS_LISTEN_BUCKET is set */
|
|
#define INP_RECVFLOWID 0x00000100 /* populate recv datagram with flow info */
|
|
#define INP_RECVRSSBUCKETID 0x00000200 /* populate recv datagram with bucket id */
|
|
#define INP_RATE_LIMIT_CHANGED 0x00000400 /* rate limit needs attention */
|
|
#define INP_ORIGDSTADDR 0x00000800 /* receive IP dst address/port */
|
|
#define INP_CANNOT_DO_ECN 0x00001000 /* The stack does not do ECN */
|
|
#define INP_REUSEPORT_LB 0x00002000 /* SO_REUSEPORT_LB option is set */
|
|
#define INP_SUPPORTS_MBUFQ 0x00004000 /* Supports the mbuf queue method of LRO */
|
|
#define INP_MBUF_QUEUE_READY 0x00008000 /* The transport is pacing, inputs can be queued */
|
|
#define INP_DONT_SACK_QUEUE 0x00010000 /* If a sack arrives do not wake me */
|
|
#define INP_2PCP_SET 0x00020000 /* If the Eth PCP should be set explicitly */
|
|
#define INP_2PCP_BIT0 0x00040000 /* Eth PCP Bit 0 */
|
|
#define INP_2PCP_BIT1 0x00080000 /* Eth PCP Bit 1 */
|
|
#define INP_2PCP_BIT2 0x00100000 /* Eth PCP Bit 2 */
|
|
#define INP_2PCP_BASE INP_2PCP_BIT0
|
|
#define INP_2PCP_MASK (INP_2PCP_BIT0 | INP_2PCP_BIT1 | INP_2PCP_BIT2)
|
|
#define INP_2PCP_SHIFT 18 /* shift PCP field in/out of inp_flags2 */
|
|
|
|
/*
|
|
* Flags passed to in_pcblookup*(), inp_smr_lock() and inp_next().
|
|
*/
|
|
typedef enum {
|
|
INPLOOKUP_WILDCARD = 0x00000001, /* Allow wildcard sockets. */
|
|
INPLOOKUP_RLOCKPCB = 0x00000002, /* Return inpcb read-locked. */
|
|
INPLOOKUP_WLOCKPCB = 0x00000004, /* Return inpcb write-locked. */
|
|
} inp_lookup_t;
|
|
|
|
#define INPLOOKUP_MASK (INPLOOKUP_WILDCARD | INPLOOKUP_RLOCKPCB | \
|
|
INPLOOKUP_WLOCKPCB)
|
|
#define INPLOOKUP_LOCKMASK (INPLOOKUP_RLOCKPCB | INPLOOKUP_WLOCKPCB)
|
|
|
|
#define sotoinpcb(so) ((struct inpcb *)(so)->so_pcb)
|
|
|
|
#define INP_SOCKAF(so) so->so_proto->pr_domain->dom_family
|
|
|
|
#define INP_CHECK_SOCKAF(so, af) (INP_SOCKAF(so) == af)
|
|
|
|
#ifdef _KERNEL
|
|
VNET_DECLARE(int, ipport_reservedhigh);
|
|
VNET_DECLARE(int, ipport_reservedlow);
|
|
VNET_DECLARE(int, ipport_lowfirstauto);
|
|
VNET_DECLARE(int, ipport_lowlastauto);
|
|
VNET_DECLARE(int, ipport_firstauto);
|
|
VNET_DECLARE(int, ipport_lastauto);
|
|
VNET_DECLARE(int, ipport_hifirstauto);
|
|
VNET_DECLARE(int, ipport_hilastauto);
|
|
VNET_DECLARE(int, ipport_randomized);
|
|
VNET_DECLARE(int, ipport_randomcps);
|
|
VNET_DECLARE(int, ipport_randomtime);
|
|
VNET_DECLARE(int, ipport_stoprandom);
|
|
VNET_DECLARE(int, ipport_tcpallocs);
|
|
|
|
#define V_ipport_reservedhigh VNET(ipport_reservedhigh)
|
|
#define V_ipport_reservedlow VNET(ipport_reservedlow)
|
|
#define V_ipport_lowfirstauto VNET(ipport_lowfirstauto)
|
|
#define V_ipport_lowlastauto VNET(ipport_lowlastauto)
|
|
#define V_ipport_firstauto VNET(ipport_firstauto)
|
|
#define V_ipport_lastauto VNET(ipport_lastauto)
|
|
#define V_ipport_hifirstauto VNET(ipport_hifirstauto)
|
|
#define V_ipport_hilastauto VNET(ipport_hilastauto)
|
|
#define V_ipport_randomized VNET(ipport_randomized)
|
|
#define V_ipport_randomcps VNET(ipport_randomcps)
|
|
#define V_ipport_randomtime VNET(ipport_randomtime)
|
|
#define V_ipport_stoprandom VNET(ipport_stoprandom)
|
|
#define V_ipport_tcpallocs VNET(ipport_tcpallocs)
|
|
|
|
void in_pcbinfo_init(struct inpcbinfo *, struct inpcbstorage *,
|
|
u_int, u_int);
|
|
void in_pcbinfo_destroy(struct inpcbinfo *);
|
|
void in_pcbstorage_init(void *);
|
|
void in_pcbstorage_destroy(void *);
|
|
|
|
int in_pcbbind_check_bindmulti(const struct inpcb *ni,
|
|
const struct inpcb *oi);
|
|
|
|
void in_pcbpurgeif0(struct inpcbinfo *, struct ifnet *);
|
|
int in_pcballoc(struct socket *, struct inpcbinfo *);
|
|
int in_pcbbind(struct inpcb *, struct sockaddr *, struct ucred *);
|
|
int in_pcbbind_setup(struct inpcb *, struct sockaddr *, in_addr_t *,
|
|
u_short *, struct ucred *);
|
|
int in_pcbconnect(struct inpcb *, struct sockaddr *, struct ucred *, bool);
|
|
int in_pcbconnect_setup(struct inpcb *, struct sockaddr *, in_addr_t *,
|
|
u_short *, in_addr_t *, u_short *, struct inpcb **,
|
|
struct ucred *);
|
|
void in_pcbdetach(struct inpcb *);
|
|
void in_pcbdisconnect(struct inpcb *);
|
|
void in_pcbdrop(struct inpcb *);
|
|
void in_pcbfree(struct inpcb *);
|
|
int in_pcbinshash(struct inpcb *);
|
|
int in_pcbladdr(struct inpcb *, struct in_addr *, struct in_addr *,
|
|
struct ucred *);
|
|
int in_pcblbgroup_numa(struct inpcb *, int arg);
|
|
struct inpcb *
|
|
in_pcblookup(struct inpcbinfo *, struct in_addr, u_int,
|
|
struct in_addr, u_int, int, struct ifnet *);
|
|
struct inpcb *
|
|
in_pcblookup_mbuf(struct inpcbinfo *, struct in_addr, u_int,
|
|
struct in_addr, u_int, int, struct ifnet *, struct mbuf *);
|
|
void in_pcbnotifyall(struct inpcbinfo *pcbinfo, struct in_addr,
|
|
int, struct inpcb *(*)(struct inpcb *, int));
|
|
void in_pcbref(struct inpcb *);
|
|
void in_pcbrehash(struct inpcb *);
|
|
bool in_pcbrele_rlocked(struct inpcb *);
|
|
bool in_pcbrele_wlocked(struct inpcb *);
|
|
|
|
typedef bool inp_match_t(const struct inpcb *, void *);
|
|
struct inpcb_iterator {
|
|
const struct inpcbinfo *ipi;
|
|
struct inpcb *inp;
|
|
inp_match_t *match;
|
|
void *ctx;
|
|
int hash;
|
|
#define INP_ALL_LIST -1
|
|
const inp_lookup_t lock;
|
|
};
|
|
|
|
/* Note: sparse initializers guarantee .inp = NULL. */
|
|
#define INP_ITERATOR(_ipi, _lock, _match, _ctx) \
|
|
{ \
|
|
.ipi = (_ipi), \
|
|
.lock = (_lock), \
|
|
.hash = INP_ALL_LIST, \
|
|
.match = (_match), \
|
|
.ctx = (_ctx), \
|
|
}
|
|
#define INP_ALL_ITERATOR(_ipi, _lock) \
|
|
{ \
|
|
.ipi = (_ipi), \
|
|
.lock = (_lock), \
|
|
.hash = INP_ALL_LIST, \
|
|
}
|
|
|
|
struct inpcb *inp_next(struct inpcb_iterator *);
|
|
void in_losing(struct inpcb *);
|
|
void in_pcbsetsolabel(struct socket *so);
|
|
int in_getpeeraddr(struct socket *so, struct sockaddr **nam);
|
|
int in_getsockaddr(struct socket *so, struct sockaddr **nam);
|
|
struct sockaddr *
|
|
in_sockaddr(in_port_t port, struct in_addr *addr);
|
|
void in_pcbsosetlabel(struct socket *so);
|
|
#ifdef RATELIMIT
|
|
int
|
|
in_pcboutput_txrtlmt_locked(struct inpcb *, struct ifnet *,
|
|
struct mbuf *, uint32_t);
|
|
int in_pcbattach_txrtlmt(struct inpcb *, struct ifnet *, uint32_t, uint32_t,
|
|
uint32_t, struct m_snd_tag **);
|
|
void in_pcbdetach_txrtlmt(struct inpcb *);
|
|
void in_pcbdetach_tag(struct m_snd_tag *);
|
|
int in_pcbmodify_txrtlmt(struct inpcb *, uint32_t);
|
|
int in_pcbquery_txrtlmt(struct inpcb *, uint32_t *);
|
|
int in_pcbquery_txrlevel(struct inpcb *, uint32_t *);
|
|
void in_pcboutput_txrtlmt(struct inpcb *, struct ifnet *, struct mbuf *);
|
|
void in_pcboutput_eagain(struct inpcb *);
|
|
#endif
|
|
#endif /* _KERNEL */
|
|
|
|
#endif /* !_NETINET_IN_PCB_H_ */
|