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1c79356b 1/*
cb323159 2 * Copyright (c) 1999-2019 Apple Inc. All rights reserved.
5d5c5d0d 3 *
2d21ac55 4 * @APPLE_OSREFERENCE_LICENSE_HEADER_START@
6d2010ae 5 *
2d21ac55
A
6 * This file contains Original Code and/or Modifications of Original Code
7 * as defined in and that are subject to the Apple Public Source License
8 * Version 2.0 (the 'License'). You may not use this file except in
9 * compliance with the License. The rights granted to you under the License
10 * may not be used to create, or enable the creation or redistribution of,
11 * unlawful or unlicensed copies of an Apple operating system, or to
12 * circumvent, violate, or enable the circumvention or violation of, any
13 * terms of an Apple operating system software license agreement.
6d2010ae 14 *
2d21ac55
A
15 * Please obtain a copy of the License at
16 * http://www.opensource.apple.com/apsl/ and read it before using this file.
6d2010ae 17 *
2d21ac55
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18 * The Original Code and all software distributed under the License are
19 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
8f6c56a5
A
20 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
21 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
2d21ac55
A
22 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
23 * Please see the License for the specific language governing rights and
24 * limitations under the License.
6d2010ae 25 *
2d21ac55 26 * @APPLE_OSREFERENCE_LICENSE_HEADER_END@
1c79356b
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27 */
28/* Copyright (c) 1998, 1999 Apple Computer, Inc. All Rights Reserved */
29/* Copyright (c) 1995 NeXT Computer, Inc. All Rights Reserved */
6d2010ae 30/*
1c79356b
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31 * Mach Operating System
32 * Copyright (c) 1987 Carnegie-Mellon University
33 * All rights reserved. The CMU software License Agreement specifies
34 * the terms and conditions for use and redistribution.
35 */
36/*
37 * Copyright (c) 1994 NeXT Computer, Inc. All rights reserved.
38 *
39 * Copyright (c) 1982, 1986, 1988 Regents of the University of California.
40 * All rights reserved.
41 *
42 * Redistribution and use in source and binary forms, with or without
43 * modification, are permitted provided that the following conditions
44 * are met:
45 * 1. Redistributions of source code must retain the above copyright
46 * notice, this list of conditions and the following disclaimer.
47 * 2. Redistributions in binary form must reproduce the above copyright
48 * notice, this list of conditions and the following disclaimer in the
49 * documentation and/or other materials provided with the distribution.
50 * 3. All advertising materials mentioning features or use of this software
51 * must display the following acknowledgement:
52 * This product includes software developed by the University of
53 * California, Berkeley and its contributors.
54 * 4. Neither the name of the University nor the names of its contributors
55 * may be used to endorse or promote products derived from this software
56 * without specific prior written permission.
57 *
58 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
59 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
60 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
61 * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
62 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
63 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
64 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
65 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
66 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
67 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
68 * SUCH DAMAGE.
69 *
70 * @(#)mbuf.h 8.3 (Berkeley) 1/21/94
1c79356b 71 */
2d21ac55
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72/*
73 * NOTICE: This file was modified by SPARTA, Inc. in 2005 to introduce
74 * support for mandatory and extensible security protections. This notice
75 * is included in support of clause 2.2 (b) of the Apple Public License,
76 * Version 2.0.
77 */
1c79356b 78
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79#ifndef _SYS_MBUF_H_
80#define _SYS_MBUF_H_
1c79356b 81
9bccf70c 82#include <sys/appleapiopts.h>
d9a64523 83#include <sys/cdefs.h>
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84#include <sys/_types/_u_int32_t.h> /* u_int32_t */
85#include <sys/_types/_u_int64_t.h> /* u_int64_t */
86#include <sys/_types/_u_short.h> /* u_short */
91447636 87
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88#ifdef KERNEL
89#include <sys/kpi_mbuf.h>
90#endif
91447636 91
d9a64523 92#ifdef XNU_KERNEL_PRIVATE
1c79356b 93#include <sys/lock.h>
91447636 94#include <sys/queue.h>
39236c6e 95#include <machine/endian.h>
1c79356b
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96/*
97 * Mbufs are of a single size, MSIZE (machine/param.h), which
98 * includes overhead. An mbuf may add a single "mbuf cluster" of size
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99 * MCLBYTES/MBIGCLBYTES/M16KCLBYTES (also in machine/param.h), which has
100 * no additional overhead and is used instead of the internal data area;
101 * this is done when at least MINCLSIZE of data must be stored.
b0d623f7 102 */
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103
104/*
105 * The following _MLEN and _MHLEN macros are private to xnu. Private code
106 * that are outside of xnu must use the mbuf_get_{mlen,mhlen} routines since
107 * the sizes of the structures are dependent upon specific xnu configs.
108 */
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109#define _MLEN (MSIZE - sizeof(struct m_hdr)) /* normal data len */
110#define _MHLEN (_MLEN - sizeof(struct pkthdr)) /* data len w/pkthdr */
1c79356b 111
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112#define NMBPGSHIFT (PAGE_SHIFT - MSIZESHIFT)
113#define NMBPG (1 << NMBPGSHIFT) /* # of mbufs per page */
1c79356b 114
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115#define NCLPGSHIFT (PAGE_SHIFT - MCLSHIFT)
116#define NCLPG (1 << NCLPGSHIFT) /* # of cl per page */
6d2010ae 117
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118#define NBCLPGSHIFT (PAGE_SHIFT - MBIGCLSHIFT)
119#define NBCLPG (1 << NBCLPGSHIFT) /* # of big cl per page */
3e170ce0 120
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121#define NMBPCLSHIFT (MCLSHIFT - MSIZESHIFT)
122#define NMBPCL (1 << NMBPCLSHIFT) /* # of mbufs per cl */
6d2010ae 123
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124#define NCLPJCLSHIFT (M16KCLSHIFT - MCLSHIFT)
125#define NCLPJCL (1 << NCLPJCLSHIFT) /* # of cl per jumbo cl */
1c79356b 126
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127#define NCLPBGSHIFT (MBIGCLSHIFT - MCLSHIFT)
128#define NCLPBG (1 << NCLPBGSHIFT) /* # of cl per big cl */
3e170ce0 129
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130#define NMBPBGSHIFT (MBIGCLSHIFT - MSIZESHIFT)
131#define NMBPBG (1 << NMBPBGSHIFT) /* # of mbufs per big cl */
3e170ce0 132
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133/*
134 * Macros for type conversion
135 * mtod(m,t) - convert mbuf pointer to data pointer of correct type
5ba3f43e 136 * mtodo(m, o) -- Same as above but with offset 'o' into data.
1c79356b 137 * dtom(x) - convert data pointer within mbuf to mbuf pointer (XXX)
1c79356b 138 */
0a7de745 139#define mtod(m, t) ((t)m_mtod(m))
5ba3f43e 140#define mtodo(m, o) ((void *)(mtod(m, uint8_t *) + (o)))
0a7de745 141#define dtom(x) m_dtom(x)
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142
143/* header at beginning of each mbuf: */
144struct m_hdr {
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145 struct mbuf *mh_next; /* next buffer in chain */
146 struct mbuf *mh_nextpkt; /* next chain in queue/record */
147 caddr_t mh_data; /* location of data */
148 int32_t mh_len; /* amount of data in this mbuf */
149 u_int16_t mh_type; /* type of data in this mbuf */
150 u_int16_t mh_flags; /* flags; see below */
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151#if __arm__ && (__BIGGEST_ALIGNMENT__ > 4)
152/* This is needed because of how _MLEN is defined and used. Ideally, _MLEN
153 * should be defined using the offsetof(struct mbuf, M_dat), since there is
154 * no guarantee that mbuf.M_dat will start where mbuf.m_hdr ends. The compiler
155 * may (and does in the armv7k case) insert padding between m_hdr and M_dat in
156 * mbuf. We cannot easily use offsetof, however, since _MLEN is referenced
157 * in the definition of mbuf.
158 */
159} __attribute__((aligned(8)));
160#else
1c79356b 161};
5ba3f43e 162#endif
1c79356b 163
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164/*
165 * Packet tag structure (see below for details).
166 */
167struct m_tag {
0a7de745 168 u_int64_t m_tag_cookie; /* Error checking */
6d2010ae 169#ifndef __LP64__
0a7de745 170 u_int32_t pad; /* For structure alignment */
6d2010ae 171#endif /* !__LP64__ */
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172 SLIST_ENTRY(m_tag) m_tag_link; /* List of packet tags */
173 u_int16_t m_tag_type; /* Module specific type */
174 u_int16_t m_tag_len; /* Length of data */
175 u_int32_t m_tag_id; /* Module ID */
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176};
177
0a7de745 178#define M_TAG_ALIGN(len) \
316670eb 179 (P2ROUNDUP(len, sizeof (u_int64_t)) + sizeof (struct m_tag))
6d2010ae 180
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181#define M_TAG_VALID_PATTERN 0xfeedfacefeedfaceULL
182#define M_TAG_FREE_PATTERN 0xdeadbeefdeadbeefULL
6d2010ae 183
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184/*
185 * Packet tag header structure (at the top of mbuf). Pointers are
186 * 32-bit in ILP32; m_tag needs 64-bit alignment, hence padded.
187 */
6d2010ae 188struct m_taghdr {
316670eb 189#ifndef __LP64__
0a7de745 190 u_int32_t pad; /* For structure alignment */
316670eb 191#endif /* !__LP64__ */
0a7de745 192 u_int64_t refcnt; /* Number of tags in this mbuf */
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193};
194
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195/*
196 * Driver auxiliary metadata tag (KERNEL_TAG_TYPE_DRVAUX).
197 */
198struct m_drvaux_tag {
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199 u_int32_t da_family; /* IFNET_FAMILY values */
200 u_int32_t da_subfamily; /* IFNET_SUBFAMILY values */
201 u_int32_t da_reserved; /* for future */
202 u_int32_t da_length; /* length of following data */
39236c6e 203};
316670eb 204
39236c6e 205/* Values for pftag_flags (16-bit wide) */
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206#define PF_TAG_GENERATED 0x1 /* pkt generated by PF */
207#define PF_TAG_FRAGCACHE 0x2
208#define PF_TAG_TRANSLATE_LOCALHOST 0x4
39236c6e 209#if PF_ECN
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210#define PF_TAG_HDR_INET 0x8 /* hdr points to IPv4 */
211#define PF_TAG_HDR_INET6 0x10 /* hdr points to IPv6 */
39236c6e 212#endif /* PF_ECN */
cb323159
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213#define PF_TAG_REASSEMBLED 0x20 /* pkt reassembled by PF */
214#define PF_TAG_REFRAGMENTED 0x40 /* pkt refragmented by PF */
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215/*
216 * PF mbuf tag
217 */
316670eb 218struct pf_mtag {
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219 u_int16_t pftag_flags; /* PF_TAG flags */
220 u_int16_t pftag_rtableid; /* alternate routing table id */
221 u_int16_t pftag_tag;
222 u_int16_t pftag_routed;
39236c6e 223#if PF_ECN
0a7de745 224 void *pftag_hdr; /* saved hdr pos in mbuf, for ECN */
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225#endif /* PF_ECN */
226};
227
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228/*
229 * PF fragment tag
230 */
231struct pf_fragment_tag {
232 uint32_t ft_id; /* fragment id */
233 uint16_t ft_hdrlen; /* header length of reassembled pkt */
234 uint16_t ft_unfragpartlen; /* length of the per-fragment headers */
235 uint16_t ft_extoff; /* last extension header offset or 0 */
236 uint16_t ft_maxlen; /* maximum fragment payload length */
237};
238
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239/*
240 * TCP mbuf tag
241 */
242struct tcp_pktinfo {
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243 union {
244 struct {
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245 u_int32_t segsz; /* segment size (actual MSS) */
246 u_int32_t start_seq; /* start seq of this packet */
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247 pid_t pid;
248 pid_t e_pid;
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249 } __tx;
250 struct {
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251 u_int16_t lro_pktlen; /* max seg size encountered */
252 u_int8_t lro_npkts; /* # of coalesced TCP pkts */
253 u_int8_t lro_timediff; /* time spent in LRO */
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254 } __rx;
255 } __offload;
256 union {
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257 u_int32_t pri; /* send msg priority */
258 u_int32_t seq; /* recv msg sequence # */
39236c6e 259 } __msgattr;
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260#define tso_segsz proto_mtag.__pr_u.tcp.tm_tcp.__offload.__tx.segsz
261#define tx_start_seq proto_mtag.__pr_u.tcp.tm_tcp.__offload.__tx.start_seq
262#define tx_tcp_pid proto_mtag.__pr_u.tcp.tm_tcp.__offload.__tx.pid
263#define tx_tcp_e_pid proto_mtag.__pr_u.tcp.tm_tcp.__offload.__tx.e_pid
264#define lro_pktlen proto_mtag.__pr_u.tcp.tm_tcp.__offload.__rx.lro_pktlen
265#define lro_npkts proto_mtag.__pr_u.tcp.tm_tcp.__offload.__rx.lro_npkts
266#define lro_elapsed proto_mtag.__pr_u.tcp.tm_tcp.__offload.__rx.lro_timediff
267#define msg_pri proto_mtag.__pr_u.tcp.tm_tcp.__msgattr.pri
268#define msg_seq proto_mtag.__pr_u.tcp.tm_tcp.__msgattr.seq
316670eb
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269};
270
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271/*
272 * MPTCP mbuf tag
273 */
274struct mptcp_pktinfo {
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275 u_int64_t mtpi_dsn; /* MPTCP Data Sequence Number */
276 u_int32_t mtpi_rel_seq; /* Relative Seq Number */
277 u_int16_t mtpi_length; /* Length of mapping */
278 u_int16_t mtpi_csum;
279#define mp_dsn proto_mtag.__pr_u.tcp.tm_mptcp.mtpi_dsn
280#define mp_rseq proto_mtag.__pr_u.tcp.tm_mptcp.mtpi_rel_seq
281#define mp_rlen proto_mtag.__pr_u.tcp.tm_mptcp.mtpi_length
282#define mp_csum proto_mtag.__pr_u.tcp.tm_mptcp.mtpi_csum
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283};
284
285/*
286 * TCP specific mbuf tag. Note that the current implementation uses
287 * MPTCP metadata strictly between MPTCP and the TCP subflow layers,
288 * hence tm_tcp and tm_mptcp are mutually exclusive. This also means
289 * that TCP messages functionality is currently incompatible with MPTCP.
290 */
316670eb 291struct tcp_mtag {
39236c6e 292 union {
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293 struct tcp_pktinfo tm_tcp; /* TCP and below */
294 struct mptcp_pktinfo tm_mptcp; /* MPTCP-TCP only */
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295 };
296};
297
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298struct udp_mtag {
299 pid_t _pid;
300 pid_t _e_pid;
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301#define tx_udp_pid proto_mtag.__pr_u.udp._pid
302#define tx_udp_e_pid proto_mtag.__pr_u.udp._e_pid
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303};
304
305struct rawip_mtag {
306 pid_t _pid;
307 pid_t _e_pid;
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308#define tx_rawip_pid proto_mtag.__pr_u.rawip._pid
309#define tx_rawip_e_pid proto_mtag.__pr_u.rawip._e_pid
d9a64523
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310};
311
39037602 312struct driver_mtag_ {
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313 uintptr_t _drv_tx_compl_arg;
314 uintptr_t _drv_tx_compl_data;
315 kern_return_t _drv_tx_status;
316 uint16_t _drv_flowid;
317#define drv_tx_compl_arg builtin_mtag._drv_mtag._drv_tx_compl_arg
318#define drv_tx_compl_data builtin_mtag._drv_mtag._drv_tx_compl_data
319#define drv_tx_status builtin_mtag._drv_mtag._drv_tx_status
320#define drv_flowid builtin_mtag._drv_mtag._drv_flowid
39037602
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321};
322
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323/*
324 * Protocol specific mbuf tag (at most one protocol metadata per mbuf).
325 *
326 * Care must be taken to ensure that they are mutually exclusive, e.g.
cb323159 327 * IPsec policy ID implies no TCP segment offload (which is fine given
39236c6e
A
328 * that the former is used on the virtual ipsec interface that does
329 * not advertise the TSO capability.)
330 */
39037602 331struct proto_mtag_ {
39236c6e 332 union {
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333 struct tcp_mtag tcp; /* TCP specific */
334 struct udp_mtag udp; /* UDP specific */
335 struct rawip_mtag rawip; /* raw IPv4/IPv6 specific */
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336 } __pr_u;
337};
338
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339/*
340 * NECP specific mbuf tag.
341 */
39037602 342struct necp_mtag_ {
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343 u_int32_t necp_policy_id;
344 u_int32_t necp_skip_policy_id;
345 u_int32_t necp_route_rule_id;
346 u_int16_t necp_last_interface_index;
347 u_int16_t necp_app_id;
39037602
A
348};
349
350union builtin_mtag {
351 struct {
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352 struct proto_mtag_ _proto_mtag; /* built-in protocol-specific tag */
353 struct pf_mtag _pf_mtag; /* built-in PF tag */
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354 struct necp_mtag_ _necp_mtag; /* built-in NECP tag */
355 } _net_mtag;
356 struct driver_mtag_ _drv_mtag;
357#define necp_mtag builtin_mtag._net_mtag._necp_mtag
358#define proto_mtag builtin_mtag._net_mtag._proto_mtag
359#define driver_mtag builtin_mtag._drv_mtag
fe8ab488
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360};
361
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362/*
363 * Record/packet header in first mbuf of chain; valid only if M_PKTHDR set.
364 */
39037602 365struct pkthdr {
0a7de745 366 struct ifnet *rcvif; /* rcv interface */
1c79356b 367 /* variables for ip and tcp reassembly */
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368 void *pkt_hdr; /* pointer to packet header */
369 int32_t len; /* total packet length */
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370 /* variables for hardware checksum */
371 /* Note: csum_flags is used for hardware checksum and VLAN */
0a7de745 372 u_int32_t csum_flags; /* flags regarding checksum */
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373 union {
374 struct {
0a7de745 375 u_int16_t val; /* checksum value */
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376 u_int16_t start; /* checksum start offset */
377 } _csum_rx;
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378#define csum_rx_val _csum_rx.val
379#define csum_rx_start _csum_rx.start
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380 struct {
381 u_int16_t start; /* checksum start offset */
382 u_int16_t stuff; /* checksum stuff offset */
383 } _csum_tx;
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384#define csum_tx_start _csum_tx.start
385#define csum_tx_stuff _csum_tx.stuff
d9a64523
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386 /*
387 * Generic data field used by csum routines.
388 * It gets used differently in different contexts.
389 */
390 u_int32_t csum_data;
39236c6e 391 };
0a7de745 392 u_int16_t vlan_tag; /* VLAN tag, host byte order */
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393 /*
394 * Packet classifier info
395 *
396 * PKTF_FLOW_ID set means valid flow ID. A non-zero flow ID value
397 * means the packet has been classified by one of the flow sources.
398 * It is also a prerequisite for flow control advisory, which is
399 * enabled by additionally setting PKTF_FLOW_ADV.
400 *
401 * The protocol value is a best-effort representation of the payload.
402 * It is opportunistically updated and used only for optimization.
403 * It is not a substitute for parsing the protocol header(s); use it
404 * only as a hint.
405 *
406 * If PKTF_IFAINFO is set, pkt_ifainfo contains one or both of the
407 * indices of interfaces which own the source and/or destination
408 * addresses of the packet. For the local/loopback case (PKTF_LOOP),
409 * both should be valid, and thus allows for the receiving end to
410 * quickly determine the actual interfaces used by the the addresses;
411 * they may not necessarily be the same or refer to the loopback
412 * interface. Otherwise, in the non-local/loopback case, the indices
413 * are opportunistically set, and because of that only one may be set
414 * (0 means the index has not been determined.) In addition, the
415 * interface address flags are also recorded. This allows us to avoid
416 * storing the corresponding {in,in6}_ifaddr in an mbuf tag. Ideally
417 * this would be a superset of {ia,ia6}_flags, but the namespaces are
418 * overlapping at present, so we'll need a new set of values in future
419 * to achieve this. For now, we will just rely on the address family
420 * related code paths examining this mbuf to interpret the flags.
421 */
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422 u_int8_t pkt_proto; /* IPPROTO value */
423 u_int8_t pkt_flowsrc; /* FLOWSRC values */
424 u_int32_t pkt_flowid; /* flow ID */
425 u_int32_t pkt_flags; /* PKTF flags (see below) */
426 u_int32_t pkt_svc; /* MBUF_SVC value */
39037602 427
0a7de745 428 u_int32_t pkt_compl_context; /* Packet completion context */
39037602 429
39236c6e
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430 union {
431 struct {
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432 u_int16_t src; /* ifindex of src addr i/f */
433 u_int16_t src_flags; /* src PKT_IFAIFF flags */
434 u_int16_t dst; /* ifindex of dst addr i/f */
435 u_int16_t dst_flags; /* dst PKT_IFAIFF flags */
39236c6e 436 } _pkt_iaif;
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437#define src_ifindex _pkt_iaif.src
438#define src_iff _pkt_iaif.src_flags
439#define dst_ifindex _pkt_iaif.dst
440#define dst_iff _pkt_iaif.dst_flags
441 u_int64_t pkt_ifainfo; /* data field used by ifainfo */
39037602
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442 struct {
443 u_int32_t if_data; /* bytes in interface queue */
444 u_int32_t sndbuf_data; /* bytes in socket buffer */
0a7de745
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445 } _pkt_bsr; /* Buffer status report used by cellular interface */
446#define bufstatus_if _pkt_bsr.if_data
447#define bufstatus_sndbuf _pkt_bsr.sndbuf_data
39236c6e 448 };
cb323159 449 u_int64_t pkt_timestamp; /* TX: enqueue time, RX: receive timestamp */
3e170ce0 450
39236c6e
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451 /*
452 * Tags (external and built-in)
453 */
454 SLIST_HEAD(packet_tags, m_tag) tags; /* list of external tags */
39037602 455 union builtin_mtag builtin_mtag;
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456 /*
457 * Module private scratch space (32-bit aligned), currently 16-bytes
39037602 458 * large. Anything stored here is not guaranteed to survive across
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459 * modules. The AQM layer (outbound) uses all 16-bytes for both
460 * packet scheduling and flow advisory information.
39236c6e
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461 */
462 struct {
463 union {
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464 u_int8_t __mpriv8[16];
465 u_int16_t __mpriv16[8];
39236c6e
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466 struct {
467 union {
0a7de745
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468 u_int8_t __val8[4];
469 u_int16_t __val16[2];
470 u_int32_t __val32;
39236c6e 471 } __mpriv32_u;
0a7de745
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472 } __mpriv32[4];
473 u_int64_t __mpriv64[2];
39236c6e
A
474 } __mpriv_u;
475 } pkt_mpriv __attribute__((aligned(4)));
0a7de745
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476#define pkt_mpriv_hash pkt_mpriv.__mpriv_u.__mpriv32[0].__mpriv32_u.__val32
477#define pkt_mpriv_flags pkt_mpriv.__mpriv_u.__mpriv32[1].__mpriv32_u.__val32
478#define pkt_mpriv_srcid pkt_mpriv.__mpriv_u.__mpriv32[2].__mpriv32_u.__val32
479#define pkt_mpriv_fidx pkt_mpriv.__mpriv_u.__mpriv32[3].__mpriv32_u.__val32
5ba3f43e 480
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481 u_int32_t redzone; /* red zone */
482 u_int32_t pkt_compl_callbacks; /* Packet completion callbacks */
1c79356b
A
483};
484
39236c6e
A
485/*
486 * Flow data source type. A data source module is responsible for generating
487 * a unique flow ID and associating it to each data flow as pkt_flowid.
488 * This is required for flow control/advisory, as it allows the output queue
489 * to identify the data source object and inform that it can resume its
490 * transmission (in the event it was flow controlled.)
491 */
0a7de745
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492#define FLOWSRC_INPCB 1 /* flow ID generated by INPCB */
493#define FLOWSRC_IFNET 2 /* flow ID generated by interface */
494#define FLOWSRC_PF 3 /* flow ID generated by PF */
495#define FLOWSRC_CHANNEL 4 /* flow ID generated by channel */
39236c6e 496
cb323159
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497/*
498 * FLOWSRC_MPKL_INPUT is not a true flow data source and is used for
499 * multi-layer packet logging. We're usurping the pkt_flowsrc field because
500 * the mbuf packet header ran out of space and pkt_flowsrc is normally
501 * used on output so we assume we can safely overwrite the normal semantic of
502 * the field.
503 * This value is meant to be used on incoming packet from a lower level protocol
504 * to pass information to some upper level protocol. When FLOWSRC_MPKL_INPUT
505 * is set, the following fields are used:
506 * - pkt_proto: the IP protocol ID of the lower level protocol
507 * - pkt_flowid: the identifier of the packet at the lower protocol.
508 * For example ESP would set pkt_proto to IPPROTO_ESP and pkt_flowid to the SPI.
509 */
510
39236c6e
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511/*
512 * Packet flags. Unlike m_flags, all packet flags are copied along when
513 * copying m_pkthdr, i.e. no equivalent of M_COPYFLAGS here. These flags
514 * (and other classifier info) will be cleared during DLIL input.
515 *
516 * Some notes about M_LOOP and PKTF_LOOP:
517 *
518 * - M_LOOP flag is overloaded, and its use is discouraged. Historically,
519 * that flag was used by the KAME implementation for allowing certain
520 * certain exceptions to be made in the IP6_EXTHDR_CHECK() logic; this
521 * was originally meant to be set as the packet is looped back to the
522 * system, and in some circumstances temporarily set in ip6_output().
523 * Over time, this flag was used by the pre-output routines to indicate
524 * to the DLIL frameout and output routines, that the packet may be
525 * looped back to the system under the right conditions. In addition,
526 * this is an mbuf flag rather than an mbuf packet header flag.
527 *
528 * - PKTF_LOOP is an mbuf packet header flag, which is set if and only
529 * if the packet was looped back to the system. This flag should be
530 * used instead for newer code.
531 */
0a7de745
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532#define PKTF_FLOW_ID 0x1 /* pkt has valid flowid value */
533#define PKTF_FLOW_ADV 0x2 /* pkt triggers local flow advisory */
534#define PKTF_FLOW_LOCALSRC 0x4 /* pkt is locally originated */
535#define PKTF_FLOW_RAWSOCK 0x8 /* pkt locally generated by raw sock */
536#define PKTF_PRIO_PRIVILEGED 0x10 /* packet priority is privileged */
537#define PKTF_PROXY_DST 0x20 /* processed but not locally destined */
538#define PKTF_INET_RESOLVE 0x40 /* IPv4 resolver packet */
539#define PKTF_INET6_RESOLVE 0x80 /* IPv6 resolver packet */
540#define PKTF_RESOLVE_RTR 0x100 /* pkt is for resolving router */
541#define PKTF_SW_LRO_PKT 0x200 /* pkt is a large coalesced pkt */
542#define PKTF_SW_LRO_DID_CSUM 0x400 /* IP and TCP checksums done by LRO */
543#define PKTF_MPTCP 0x800 /* TCP with MPTCP metadata */
544#define PKTF_MPSO 0x1000 /* MPTCP socket meta data */
545#define PKTF_LOOP 0x2000 /* loopbacked packet */
546#define PKTF_IFAINFO 0x4000 /* pkt has valid interface addr info */
547#define PKTF_SO_BACKGROUND 0x8000 /* data is from background source */
548#define PKTF_FORWARDED 0x10000 /* pkt was forwarded from another i/f */
549#define PKTF_PRIV_GUARDED 0x20000 /* pkt_mpriv area guard enabled */
550#define PKTF_KEEPALIVE 0x40000 /* pkt is kernel-generated keepalive */
551#define PKTF_SO_REALTIME 0x80000 /* data is realtime traffic */
552#define PKTF_VALID_UNSENT_DATA 0x100000 /* unsent data is valid */
553#define PKTF_TCP_REXMT 0x200000 /* packet is TCP retransmission */
554#define PKTF_REASSEMBLED 0x400000 /* Packet was reassembled */
555#define PKTF_TX_COMPL_TS_REQ 0x800000 /* tx completion timestamp requested */
556#define PKTF_TS_VALID 0x1000000 /* pkt timestamp is valid */
557#define PKTF_DRIVER_MTAG 0x2000000 /* driver mbuf tags fields inited */
558#define PKTF_NEW_FLOW 0x4000000 /* Data from a new flow */
559#define PKTF_START_SEQ 0x8000000 /* valid start sequence */
560#define PKTF_LAST_PKT 0x10000000 /* last packet in the flow */
561#define PKTF_MPTCP_REINJ 0x20000000 /* Packet has been reinjected for MPTCP */
562#define PKTF_MPTCP_DFIN 0x40000000 /* Packet is a data-fin */
563#define PKTF_HBH_CHKED 0x80000000 /* HBH option is checked */
3e170ce0 564
39236c6e 565/* flags related to flow control/advisory and identification */
0a7de745 566#define PKTF_FLOW_MASK \
39236c6e
A
567 (PKTF_FLOW_ID | PKTF_FLOW_ADV | PKTF_FLOW_LOCALSRC | PKTF_FLOW_RAWSOCK)
568
569/*
570 * Description of external storage mapped into mbuf, valid only if M_EXT set.
571 */
813fb2f6 572typedef void (*m_ext_free_func_t)(caddr_t, u_int, caddr_t);
1c79356b 573struct m_ext {
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574 caddr_t ext_buf; /* start of buffer */
575 m_ext_free_func_t ext_free; /* free routine if not the usual */
576 u_int ext_size; /* size of buffer, for ext_free */
577 caddr_t ext_arg; /* additional ext_free argument */
2d21ac55 578 struct ext_ref {
39037602
A
579 struct mbuf *paired;
580 u_int16_t minref;
581 u_int16_t refcnt;
582 u_int16_t prefcnt;
583 u_int16_t flags;
584 u_int32_t priv;
813fb2f6 585 uintptr_t ext_token;
2d21ac55 586 } *ext_refflags;
1c79356b
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587};
588
b0d623f7
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589/* define m_ext to a type since it gets redefined below */
590typedef struct m_ext _m_ext_t;
591
39236c6e
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592/*
593 * The mbuf object
594 */
1c79356b 595struct mbuf {
39037602 596 struct m_hdr m_hdr;
1c79356b
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597 union {
598 struct {
0a7de745 599 struct pkthdr MH_pkthdr; /* M_PKTHDR set */
1c79356b 600 union {
0a7de745
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601 struct m_ext MH_ext; /* M_EXT set */
602 char MH_databuf[_MHLEN];
1c79356b
A
603 } MH_dat;
604 } MH;
0a7de745 605 char M_databuf[_MLEN]; /* !M_PKTHDR, !M_EXT */
1c79356b
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606 } M_dat;
607};
608
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609#define m_next m_hdr.mh_next
610#define m_len m_hdr.mh_len
611#define m_data m_hdr.mh_data
612#define m_type m_hdr.mh_type
613#define m_flags m_hdr.mh_flags
614#define m_nextpkt m_hdr.mh_nextpkt
615#define m_act m_nextpkt
616#define m_pkthdr M_dat.MH.MH_pkthdr
617#define m_ext M_dat.MH.MH_dat.MH_ext
618#define m_pktdat M_dat.MH.MH_dat.MH_databuf
619#define m_dat M_dat.M_databuf
620#define m_pktlen(_m) ((_m)->m_pkthdr.len)
621#define m_pftag(_m) (&(_m)->m_pkthdr.builtin_mtag._net_mtag._pf_mtag)
1c79356b 622
6d2010ae 623/* mbuf flags (private) */
0a7de745
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624#define M_EXT 0x0001 /* has associated external storage */
625#define M_PKTHDR 0x0002 /* start of record */
626#define M_EOR 0x0004 /* end of record */
627#define M_PROTO1 0x0008 /* protocol-specific */
628#define M_PROTO2 0x0010 /* protocol-specific */
629#define M_PROTO3 0x0020 /* protocol-specific */
630#define M_LOOP 0x0040 /* packet is looped back (also see PKTF_LOOP) */
631#define M_PROTO5 0x0080 /* protocol-specific */
1c79356b 632
6d2010ae 633/* mbuf pkthdr flags, also in m_flags (private) */
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634#define M_BCAST 0x0100 /* send/received as link-level broadcast */
635#define M_MCAST 0x0200 /* send/received as link-level multicast */
636#define M_FRAG 0x0400 /* packet is a fragment of a larger packet */
637#define M_FIRSTFRAG 0x0800 /* packet is first fragment */
638#define M_LASTFRAG 0x1000 /* packet is last fragment */
639#define M_PROMISC 0x2000 /* packet is promiscuous (shouldn't go to stack) */
640#define M_HASFCS 0x4000 /* packet has FCS */
641#define M_TAGHDR 0x8000 /* m_tag hdr structure at top of mbuf data */
6d2010ae
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642
643/*
644 * Flags to purge when crossing layers.
645 */
0a7de745 646#define M_PROTOFLAGS \
6d2010ae 647 (M_PROTO1|M_PROTO2|M_PROTO3|M_PROTO5)
1c79356b
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648
649/* flags copied when copying m_pkthdr */
0a7de745
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650#define M_COPYFLAGS \
651 (M_PKTHDR|M_EOR|M_PROTO1|M_PROTO2|M_PROTO3 | \
652 M_LOOP|M_PROTO5|M_BCAST|M_MCAST|M_FRAG | \
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A
653 M_FIRSTFRAG|M_LASTFRAG|M_PROMISC|M_HASFCS)
654
316670eb 655/* flags indicating hw checksum support and sw checksum requirements */
0a7de745
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656#define CSUM_IP 0x0001 /* will csum IP */
657#define CSUM_TCP 0x0002 /* will csum TCP */
658#define CSUM_UDP 0x0004 /* will csum UDP */
659#define CSUM_IP_FRAGS 0x0008 /* will csum IP fragments */
660#define CSUM_FRAGMENT 0x0010 /* will do IP fragmentation */
661#define CSUM_TCPIPV6 0x0020 /* will csum TCP for IPv6 */
662#define CSUM_UDPIPV6 0x0040 /* will csum UDP for IPv6 */
663#define CSUM_FRAGMENT_IPV6 0x0080 /* will do IPv6 fragmentation */
664
665#define CSUM_IP_CHECKED 0x0100 /* did csum IP */
666#define CSUM_IP_VALID 0x0200 /* ... the csum is valid */
667#define CSUM_DATA_VALID 0x0400 /* csum_data field is valid */
668#define CSUM_PSEUDO_HDR 0x0800 /* csum_data has pseudo hdr */
669#define CSUM_PARTIAL 0x1000 /* simple Sum16 computation */
670#define CSUM_ZERO_INVERT 0x2000 /* invert 0 to -0 (0xffff) */
671
672#define CSUM_DELAY_DATA (CSUM_TCP | CSUM_UDP)
673#define CSUM_DELAY_IP (CSUM_IP) /* IPv4 only: no IPv6 IP cksum */
674#define CSUM_DELAY_IPV6_DATA (CSUM_TCPIPV6 | CSUM_UDPIPV6)
675#define CSUM_DATA_IPV6_VALID CSUM_DATA_VALID /* csum_data field is valid */
676
677#define CSUM_TX_FLAGS \
678 (CSUM_DELAY_IP | CSUM_DELAY_DATA | CSUM_DELAY_IPV6_DATA | \
5ba3f43e 679 CSUM_DATA_VALID | CSUM_PARTIAL | CSUM_ZERO_INVERT)
39236c6e 680
0a7de745
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681#define CSUM_RX_FLAGS \
682 (CSUM_IP_CHECKED | CSUM_IP_VALID | CSUM_PSEUDO_HDR | \
39236c6e
A
683 CSUM_DATA_VALID | CSUM_PARTIAL)
684
4a249263
A
685/*
686 * Note: see also IF_HWASSIST_CSUM defined in <net/if_var.h>
687 */
4a249263
A
688
689/* VLAN tag present */
cb323159
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690#define CSUM_VLAN_TAG_VALID 0x00010000 /* vlan_tag field is valid */
691
692/* checksum start adjustment has been done */
693#define CSUM_ADJUST_DONE 0x00020000
b0d623f7
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694
695/* TCP Segment Offloading requested on this mbuf */
cb323159
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696#define CSUM_TSO_IPV4 0x00100000 /* This mbuf needs to be segmented by the NIC */
697#define CSUM_TSO_IPV6 0x00200000 /* This mbuf needs to be segmented by the NIC */
316670eb 698
0a7de745
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699#define TSO_IPV4_OK(_ifp, _m) \
700 (((_ifp)->if_hwassist & IFNET_TSO_IPV4) && \
701 ((_m)->m_pkthdr.csum_flags & CSUM_TSO_IPV4)) \
39236c6e 702
0a7de745
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703#define TSO_IPV4_NOTOK(_ifp, _m) \
704 (!((_ifp)->if_hwassist & IFNET_TSO_IPV4) && \
705 ((_m)->m_pkthdr.csum_flags & CSUM_TSO_IPV4)) \
39236c6e 706
0a7de745
A
707#define TSO_IPV6_OK(_ifp, _m) \
708 (((_ifp)->if_hwassist & IFNET_TSO_IPV6) && \
709 ((_m)->m_pkthdr.csum_flags & CSUM_TSO_IPV6)) \
39236c6e 710
0a7de745
A
711#define TSO_IPV6_NOTOK(_ifp, _m) \
712 (!((_ifp)->if_hwassist & IFNET_TSO_IPV6) && \
713 ((_m)->m_pkthdr.csum_flags & CSUM_TSO_IPV6)) \
39236c6e 714
6d2010ae 715#endif /* XNU_KERNEL_PRIVATE */
1c79356b
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716
717/* mbuf types */
0a7de745
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718#define MT_FREE 0 /* should be on free list */
719#define MT_DATA 1 /* dynamic (data) allocation */
720#define MT_HEADER 2 /* packet header */
721#define MT_SOCKET 3 /* socket structure */
722#define MT_PCB 4 /* protocol control block */
723#define MT_RTABLE 5 /* routing tables */
724#define MT_HTABLE 6 /* IMP host tables */
725#define MT_ATABLE 7 /* address resolution tables */
726#define MT_SONAME 8 /* socket name */
727#define MT_SOOPTS 10 /* socket options */
728#define MT_FTABLE 11 /* fragment reassembly header */
729#define MT_RIGHTS 12 /* access rights */
730#define MT_IFADDR 13 /* interface address */
731#define MT_CONTROL 14 /* extra-data protocol message */
732#define MT_OOBDATA 15 /* expedited data */
733#define MT_TAG 16 /* volatile metadata associated to pkts */
734#define MT_MAX 32 /* enough? */
1c79356b 735
6d2010ae 736#ifdef XNU_KERNEL_PRIVATE
1c79356b
A
737/*
738 * mbuf allocation/deallocation macros:
739 *
740 * MGET(struct mbuf *m, int how, int type)
741 * allocates an mbuf and initializes it to contain internal data.
742 *
743 * MGETHDR(struct mbuf *m, int how, int type)
744 * allocates an mbuf and initializes it to contain a packet header
745 * and internal data.
746 */
747
e3027f41 748#if 1
0a7de745 749#define MCHECK(m) m_mcheck(m)
1c79356b 750#else
0a7de745 751#define MCHECK(m)
1c79356b
A
752#endif
753
0a7de745 754#define MGET(m, how, type) ((m) = m_get((how), (type)))
9bccf70c 755
0a7de745 756#define MGETHDR(m, how, type) ((m) = m_gethdr((how), (type)))
1c79356b
A
757
758/*
759 * Mbuf cluster macros.
760 * MCLALLOC(caddr_t p, int how) allocates an mbuf cluster.
761 * MCLGET adds such clusters to a normal mbuf;
762 * the flag M_EXT is set upon success.
763 * MCLFREE releases a reference to a cluster allocated by MCLALLOC,
764 * freeing the cluster if the reference count has reached 0.
765 *
766 * Normal mbuf clusters are normally treated as character arrays
767 * after allocation, but use the first word of the buffer as a free list
768 * pointer while on the free list.
769 */
770union mcluster {
0a7de745
A
771 union mcluster *mcl_next;
772 char mcl_buf[MCLBYTES];
1c79356b
A
773};
774
0a7de745 775#define MCLALLOC(p, how) ((p) = m_mclalloc(how))
9bccf70c 776
0a7de745 777#define MCLFREE(p) m_mclfree(p)
9bccf70c 778
0a7de745 779#define MCLGET(m, how) ((m) = m_mclget(m, how))
9bccf70c 780
91447636
A
781/*
782 * Mbuf big cluster
783 */
91447636 784union mbigcluster {
0a7de745
A
785 union mbigcluster *mbc_next;
786 char mbc_buf[MBIGCLBYTES];
91447636
A
787};
788
6d2010ae
A
789/*
790 * Mbuf jumbo cluster
791 */
2d21ac55 792union m16kcluster {
0a7de745
A
793 union m16kcluster *m16kcl_next;
794 char m16kcl_buf[M16KCLBYTES];
2d21ac55 795};
91447636 796
0a7de745 797#define MCLHASREFERENCE(m) m_mclhasreference(m)
1c79356b
A
798
799/*
800 * MFREE(struct mbuf *m, struct mbuf *n)
801 * Free a single mbuf and associated external storage.
802 * Place the successor, if any, in n.
803 */
804
0a7de745 805#define MFREE(m, n) ((n) = m_free(m))
1c79356b
A
806
807/*
808 * Copy mbuf pkthdr from from to to.
809 * from must have M_PKTHDR set, and to must be empty.
810 * aux pointer will be moved to `to'.
811 */
0a7de745 812#define M_COPY_PKTHDR(to, from) m_copy_pkthdr(to, from)
1c79356b 813
0a7de745 814#define M_COPY_PFTAG(to, from) m_copy_pftag(to, from)
316670eb 815
0a7de745 816#define M_COPY_CLASSIFIER(to, from) m_copy_classifier(to, from)
39236c6e 817
1c79356b 818/*
d9a64523
A
819 * Evaluate TRUE if it's safe to write to the mbuf m's data region (this can
820 * be both the local data payload, or an external buffer area, depending on
821 * whether M_EXT is set).
1c79356b 822 */
0a7de745 823#define M_WRITABLE(m) (((m)->m_flags & M_EXT) == 0 || !MCLHASREFERENCE(m))
6d2010ae 824
1c79356b 825/*
d9a64523
A
826 * These macros are mapped to the appropriate KPIs, so that private code
827 * can be simply recompiled in order to be forward-compatible with future
828 * changes toward the struture sizes.
829 */
830#define MLEN mbuf_get_mlen() /* normal mbuf data len */
831#define MHLEN mbuf_get_mhlen() /* data len in an mbuf w/pkthdr */
832#define MINCLSIZE mbuf_get_minclsize() /* cluster usage threshold */
833/*
834 * Return the address of the start of the buffer associated with an mbuf,
835 * handling external storage, packet-header mbufs, and regular data mbufs.
1c79356b 836 */
d9a64523 837#define M_START(m) \
0a7de745
A
838 (((m)->m_flags & M_EXT) ? (m)->m_ext.ext_buf : \
839 ((m)->m_flags & M_PKTHDR) ? &(m)->m_pktdat[0] : \
840 &(m)->m_dat[0])
1c79356b
A
841
842/*
d9a64523
A
843 * Return the size of the buffer associated with an mbuf, handling external
844 * storage, packet-header mbufs, and regular data mbufs.
1c79356b 845 */
d9a64523 846#define M_SIZE(m) \
0a7de745
A
847 (((m)->m_flags & M_EXT) ? (m)->m_ext.ext_size : \
848 ((m)->m_flags & M_PKTHDR) ? MHLEN : \
849 MLEN)
d9a64523 850
0a7de745
A
851#define M_ALIGN(m, len) m_align(m, len)
852#define MH_ALIGN(m, len) m_align(m, len)
853#define MEXT_ALIGN(m, len) m_align(m, len)
d9a64523
A
854
855/*
856 * Compute the amount of space available before the current start of data in
857 * an mbuf.
858 *
859 * The M_WRITABLE() is a temporary, conservative safety measure: the burden
860 * of checking writability of the mbuf data area rests solely with the caller.
861 */
0a7de745 862#define M_LEADINGSPACE(m) \
d9a64523 863 (M_WRITABLE(m) ? ((m)->m_data - M_START(m)) : 0)
1c79356b
A
864
865/*
d9a64523
A
866 * Compute the amount of space available after the end of data in an mbuf.
867 *
868 * The M_WRITABLE() is a temporary, conservative safety measure: the burden
869 * of checking writability of the mbuf data area rests solely with the caller.
1c79356b 870 */
0a7de745
A
871#define M_TRAILINGSPACE(m) \
872 (M_WRITABLE(m) ? \
d9a64523 873 ((M_START(m) + M_SIZE(m)) - ((m)->m_data + (m)->m_len)) : 0)
1c79356b
A
874
875/*
876 * Arrange to prepend space of size plen to mbuf m.
877 * If a new mbuf must be allocated, how specifies whether to wait.
878 * If how is M_DONTWAIT and allocation fails, the original mbuf chain
879 * is freed and m is set to NULL.
880 */
0a7de745 881#define M_PREPEND(m, plen, how, align) \
3e170ce0 882 ((m) = m_prepend_2((m), (plen), (how), (align)))
1c79356b
A
883
884/* change mbuf to new type */
0a7de745 885#define MCHTYPE(m, t) m_mchtype(m, t)
1c79356b
A
886
887/* compatiblity with 4.3 */
0a7de745 888#define m_copy(m, o, l) m_copym((m), (o), (l), M_DONTWAIT)
1c79356b 889
0a7de745
A
890#define MBSHIFT 20 /* 1MB */
891#define MBSIZE (1 << MBSHIFT)
892#define GBSHIFT 30 /* 1GB */
893#define GBSIZE (1 << GBSHIFT)
c910b4d9 894
6d2010ae
A
895/*
896 * M_STRUCT_GET ensures that intermediate protocol header (from "off" to
316670eb 897 * "off+len") is located in single mbuf, on contiguous memory region.
6d2010ae
A
898 * The pointer to the region will be returned to pointer variable "val",
899 * with type "typ".
900 *
901 * M_STRUCT_GET0 does the same, except that it aligns the structure at
902 * very top of mbuf. GET0 is likely to make memory copy than GET.
903 */
0a7de745
A
904#define M_STRUCT_GET(val, typ, m, off, len) \
905do { \
906 struct mbuf *t; \
907 int tmp; \
908 \
909 if ((m)->m_len >= (off) + (len)) { \
910 (val) = (typ)(mtod((m), caddr_t) + (off)); \
911 } else { \
912 t = m_pulldown((m), (off), (len), &tmp); \
913 if (t != NULL) { \
914 if (t->m_len < tmp + (len)) \
915 panic("m_pulldown malfunction"); \
916 (val) = (typ)(mtod(t, caddr_t) + tmp); \
917 } else { \
918 (val) = (typ)NULL; \
919 (m) = NULL; \
920 } \
921 } \
6d2010ae
A
922} while (0)
923
0a7de745
A
924#define M_STRUCT_GET0(val, typ, m, off, len) \
925do { \
926 struct mbuf *t; \
927 \
928 if ((off) == 0 && ((m)->m_len >= (len))) { \
929 (val) = (typ)(void *)mtod(m, caddr_t); \
930 } else { \
931 t = m_pulldown((m), (off), (len), NULL); \
932 if (t != NULL) { \
933 if (t->m_len < (len)) \
934 panic("m_pulldown malfunction"); \
935 (val) = (typ)(void *)mtod(t, caddr_t); \
936 } else { \
937 (val) = (typ)NULL; \
938 (m) = NULL; \
939 } \
940 } \
6d2010ae
A
941} while (0)
942
0a7de745
A
943#define MBUF_INPUT_CHECK(m, rcvif) \
944do { \
945 if (!(m->m_flags & MBUF_PKTHDR) || \
946 m->m_len < 0 || \
947 m->m_len > ((njcl > 0) ? njclbytes : MBIGCLBYTES) || \
948 m->m_type == MT_FREE || \
949 ((m->m_flags & M_EXT) != 0 && m->m_ext.ext_buf == NULL)) { \
950 panic_plain("Failed mbuf validity check: mbuf %p len %d " \
951 "type %d flags 0x%x data %p rcvif %s ifflags 0x%x", \
952 m, m->m_len, m->m_type, m->m_flags, \
953 ((m->m_flags & M_EXT) ? m->m_ext.ext_buf : m->m_data), \
954 if_name(rcvif), \
955 (rcvif->if_flags & 0xffff)); \
956 } \
6d2010ae
A
957} while (0)
958
316670eb
A
959/*
960 * Simple mbuf queueing system
961 *
962 * This is basically a SIMPLEQ adapted to mbuf use (i.e. using
963 * m_nextpkt instead of field.sqe_next).
964 *
965 * m_next is ignored, so queueing chains of mbufs is possible
966 */
0a7de745
A
967#define MBUFQ_HEAD(name) \
968struct name { \
969 struct mbuf *mq_first; /* first packet */ \
970 struct mbuf **mq_last; /* addr of last next packet */ \
316670eb
A
971}
972
0a7de745
A
973#define MBUFQ_INIT(q) do { \
974 MBUFQ_FIRST(q) = NULL; \
975 (q)->mq_last = &MBUFQ_FIRST(q); \
316670eb
A
976} while (0)
977
0a7de745
A
978#define MBUFQ_PREPEND(q, m) do { \
979 if ((MBUFQ_NEXT(m) = MBUFQ_FIRST(q)) == NULL) \
980 (q)->mq_last = &MBUFQ_NEXT(m); \
981 MBUFQ_FIRST(q) = (m); \
316670eb
A
982} while (0)
983
0a7de745
A
984#define MBUFQ_ENQUEUE(q, m) do { \
985 MBUFQ_NEXT(m) = NULL; \
986 *(q)->mq_last = (m); \
987 (q)->mq_last = &MBUFQ_NEXT(m); \
316670eb
A
988} while (0)
989
0a7de745
A
990#define MBUFQ_ENQUEUE_MULTI(q, m, n) do { \
991 MBUFQ_NEXT(n) = NULL; \
992 *(q)->mq_last = (m); \
993 (q)->mq_last = &MBUFQ_NEXT(n); \
316670eb
A
994} while (0)
995
0a7de745
A
996#define MBUFQ_DEQUEUE(q, m) do { \
997 if (((m) = MBUFQ_FIRST(q)) != NULL) { \
998 if ((MBUFQ_FIRST(q) = MBUFQ_NEXT(m)) == NULL) \
999 (q)->mq_last = &MBUFQ_FIRST(q); \
1000 else \
1001 MBUFQ_NEXT(m) = NULL; \
1002 } \
316670eb
A
1003} while (0)
1004
0a7de745
A
1005#define MBUFQ_REMOVE(q, m) do { \
1006 if (MBUFQ_FIRST(q) == (m)) { \
1007 MBUFQ_DEQUEUE(q, m); \
1008 } else { \
1009 struct mbuf *_m = MBUFQ_FIRST(q); \
1010 while (MBUFQ_NEXT(_m) != (m)) \
1011 _m = MBUFQ_NEXT(_m); \
1012 if ((MBUFQ_NEXT(_m) = \
1013 MBUFQ_NEXT(MBUFQ_NEXT(_m))) == NULL) \
1014 (q)->mq_last = &MBUFQ_NEXT(_m); \
1015 } \
316670eb
A
1016} while (0)
1017
0a7de745
A
1018#define MBUFQ_DRAIN(q) do { \
1019 struct mbuf *__m0; \
1020 while ((__m0 = MBUFQ_FIRST(q)) != NULL) { \
1021 MBUFQ_FIRST(q) = MBUFQ_NEXT(__m0); \
1022 MBUFQ_NEXT(__m0) = NULL; \
1023 m_freem(__m0); \
1024 } \
1025 (q)->mq_last = &MBUFQ_FIRST(q); \
316670eb
A
1026} while (0)
1027
0a7de745
A
1028#define MBUFQ_FOREACH(m, q) \
1029 for ((m) = MBUFQ_FIRST(q); \
1030 (m); \
316670eb
A
1031 (m) = MBUFQ_NEXT(m))
1032
0a7de745
A
1033#define MBUFQ_FOREACH_SAFE(m, q, tvar) \
1034 for ((m) = MBUFQ_FIRST(q); \
1035 (m) && ((tvar) = MBUFQ_NEXT(m), 1); \
316670eb
A
1036 (m) = (tvar))
1037
0a7de745
A
1038#define MBUFQ_EMPTY(q) ((q)->mq_first == NULL)
1039#define MBUFQ_FIRST(q) ((q)->mq_first)
1040#define MBUFQ_NEXT(m) ((m)->m_nextpkt)
39037602
A
1041/*
1042 * mq_last is initialized to point to mq_first, so check if they're
1043 * equal and return NULL when the list is empty. Otherwise, we need
1044 * to subtract the offset of MBUQ_NEXT (i.e. m_nextpkt field) to get
1045 * to the base mbuf address to return to caller.
1046 */
0a7de745
A
1047#define MBUFQ_LAST(head) \
1048 (((head)->mq_last == &MBUFQ_FIRST(head)) ? NULL : \
1049 ((struct mbuf *)(void *)((char *)(head)->mq_last - \
cb323159 1050 __builtin_offsetof(struct mbuf, m_nextpkt))))
316670eb 1051
0a7de745
A
1052#define max_linkhdr P2ROUNDUP(_max_linkhdr, sizeof (u_int32_t))
1053#define max_protohdr P2ROUNDUP(_max_protohdr, sizeof (u_int32_t))
6d2010ae 1054#endif /* XNU_KERNEL_PRIVATE */
91447636 1055
1c79356b 1056/*
2d21ac55 1057 * Mbuf statistics (legacy).
1c79356b
A
1058 */
1059struct mbstat {
0a7de745
A
1060 u_int32_t m_mbufs; /* mbufs obtained from page pool */
1061 u_int32_t m_clusters; /* clusters obtained from page pool */
1062 u_int32_t m_spare; /* spare field */
1063 u_int32_t m_clfree; /* free clusters */
1064 u_int32_t m_drops; /* times failed to find space */
1065 u_int32_t m_wait; /* times waited for space */
1066 u_int32_t m_drain; /* times drained protocols for space */
1067 u_short m_mtypes[256]; /* type specific mbuf allocations */
1068 u_int32_t m_mcfail; /* times m_copym failed */
1069 u_int32_t m_mpfail; /* times m_pullup failed */
1070 u_int32_t m_msize; /* length of an mbuf */
1071 u_int32_t m_mclbytes; /* length of an mbuf cluster */
1072 u_int32_t m_minclsize; /* min length of data to allocate a cluster */
1073 u_int32_t m_mlen; /* length of data in an mbuf */
1074 u_int32_t m_mhlen; /* length of data in a header mbuf */
1075 u_int32_t m_bigclusters; /* clusters obtained from page pool */
1076 u_int32_t m_bigclfree; /* free clusters */
1077 u_int32_t m_bigmclbytes; /* length of an mbuf cluster */
91447636
A
1078};
1079
1080/* Compatibillity with 10.3 */
1081struct ombstat {
0a7de745
A
1082 u_int32_t m_mbufs; /* mbufs obtained from page pool */
1083 u_int32_t m_clusters; /* clusters obtained from page pool */
1084 u_int32_t m_spare; /* spare field */
1085 u_int32_t m_clfree; /* free clusters */
1086 u_int32_t m_drops; /* times failed to find space */
1087 u_int32_t m_wait; /* times waited for space */
1088 u_int32_t m_drain; /* times drained protocols for space */
1089 u_short m_mtypes[256]; /* type specific mbuf allocations */
1090 u_int32_t m_mcfail; /* times m_copym failed */
1091 u_int32_t m_mpfail; /* times m_pullup failed */
1092 u_int32_t m_msize; /* length of an mbuf */
1093 u_int32_t m_mclbytes; /* length of an mbuf cluster */
1094 u_int32_t m_minclsize; /* min length of data to allocate a cluster */
1095 u_int32_t m_mlen; /* length of data in an mbuf */
1096 u_int32_t m_mhlen; /* length of data in a header mbuf */
1c79356b
A
1097};
1098
1099/*
2d21ac55 1100 * mbuf class statistics.
1c79356b 1101 */
0a7de745 1102#define MAX_MBUF_CNAME 15
2d21ac55 1103
6d2010ae 1104#if defined(XNU_KERNEL_PRIVATE)
b0d623f7
A
1105/* For backwards compatibility with 32-bit userland process */
1106struct omb_class_stat {
0a7de745
A
1107 char mbcl_cname[MAX_MBUF_CNAME + 1]; /* class name */
1108 u_int32_t mbcl_size; /* buffer size */
1109 u_int32_t mbcl_total; /* # of buffers created */
1110 u_int32_t mbcl_active; /* # of active buffers */
1111 u_int32_t mbcl_infree; /* # of available buffers */
1112 u_int32_t mbcl_slab_cnt; /* # of available slabs */
1113 u_int64_t mbcl_alloc_cnt; /* # of times alloc is called */
1114 u_int64_t mbcl_free_cnt; /* # of times free is called */
1115 u_int64_t mbcl_notified; /* # of notified wakeups */
1116 u_int64_t mbcl_purge_cnt; /* # of purges so far */
1117 u_int64_t mbcl_fail_cnt; /* # of allocation failures */
1118 u_int32_t mbcl_ctotal; /* total only for this class */
1119 u_int32_t mbcl_release_cnt; /* amount of memory returned */
b0d623f7
A
1120 /*
1121 * Cache layer statistics
1122 */
0a7de745
A
1123 u_int32_t mbcl_mc_state; /* cache state (see below) */
1124 u_int32_t mbcl_mc_cached; /* # of cached buffers */
1125 u_int32_t mbcl_mc_waiter_cnt; /* # waiters on the cache */
1126 u_int32_t mbcl_mc_wretry_cnt; /* # of wait retries */
1127 u_int32_t mbcl_mc_nwretry_cnt; /* # of no-wait retry attempts */
1128 u_int64_t mbcl_reserved[4]; /* for future use */
b0d623f7 1129} __attribute__((__packed__));
6d2010ae 1130#endif /* XNU_KERNEL_PRIVATE */
b0d623f7 1131
2d21ac55 1132typedef struct mb_class_stat {
0a7de745
A
1133 char mbcl_cname[MAX_MBUF_CNAME + 1]; /* class name */
1134 u_int32_t mbcl_size; /* buffer size */
1135 u_int32_t mbcl_total; /* # of buffers created */
1136 u_int32_t mbcl_active; /* # of active buffers */
1137 u_int32_t mbcl_infree; /* # of available buffers */
1138 u_int32_t mbcl_slab_cnt; /* # of available slabs */
b0d623f7 1139#if defined(KERNEL) || defined(__LP64__)
0a7de745 1140 u_int32_t mbcl_pad; /* padding */
b0d623f7 1141#endif /* KERNEL || __LP64__ */
0a7de745
A
1142 u_int64_t mbcl_alloc_cnt; /* # of times alloc is called */
1143 u_int64_t mbcl_free_cnt; /* # of times free is called */
1144 u_int64_t mbcl_notified; /* # of notified wakeups */
1145 u_int64_t mbcl_purge_cnt; /* # of purges so far */
1146 u_int64_t mbcl_fail_cnt; /* # of allocation failures */
1147 u_int32_t mbcl_ctotal; /* total only for this class */
1148 u_int32_t mbcl_release_cnt; /* amount of memory returned */
2d21ac55
A
1149 /*
1150 * Cache layer statistics
1151 */
0a7de745
A
1152 u_int32_t mbcl_mc_state; /* cache state (see below) */
1153 u_int32_t mbcl_mc_cached; /* # of cached buffers */
1154 u_int32_t mbcl_mc_waiter_cnt; /* # waiters on the cache */
1155 u_int32_t mbcl_mc_wretry_cnt; /* # of wait retries */
1156 u_int32_t mbcl_mc_nwretry_cnt; /* # of no-wait retry attempts */
1157 u_int32_t mbcl_peak_reported; /* last usage peak reported */
1158 u_int32_t mbcl_reserved[7]; /* for future use */
2d21ac55
A
1159} mb_class_stat_t;
1160
0a7de745
A
1161#define MCS_DISABLED 0 /* cache is permanently disabled */
1162#define MCS_ONLINE 1 /* cache is online */
1163#define MCS_PURGING 2 /* cache is being purged */
1164#define MCS_OFFLINE 3 /* cache is offline (resizing) */
2d21ac55 1165
6d2010ae 1166#if defined(XNU_KERNEL_PRIVATE)
b0d623f7
A
1167/* For backwards compatibility with 32-bit userland process */
1168struct omb_stat {
0a7de745
A
1169 u_int32_t mbs_cnt; /* number of classes */
1170 struct omb_class_stat mbs_class[1]; /* class array */
b0d623f7 1171} __attribute__((__packed__));
6d2010ae 1172#endif /* XNU_KERNEL_PRIVATE */
b0d623f7 1173
2d21ac55 1174typedef struct mb_stat {
0a7de745 1175 u_int32_t mbs_cnt; /* number of classes */
b0d623f7 1176#if defined(KERNEL) || defined(__LP64__)
0a7de745 1177 u_int32_t mbs_pad; /* padding */
b0d623f7 1178#endif /* KERNEL || __LP64__ */
0a7de745 1179 mb_class_stat_t mbs_class[1]; /* class array */
2d21ac55
A
1180} mb_stat_t;
1181
6d2010ae 1182#ifdef PRIVATE
0a7de745 1183#define MLEAK_STACK_DEPTH 16 /* Max PC stack depth */
6d2010ae
A
1184
1185typedef struct mleak_trace_stat {
0a7de745
A
1186 u_int64_t mltr_collisions;
1187 u_int64_t mltr_hitcount;
1188 u_int64_t mltr_allocs;
1189 u_int64_t mltr_depth;
1190 u_int64_t mltr_addr[MLEAK_STACK_DEPTH];
6d2010ae
A
1191} mleak_trace_stat_t;
1192
1193typedef struct mleak_stat {
0a7de745
A
1194 u_int32_t ml_isaddr64; /* 64-bit KVA? */
1195 u_int32_t ml_cnt; /* number of traces */
1196 mleak_trace_stat_t ml_trace[1]; /* trace array */
6d2010ae
A
1197} mleak_stat_t;
1198
1199struct mleak_table {
0a7de745
A
1200 u_int32_t mleak_capture; /* sampling capture counter */
1201 u_int32_t mleak_sample_factor; /* sample factor */
6d2010ae
A
1202
1203 /* Times two active records want to occupy the same spot */
1204 u_int64_t alloc_collisions;
1205 u_int64_t trace_collisions;
1206
1207 /* Times new record lands on spot previously occupied by freed alloc */
1208 u_int64_t alloc_overwrites;
1209 u_int64_t trace_overwrites;
1210
1211 /* Times a new alloc or trace is put into the hash table */
1212 u_int64_t alloc_recorded;
1213 u_int64_t trace_recorded;
1214
1215 /* Total number of outstanding allocs */
1216 u_int64_t outstanding_allocs;
1217
1218 /* Times mleak_log returned false because couldn't acquire the lock */
1219 u_int64_t total_conflicts;
1220};
1221#endif /* PRIVATE */
1222
2d21ac55 1223#ifdef KERNEL_PRIVATE
6d2010ae 1224__BEGIN_DECLS
1c79356b 1225
6d2010ae
A
1226/*
1227 * Exported (private)
1228 */
1229
0a7de745 1230extern struct mbstat mbstat; /* statistics */
6d2010ae
A
1231
1232__END_DECLS
1233#endif /* KERNEL_PRIVATE */
1c79356b 1234
6d2010ae 1235#ifdef XNU_KERNEL_PRIVATE
91447636 1236__BEGIN_DECLS
6d2010ae
A
1237
1238/*
1239 * Not exported (xnu private)
1240 */
1241
1242/* flags to m_get/MGET */
1243/* Need to include malloc.h to get right options for malloc */
0a7de745 1244#include <sys/malloc.h>
6d2010ae
A
1245
1246struct mbuf;
1247
1248/* length to m_copy to copy all */
0a7de745 1249#define M_COPYALL 1000000000
6d2010ae 1250
0a7de745
A
1251#define M_DONTWAIT M_NOWAIT
1252#define M_WAIT M_WAITOK
6d2010ae 1253
39236c6e 1254/* modes for m_copym and variants */
0a7de745
A
1255#define M_COPYM_NOOP_HDR 0 /* don't copy/move pkthdr contents */
1256#define M_COPYM_COPY_HDR 1 /* copy pkthdr from old to new */
1257#define M_COPYM_MOVE_HDR 2 /* move pkthdr from old to new */
1258#define M_COPYM_MUST_COPY_HDR 3 /* MUST copy pkthdr from old to new */
1259#define M_COPYM_MUST_MOVE_HDR 4 /* MUST move pkthdr from old to new */
39236c6e 1260
cb323159 1261extern void m_freem(struct mbuf *) __XNU_INTERNAL(m_freem);
39236c6e 1262extern u_int64_t mcl_to_paddr(char *);
6d2010ae
A
1263extern void m_adj(struct mbuf *, int);
1264extern void m_cat(struct mbuf *, struct mbuf *);
1265extern void m_copydata(struct mbuf *, int, int, void *);
1266extern struct mbuf *m_copym(struct mbuf *, int, int, int);
39236c6e 1267extern struct mbuf *m_copym_mode(struct mbuf *, int, int, int, uint32_t);
6d2010ae
A
1268extern struct mbuf *m_get(int, int);
1269extern struct mbuf *m_gethdr(int, int);
1270extern struct mbuf *m_getpacket(void);
1271extern struct mbuf *m_getpackets(int, int, int);
1272extern struct mbuf *m_mclget(struct mbuf *, int);
1273extern void *m_mtod(struct mbuf *);
3e170ce0 1274extern struct mbuf *m_prepend_2(struct mbuf *, int, int, int);
6d2010ae
A
1275extern struct mbuf *m_pullup(struct mbuf *, int);
1276extern struct mbuf *m_split(struct mbuf *, int, int);
1277extern void m_mclfree(caddr_t p);
1278
316670eb
A
1279/*
1280 * On platforms which require strict alignment (currently for anything but
1281 * i386 or x86_64), this macro checks whether the data pointer of an mbuf
1282 * is 32-bit aligned (this is the expected minimum alignment for protocol
1283 * headers), and assert otherwise.
1284 */
1285#if defined(__i386__) || defined(__x86_64__)
0a7de745 1286#define MBUF_STRICT_DATA_ALIGNMENT_CHECK_32(_m)
316670eb 1287#else /* !__i386__ && !__x86_64__ */
0a7de745
A
1288#define MBUF_STRICT_DATA_ALIGNMENT_CHECK_32(_m) do { \
1289 if (!IS_P2ALIGNED((_m)->m_data, sizeof (u_int32_t))) { \
1290 if (((_m)->m_flags & M_PKTHDR) && \
1291 (_m)->m_pkthdr.rcvif != NULL) { \
1292 panic_plain("\n%s: mbuf %p data ptr %p is not " \
1293 "32-bit aligned [%s: alignerrs=%lld]\n", \
1294 __func__, (_m), (_m)->m_data, \
1295 if_name((_m)->m_pkthdr.rcvif), \
1296 (_m)->m_pkthdr.rcvif->if_alignerrs); \
1297 } else { \
1298 panic_plain("\n%s: mbuf %p data ptr %p is not " \
1299 "32-bit aligned\n", \
1300 __func__, (_m), (_m)->m_data); \
1301 } \
1302 } \
316670eb
A
1303} while (0)
1304#endif /* !__i386__ && !__x86_64__ */
1305
1306/* Maximum number of MBUF_SC values (excluding MBUF_SC_UNSPEC) */
0a7de745 1307#define MBUF_SC_MAX_CLASSES 10
316670eb
A
1308
1309/*
1310 * These conversion macros rely on the corresponding MBUF_SC and
1311 * MBUF_TC values in order to establish the following mapping:
1312 *
1313 * MBUF_SC_BK_SYS ] ==> MBUF_TC_BK
1314 * MBUF_SC_BK ]
1315 *
1316 * MBUF_SC_BE ] ==> MBUF_TC_BE
1317 * MBUF_SC_RD ]
1318 * MBUF_SC_OAM ]
1319 *
1320 * MBUF_SC_AV ] ==> MBUF_TC_VI
1321 * MBUF_SC_RV ]
1322 * MBUF_SC_VI ]
d9a64523 1323 * MBUF_SC_SIG ]
316670eb
A
1324 *
1325 * MBUF_SC_VO ] ==> MBUF_TC_VO
1326 * MBUF_SC_CTL ]
1327 *
1328 * The values assigned to each service class allows for a fast mapping to
1329 * the corresponding MBUF_TC traffic class values, as well as to retrieve the
1330 * assigned index; therefore care must be taken when comparing against these
1331 * values. Use the corresponding class and index macros to retrieve the
1332 * corresponding portion, and never assume that a higher class corresponds
1333 * to a higher index.
1334 */
0a7de745
A
1335#define MBUF_SCVAL(x) ((x) & 0xffff)
1336#define MBUF_SCIDX(x) ((((x) >> 16) & 0xff) >> 3)
1337#define MBUF_SC2TC(_sc) (MBUF_SCVAL(_sc) >> 7)
1338#define MBUF_TC2SCVAL(_tc) ((_tc) << 7)
316670eb
A
1339#define IS_MBUF_SC_BACKGROUND(_sc) (((_sc) == MBUF_SC_BK_SYS) || \
1340 ((_sc) == MBUF_SC_BK))
0a7de745
A
1341#define IS_MBUF_SC_REALTIME(_sc) ((_sc) >= MBUF_SC_AV && (_sc) <= MBUF_SC_VO)
1342#define IS_MBUF_SC_BESTEFFORT(_sc) ((_sc) == MBUF_SC_BE || \
3e170ce0 1343 (_sc) == MBUF_SC_RD || (_sc) == MBUF_SC_OAM)
316670eb 1344
0a7de745
A
1345#define SCIDX_BK_SYS MBUF_SCIDX(MBUF_SC_BK_SYS)
1346#define SCIDX_BK MBUF_SCIDX(MBUF_SC_BK)
1347#define SCIDX_BE MBUF_SCIDX(MBUF_SC_BE)
1348#define SCIDX_RD MBUF_SCIDX(MBUF_SC_RD)
1349#define SCIDX_OAM MBUF_SCIDX(MBUF_SC_OAM)
1350#define SCIDX_AV MBUF_SCIDX(MBUF_SC_AV)
1351#define SCIDX_RV MBUF_SCIDX(MBUF_SC_RV)
1352#define SCIDX_VI MBUF_SCIDX(MBUF_SC_VI)
1353#define SCIDX_SIG MBUF_SCIDX(MBUF_SC_SIG)
1354#define SCIDX_VO MBUF_SCIDX(MBUF_SC_VO)
1355#define SCIDX_CTL MBUF_SCIDX(MBUF_SC_CTL)
1356
1357#define SCVAL_BK_SYS MBUF_SCVAL(MBUF_SC_BK_SYS)
1358#define SCVAL_BK MBUF_SCVAL(MBUF_SC_BK)
1359#define SCVAL_BE MBUF_SCVAL(MBUF_SC_BE)
1360#define SCVAL_RD MBUF_SCVAL(MBUF_SC_RD)
1361#define SCVAL_OAM MBUF_SCVAL(MBUF_SC_OAM)
1362#define SCVAL_AV MBUF_SCVAL(MBUF_SC_AV)
1363#define SCVAL_RV MBUF_SCVAL(MBUF_SC_RV)
1364#define SCVAL_VI MBUF_SCVAL(MBUF_SC_VI)
1365#define SCVAL_SIG MBUF_SCVAL(MBUF_SC_SIG)
1366#define SCVAL_VO MBUF_SCVAL(MBUF_SC_VO)
1367#define SCVAL_CTL MBUF_SCVAL(MBUF_SC_CTL)
1368
1369#define MBUF_VALID_SC(c) \
1370 (c == MBUF_SC_BK_SYS || c == MBUF_SC_BK || c == MBUF_SC_BE || \
1371 c == MBUF_SC_RD || c == MBUF_SC_OAM || c == MBUF_SC_AV || \
1372 c == MBUF_SC_RV || c == MBUF_SC_VI || c == MBUF_SC_SIG || \
d9a64523 1373 c == MBUF_SC_VO || c == MBUF_SC_CTL)
316670eb 1374
0a7de745
A
1375#define MBUF_VALID_SCIDX(c) \
1376 (c == SCIDX_BK_SYS || c == SCIDX_BK || c == SCIDX_BE || \
1377 c == SCIDX_RD || c == SCIDX_OAM || c == SCIDX_AV || \
1378 c == SCIDX_RV || c == SCIDX_VI || c == SCIDX_SIG || \
d9a64523 1379 c == SCIDX_VO || c == SCIDX_CTL)
316670eb 1380
0a7de745
A
1381#define MBUF_VALID_SCVAL(c) \
1382 (c == SCVAL_BK_SYS || c == SCVAL_BK || c == SCVAL_BE || \
1383 c == SCVAL_RD || c == SCVAL_OAM || c == SCVAL_AV || \
1384 c == SCVAL_RV || c == SCVAL_VI || c == SCVAL_SIG || \
d9a64523 1385 c == SCVAL_VO || SCVAL_CTL)
316670eb 1386
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A
1387extern unsigned char *mbutl; /* start VA of mbuf pool */
1388extern unsigned char *embutl; /* end VA of mbuf pool */
1389extern unsigned int nmbclusters; /* number of mapped clusters */
1390extern int njcl; /* # of jumbo clusters */
1391extern int njclbytes; /* size of a jumbo cluster */
1392extern int max_hdr; /* largest link+protocol header */
1393extern int max_datalen; /* MHLEN - max_hdr */
6d2010ae 1394
316670eb 1395/* Use max_linkhdr instead of _max_linkhdr */
0a7de745 1396extern int _max_linkhdr; /* largest link-level header */
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A
1397
1398/* Use max_protohdr instead of _max_protohdr */
0a7de745 1399extern int _max_protohdr; /* largest protocol header */
316670eb 1400
6d2010ae 1401__private_extern__ unsigned int mbuf_default_ncl(int, u_int64_t);
2d21ac55
A
1402__private_extern__ void mbinit(void);
1403__private_extern__ struct mbuf *m_clattach(struct mbuf *, int, caddr_t,
39037602 1404 void (*)(caddr_t, u_int, caddr_t), u_int, caddr_t, int, int);
2d21ac55
A
1405__private_extern__ caddr_t m_bigalloc(int);
1406__private_extern__ void m_bigfree(caddr_t, u_int, caddr_t);
1407__private_extern__ struct mbuf *m_mbigget(struct mbuf *, int);
1408__private_extern__ caddr_t m_16kalloc(int);
1409__private_extern__ void m_16kfree(caddr_t, u_int, caddr_t);
1410__private_extern__ struct mbuf *m_m16kget(struct mbuf *, int);
39236c6e 1411__private_extern__ int m_reinit(struct mbuf *, int);
cb323159 1412__private_extern__ struct mbuf *m_free(struct mbuf *) __XNU_INTERNAL(m_free);
6d2010ae
A
1413__private_extern__ struct mbuf *m_getclr(int, int);
1414__private_extern__ struct mbuf *m_getptr(struct mbuf *, int, int *);
1415__private_extern__ unsigned int m_length(struct mbuf *);
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A
1416__private_extern__ unsigned int m_length2(struct mbuf *, struct mbuf **);
1417__private_extern__ unsigned int m_fixhdr(struct mbuf *);
1418__private_extern__ struct mbuf *m_defrag(struct mbuf *, int);
1419__private_extern__ struct mbuf *m_defrag_offset(struct mbuf *, u_int32_t, int);
6d2010ae
A
1420__private_extern__ struct mbuf *m_prepend(struct mbuf *, int, int);
1421__private_extern__ struct mbuf *m_copyup(struct mbuf *, int, int);
1422__private_extern__ struct mbuf *m_retry(int, int);
1423__private_extern__ struct mbuf *m_retryhdr(int, int);
1424__private_extern__ int m_freem_list(struct mbuf *);
1425__private_extern__ int m_append(struct mbuf *, int, caddr_t);
1426__private_extern__ struct mbuf *m_last(struct mbuf *);
1427__private_extern__ struct mbuf *m_devget(char *, int, int, struct ifnet *,
1428 void (*)(const void *, void *, size_t));
1429__private_extern__ struct mbuf *m_pulldown(struct mbuf *, int, int, int *);
1430
1431__private_extern__ struct mbuf *m_getcl(int, int, int);
1432__private_extern__ caddr_t m_mclalloc(int);
1433__private_extern__ int m_mclhasreference(struct mbuf *);
1434__private_extern__ void m_copy_pkthdr(struct mbuf *, struct mbuf *);
316670eb 1435__private_extern__ void m_copy_pftag(struct mbuf *, struct mbuf *);
39236c6e 1436__private_extern__ void m_copy_classifier(struct mbuf *, struct mbuf *);
6d2010ae
A
1437
1438__private_extern__ struct mbuf *m_dtom(void *);
1439__private_extern__ int m_mtocl(void *);
1440__private_extern__ union mcluster *m_cltom(int);
1441
d9a64523 1442__private_extern__ void m_align(struct mbuf *, int);
6d2010ae
A
1443
1444__private_extern__ struct mbuf *m_normalize(struct mbuf *m);
1445__private_extern__ void m_mchtype(struct mbuf *m, int t);
1446__private_extern__ void m_mcheck(struct mbuf *);
1447
1448__private_extern__ void m_copyback(struct mbuf *, int, int, const void *);
1449__private_extern__ struct mbuf *m_copyback_cow(struct mbuf *, int, int,
1450 const void *, int);
1451__private_extern__ int m_makewritable(struct mbuf **, int, int, int);
1452__private_extern__ struct mbuf *m_dup(struct mbuf *m, int how);
1453__private_extern__ struct mbuf *m_copym_with_hdrs(struct mbuf *, int, int, int,
39236c6e 1454 struct mbuf **, int *, uint32_t);
6d2010ae
A
1455__private_extern__ struct mbuf *m_getpackethdrs(int, int);
1456__private_extern__ struct mbuf *m_getpacket_how(int);
1457__private_extern__ struct mbuf *m_getpackets_internal(unsigned int *, int,
1458 int, int, size_t);
1459__private_extern__ struct mbuf *m_allocpacket_internal(unsigned int *, size_t,
1460 unsigned int *, int, int, size_t);
9bccf70c 1461
39037602
A
1462__private_extern__ int m_ext_set_prop(struct mbuf *, uint32_t, uint32_t);
1463__private_extern__ uint32_t m_ext_get_prop(struct mbuf *);
1464__private_extern__ int m_ext_paired_is_active(struct mbuf *);
1465__private_extern__ void m_ext_paired_activate(struct mbuf *);
1466
d9a64523 1467__private_extern__ void mbuf_drain(boolean_t);
fe8ab488 1468
91447636 1469/*
6d2010ae
A
1470 * Packets may have annotations attached by affixing a list of "packet
1471 * tags" to the pkthdr structure. Packet tags are dynamically allocated
1472 * semi-opaque data structures that have a fixed header (struct m_tag)
1473 * that specifies the size of the memory block and an <id,type> pair that
1474 * identifies it. The id identifies the module and the type identifies the
1475 * type of data for that module. The id of zero is reserved for the kernel.
1476 *
1477 * Note that the packet tag returned by m_tag_allocate has the default
1478 * memory alignment implemented by malloc. To reference private data one
1479 * can use a construct like:
1480 *
1481 * struct m_tag *mtag = m_tag_allocate(...);
1482 * struct foo *p = (struct foo *)(mtag+1);
1483 *
1484 * if the alignment of struct m_tag is sufficient for referencing members
1485 * of struct foo. Otherwise it is necessary to embed struct m_tag within
1486 * the private data structure to insure proper alignment; e.g.
1487 *
1488 * struct foo {
1489 * struct m_tag tag;
1490 * ...
1491 * };
1492 * struct foo *p = (struct foo *) m_tag_allocate(...);
1493 * struct m_tag *mtag = &p->tag;
91447636
A
1494 */
1495
0a7de745 1496#define KERNEL_MODULE_TAG_ID 0
91447636
A
1497
1498enum {
0a7de745
A
1499 KERNEL_TAG_TYPE_NONE = 0,
1500 KERNEL_TAG_TYPE_DUMMYNET = 1,
1501 KERNEL_TAG_TYPE_DIVERT = 2,
1502 KERNEL_TAG_TYPE_IPFORWARD = 3,
1503 KERNEL_TAG_TYPE_IPFILT = 4,
1504 KERNEL_TAG_TYPE_MACLABEL = 5,
1505 KERNEL_TAG_TYPE_MAC_POLICY_LABEL = 6,
1506 KERNEL_TAG_TYPE_ENCAP = 8,
1507 KERNEL_TAG_TYPE_INET6 = 9,
1508 KERNEL_TAG_TYPE_IPSEC = 10,
1509 KERNEL_TAG_TYPE_DRVAUX = 11,
1510 KERNEL_TAG_TYPE_CFIL_UDP = 13,
cb323159 1511 KERNEL_TAG_TYPE_PF_REASS = 14,
91447636
A
1512};
1513
91447636 1514/* Packet tag routines */
6d2010ae
A
1515__private_extern__ struct m_tag *m_tag_alloc(u_int32_t, u_int16_t, int, int);
1516__private_extern__ struct m_tag *m_tag_create(u_int32_t, u_int16_t, int, int,
0a7de745 1517 struct mbuf *);
6d2010ae
A
1518__private_extern__ void m_tag_free(struct m_tag *);
1519__private_extern__ void m_tag_prepend(struct mbuf *, struct m_tag *);
1520__private_extern__ void m_tag_unlink(struct mbuf *, struct m_tag *);
1521__private_extern__ void m_tag_delete(struct mbuf *, struct m_tag *);
1522__private_extern__ void m_tag_delete_chain(struct mbuf *, struct m_tag *);
1523__private_extern__ struct m_tag *m_tag_locate(struct mbuf *, u_int32_t,
1524 u_int16_t, struct m_tag *);
1525__private_extern__ struct m_tag *m_tag_copy(struct m_tag *, int);
1526__private_extern__ int m_tag_copy_chain(struct mbuf *, struct mbuf *, int);
39236c6e 1527__private_extern__ void m_tag_init(struct mbuf *, int);
6d2010ae
A
1528__private_extern__ struct m_tag *m_tag_first(struct mbuf *);
1529__private_extern__ struct m_tag *m_tag_next(struct mbuf *, struct m_tag *);
1530
39236c6e
A
1531__private_extern__ void m_scratch_init(struct mbuf *);
1532__private_extern__ u_int32_t m_scratch_get(struct mbuf *, u_int8_t **);
1533
1534__private_extern__ void m_classifier_init(struct mbuf *, uint32_t);
1535
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A
1536__private_extern__ int m_set_service_class(struct mbuf *, mbuf_svc_class_t);
1537__private_extern__ mbuf_svc_class_t m_get_service_class(struct mbuf *);
1538__private_extern__ mbuf_svc_class_t m_service_class_from_idx(u_int32_t);
1539__private_extern__ mbuf_svc_class_t m_service_class_from_val(u_int32_t);
1540__private_extern__ int m_set_traffic_class(struct mbuf *, mbuf_traffic_class_t);
1541__private_extern__ mbuf_traffic_class_t m_get_traffic_class(struct mbuf *);
1542
0a7de745
A
1543#define ADDCARRY(_x) do { \
1544 while (((_x) >> 16) != 0) \
1545 (_x) = ((_x) >> 16) + ((_x) & 0xffff); \
39236c6e
A
1546} while (0)
1547
1548__private_extern__ u_int16_t m_adj_sum16(struct mbuf *, u_int32_t,
5ba3f43e 1549 u_int32_t, u_int32_t, u_int32_t);
39236c6e
A
1550__private_extern__ u_int16_t m_sum16(struct mbuf *, u_int32_t, u_int32_t);
1551
5ba3f43e
A
1552__private_extern__ void m_set_ext(struct mbuf *, struct ext_ref *,
1553 m_ext_free_func_t, caddr_t);
813fb2f6
A
1554__private_extern__ struct ext_ref *m_get_rfa(struct mbuf *);
1555__private_extern__ m_ext_free_func_t m_get_ext_free(struct mbuf *);
1556__private_extern__ caddr_t m_get_ext_arg(struct mbuf *);
1557
d9a64523
A
1558__private_extern__ void m_do_tx_compl_callback(struct mbuf *, struct ifnet *);
1559__private_extern__ mbuf_tx_compl_func m_get_tx_compl_callback(u_int32_t);
39037602 1560
316670eb
A
1561__END_DECLS
1562#endif /* XNU_KERNEL_PRIVATE */
0a7de745 1563#endif /* !_SYS_MBUF_H_ */