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27 */
28 /*!
29 @header kpi_mbuf.h
30 This header defines an API for interacting with mbufs. mbufs are the
31 primary method of storing packets in the networking stack.
32
33 mbufs are used to store various items in the networking stack. The
34 most common usage of an mbuf is to store a packet or data on a
35 socket waiting to be sent or received. The mbuf is a contiguous
36 structure with some header followed by some data. To store more data
37 than would fit in an mbuf, external data is used. Most mbufs with
38 external data use clusters to store the external data.
39
40 mbufs can be chained, contiguous data in a packet can be found by
41 following the m_next chain. Packets may be bundled together using
42 m_nextpacket. Many parts of the stack do not properly handle chains
43 of packets. When in doubt, don't chain packets.
44 */
45
46 #ifndef __KPI_MBUF__
47 #define __KPI_MBUF__
48 #include <sys/kernel_types.h>
49 #include <mach/vm_types.h>
50
51 /*!
52 @enum mbuf_flags_t
53 @abstract Constants defining mbuf flags. Only the flags listed below
54 can be set or retrieved.
55 @constant MBUF_EXT Indicates this mbuf has external data.
56 @constant MBUF_PKTHDR Indicates this mbuf has a packet header.
57 @constant MBUF_EOR Indicates this mbuf is the end of a record.
58 @constant MBUF_LOOP Indicates this packet is looped back.
59 @constant MBUF_BCAST Indicates this packet will be sent or was
60 received as a brodcast.
61 @constant MBUF_MCAST Indicates this packet will be sent or was
62 received as a multicast.
63 @constant MBUF_FRAG Indicates this packet is a fragment of a larger
64 packet.
65 @constant MBUF_FIRSTFRAG Indicates this packet is the first fragment.
66 @constant MBUF_LASTFRAG Indicates this packet is the last fragment.
67 @constant MBUF_PROMISC Indicates this packet was only received
68 because the interface is in promiscuous mode. This should be set
69 by the demux function. These packets will be discarded after
70 being passed to any interface filters.
71 */
72 enum {
73 MBUF_EXT = 0x0001, /* has associated external storage */
74 MBUF_PKTHDR = 0x0002, /* start of record */
75 MBUF_EOR = 0x0004, /* end of record */
76 MBUF_LOOP = 0x0040, /* packet is looped back */
77
78 MBUF_BCAST = 0x0100, /* send/received as link-level broadcast */
79 MBUF_MCAST = 0x0200, /* send/received as link-level multicast */
80 MBUF_FRAG = 0x0400, /* packet is a fragment of a larger packet */
81 MBUF_FIRSTFRAG = 0x0800, /* packet is first fragment */
82 MBUF_LASTFRAG = 0x1000, /* packet is last fragment */
83 MBUF_PROMISC = 0x2000, /* packet is promiscuous */
84 MBUF_HASFCS = 0x4000 /* packet has FCS */
85 };
86 typedef u_int32_t mbuf_flags_t;
87
88 /*!
89 @enum mbuf_type_t
90 @abstract Types of mbufs.
91 @discussion Some mbufs represent packets, some represnt data waiting
92 on sockets. Other mbufs store control data or other various
93 structures. The mbuf type is used to store what sort of data the
94 mbuf contains.
95 @constant MBUF_MT_FREE Indicates the mbuf is free and is
96 sitting on the queue of free mbufs. If you find that an mbuf you
97 have a reference to has this type, something has gone terribly
98 wrong.
99 @constant MBUF_MT_DATA Indicates this mbuf is being used to store
100 data.
101 @constant MBUF_MT_HEADER Indicates this mbuf has a packet header,
102 this is probably a packet.
103 @constant MBUF_MT_SOCKET Socket structure.
104 @constant MBUF_MT_PCB Protocol control block.
105 @constant MBUF_MT_RTABLE Routing table entry.
106 @constant MBUF_MT_HTABLE IMP host tables???.
107 @constant MBUF_MT_ATABLE Address resolution table data.
108 @constant MBUF_MT_SONAME Socket name, usually a sockaddr of some
109 sort.
110 @constant MBUF_MT_FTABLE Fragment reassembly header.
111 @constant MBUF_MT_RIGHTS Access rights.
112 @constant MBUF_MT_IFADDR Interface address.
113 @constant MBUF_MT_CONTROL Extra-data protocol message (control
114 message).
115 @constant MBUF_MT_OOBDATA Out of band data.
116 */
117 enum {
118 MBUF_TYPE_FREE = 0, /* should be on free list */
119 MBUF_TYPE_DATA = 1, /* dynamic (data) allocation */
120 MBUF_TYPE_HEADER = 2, /* packet header */
121 MBUF_TYPE_SOCKET = 3, /* socket structure */
122 MBUF_TYPE_PCB = 4, /* protocol control block */
123 MBUF_TYPE_RTABLE = 5, /* routing tables */
124 MBUF_TYPE_HTABLE = 6, /* IMP host tables */
125 MBUF_TYPE_ATABLE = 7, /* address resolution tables */
126 MBUF_TYPE_SONAME = 8, /* socket name */
127 MBUF_TYPE_SOOPTS = 10, /* socket options */
128 MBUF_TYPE_FTABLE = 11, /* fragment reassembly header */
129 MBUF_TYPE_RIGHTS = 12, /* access rights */
130 MBUF_TYPE_IFADDR = 13, /* interface address */
131 MBUF_TYPE_CONTROL = 14, /* extra-data protocol message */
132 MBUF_TYPE_OOBDATA = 15 /* expedited data */
133 };
134 typedef u_int32_t mbuf_type_t;
135
136 /*!
137 @enum mbuf_csum_request_flags_t
138 @abstract Checksum performed/requested flags.
139 @discussion Mbufs often contain packets. Some hardware supports
140 performing checksums in hardware. The stack uses these flags to
141 indicate to the driver what sort of checksumming should be
142 handled in by the driver/hardware. These flags will only be set
143 if the driver indicates that it supports the corresponding
144 checksums using ifnet_set_offload.
145 @constant MBUF_CSUM_REQ_IP Indicates the IP checksum has not been
146 calculated yet.
147 @constant MBUF_CSUM_REQ_TCP Indicates the TCP checksum has not been
148 calculated yet.
149 @constant MBUF_CSUM_REQ_UDP Indicates the UDP checksum has not been
150 calculated yet.
151 @constant MBUF_CSUM_REQ_TCPIPV6 Indicates the TCP checksum for IPv6
152 has not been calculated yet.
153 @constant MBUF_CSUM_REQ_UDPIPV6 Indicates the UDP checksum for IPv6
154 has not been calculated yet.
155 */
156 enum {
157 MBUF_TSO_IPV4 = 0x100000,
158 MBUF_TSO_IPV6 = 0x200000
159 };
160 typedef u_int32_t mbuf_tso_request_flags_t;
161
162 enum {
163 #ifdef KERNEL_PRIVATE
164 MBUF_CSUM_REQ_SUM16 = 0x1000, /* Weird apple hardware checksum */
165 #endif /* KERNEL_PRIVATE */
166 MBUF_CSUM_REQ_IP = 0x0001,
167 MBUF_CSUM_REQ_TCP = 0x0002,
168 MBUF_CSUM_REQ_UDP = 0x0004,
169 MBUF_CSUM_REQ_TCPIPV6 = 0x0020,
170 MBUF_CSUM_REQ_UDPIPV6 = 0x0040
171 };
172 typedef u_int32_t mbuf_csum_request_flags_t;
173
174 /*!
175 @enum mbuf_csum_performed_flags_t
176 @abstract Checksum performed/requested flags.
177 @discussion Mbufs often contain packets. Some hardware supports
178 performing checksums in hardware. The driver uses these flags to
179 communicate to the stack the checksums that were calculated in
180 hardware.
181 @constant MBUF_CSUM_DID_IP Indicates that the driver/hardware verified
182 the IP checksum in hardware.
183 @constant MBUF_CSUM_IP_GOOD Indicates whether or not the IP checksum
184 was good or bad. Only valid when MBUF_CSUM_DID_IP is set.
185 @constant MBUF_CSUM_DID_DATA Indicates that the TCP or UDP checksum
186 was calculated. The value for the checksum calculated in
187 hardware should be passed as the second parameter of
188 mbuf_set_csum_performed. The hardware calculated checksum value
189 can be retrieved using the second parameter passed to
190 mbuf_get_csum_performed. This should be done for IPv4 or IPv6.
191 @constant MBUF_CSUM_PSEUDO_HDR If set, this indicates that the
192 checksum value for MBUF_CSUM_DID_DATA includes the pseudo header
193 value. If this is not set, the stack will calculate the pseudo
194 header value and add that to the checksum. The value of this bit
195 is only valid when MBUF_CSUM_DID_DATA is set.
196 */
197 enum {
198 #ifdef KERNEL_PRIVATE
199 MBUF_CSUM_TCP_SUM16 = MBUF_CSUM_REQ_SUM16, /* Weird apple hardware checksum */
200 #endif /* KERNEL_PRIVATE */
201 MBUF_CSUM_DID_IP = 0x0100,
202 MBUF_CSUM_IP_GOOD = 0x0200,
203 MBUF_CSUM_DID_DATA = 0x0400,
204 MBUF_CSUM_PSEUDO_HDR = 0x0800
205 };
206 typedef u_int32_t mbuf_csum_performed_flags_t;
207
208 /*!
209 @enum mbuf_how_t
210 @abstract Method of allocating an mbuf.
211 @discussion Blocking will cause the funnel to be dropped. If the
212 funnel is dropped, other threads may make changes to networking
213 data structures. This can lead to very bad things happening.
214 Blocking on the input our output path can also impact
215 performance. There are some cases where making a blocking call
216 is acceptable. When in doubt, use MBUF_DONTWAIT.
217 @constant MBUF_WAITOK Allow a call to allocate an mbuf to block.
218 @constant MBUF_DONTWAIT Don't allow the mbuf allocation call to
219 block, if blocking is necessary fail and return immediately.
220 */
221 enum {
222 MBUF_WAITOK = 0, /* Ok to block to get memory */
223 MBUF_DONTWAIT = 1 /* Don't block, fail if blocking would be required */
224 };
225 typedef u_int32_t mbuf_how_t;
226
227 typedef u_int32_t mbuf_tag_id_t;
228 typedef u_int16_t mbuf_tag_type_t;
229
230 /*!
231 @struct mbuf_stat
232 @discussion The mbuf_stat contains mbuf statistics.
233 @field mbufs Number of mbufs (free or otherwise).
234 @field clusters Number of clusters (free or otherwise).
235 @field clfree Number of free clusters.
236 @field drops Number of times allocation failed.
237 @field wait Number of times allocation blocked.
238 @field drain Number of times protocol drain functions were called.
239 @field mtypes An array of counts of each type of mbuf allocated.
240 @field mcfail Number of times m_copym failed.
241 @field mpfail Number of times m_pullup failed.
242 @field msize Length of an mbuf.
243 @field mclbytes Length of an mbuf cluster.
244 @field minclsize Minimum length of data to allocate a cluster.
245 Anything smaller than this should be placed in chained mbufs.
246 @field mlen Length of data in an mbuf.
247 @field mhlen Length of data in an mbuf with a packet header.
248 @field bigclusters Number of big clusters.
249 @field bigclfree Number of unused big clusters.
250 @field bigmclbytes Length of a big mbuf cluster.
251 */
252 struct mbuf_stat {
253 u_int32_t mbufs; /* mbufs obtained from page pool */
254 u_int32_t clusters; /* clusters obtained from page pool */
255 u_int32_t clfree; /* free clusters */
256 u_int32_t drops; /* times failed to find space */
257 u_int32_t wait; /* times waited for space */
258 u_int32_t drain; /* times drained protocols for space */
259 u_short mtypes[256]; /* type specific mbuf allocations */
260 u_int32_t mcfail; /* times m_copym failed */
261 u_int32_t mpfail; /* times m_pullup failed */
262 u_int32_t msize; /* length of an mbuf */
263 u_int32_t mclbytes; /* length of an mbuf cluster */
264 u_int32_t minclsize; /* min length of data to allocate a cluster */
265 u_int32_t mlen; /* length of data in an mbuf */
266 u_int32_t mhlen; /* length of data in a header mbuf */
267 u_int32_t bigclusters; /* number of big clusters */
268 u_int32_t bigclfree; /* number of big clustser free */
269 u_int32_t bigmclbytes; /* length of data in a big cluster */
270 };
271
272 /* Parameter for m_copym to copy all bytes */
273 #define MBUF_COPYALL 1000000000
274
275 __BEGIN_DECLS
276 /* Data access */
277 /*!
278 @function mbuf_data
279 @discussion Returns a pointer to the start of data in this mbuf.
280 There may be additional data on chained mbufs. The data you're
281 looking for may not be virtually contiguous if it spans more
282 than one mbuf. In addition, data that is virtually contiguous
283 might not be represented by physically contiguous pages; see
284 further comments in mbuf_data_to_physical. Use mbuf_len to
285 determine the lenght of data available in this mbuf. If a data
286 structure you want to access stradles two mbufs in a chain,
287 either use mbuf_pullup to get the data contiguous in one mbuf
288 or copy the pieces of data from each mbuf in to a contiguous
289 buffer. Using mbuf_pullup has the advantage of not having to
290 copy the data. On the other hand, if you don't make sure there
291 is space in the mbuf, mbuf_pullup may fail and free the mbuf.
292 @param mbuf The mbuf.
293 @result A pointer to the data in the mbuf.
294 */
295 extern void *mbuf_data(mbuf_t mbuf);
296
297 /*!
298 @function mbuf_datastart
299 @discussion Returns the start of the space set aside for storing
300 data in an mbuf. An mbuf's data may come from a cluster or be
301 embedded in the mbuf structure itself. The data pointer
302 retrieved by mbuf_data may not be at the start of the data
303 (mbuf_leadingspace will be non-zero). This function will return
304 a pointer that matches mbuf_data() - mbuf_leadingspace().
305 @param mbuf The mbuf.
306 @result A pointer to smallest possible value for data.
307 */
308 extern void *mbuf_datastart(mbuf_t mbuf);
309
310 /*!
311 @function mbuf_setdata
312 @discussion Sets the data and length values for an mbuf. The data
313 value must be in a valid range. In the case of an mbuf with a cluster,
314 the data value must point to a location in the cluster and the data
315 value plus the length, must be less than the end of the cluster. For
316 data embedded directly in an mbuf (no cluster), the data value must
317 fall somewhere between the start and end of the data area in the
318 mbuf and the data + length must also be in the same range.
319 @param mbuf The mbuf.
320 @param data The new pointer value for data.
321 @param len The new length of data in the mbuf.
322 @result 0 on success, errno error on failure.
323 */
324 extern errno_t mbuf_setdata(mbuf_t mbuf, void *data, size_t len);
325
326 /*!
327 @function mbuf_align_32
328 @discussion mbuf_align_32 is a replacement for M_ALIGN and MH_ALIGN.
329 mbuf_align_32 will set the data pointer to a location aligned on
330 a four byte boundry with at least 'len' bytes between the data
331 pointer and the end of the data block.
332 @param mbuf The mbuf.
333 @param len The minimum length of space that should follow the new
334 data location.
335 @result 0 on success, errno error on failure.
336 */
337 extern errno_t mbuf_align_32(mbuf_t mbuf, size_t len);
338
339 /*!
340 @function mbuf_data_to_physical
341 @discussion mbuf_data_to_physical is a replacement for mcl_to_paddr.
342 Given a pointer returned from mbuf_data of mbuf_datastart,
343 mbuf_data_to_physical will return the phyical address for that
344 block of data. Note that even though the data is in virtually
345 contiguous span, the underlying physical pages might not be
346 physically contiguous. Because of this, callers must ensure
347 to call this routine for each page boundary. Device drivers
348 that deal with DMA are strongly encouraged to utilize the
349 IOMbufNaturalMemoryCursor and walk down the list of vectors
350 instead of using this interface to obtain the physical address.
351 Use of this routine is therefore discouraged.
352 @param ptr A pointer to data stored in an mbuf.
353 @result The 64 bit physical address of the mbuf data or NULL if ptr
354 does not point to data stored in an mbuf.
355 */
356 extern addr64_t mbuf_data_to_physical(void *ptr);
357
358
359 /* Allocation */
360
361 /*!
362 @function mbuf_get
363 @discussion Allocates an mbuf without a cluster for external data.
364 @param how Blocking or non-blocking.
365 @param type The type of the mbuf.
366 @param mbuf The mbuf.
367 @result 0 on success, errno error on failure.
368 */
369 extern errno_t mbuf_get(mbuf_how_t how, mbuf_type_t type, mbuf_t *mbuf);
370
371 /*!
372 @function mbuf_gethdr
373 @discussion Allocates an mbuf without a cluster for external data.
374 Sets a flag to indicate there is a packet header and initializes
375 the packet header.
376 @param how Blocking or non-blocking.
377 @param type The type of the mbuf.
378 @param mbuf The mbuf.
379 @result 0 on success, errno error on failure.
380 */
381 extern errno_t mbuf_gethdr(mbuf_how_t how, mbuf_type_t type, mbuf_t *mbuf);
382
383 /*!
384 @function mbuf_attachcluster
385 @discussion Attach an external buffer as a cluster for an mbuf. If mbuf
386 points to a NULL mbuf_t, an mbuf will be allocated for you. If
387 mbuf points to a non-NULL mbuf_t, the user-supplied mbuf will
388 be used instead. The caller is responsible for allocating the
389 external buffer by calling mbuf_alloccluster().
390 @param how Blocking or non-blocking.
391 @param type The type of the mbuf if mbuf is non-NULL; otherwise ignored.
392 @param mbuf Pointer to the address of the mbuf; if NULL, an mbuf will
393 be allocated, otherwise, it must point to a valid mbuf address.
394 If the user-supplied mbuf is already attached to a cluster, the
395 current cluster will be freed before the mbuf gets attached to
396 the supplied external buffer. Note that this routine may return
397 a different mbuf_t than the one you passed in.
398 @param extbuf Address of the external buffer.
399 @param extfree Free routine for the external buffer; the caller is
400 required to defined a routine that will be invoked when the
401 mbuf is freed.
402 @param extsize Size of the external buffer.
403 @param extarg Private value that will be passed to the free routine
404 when it is called at the time the mbuf is freed.
405 @result 0 on success
406 EINVAL - Invalid parameter
407 ENOMEM - Not enough memory available
408 */
409 extern errno_t mbuf_attachcluster(mbuf_how_t how, mbuf_type_t type,
410 mbuf_t *mbuf, caddr_t extbuf, void (*extfree)(caddr_t , u_int, caddr_t),
411 size_t extsize, caddr_t extarg);
412
413 /*!
414 @function mbuf_alloccluster
415 @discussion Allocate a cluster that can be later attached to an
416 mbuf by calling mbuf_attachcluster(). The allocated cluster
417 can also be freed (without being attached to an mbuf) by
418 calling mbuf_freecluster(). At the moment this routine
419 will either return a cluster of 2048, 4096 or 16384 bytes
420 depending on the requested size. Note that clusters greater
421 than 4096 bytes might not be available in all configurations;
422 the caller must additionally check for ENOTSUP (see below).
423 @param how Blocking or non-blocking.
424 @param size Pointer to size of requested cluster. Sizes up to 2048
425 will be rounded up to 2048; sizes greater than 2048 and up
426 to 4096 will be rounded up to 4096. Sizes greater than 4096
427 will be rounded up to 16384.
428 @param addr Pointer to the address of the requested cluster.
429 @result 0 on success or ENOMEM if failure. If the caller requests
430 greater than 4096 bytes and the system is unable to fulfill
431 the request due to the lack of jumbo clusters support based
432 on the configuration, this routine will return ENOTSUP.
433 In this case, the caller is advised to use 4096 bytes or
434 smaller during subseqent requests.
435 */
436 extern errno_t mbuf_alloccluster(mbuf_how_t how, size_t *size, caddr_t *addr);
437
438 /*!
439 @function mbuf_freecluster
440 @discussion Free a cluster that was previously allocated by a call
441 to mbuf_alloccluster(). The caller must pass the actual
442 size of the cluster as returned by mbuf_alloccluster(),
443 which at this point must be either 2048, 4096 or 16384 bytes.
444 @param addr The address of the cluster.
445 @param size The actual size of the cluster.
446 */
447 extern void mbuf_freecluster(caddr_t addr, size_t size);
448
449 /*!
450 @function mbuf_getcluster
451 @discussion Allocate a cluster of the requested size and attach it to
452 an mbuf for use as external data. If mbuf points to a NULL
453 mbuf_t, an mbuf will be allocated for you. If mbuf points to
454 a non-NULL mbuf_t, mbuf_getcluster may return a different
455 mbuf_t than the one you passed in.
456 @param how Blocking or non-blocking.
457 @param type The type of the mbuf.
458 @param size The size of the cluster to be allocated. Supported sizes
459 for a cluster are be 2048, 4096, or 16384. Any other value
460 with return EINVAL. Note that clusters greater than 4096
461 bytes might not be available in all configurations; the
462 caller must additionally check for ENOTSUP (see below).
463 @param mbuf The mbuf the cluster will be attached to.
464 @result 0 on success, errno error on failure. If you specified NULL
465 for the mbuf, any intermediate mbuf that may have been allocated
466 will be freed. If you specify an mbuf value in *mbuf,
467 mbuf_mclget will not free it.
468 EINVAL - Invalid parameter
469 ENOMEM - Not enough memory available
470 ENOTSUP - The caller had requested greater than 4096 bytes
471 cluster and the system is unable to fulfill it due to the
472 lack of jumbo clusters support based on the configuration.
473 In this case, the caller is advised to use 4096 bytes or
474 smaller during subsequent requests.
475 */
476 extern errno_t mbuf_getcluster(mbuf_how_t how, mbuf_type_t type, size_t size,
477 mbuf_t *mbuf);
478
479 /*!
480 @function mbuf_mclget
481 @discussion Allocate a cluster and attach it to an mbuf for use as
482 external data. If mbuf points to a NULL mbuf_t, an mbuf will be
483 allocated for you. If mbuf points to a non-NULL mbuf_t,
484 mbuf_mclget may return a different mbuf_t than the one you
485 passed in.
486 @param how Blocking or non-blocking.
487 @param type The type of the mbuf.
488 @param mbuf The mbuf the cluster will be attached to.
489 @result 0 on success, errno error on failure. If you specified NULL
490 for the mbuf, any intermediate mbuf that may have been allocated
491 will be freed. If you specify an mbuf value in *mbuf,
492 mbuf_mclget will not free it.
493 */
494 extern errno_t mbuf_mclget(mbuf_how_t how, mbuf_type_t type, mbuf_t *mbuf);
495
496 /*!
497 @function mbuf_allocpacket
498 @discussion Allocate an mbuf chain to store a single packet of the
499 requested length. According to the requested length, a chain
500 of mbufs will be created. The mbuf type will be set to
501 MBUF_TYPE_DATA. The caller may specify the maximum number of
502 buffer.
503 @param how Blocking or non-blocking
504 @param packetlen The total length of the packet mbuf to be allocated.
505 The length must be greater than zero.
506 @param maxchunks An input/output pointer to the maximum number of mbufs
507 segments making up the chain. On input, if maxchunks is NULL,
508 or the value pointed to by maxchunks is zero, the packet will
509 be made up of as few or as many buffer segments as necessary
510 to fit the length. The allocation will fail with ENOBUFS if
511 the number of segments requested is too small and the sum of
512 the maximum size of each individual segment is less than the
513 packet length. On output, if the allocation succeed and
514 maxchunks is non-NULL, it will point to the actual number
515 of segments allocated.
516 Additional notes for packetlen greater than 4096 bytes:
517 the caller may pass a non-NULL maxchunks and initialize it
518 with zero such that upon success, it can find out whether
519 or not the system configuration allows for larger than
520 4096 bytes cluster allocations, by checking on the value
521 pointed to by maxchunks. E.g. a request for 9018 bytes may
522 result in 1 chunk when jumbo clusters are available, or
523 3 chunks otherwise.
524 @param Upon success, *mbuf will be a reference to the new mbuf.
525 @result Returns 0 upon success or the following error code:
526 EINVAL - Invalid parameter
527 ENOMEM - Not enough memory available
528 ENOBUFS - Buffers not big enough for the maximum number of
529 chunks requested
530 */
531 extern errno_t mbuf_allocpacket(mbuf_how_t how, size_t packetlen,
532 unsigned int * maxchunks, mbuf_t *mbuf);
533
534 /*!
535 @function mbuf_allocpacket_list
536 @discussion Allocate a linked list of packets. According to the
537 requested length, each packet will made of a chain of one
538 or more mbufs. The mbuf type will be set to MBUF_TYPE_DATA.
539 The caller may specify the maximum number of element for
540 each mbuf chain making up a packet.
541 @param numpkts Number of packets to allocate
542 @param how Blocking or non-blocking
543 @param packetlen The total length of the packet mbuf to be allocated.
544 The length must be greater than zero.
545 @param maxchunks An input/output pointer to the maximum number of
546 mbufs segments making up the chain. On input, if maxchunks is
547 zero, or the value pointed to by maxchunks is zero, the packet
548 will be made of as few or as many buffer segments as necessary
549 to fit the length. The allocation will fail with ENOBUFS if
550 the number of segments requested is too small and the sum of
551 the maximum size of each individual segment is less than the
552 packet length. On output, if the allocation succeed and
553 maxchunks is non zero, it will point to the actual number
554 of segments allocated.
555 Additional notes for packetlen greater than 4096 bytes:
556 the caller may pass a non-NULL maxchunks and initialize it
557 with zero such that upon success, it can find out whether
558 or not the system configuration allows for larger than
559 4096 bytes cluster allocations, by checking on the value
560 pointed to by maxchunks. E.g. a request for 9018 bytes may
561 result in 1 chunk when jumbo clusters are available, or
562 3 chunks otherwise.
563 @param Upon success, *mbuf will be a reference to the new mbuf.
564 @result Returns 0 upon success or the following error code:
565 EINVAL - Invalid parameter
566 ENOMEM - Not enough memory available
567 ENOBUFS - Buffers not big enough for the maximum number of
568 chunks requested
569 */
570 extern errno_t mbuf_allocpacket_list(unsigned int numpkts, mbuf_how_t how,
571 size_t packetlen, unsigned int * maxchunks, mbuf_t *mbuf);
572
573
574 /*!
575 @function mbuf_getpacket
576 @discussion Allocate an mbuf, allocate and attach a cluster, and set
577 the packet header flag.
578 @param how Blocking or non-blocking.
579 @param mbuf Upon success, *mbuf will be a reference to the new mbuf.
580 @result 0 on success, errno error on failure.
581 */
582 extern errno_t mbuf_getpacket(mbuf_how_t how, mbuf_t *mbuf);
583
584 /*!
585 @function mbuf_free
586 @discussion Frees a single mbuf. Not commonly used because it
587 doesn't touch the rest of the mbufs on the chain.
588 @param mbuf The mbuf to free.
589 @result The next mbuf in the chain.
590 */
591 extern mbuf_t mbuf_free(mbuf_t mbuf);
592
593 /*!
594 @function mbuf_freem
595 @discussion Frees a chain of mbufs link through mnext.
596 @param mbuf The first mbuf in the chain to free.
597 */
598 extern void mbuf_freem(mbuf_t mbuf);
599
600 /*!
601 @function mbuf_freem_list
602 @discussion Frees linked list of mbuf chains. Walks through
603 mnextpackt and does the equivalent of mbuf_freem to each.
604 @param mbuf The first mbuf in the linked list to free.
605 @result The number of mbufs freed.
606 */
607 extern int mbuf_freem_list(mbuf_t mbuf);
608
609 /*!
610 @function mbuf_leadingspace
611 @discussion Determines the space available in the mbuf proceeding
612 the current data.
613 @param mbuf The mbuf.
614 @result The number of unused bytes at the start of the mbuf.
615 */
616 extern size_t mbuf_leadingspace(const mbuf_t mbuf);
617
618 /*!
619 @function mbuf_trailingspace
620 @discussion Determines the space available in the mbuf following
621 the current data.
622 @param mbuf The mbuf.
623 @result The number of unused bytes following the current data.
624 */
625 extern size_t mbuf_trailingspace(const mbuf_t mbuf);
626
627 /* Manipulation */
628
629 /*!
630 @function mbuf_copym
631 @discussion Copies len bytes from offset from src to a new mbuf. If
632 the original mbuf contains a packet header, the new mbuf will
633 contain similar packet header except for any tags which may be
634 associated with the original mbuf. mbuf_dup() should be used
635 instead if tags are to be copied to the new mbuf.
636 @param src The source mbuf.
637 @param offset The offset in the mbuf to start copying from.
638 @param len The the number of bytes to copy.
639 @param how To block or not to block, that is a question.
640 @param new_mbuf Upon success, the newly allocated mbuf.
641 @result 0 upon success otherwise the errno error.
642 */
643 extern errno_t mbuf_copym(const mbuf_t src, size_t offset, size_t len,
644 mbuf_how_t how, mbuf_t *new_mbuf);
645
646 /*!
647 @function mbuf_dup
648 @discussion Exactly duplicates an mbuf chain. If the original mbuf
649 contains a packet header (including tags), the new mbuf will have
650 the same packet header contents and a copy of each tag associated
651 with the original mbuf.
652 @param src The source mbuf.
653 @param how Blocking or non-blocking.
654 @param new_mbuf Upon success, the newly allocated mbuf.
655 @result 0 upon success otherwise the errno error.
656 */
657 extern errno_t mbuf_dup(const mbuf_t src, mbuf_how_t how, mbuf_t *new_mbuf);
658
659 /*!
660 @function mbuf_prepend
661 @discussion Prepend len bytes to an mbuf. If there is space
662 (mbuf_leadingspace >= len), the mbuf's data ptr is changed and
663 the same mbuf is returned. If there is no space, a new mbuf may
664 be allocated and prepended to the mbuf chain. If the operation
665 fails, the mbuf may be freed (*mbuf will be NULL).
666 @param mbuf The mbuf to prepend data to. This may change if a new
667 mbuf must be allocated or may be NULL if the operation fails.
668 @param len The length, in bytes, to be prepended to the mbuf.
669 @param how Blocking or non-blocking.
670 @result 0 upon success otherwise the errno error.
671 */
672 extern errno_t mbuf_prepend(mbuf_t *mbuf, size_t len, mbuf_how_t how);
673
674 /*!
675 @function mbuf_split
676 @discussion Split an mbuf chain at a specific offset.
677 @param src The mbuf to be split.
678 @param offset The offset in the buffer where the mbuf should be
679 split.
680 @param how Blocking or non-blocking.
681 @param new_mbuf Upon success, the second half of the split mbuf
682 chain.
683 @result 0 upon success otherwise the errno error. In the case of
684 failure, the original mbuf chain passed in to src will be
685 preserved.
686 */
687 extern errno_t mbuf_split(mbuf_t src, size_t offset, mbuf_how_t how,
688 mbuf_t *new_mbuf);
689
690 /*!
691 @function mbuf_pullup
692 @discussion Move the next len bytes in to mbuf from other mbufs in
693 the chain. This is commonly used to get the IP and TCP or UDP
694 header contiguous in the first mbuf. If mbuf_pullup fails, the
695 entire mbuf chain will be freed.
696 @param mbuf The mbuf in the chain the data should be contiguous in.
697 @param len The number of bytes to pull from the next mbuf(s).
698 @result 0 upon success otherwise the errno error. In the case of an
699 error, the mbuf chain has been freed.
700 */
701 extern errno_t mbuf_pullup(mbuf_t *mbuf, size_t len);
702
703 /*!
704 @function mbuf_pulldown
705 @discussion Make length bytes at offset in the mbuf chain
706 contiguous. Nothing before offset bytes in the chain will be
707 modified. Upon return, location will be the mbuf the data is
708 contiguous in and offset will be the offset in that mbuf at
709 which the data is located. In the case of a failure, the mbuf
710 chain will be freed.
711 @param src The start of the mbuf chain.
712 @param offset Pass in a pointer to a value with the offset of the
713 data you're interested in making contiguous. Upon success, this
714 will be overwritten with the offset from the mbuf returned in
715 location.
716 @param length The length of data that should be made contiguous.
717 @param location Upon success, *location will be the mbuf the data is
718 in.
719 @result 0 upon success otherwise the errno error.
720 */
721 extern errno_t mbuf_pulldown(mbuf_t src, size_t *offset, size_t length,
722 mbuf_t *location);
723
724 /*!
725 @function mbuf_adj
726 @discussion Trims len bytes from the mbuf. If the length is greater
727 than zero, the bytes are trimmed from the front of the mbuf. If
728 the length is less than zero, the bytes are trimmed from the end
729 of the mbuf chain.
730 @param mbuf The mbuf chain to trim.
731 @param len The number of bytes to trim from the mbuf chain.
732 */
733 extern void mbuf_adj(mbuf_t mbuf, int len);
734
735 /*!
736 @function mbuf_adjustlen
737 @discussion Adds amount to the mbuf len. Verifies that the new
738 length is valid (greater than or equal to zero and less than
739 maximum amount of data that may be stored in the mbuf). This
740 function will not adjust the packet header length field or
741 affect any other mbufs in a chain.
742 @param mbuf The mbuf to adjust.
743 @param amount The number of bytes increment the length by.
744 @result 0 upon success otherwise the errno error.
745 */
746 extern errno_t mbuf_adjustlen(mbuf_t mbuf, int amount);
747
748 /*!
749 @function mbuf_concatenate
750 @discussion Concatenate mbuf chain src to dst using m_next and return
751 a chain which represents the concatenated chain. The routine
752 does not prevent two chains of different mbuf types to be
753 concatenated, nor does it modify any packet header in the
754 destination chain. Therefore, it's the responsibility of the
755 caller to ensure that the resulted concatenated mbuf chain is
756 correct for further usages.
757 @param dst The destination mbuf chain.
758 @param src The source mbuf chain.
759 @result A pointer to the head of the concatenated mbuf chain. This
760 should be treated as the updated destination mbuf chain; the
761 caller must no longer refer to the original src or dst mbuf
762 chain. Otherwise it returns NULL if the original dst mbuf
763 chain is NULL.
764 */
765 extern mbuf_t mbuf_concatenate(mbuf_t dst, mbuf_t src);
766
767 /*!
768 @function mbuf_copydata
769 @discussion Copies data out of an mbuf in to a specified buffer. If
770 the data is stored in a chain of mbufs, the data will be copied
771 from each mbuf in the chain until length bytes have been copied.
772 @param mbuf The mbuf chain to copy data out of.
773 @param offset The offset in to the mbuf to start copying.
774 @param length The number of bytes to copy.
775 @param out_data A pointer to the location where the data will be
776 copied.
777 @result 0 upon success otherwise the errno error.
778 */
779 extern errno_t mbuf_copydata(const mbuf_t mbuf, size_t offset, size_t length,
780 void *out_data);
781
782 /*!
783 @function mbuf_copyback
784 @discussion Copies data from a buffer to an mbuf chain.
785 mbuf_copyback will grow the chain to fit the specified buffer.
786
787 If mbuf_copydata is unable to allocate enough mbufs to grow the
788 chain, ENOBUFS will be returned. The mbuf chain will be shorter
789 than expected but all of the data up to the end of the mbuf
790 chain will be valid.
791
792 If an offset is specified, mbuf_copyback will skip that many
793 bytes in the mbuf chain before starting to write the buffer in
794 to the chain. If the mbuf chain does not contain this many
795 bytes, mbufs will be allocated to create the space.
796 @param mbuf The first mbuf in the chain to copy the data in to.
797 @param offset Offset in bytes to skip before copying data.
798 @param length The length, in bytes, of the data to copy in to the mbuf
799 chain.
800 @param data A pointer to data in the kernel's address space.
801 @param how Blocking or non-blocking.
802 @result 0 upon success, EINVAL or ENOBUFS upon failure.
803 */
804 extern errno_t mbuf_copyback(mbuf_t mbuf, size_t offset, size_t length,
805 const void *data, mbuf_how_t how);
806
807 /*!
808 @function mbuf_mclhasreference
809 @discussion Check if a cluster of an mbuf is referenced by another mbuf.
810 References may be taken, for example, as a result of a call to
811 mbuf_split or mbuf_copym
812 @param mbuf The mbuf with the cluster to test.
813 @result 0 if there is no reference by another mbuf, 1 otherwise.
814 */
815 extern int mbuf_mclhasreference(mbuf_t mbuf);
816
817
818 /* mbuf header */
819
820 /*!
821 @function mbuf_next
822 @discussion Returns the next mbuf in the chain.
823 @param mbuf The mbuf.
824 @result The next mbuf in the chain.
825 */
826 extern mbuf_t mbuf_next(const mbuf_t mbuf);
827
828 /*!
829 @function mbuf_setnext
830 @discussion Sets the next mbuf in the chain.
831 @param mbuf The mbuf.
832 @param next The new next mbuf.
833 @result 0 upon success otherwise the errno error.
834 */
835 extern errno_t mbuf_setnext(mbuf_t mbuf, mbuf_t next);
836
837 /*!
838 @function mbuf_nextpkt
839 @discussion Gets the next packet from the mbuf.
840 @param mbuf The mbuf.
841 @result The nextpkt.
842 */
843 extern mbuf_t mbuf_nextpkt(const mbuf_t mbuf);
844
845 /*!
846 @function mbuf_setnextpkt
847 @discussion Sets the next packet attached to this mbuf.
848 @param mbuf The mbuf.
849 @param nextpkt The new next packet.
850 */
851 extern void mbuf_setnextpkt(mbuf_t mbuf, mbuf_t nextpkt);
852
853 /*!
854 @function mbuf_len
855 @discussion Gets the length of data in this mbuf.
856 @param mbuf The mbuf.
857 @result The length.
858 */
859 extern size_t mbuf_len(const mbuf_t mbuf);
860
861 /*!
862 @function mbuf_setlen
863 @discussion Sets the length of data in this packet. Be careful to
864 not set the length over the space available in the mbuf.
865 @param mbuf The mbuf.
866 @param len The new length.
867 @result 0 upon success otherwise the errno error.
868 */
869 extern void mbuf_setlen(mbuf_t mbuf, size_t len);
870
871 /*!
872 @function mbuf_maxlen
873 @discussion Retrieves the maximum length of data that may be stored
874 in this mbuf. This value assumes that the data pointer was set
875 to the start of the possible range for that pointer
876 (mbuf_data_start).
877 @param mbuf The mbuf.
878 @result The maximum lenght of data for this mbuf.
879 */
880 extern size_t mbuf_maxlen(const mbuf_t mbuf);
881
882 /*!
883 @function mbuf_type
884 @discussion Gets the type of mbuf.
885 @param mbuf The mbuf.
886 @result The type.
887 */
888 extern mbuf_type_t mbuf_type(const mbuf_t mbuf);
889
890 /*!
891 @function mbuf_settype
892 @discussion Sets the type of mbuf.
893 @param mbuf The mbuf.
894 @param new_type The new type.
895 @result 0 upon success otherwise the errno error.
896 */
897 extern errno_t mbuf_settype(mbuf_t mbuf, mbuf_type_t new_type);
898
899 /*!
900 @function mbuf_flags
901 @discussion Returns the set flags.
902 @param mbuf The mbuf.
903 @result The flags.
904 */
905 extern mbuf_flags_t mbuf_flags(const mbuf_t mbuf);
906
907 /*!
908 @function mbuf_setflags
909 @discussion Sets the set of set flags.
910 @param mbuf The mbuf.
911 @param flags The flags that should be set, all other flags will be cleared.
912 @result 0 upon success otherwise the errno error.
913 */
914 extern errno_t mbuf_setflags(mbuf_t mbuf, mbuf_flags_t flags);
915
916 /*!
917 @function mbuf_setflags_mask
918 @discussion Useful for setting or clearing individual flags. Easier
919 than calling mbuf_setflags(m, mbuf_flags(m) | M_FLAG).
920 @param mbuf The mbuf.
921 @param flags The flags that should be set or cleared.
922 @param mask The mask controlling which flags will be modified.
923 @result 0 upon success otherwise the errno error.
924 */
925 extern errno_t mbuf_setflags_mask(mbuf_t mbuf, mbuf_flags_t flags,
926 mbuf_flags_t mask);
927
928 /*!
929 @function mbuf_copy_pkthdr
930 @discussion Copies the packet header from src to dest.
931 @param src The mbuf from which the packet header will be copied.
932 @param mbuf The mbuf to which the packet header will be copied.
933 @result 0 upon success otherwise the errno error.
934 */
935 extern errno_t mbuf_copy_pkthdr(mbuf_t dest, const mbuf_t src);
936
937 /*!
938 @function mbuf_pkthdr_len
939 @discussion Returns the length as reported by the packet header.
940 @param mbuf The mbuf containing the packet header with the length to
941 be changed.
942 @result The length, in bytes, of the packet.
943 */
944 extern size_t mbuf_pkthdr_len(const mbuf_t mbuf);
945
946 /*!
947 @function mbuf_pkthdr_setlen
948 @discussion Sets the length of the packet in the packet header.
949 @param mbuf The mbuf containing the packet header.
950 @param len The new length of the packet.
951 */
952 extern void mbuf_pkthdr_setlen(mbuf_t mbuf, size_t len);
953
954 /*!
955 @function mbuf_pkthdr_adjustlen
956 @discussion Adjusts the length of the packet in the packet header.
957 @param mbuf The mbuf containing the packet header.
958 @param amount The number of bytes to adjust the packet header length
959 field by.
960 */
961 extern void mbuf_pkthdr_adjustlen(mbuf_t mbuf, int amount);
962
963 /*!
964 @function mbuf_pkthdr_rcvif
965 @discussion Returns the interface the packet was received on. This
966 funciton does not modify the reference count of the interface.
967 The interface is only valid for as long as the mbuf is not freed
968 and the rcvif for the mbuf is not changed. Take a reference on
969 the interface that you will release later before doing any of
970 the following: free the mbuf, change the rcvif, pass the mbuf to
971 any function that may free the mbuf or change the rcvif.
972 @param mbuf The mbuf containing the packet header.
973 @result A reference to the interface.
974 */
975 extern ifnet_t mbuf_pkthdr_rcvif(const mbuf_t mbuf);
976
977 /*!
978 @function mbuf_pkthdr_setrcvif
979 @discussion Sets the interface the packet was received on.
980 @param mbuf The mbuf containing the packet header.
981 @param ifnet A reference to an interface.
982 @result 0 upon success otherwise the errno error.
983 */
984 extern errno_t mbuf_pkthdr_setrcvif(mbuf_t mbuf, ifnet_t ifp);
985
986 /*!
987 @function mbuf_pkthdr_header
988 @discussion Returns a pointer to the packet header.
989 @param mbuf The mbuf containing the packet header.
990 @result A pointer to the packet header.
991 */
992 extern void *mbuf_pkthdr_header(const mbuf_t mbuf);
993
994 /*!
995 @function mbuf_pkthdr_setheader
996 @discussion Sets the pointer to the packet header.
997 @param mbuf The mbuf containing the packet header.
998 @param ifnet A pointer to the header.
999 @result 0 upon success otherwise the errno error.
1000 */
1001 extern void mbuf_pkthdr_setheader(mbuf_t mbuf, void *header);
1002
1003 /* Checksums */
1004
1005 /*!
1006 @function mbuf_inbound_modified
1007 @discussion This function will clear the checksum flags to indicate
1008 that a hardware checksum should not be used. Any filter
1009 modifying data should call this function on an mbuf before
1010 passing the packet up the stack. If a filter modifies a packet
1011 in a way that affects any checksum, the filter is responsible
1012 for either modifying the checksum to compensate for the changes
1013 or verifying the checksum before making the changes and then
1014 modifying the data and calculating a new checksum only if the
1015 original checksum was valid.
1016 @param mbuf The mbuf that has been modified.
1017 */
1018 extern void mbuf_inbound_modified(mbuf_t mbuf);
1019
1020 /*!
1021 @function mbuf_outbound_finalize
1022 @discussion This function will "finalize" the packet allowing your
1023 code to inspect the final packet.
1024
1025 There are a number of operations that are performed in hardware,
1026 such as calculating checksums. This function will perform in
1027 software the various opterations that were scheduled to be done
1028 in hardware. Future operations may include IPSec processing or
1029 vlan support. If you are redirecting a packet to a new interface
1030 which may not have the same hardware support or encapsulating
1031 the packet, you should call this function to force the stack to
1032 calculate and fill out the checksums. This will bypass hardware
1033 checksums but give you a complete packet to work with. If you
1034 need to inspect aspects of the packet which may be generated by
1035 hardware, you must call this function to get an aproximate final
1036 packet. If you plan to modify the packet in any way, you should
1037 call this function.
1038
1039 This function should be called before modifying any outbound
1040 packets.
1041
1042 This function may be called at various levels, in some cases
1043 additional headers may have already been prepended, such as the
1044 case of a packet seen by an interface filter. To handle this,
1045 the caller must pass the protocol family of the packet as well
1046 as the offset from the start of the packet to the protocol
1047 header.
1048 @param mbuf The mbuf that should be finalized.
1049 @param protocol_family The protocol family of the packet in the
1050 mbuf.
1051 @param protocol_offset The offset from the start of the mbuf to the
1052 protocol header. For an IP packet with an ethernet header, this
1053 would be the length of an ethernet header.
1054 */
1055 extern void mbuf_outbound_finalize(mbuf_t mbuf, u_int32_t protocol_family,
1056 size_t protocol_offset);
1057
1058 /*!
1059 @function mbuf_set_vlan_tag
1060 @discussion This function is used by interfaces that support vlan
1061 tagging in hardware. This function will set properties in the
1062 mbuf to indicate which vlan the packet was received for.
1063 @param mbuf The mbuf containing the packet.
1064 @param vlan The protocol family of the aux data to add.
1065 @result 0 upon success otherwise the errno error.
1066 */
1067 extern errno_t mbuf_set_vlan_tag(mbuf_t mbuf, u_int16_t vlan);
1068
1069 /*!
1070 @function mbuf_get_vlan_tag
1071 @discussion This function is used by drivers that support hardware
1072 vlan tagging to determine which vlan this packet belongs to. To
1073 differentiate between the case where the vlan tag is zero and
1074 the case where there is no vlan tag, this function will return
1075 ENXIO when there is no vlan.
1076 @param mbuf The mbuf containing the packet.
1077 @param vlan The protocol family of the aux data to add.
1078 @result 0 upon success otherwise the errno error. ENXIO indicates
1079 that the vlan tag is not set.
1080 */
1081 extern errno_t mbuf_get_vlan_tag(mbuf_t mbuf, u_int16_t *vlan);
1082
1083 /*!
1084 @function mbuf_clear_vlan_tag
1085 @discussion This function will clear any vlan tag associated with
1086 the mbuf.
1087 @param mbuf The mbuf containing the packet.
1088 @result 0 upon success otherwise the errno error.
1089 */
1090 extern errno_t mbuf_clear_vlan_tag(mbuf_t mbuf);
1091
1092 #ifdef KERNEL_PRIVATE
1093 /*
1094 @function mbuf_set_csum_requested
1095 @discussion This function is used by the stack to indicate which
1096 checksums should be calculated in hardware. The stack normally
1097 sets these flags as the packet is processed in the outbound
1098 direction. Just before send the packe to the interface, the
1099 stack will look at these flags and perform any checksums in
1100 software that are not supported by the interface.
1101 @param mbuf The mbuf containing the packet.
1102 @param request Flags indicating which checksums are being requested
1103 for this packet.
1104 @param value This parameter is currently unsupported.
1105 @result 0 upon success otherwise the errno error.
1106 */
1107 extern errno_t mbuf_set_csum_requested(mbuf_t mbuf,
1108 mbuf_csum_request_flags_t request, u_int32_t value);
1109 #endif /* KERNEL_PRIVATE */
1110
1111 /*!
1112 @function mbuf_get_csum_requested
1113 @discussion This function is used by the driver to determine which
1114 checksum operations should be performed in hardware.
1115 @param mbuf The mbuf containing the packet.
1116 @param request Flags indicating which checksums are being requested
1117 for this packet.
1118 @param value This parameter is currently unsupported.
1119 @result 0 upon success otherwise the errno error.
1120 */
1121 extern errno_t mbuf_get_csum_requested(mbuf_t mbuf,
1122 mbuf_csum_request_flags_t *request, u_int32_t *value);
1123
1124 /*!
1125 @function mbuf_get_tso_requested
1126 @discussion This function is used by the driver to determine which
1127 checksum operations should be performed in hardware.
1128 @param mbuf The mbuf containing the packet.
1129 @param request Flags indicating which values are being requested
1130 for this packet.
1131 @param value The requested value.
1132 @result 0 upon success otherwise the errno error.
1133 */
1134 extern errno_t mbuf_get_tso_requested(mbuf_t mbuf,
1135 mbuf_tso_request_flags_t *request, u_int32_t *value);
1136
1137 /*!
1138 @function mbuf_clear_csum_requested
1139 @discussion This function clears the checksum request flags.
1140 @param mbuf The mbuf containing the packet.
1141 @result 0 upon success otherwise the errno error.
1142 */
1143 extern errno_t mbuf_clear_csum_requested(mbuf_t mbuf);
1144
1145 /*!
1146 @function mbuf_set_csum_performed
1147 @discussion This is used by the driver to indicate to the stack which
1148 checksum operations were performed in hardware.
1149 @param mbuf The mbuf containing the packet.
1150 @param flags Flags indicating which hardware checksum operations
1151 were performed.
1152 @param value If the MBUF_CSUM_DID_DATA flag is set, value should be
1153 set to the value of the TCP or UDP header as calculated by the
1154 hardware.
1155 @result 0 upon success otherwise the errno error.
1156 */
1157 extern errno_t mbuf_set_csum_performed(mbuf_t mbuf,
1158 mbuf_csum_performed_flags_t flags, u_int32_t value);
1159
1160 #ifdef KERNEL_PRIVATE
1161 /*
1162 @function mbuf_get_csum_performed
1163 @discussion This is used by the stack to determine which checksums
1164 were calculated in hardware on the inbound path.
1165 @param mbuf The mbuf containing the packet.
1166 @param flags Flags indicating which hardware checksum operations
1167 were performed.
1168 @param value If the MBUF_CSUM_DID_DATA flag is set, value will be
1169 set to the value of the TCP or UDP header as calculated by the
1170 hardware.
1171 @result 0 upon success otherwise the errno error.
1172 */
1173 extern errno_t mbuf_get_csum_performed(mbuf_t mbuf,
1174 mbuf_csum_performed_flags_t *flags, u_int32_t *value);
1175 #endif /* KERNEL_PRIVATE */
1176
1177 /*!
1178 @function mbuf_get_mlen
1179 @discussion This routine returns the number of data bytes in a normal
1180 mbuf, i.e. an mbuf that is not a packet header, nor one with
1181 an external cluster attached to it. This is equivalent to the
1182 legacy MLEN macro.
1183 @result The number of bytes of available data.
1184 */
1185 extern u_int32_t mbuf_get_mlen(void);
1186
1187 /*!
1188 @function mbuf_get_mhlen
1189 @discussion This routine returns the number of data bytes in a packet
1190 header mbuf. This is equivalent to the legacy MHLEN macro.
1191 @result The number of bytes of available data.
1192 */
1193 extern u_int32_t mbuf_get_mhlen(void);
1194
1195 /*!
1196 @function mbuf_get_minclsize
1197 @discussion This routine returns the minimum number of data bytes
1198 before an external cluster is used. This is equivalent to the
1199 legacy MINCLSIZE macro.
1200 @result The minimum number of bytes before a cluster will be used.
1201 */
1202 extern u_int32_t mbuf_get_minclsize(void);
1203
1204 /*!
1205 @function mbuf_clear_csum_performed
1206 @discussion Clears the hardware checksum flags and values.
1207 @param mbuf The mbuf containing the packet.
1208 @result 0 upon success otherwise the errno error.
1209 */
1210 extern errno_t mbuf_clear_csum_performed(mbuf_t mbuf);
1211
1212 /*!
1213 @function mbuf_inet_cksum
1214 @discussions Calculates 16-bit 1's complement Internet checksum of the
1215 transport segment with or without the pseudo header checksum
1216 of a given IPv4 packet. If the caller specifies a non-zero
1217 transport protocol, the checksum returned will also include
1218 the pseudo header checksum for the corresponding transport
1219 header. Otherwise, no header parsing will be done and the
1220 caller may use this to calculate the Internet checksum of
1221 an arbitrary span of data.
1222
1223 This routine does not modify the contents of the packet. If
1224 the caller specifies a non-zero protocol and/or offset, the
1225 routine expects the complete protocol header to be present
1226 at the beginning of the first mbuf.
1227 @param mbuf The mbuf (or chain of mbufs) containing the packet.
1228 @param protocol A zero or non-zero value. A non-zero value specifies
1229 the transport protocol used for pseudo header checksum.
1230 @param offset A zero or non-zero value; if the latter, it specifies
1231 the offset of the transport header from the beginning of mbuf.
1232 @param length The total (non-zero) length of the transport segment.
1233 @param csum Pointer to the checksum variable; upon success, this
1234 routine will return the calculated Internet checksum through
1235 this variable. The caller must set it to a non-NULL value.
1236 @result 0 upon success otherwise the errno error.
1237 */
1238 extern errno_t mbuf_inet_cksum(mbuf_t mbuf, int protocol, u_int32_t offset,
1239 u_int32_t length, u_int16_t *csum);
1240
1241 /*!
1242 @function mbuf_inet6_cksum
1243 @discussions Calculates 16-bit 1's complement Internet checksum of the
1244 transport segment with or without the pseudo header checksum
1245 of a given IPv6 packet. If the caller specifies a non-zero
1246 transport protocol, the checksum returned will also include
1247 the pseudo header checksum for the corresponding transport
1248 header. Otherwise, no header parsing will be done and the
1249 caller may use this to calculate the Internet checksum of
1250 an arbitrary span of data.
1251
1252 This routine does not modify the contents of the packet. If
1253 the caller specifies a non-zero protocol and/or offset, the
1254 routine expects the complete protocol header(s) to be present
1255 at the beginning of the first mbuf.
1256 @param mbuf The mbuf (or chain of mbufs) containing the packet.
1257 @param protocol A zero or non-zero value. A non-zero value specifies
1258 the transport protocol used for pseudo header checksum.
1259 @param offset A zero or non-zero value; if the latter, it specifies
1260 the offset of the transport header from the beginning of mbuf.
1261 @param length The total (non-zero) length of the transport segment.
1262 @param csum Pointer to the checksum variable; upon success, this
1263 routine will return the calculated Internet checksum through
1264 this variable. The caller must set it to a non-NULL value.
1265 @result 0 upon success otherwise the errno error.
1266 */
1267 extern errno_t mbuf_inet6_cksum(mbuf_t mbuf, int protocol, u_int32_t offset,
1268 u_int32_t length, u_int16_t *csum);
1269
1270 /* mbuf tags */
1271
1272 /*!
1273 @function mbuf_tag_id_find
1274 @discussion Lookup the module id for a string. If there is no module
1275 id assigned to this string, a new module id will be assigned.
1276 The string should be the bundle id of the kext. In the case of a
1277 tag that will be shared across multiple kexts, a common bundle
1278 id style string should be used.
1279
1280 The lookup operation is not optimized. A module should call this
1281 function once during startup and chache the module id. The
1282 module id will not be resassigned until the machine reboots.
1283 @param module_string A unique string identifying your module.
1284 Example: com.apple.nke.SharedIP.
1285 @param module_id Upon return, a unique identifier for use with
1286 mbuf_tag_* functions. This identifier is valid until the machine
1287 is rebooted.
1288 @result 0 upon success otherwise the errno error.
1289 */
1290 extern errno_t mbuf_tag_id_find(const char *module_string,
1291 mbuf_tag_id_t *module_id);
1292
1293 /*!
1294 @function mbuf_tag_allocate
1295 @discussion Allocate an mbuf tag. Mbuf tags allow various portions
1296 of the stack to tag mbufs with data that will travel with the
1297 mbuf through the stack.
1298
1299 Tags may only be added to mbufs with packet headers
1300 (MBUF_PKTHDR flag is set). Mbuf tags are freed when the mbuf is
1301 freed or when mbuf_tag_free is called.
1302 @param mbuf The mbuf to attach this tag to.
1303 @param module_id A module identifier returned by mbuf_tag_id_find.
1304 @param type A 16 bit type value. For a given module_id, you can use
1305 a number of different tag types.
1306 @param length The length, in bytes, to allocate for storage that
1307 will be associated with this tag on this mbuf.
1308 @param how Indicate whether you want to block and wait for memory if
1309 memory is not immediately available.
1310 @param data_p Upon successful return, *data_p will point to the
1311 buffer allocated for the mtag.
1312 @result 0 upon success otherwise the errno error.
1313 */
1314 extern errno_t mbuf_tag_allocate(mbuf_t mbuf, mbuf_tag_id_t module_id,
1315 mbuf_tag_type_t type, size_t length, mbuf_how_t how, void **data_p);
1316
1317 /*!
1318 @function mbuf_tag_find
1319 @discussion Find the data associated with an mbuf tag.
1320 @param mbuf The mbuf the tag is attached to.
1321 @param module_id A module identifier returned by mbuf_tag_id_find.
1322 @param type The 16 bit type of the tag to find.
1323 @param length Upon success, the length of data will be store in
1324 *length.
1325 @param data_p Upon successful return, *data_p will point to the
1326 buffer allocated for the mtag.
1327 @result 0 upon success otherwise the errno error.
1328 */
1329 extern errno_t mbuf_tag_find(mbuf_t mbuf, mbuf_tag_id_t module_id,
1330 mbuf_tag_type_t type, size_t *length, void **data_p);
1331
1332 /*!
1333 @function mbuf_tag_free
1334 @discussion Frees a previously allocated mbuf tag.
1335 @param mbuf The mbuf the tag was allocated on.
1336 @param module_id The ID of the tag to free.
1337 @param type The type of the tag to free.
1338 */
1339 extern void mbuf_tag_free(mbuf_t mbuf, mbuf_tag_id_t module_id,
1340 mbuf_tag_type_t type);
1341
1342 /* mbuf stats */
1343
1344 /*!
1345 @function mbuf_stats
1346 @discussion Get the mbuf statistics.
1347 @param stats Storage to copy the stats in to.
1348 */
1349 extern void mbuf_stats(struct mbuf_stat *stats);
1350
1351
1352 /*!
1353 @enum mbuf_traffic_class_t
1354 @abstract Traffic class of a packet
1355 @discussion Property that represent the category of traffic of a packet.
1356 This information may be used by the driver and at the link level.
1357 @constant MBUF_TC_BE Best effort, normal class.
1358 @constant MBUF_TC_BK Background, low priority or bulk traffic.
1359 @constant MBUF_TC_VI Interactive video, constant bit rate, low latency.
1360 @constant MBUF_TC_VO Interactive voice, constant bit rate, lowest latency.
1361 */
1362 typedef enum {
1363 #ifdef XNU_KERNEL_PRIVATE
1364 MBUF_TC_UNSPEC = -1, /* Internal: not specified */
1365 #endif
1366 MBUF_TC_BE = 0,
1367 MBUF_TC_BK = 1,
1368 MBUF_TC_VI = 2,
1369 MBUF_TC_VO = 3
1370 #ifdef XNU_KERNEL_PRIVATE
1371 ,
1372 MBUF_TC_MAX = 4 /* Internal: traffic class count */
1373 #endif
1374 } mbuf_traffic_class_t;
1375
1376 /*!
1377 @function mbuf_get_traffic_class
1378 @discussion Get the traffic class of an mbuf packet
1379 @param mbuf The mbuf to get the traffic class of.
1380 @result The traffic class
1381 */
1382 extern mbuf_traffic_class_t mbuf_get_traffic_class(mbuf_t mbuf);
1383
1384 /*!
1385 @function mbuf_set_traffic_class
1386 @discussion Set the traffic class of an mbuf packet.
1387 @param mbuf The mbuf to set the traffic class on.
1388 @ac The traffic class
1389 @result 0 on success, EINVAL if bad paramater is passed
1390 */
1391 extern errno_t mbuf_set_traffic_class(mbuf_t mbuf, mbuf_traffic_class_t tc);
1392
1393 /* IF_QUEUE interaction */
1394
1395 #define IF_ENQUEUE_MBUF(ifq, m) { \
1396 mbuf_setnextpkt((m), 0); \
1397 if ((ifq)->ifq_tail == 0) \
1398 (ifq)->ifq_head = (m); \
1399 else \
1400 mbuf_setnextpkt((mbuf_t)(ifq)->ifq_tail, (m)); \
1401 (ifq)->ifq_tail = (m); \
1402 (ifq)->ifq_len++; \
1403 }
1404
1405 #define IF_PREPEND_MBUF(ifq, m) { \
1406 mbuf_setnextpkt((m), (ifq)->ifq_head); \
1407 if ((ifq)->ifq_tail == 0) \
1408 (ifq)->ifq_tail = (m); \
1409 (ifq)->ifq_head = (m); \
1410 (ifq)->ifq_len++; \
1411 }
1412
1413 #define IF_DEQUEUE_MBUF(ifq, m) { \
1414 (m) = (ifq)->ifq_head; \
1415 if (m) { \
1416 if (((ifq)->ifq_head = mbuf_nextpkt((m))) == 0) \
1417 (ifq)->ifq_tail = 0; \
1418 mbuf_setnextpkt((m), 0); \
1419 (ifq)->ifq_len--; \
1420 } \
1421 }
1422
1423 __END_DECLS
1424 #endif /* __KPI_MBUF__ */