8b07e49a00
This particular implementation is designed to be fully backwards compatible and to be MFC-able to 7.x (and 6.x) Currently the only protocol that can make use of the multiple tables is IPv4 Similar functionality exists in OpenBSD and Linux. From my notes: ----- One thing where FreeBSD has been falling behind, and which by chance I have some time to work on is "policy based routing", which allows different packet streams to be routed by more than just the destination address. Constraints: ------------ I want to make some form of this available in the 6.x tree (and by extension 7.x) , but FreeBSD in general needs it so I might as well do it in -current and back port the portions I need. One of the ways that this can be done is to have the ability to instantiate multiple kernel routing tables (which I will now refer to as "Forwarding Information Bases" or "FIBs" for political correctness reasons). Which FIB a particular packet uses to make the next hop decision can be decided by a number of mechanisms. The policies these mechanisms implement are the "Policies" referred to in "Policy based routing". One of the constraints I have if I try to back port this work to 6.x is that it must be implemented as a EXTENSION to the existing ABIs in 6.x so that third party applications do not need to be recompiled in timespan of the branch. This first version will not have some of the bells and whistles that will come with later versions. It will, for example, be limited to 16 tables in the first commit. Implementation method, Compatible version. (part 1) ------------------------------- For this reason I have implemented a "sufficient subset" of a multiple routing table solution in Perforce, and back-ported it to 6.x. (also in Perforce though not always caught up with what I have done in -current/P4). The subset allows a number of FIBs to be defined at compile time (8 is sufficient for my purposes in 6.x) and implements the changes needed to allow IPV4 to use them. I have not done the changes for ipv6 simply because I do not need it, and I do not have enough knowledge of ipv6 (e.g. neighbor discovery) needed to do it. Other protocol families are left untouched and should there be users with proprietary protocol families, they should continue to work and be oblivious to the existence of the extra FIBs. To understand how this is done, one must know that the current FIB code starts everything off with a single dimensional array of pointers to FIB head structures (One per protocol family), each of which in turn points to the trie of routes available to that family. The basic change in the ABI compatible version of the change is to extent that array to be a 2 dimensional array, so that instead of protocol family X looking at rt_tables[X] for the table it needs, it looks at rt_tables[Y][X] when for all protocol families except ipv4 Y is always 0. Code that is unaware of the change always just sees the first row of the table, which of course looks just like the one dimensional array that existed before. The entry points rtrequest(), rtalloc(), rtalloc1(), rtalloc_ign() are all maintained, but refer only to the first row of the array, so that existing callers in proprietary protocols can continue to do the "right thing". Some new entry points are added, for the exclusive use of ipv4 code called in_rtrequest(), in_rtalloc(), in_rtalloc1() and in_rtalloc_ign(), which have an extra argument which refers the code to the correct row. In addition, there are some new entry points (currently called rtalloc_fib() and friends) that check the Address family being looked up and call either rtalloc() (and friends) if the protocol is not IPv4 forcing the action to row 0 or to the appropriate row if it IS IPv4 (and that info is available). These are for calling from code that is not specific to any particular protocol. The way these are implemented would change in the non ABI preserving code to be added later. One feature of the first version of the code is that for ipv4, the interface routes show up automatically on all the FIBs, so that no matter what FIB you select you always have the basic direct attached hosts available to you. (rtinit() does this automatically). You CAN delete an interface route from one FIB should you want to but by default it's there. ARP information is also available in each FIB. It's assumed that the same machine would have the same MAC address, regardless of which FIB you are using to get to it. This brings us as to how the correct FIB is selected for an outgoing IPV4 packet. Firstly, all packets have a FIB associated with them. if nothing has been done to change it, it will be FIB 0. The FIB is changed in the following ways. Packets fall into one of a number of classes. 1/ locally generated packets, coming from a socket/PCB. Such packets select a FIB from a number associated with the socket/PCB. This in turn is inherited from the process, but can be changed by a socket option. The process in turn inherits it on fork. I have written a utility call setfib that acts a bit like nice.. setfib -3 ping target.example.com # will use fib 3 for ping. It is an obvious extension to make it a property of a jail but I have not done so. It can be achieved by combining the setfib and jail commands. 2/ packets received on an interface for forwarding. By default these packets would use table 0, (or possibly a number settable in a sysctl(not yet)). but prior to routing the firewall can inspect them (see below). (possibly in the future you may be able to associate a FIB with packets received on an interface.. An ifconfig arg, but not yet.) 3/ packets inspected by a packet classifier, which can arbitrarily associate a fib with it on a packet by packet basis. A fib assigned to a packet by a packet classifier (such as ipfw) would over-ride a fib associated by a more default source. (such as cases 1 or 2). 4/ a tcp listen socket associated with a fib will generate accept sockets that are associated with that same fib. 5/ Packets generated in response to some other packet (e.g. reset or icmp packets). These should use the FIB associated with the packet being reponded to. 6/ Packets generated during encapsulation. gif, tun and other tunnel interfaces will encapsulate using the FIB that was in effect withthe proces that set up the tunnel. thus setfib 1 ifconfig gif0 [tunnel instructions] will set the fib for the tunnel to use to be fib 1. Routing messages would be associated with their process, and thus select one FIB or another. messages from the kernel would be associated with the fib they refer to and would only be received by a routing socket associated with that fib. (not yet implemented) In addition Netstat has been edited to be able to cope with the fact that the array is now 2 dimensional. (It looks in system memory using libkvm (!)). Old versions of netstat see only the first FIB. In addition two sysctls are added to give: a) the number of FIBs compiled in (active) b) the default FIB of the calling process. Early testing experience: ------------------------- Basically our (IronPort's) appliance does this functionality already using ipfw fwd but that method has some drawbacks. For example, It can't fully simulate a routing table because it can't influence the socket's choice of local address when a connect() is done. Testing during the generating of these changes has been remarkably smooth so far. Multiple tables have co-existed with no notable side effects, and packets have been routes accordingly. ipfw has grown 2 new keywords: setfib N ip from anay to any count ip from any to any fib N In pf there seems to be a requirement to be able to give symbolic names to the fibs but I do not have that capacity. I am not sure if it is required. SCTP has interestingly enough built in support for this, called VRFs in Cisco parlance. it will be interesting to see how that handles it when it suddenly actually does something. Where to next: -------------------- After committing the ABI compatible version and MFCing it, I'd like to proceed in a forward direction in -current. this will result in some roto-tilling in the routing code. Firstly: the current code's idea of having a separate tree per protocol family, all of the same format, and pointed to by the 1 dimensional array is a bit silly. Especially when one considers that there is code that makes assumptions about every protocol having the same internal structures there. Some protocols don't WANT that sort of structure. (for example the whole idea of a netmask is foreign to appletalk). This needs to be made opaque to the external code. My suggested first change is to add routing method pointers to the 'domain' structure, along with information pointing the data. instead of having an array of pointers to uniform structures, there would be an array pointing to the 'domain' structures for each protocol address domain (protocol family), and the methods this reached would be called. The methods would have an argument that gives FIB number, but the protocol would be free to ignore it. When the ABI can be changed it raises the possibilty of the addition of a fib entry into the "struct route". Currently, the structure contains the sockaddr of the desination, and the resulting fib entry. To make this work fully, one could add a fib number so that given an address and a fib, one can find the third element, the fib entry. Interaction with the ARP layer/ LL layer would need to be revisited as well. Qing Li has been working on this already. This work was sponsored by Ironport Systems/Cisco Reviewed by: several including rwatson, bz and mlair (parts each) Obtained from: Ironport systems/Cisco
447 lines
15 KiB
C
447 lines
15 KiB
C
/*-
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* Copyright (c) 1982, 1986, 1990, 1993
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* The Regents of the University of California. All rights reserved.
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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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* 4. 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/_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/rwlock.h>
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#endif
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#define in6pcb inpcb /* for KAME src sync over BSD*'s */
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#define in6p_sp inp_sp /* for KAME src sync over BSD*'s */
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struct inpcbpolicy;
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/*
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* Struct inpcb is the ommon structure pcb for the Internet Protocol
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* implementation.
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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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LIST_HEAD(inpcbhead, inpcb);
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LIST_HEAD(inpcbporthead, inpcbport);
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typedef u_quad_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.
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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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/*
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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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*/
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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 {
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/* foreign host table entry */
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struct in_addr_4in6 ie46_foreign;
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struct in6_addr ie6_foreign;
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} ie_dependfaddr;
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union {
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/* local host table entry */
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struct in_addr_4in6 ie46_local;
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struct in6_addr ie6_local;
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} ie_dependladdr;
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#define ie_faddr ie_dependfaddr.ie46_foreign.ia46_addr4
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#define ie_laddr ie_dependladdr.ie46_local.ia46_addr4
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#define ie6_faddr ie_dependfaddr.ie6_foreign
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#define ie6_laddr ie_dependladdr.ie6_local
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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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#define inc_isipv6 inc_flags /* temp compatability */
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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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struct icmp6_filter;
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struct inpcb {
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LIST_ENTRY(inpcb) inp_hash; /* hash list */
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LIST_ENTRY(inpcb) inp_list; /* list for all PCBs of this proto */
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void *inp_ppcb; /* pointer to per-protocol pcb */
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struct inpcbinfo *inp_pcbinfo; /* PCB list info */
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struct socket *inp_socket; /* back pointer to socket */
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u_int32_t inp_flow;
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int inp_flags; /* generic IP/datagram flags */
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u_char inp_vflag; /* IP version flag (v4/v6) */
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#define INP_IPV4 0x1
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#define INP_IPV6 0x2
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#define INP_IPV6PROTO 0x4 /* opened under IPv6 protocol */
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#define INP_TIMEWAIT 0x8 /* .. probably doesn't go here */
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#define INP_ONESBCAST 0x10 /* send all-ones broadcast */
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#define INP_DROPPED 0x20 /* protocol drop flag */
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#define INP_SOCKREF 0x40 /* strong socket reference */
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u_char inp_ip_ttl; /* time to live proto */
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u_char inp_ip_p; /* protocol proto */
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u_char inp_ip_minttl; /* minimum TTL or drop */
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uint32_t inp_ispare1; /* connection id / queue id */
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void *inp_pspare[2]; /* rtentry / general use */
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/* Local and foreign ports, local and foreign addr. */
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struct in_conninfo inp_inc;
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/* list for this PCB's local port */
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struct label *inp_label; /* MAC label */
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struct inpcbpolicy *inp_sp; /* for IPSEC */
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/* Protocol-dependent part; options. */
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struct {
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u_char inp4_ip_tos; /* type of service proto */
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struct mbuf *inp4_options; /* IP options */
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struct ip_moptions *inp4_moptions; /* IP multicast options */
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} inp_depend4;
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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 inp_ip_tos inp_depend4.inp4_ip_tos
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#define inp_options inp_depend4.inp4_options
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#define inp_moptions inp_depend4.inp4_moptions
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struct {
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/* IP options */
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struct mbuf *inp6_options;
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/* IP6 options for outgoing packets */
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struct ip6_pktopts *inp6_outputopts;
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/* IP multicast options */
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struct ip6_moptions *inp6_moptions;
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/* ICMPv6 code type filter */
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struct icmp6_filter *inp6_icmp6filt;
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/* IPV6_CHECKSUM setsockopt */
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int inp6_cksum;
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short inp6_hops;
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} inp_depend6;
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LIST_ENTRY(inpcb) inp_portlist;
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struct inpcbport *inp_phd; /* head of this list */
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#define inp_zero_size offsetof(struct inpcb, inp_gencnt)
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inp_gen_t inp_gencnt; /* generation count of this instance */
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struct rwlock inp_lock;
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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_hops inp_depend6.inp6_hops /* default hop limit */
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#define in6p_ip6_nxt inp_ip_p
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#define in6p_flowinfo inp_flow
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#define in6p_vflag inp_vflag
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#define in6p_options inp_depend6.inp6_options
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#define in6p_outputopts inp_depend6.inp6_outputopts
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#define in6p_moptions inp_depend6.inp6_moptions
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#define in6p_icmp6filt inp_depend6.inp6_icmp6filt
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#define in6p_cksum inp_depend6.inp6_cksum
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#define in6p_flags inp_flags /* for KAME src sync over BSD*'s */
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#define in6p_socket inp_socket /* for KAME src sync over BSD*'s */
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#define in6p_lport inp_lport /* for KAME src sync over BSD*'s */
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#define in6p_fport inp_fport /* for KAME src sync over BSD*'s */
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#define in6p_ppcb inp_ppcb /* for KAME src sync over BSD*'s */
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};
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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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*/
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#ifdef _SYS_SOCKETVAR_H_
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struct xinpcb {
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size_t xi_len; /* length of this structure */
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struct inpcb xi_inp;
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struct xsocket xi_socket;
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u_quad_t xi_alignment_hack;
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};
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struct xinpgen {
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size_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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inp_gen_t xig_gen; /* generation count at this time */
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so_gen_t xig_sogen; /* socket generation count at this time */
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};
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#endif /* _SYS_SOCKETVAR_H_ */
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struct inpcbport {
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LIST_ENTRY(inpcbport) phd_hash;
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struct inpcbhead phd_pcblist;
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u_short phd_port;
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};
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/*
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* Global data structure for each high-level protocol (UDP, TCP, ...) in both
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* IPv4 and IPv6. Holds inpcb lists and information for managing them.
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*/
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struct inpcbinfo {
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/*
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* Global list of inpcbs on the protocol.
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*/
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struct inpcbhead *ipi_listhead;
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u_int ipi_count;
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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.
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*/
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struct inpcbhead *ipi_hashbase;
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u_long ipi_hashmask;
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/*
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* Global hash of inpcbs, hashed by only local port number.
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*/
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struct inpcbporthead *ipi_porthashbase;
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u_long ipi_porthashmask;
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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;
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u_short ipi_lastlow;
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u_short ipi_lasthi;
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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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struct uma_zone *ipi_zone;
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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;
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struct rwlock ipi_lock;
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/*
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* vimage 1
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* general use 1
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*/
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void *ipi_pspare[2];
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};
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#define INP_LOCK_INIT(inp, d, t) \
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rw_init_flags(&(inp)->inp_lock, (t), RW_RECURSE | RW_DUPOK)
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#define INP_LOCK_DESTROY(inp) rw_destroy(&(inp)->inp_lock)
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#define INP_RLOCK(inp) rw_rlock(&(inp)->inp_lock)
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#define INP_WLOCK(inp) rw_wlock(&(inp)->inp_lock)
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#define INP_RUNLOCK(inp) rw_runlock(&(inp)->inp_lock)
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#define INP_WUNLOCK(inp) rw_wunlock(&(inp)->inp_lock)
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#define INP_LOCK_ASSERT(inp) rw_assert(&(inp)->inp_lock, RA_LOCKED)
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#define INP_RLOCK_ASSERT(inp) rw_assert(&(inp)->inp_lock, RA_RLOCKED)
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#define INP_WLOCK_ASSERT(inp) rw_assert(&(inp)->inp_lock, RA_WLOCKED)
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#define INP_UNLOCK_ASSERT(inp) rw_assert(&(inp)->inp_lock, RA_UNLOCKED)
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#ifdef _KERNEL
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/*
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* These locking functions are for inpcb consumers outside of sys/netinet,
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* more specifically, they were added for the benefit of TOE drivers. The
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* macros are reserved for use by the stack.
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*/
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void inp_wlock(struct inpcb *);
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void inp_wunlock(struct inpcb *);
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void inp_rlock(struct inpcb *);
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void inp_runlock(struct inpcb *);
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#ifdef INVARIANTS
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void inp_lock_assert(struct inpcb *);
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void inp_unlock_assert(struct inpcb *);
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#else
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static __inline void
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inp_lock_assert(struct inpcb *inp __unused)
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{
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}
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static __inline void
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inp_unlock_assert(struct inpcb *inp __unused)
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{
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}
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#endif
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#endif /* _KERNEL */
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#define INP_INFO_LOCK_INIT(ipi, d) \
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rw_init_flags(&(ipi)->ipi_lock, (d), RW_RECURSE)
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#define INP_INFO_LOCK_DESTROY(ipi) rw_destroy(&(ipi)->ipi_lock)
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#define INP_INFO_RLOCK(ipi) rw_rlock(&(ipi)->ipi_lock)
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#define INP_INFO_WLOCK(ipi) rw_wlock(&(ipi)->ipi_lock)
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#define INP_INFO_RUNLOCK(ipi) rw_runlock(&(ipi)->ipi_lock)
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#define INP_INFO_WUNLOCK(ipi) rw_wunlock(&(ipi)->ipi_lock)
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#define INP_INFO_LOCK_ASSERT(ipi) rw_assert(&(ipi)->ipi_lock, RA_LOCKED)
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#define INP_INFO_RLOCK_ASSERT(ipi) rw_assert(&(ipi)->ipi_lock, RA_RLOCKED)
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#define INP_INFO_WLOCK_ASSERT(ipi) rw_assert(&(ipi)->ipi_lock, RA_WLOCKED)
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#define INP_INFO_UNLOCK_ASSERT(ipi) rw_assert(&(ipi)->ipi_lock, RA_UNLOCKED)
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#define INP_PCBHASH(faddr, lport, fport, mask) \
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(((faddr) ^ ((faddr) >> 16) ^ ntohs((lport) ^ (fport))) & (mask))
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#define INP_PCBPORTHASH(lport, mask) \
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(ntohs((lport)) & (mask))
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|
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/* flags in inp_flags: */
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#define INP_RECVOPTS 0x01 /* receive incoming IP options */
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#define INP_RECVRETOPTS 0x02 /* receive IP options for reply */
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#define INP_RECVDSTADDR 0x04 /* receive IP dst address */
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#define INP_HDRINCL 0x08 /* user supplies entire IP header */
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#define INP_HIGHPORT 0x10 /* user wants "high" port binding */
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#define INP_LOWPORT 0x20 /* user wants "low" port binding */
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#define INP_ANONPORT 0x40 /* port chosen for user */
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#define INP_RECVIF 0x80 /* receive incoming interface */
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#define INP_MTUDISC 0x100 /* user can do MTU discovery */
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#define INP_FAITH 0x200 /* accept FAITH'ed connections */
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#define INP_RECVTTL 0x400 /* receive incoming IP TTL */
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#define INP_DONTFRAG 0x800 /* don't fragment packet */
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|
|
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#define IN6P_IPV6_V6ONLY 0x008000 /* restrict AF_INET6 socket for v6 */
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|
|
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#define IN6P_PKTINFO 0x010000 /* receive IP6 dst and I/F */
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#define IN6P_HOPLIMIT 0x020000 /* receive hoplimit */
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#define IN6P_HOPOPTS 0x040000 /* receive hop-by-hop options */
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|
#define IN6P_DSTOPTS 0x080000 /* receive dst options after rthdr */
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|
#define IN6P_RTHDR 0x100000 /* receive routing header */
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|
#define IN6P_RTHDRDSTOPTS 0x200000 /* receive dstoptions before rthdr */
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#define IN6P_TCLASS 0x400000 /* receive traffic class value */
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#define IN6P_AUTOFLOWLABEL 0x800000 /* attach flowlabel automatically */
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|
#define IN6P_RFC2292 0x40000000 /* used RFC2292 API on the socket */
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|
#define IN6P_MTU 0x80000000 /* receive path MTU */
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|
|
|
#define INP_CONTROLOPTS (INP_RECVOPTS|INP_RECVRETOPTS|INP_RECVDSTADDR|\
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|
INP_RECVIF|INP_RECVTTL|\
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|
IN6P_PKTINFO|IN6P_HOPLIMIT|IN6P_HOPOPTS|\
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|
IN6P_DSTOPTS|IN6P_RTHDR|IN6P_RTHDRDSTOPTS|\
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|
IN6P_TCLASS|IN6P_AUTOFLOWLABEL|IN6P_RFC2292|\
|
|
IN6P_MTU)
|
|
#define INP_UNMAPPABLEOPTS (IN6P_HOPOPTS|IN6P_DSTOPTS|IN6P_RTHDR|\
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|
IN6P_TCLASS|IN6P_AUTOFLOWLABEL)
|
|
|
|
/* for KAME src sync over BSD*'s */
|
|
#define IN6P_HIGHPORT INP_HIGHPORT
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|
#define IN6P_LOWPORT INP_LOWPORT
|
|
#define IN6P_ANONPORT INP_ANONPORT
|
|
#define IN6P_RECVIF INP_RECVIF
|
|
#define IN6P_MTUDISC INP_MTUDISC
|
|
#define IN6P_FAITH INP_FAITH
|
|
#define IN6P_CONTROLOPTS INP_CONTROLOPTS
|
|
/*
|
|
* socket AF version is {newer than,or include}
|
|
* actual datagram AF version
|
|
*/
|
|
|
|
#define INPLOOKUP_WILDCARD 1
|
|
#define sotoinpcb(so) ((struct inpcb *)(so)->so_pcb)
|
|
#define sotoin6pcb(so) sotoinpcb(so) /* for KAME src sync over BSD*'s */
|
|
|
|
#define INP_SOCKAF(so) so->so_proto->pr_domain->dom_family
|
|
|
|
#define INP_CHECK_SOCKAF(so, af) (INP_SOCKAF(so) == af)
|
|
|
|
#ifdef _KERNEL
|
|
extern int ipport_reservedhigh;
|
|
extern int ipport_reservedlow;
|
|
extern int ipport_lowfirstauto;
|
|
extern int ipport_lowlastauto;
|
|
extern int ipport_firstauto;
|
|
extern int ipport_lastauto;
|
|
extern int ipport_hifirstauto;
|
|
extern int ipport_hilastauto;
|
|
extern struct callout ipport_tick_callout;
|
|
|
|
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 *);
|
|
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 *);
|
|
struct inpcb *
|
|
in_pcblookup_local(struct inpcbinfo *,
|
|
struct in_addr, u_int, int);
|
|
struct inpcb *
|
|
in_pcblookup_hash(struct inpcbinfo *, struct in_addr, u_int,
|
|
struct in_addr, u_int, int, struct ifnet *);
|
|
void in_pcbnotifyall(struct inpcbinfo *pcbinfo, struct in_addr,
|
|
int, struct inpcb *(*)(struct inpcb *, int));
|
|
void in_pcbrehash(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);
|
|
void in_pcbremlists(struct inpcb *inp);
|
|
void ipport_tick(void *xtp);
|
|
|
|
/*
|
|
* Debugging routines compiled in when DDB is present.
|
|
*/
|
|
void db_print_inpcb(struct inpcb *inp, const char *name, int indent);
|
|
|
|
#endif /* _KERNEL */
|
|
|
|
#endif /* !_NETINET_IN_PCB_H_ */
|