xref: /freebsd/sys/net/netmap.h (revision f1951fd745b894fe6586c298874af98544a5e272)
1 /*-
2  * SPDX-License-Identifier: BSD-2-Clause-FreeBSD
3  *
4  * Copyright (C) 2011-2014 Matteo Landi, Luigi Rizzo. All rights reserved.
5  *
6  * Redistribution and use in source and binary forms, with or without
7  * modification, are permitted provided that the following conditions
8  * are met:
9  *
10  *   1. Redistributions of source code must retain the above copyright
11  *      notice, this list of conditions and the following disclaimer.
12  *   2. Redistributions in binary form must reproduce the above copyright
13  *      notice, this list of conditions and the following disclaimer in the
14  *      documentation and/or other materials provided with the distribution.
15  *
16  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``S IS''AND
17  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
18  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
19  * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
20  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
21  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
22  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
23  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
24  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
25  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
26  * SUCH DAMAGE.
27  */
28 
29 /*
30  * $FreeBSD$
31  *
32  * Definitions of constants and the structures used by the netmap
33  * framework, for the part visible to both kernel and userspace.
34  * Detailed info on netmap is available with "man netmap" or at
35  *
36  *	http://info.iet.unipi.it/~luigi/netmap/
37  *
38  * This API is also used to communicate with the VALE software switch
39  */
40 
41 #ifndef _NET_NETMAP_H_
42 #define _NET_NETMAP_H_
43 
44 #define	NETMAP_API	12		/* current API version */
45 
46 #define	NETMAP_MIN_API	11		/* min and max versions accepted */
47 #define	NETMAP_MAX_API	15
48 /*
49  * Some fields should be cache-aligned to reduce contention.
50  * The alignment is architecture and OS dependent, but rather than
51  * digging into OS headers to find the exact value we use an estimate
52  * that should cover most architectures.
53  */
54 #define NM_CACHE_ALIGN	128
55 
56 /*
57  * --- Netmap data structures ---
58  *
59  * The userspace data structures used by netmap are shown below.
60  * They are allocated by the kernel and mmap()ed by userspace threads.
61  * Pointers are implemented as memory offsets or indexes,
62  * so that they can be easily dereferenced in kernel and userspace.
63 
64    KERNEL (opaque, obviously)
65 
66   ====================================================================
67                                          |
68    USERSPACE                             |      struct netmap_ring
69                                          +---->+---------------+
70                                              / | head,cur,tail |
71    struct netmap_if (nifp, 1 per fd)        /  | buf_ofs       |
72     +---------------+                      /   | other fields  |
73     | ni_tx_rings   |                     /    +===============+
74     | ni_rx_rings   |                    /     | buf_idx, len  | slot[0]
75     |               |                   /      | flags, ptr    |
76     |               |                  /       +---------------+
77     +===============+                 /        | buf_idx, len  | slot[1]
78     | txring_ofs[0] | (rel.to nifp)--'         | flags, ptr    |
79     | txring_ofs[1] |                          +---------------+
80      (tx+1 entries)                           (num_slots entries)
81     | txring_ofs[t] |                          | buf_idx, len  | slot[n-1]
82     +---------------+                          | flags, ptr    |
83     | rxring_ofs[0] |                          +---------------+
84     | rxring_ofs[1] |
85      (rx+1 entries)
86     | rxring_ofs[r] |
87     +---------------+
88 
89  * For each "interface" (NIC, host stack, PIPE, VALE switch port) bound to
90  * a file descriptor, the mmap()ed region contains a (logically readonly)
91  * struct netmap_if pointing to struct netmap_ring's.
92  *
93  * There is one netmap_ring per physical NIC ring, plus one tx/rx ring
94  * pair attached to the host stack (this pair is unused for non-NIC ports).
95  *
96  * All physical/host stack ports share the same memory region,
97  * so that zero-copy can be implemented between them.
98  * VALE switch ports instead have separate memory regions.
99  *
100  * The netmap_ring is the userspace-visible replica of the NIC ring.
101  * Each slot has the index of a buffer (MTU-sized and residing in the
102  * mmapped region), its length and some flags. An extra 64-bit pointer
103  * is provided for user-supplied buffers in the tx path.
104  *
105  * In user space, the buffer address is computed as
106  *	(char *)ring + buf_ofs + index * NETMAP_BUF_SIZE
107  *
108  * Added in NETMAP_API 11:
109  *
110  * + NIOCREGIF can request the allocation of extra spare buffers from
111  *   the same memory pool. The desired number of buffers must be in
112  *   nr_arg3. The ioctl may return fewer buffers, depending on memory
113  *   availability. nr_arg3 will return the actual value, and, once
114  *   mapped, nifp->ni_bufs_head will be the index of the first buffer.
115  *
116  *   The buffers are linked to each other using the first uint32_t
117  *   as the index. On close, ni_bufs_head must point to the list of
118  *   buffers to be released.
119  *
120  * + NIOCREGIF can request space for extra rings (and buffers)
121  *   allocated in the same memory space. The number of extra rings
122  *   is in nr_arg1, and is advisory. This is a no-op on NICs where
123  *   the size of the memory space is fixed.
124  *
125  * + NIOCREGIF can attach to PIPE rings sharing the same memory
126  *   space with a parent device. The ifname indicates the parent device,
127  *   which must already exist. Flags in nr_flags indicate if we want to
128  *   bind the master or slave side, the index (from nr_ringid)
129  *   is just a cookie and does not need to be sequential.
130  *
131  * + NIOCREGIF can also attach to 'monitor' rings that replicate
132  *   the content of specific rings, also from the same memory space.
133  *
134  *   Extra flags in nr_flags support the above functions.
135  *   Application libraries may use the following naming scheme:
136  *	netmap:foo			all NIC ring pairs
137  *	netmap:foo^			only host ring pair
138  *	netmap:foo+			all NIC ring + host ring pairs
139  *	netmap:foo-k			the k-th NIC ring pair
140  *	netmap:foo{k			PIPE ring pair k, master side
141  *	netmap:foo}k			PIPE ring pair k, slave side
142  *
143  * Some notes about host rings:
144  *
145  * + The RX host ring is used to store those packets that the host network
146  *   stack is trying to transmit through a NIC queue, but only if that queue
147  *   is currently in netmap mode. Netmap will not intercept host stack mbufs
148  *   designated to NIC queues that are not in netmap mode. As a consequence,
149  *   registering a netmap port with netmap:foo^ is not enough to intercept
150  *   mbufs in the RX host ring; the netmap port should be registered with
151  *   netmap:foo*, or another registration should be done to open at least a
152  *   NIC TX queue in netmap mode.
153  *
154  * + Netmap is not currently able to deal with intercepted trasmit mbufs which
155  *   require offloadings like TSO, UFO, checksumming offloadings, etc. It is
156  *   responsibility of the user to disable those offloadings (e.g. using
157  *   ifconfig on FreeBSD or ethtool -K on Linux) for an interface that is being
158  *   used in netmap mode. If the offloadings are not disabled, GSO and/or
159  *   unchecksummed packets may be dropped immediately or end up in the host RX
160  *   ring, and will be dropped as soon as the packet reaches another netmap
161  *   adapter.
162  */
163 
164 /*
165  * struct netmap_slot is a buffer descriptor
166  */
167 struct netmap_slot {
168 	uint32_t buf_idx;	/* buffer index */
169 	uint16_t len;		/* length for this slot */
170 	uint16_t flags;		/* buf changed, etc. */
171 	uint64_t ptr;		/* pointer for indirect buffers */
172 };
173 
174 /*
175  * The following flags control how the slot is used
176  */
177 
178 #define	NS_BUF_CHANGED	0x0001	/* buf_idx changed */
179 	/*
180 	 * must be set whenever buf_idx is changed (as it might be
181 	 * necessary to recompute the physical address and mapping)
182 	 *
183 	 * It is also set by the kernel whenever the buf_idx is
184 	 * changed internally (e.g., by pipes). Applications may
185 	 * use this information to know when they can reuse the
186 	 * contents of previously prepared buffers.
187 	 */
188 
189 #define	NS_REPORT	0x0002	/* ask the hardware to report results */
190 	/*
191 	 * Request notification when slot is used by the hardware.
192 	 * Normally transmit completions are handled lazily and
193 	 * may be unreported. This flag lets us know when a slot
194 	 * has been sent (e.g. to terminate the sender).
195 	 */
196 
197 #define	NS_FORWARD	0x0004	/* pass packet 'forward' */
198 	/*
199 	 * (Only for physical ports, rx rings with NR_FORWARD set).
200 	 * Slot released to the kernel (i.e. before ring->head) with
201 	 * this flag set are passed to the peer ring (host/NIC),
202 	 * thus restoring the host-NIC connection for these slots.
203 	 * This supports efficient traffic monitoring or firewalling.
204 	 */
205 
206 #define	NS_NO_LEARN	0x0008	/* disable bridge learning */
207  	/*
208 	 * On a VALE switch, do not 'learn' the source port for
209  	 * this buffer.
210 	 */
211 
212 #define	NS_INDIRECT	0x0010	/* userspace buffer */
213  	/*
214 	 * (VALE tx rings only) data is in a userspace buffer,
215 	 * whose address is in the 'ptr' field in the slot.
216 	 */
217 
218 #define	NS_MOREFRAG	0x0020	/* packet has more fragments */
219  	/*
220 	 * (VALE ports, ptnetmap ports and some NIC ports, e.g.
221          * ixgbe and i40e on Linux)
222 	 * Set on all but the last slot of a multi-segment packet.
223 	 * The 'len' field refers to the individual fragment.
224 	 */
225 
226 #define	NS_PORT_SHIFT	8
227 #define	NS_PORT_MASK	(0xff << NS_PORT_SHIFT)
228 	/*
229  	 * The high 8 bits of the flag, if not zero, indicate the
230 	 * destination port for the VALE switch, overriding
231  	 * the lookup table.
232  	 */
233 
234 #define	NS_RFRAGS(_slot)	( ((_slot)->flags >> 8) & 0xff)
235 	/*
236 	 * (VALE rx rings only) the high 8 bits
237 	 *  are the number of fragments.
238 	 */
239 
240 
241 /*
242  * struct netmap_ring
243  *
244  * Netmap representation of a TX or RX ring (also known as "queue").
245  * This is a queue implemented as a fixed-size circular array.
246  * At the software level the important fields are: head, cur, tail.
247  *
248  * In TX rings:
249  *
250  *	head	first slot available for transmission.
251  *	cur	wakeup point. select() and poll() will unblock
252  *		when 'tail' moves past 'cur'
253  *	tail	(readonly) first slot reserved to the kernel
254  *
255  *	[head .. tail-1] can be used for new packets to send;
256  *	'head' and 'cur' must be incremented as slots are filled
257  *	    with new packets to be sent;
258  *	'cur' can be moved further ahead if we need more space
259  *	for new transmissions. XXX todo (2014-03-12)
260  *
261  * In RX rings:
262  *
263  *	head	first valid received packet
264  *	cur	wakeup point. select() and poll() will unblock
265  *		when 'tail' moves past 'cur'
266  *	tail	(readonly) first slot reserved to the kernel
267  *
268  *	[head .. tail-1] contain received packets;
269  *	'head' and 'cur' must be incremented as slots are consumed
270  *		and can be returned to the kernel;
271  *	'cur' can be moved further ahead if we want to wait for
272  *		new packets without returning the previous ones.
273  *
274  * DATA OWNERSHIP/LOCKING:
275  *	The netmap_ring, and all slots and buffers in the range
276  *	[head .. tail-1] are owned by the user program;
277  *	the kernel only accesses them during a netmap system call
278  *	and in the user thread context.
279  *
280  *	Other slots and buffers are reserved for use by the kernel
281  */
282 struct netmap_ring {
283 	/*
284 	 * buf_ofs is meant to be used through macros.
285 	 * It contains the offset of the buffer region from this
286 	 * descriptor.
287 	 */
288 	const int64_t	buf_ofs;
289 	const uint32_t	num_slots;	/* number of slots in the ring. */
290 	const uint32_t	nr_buf_size;
291 	const uint16_t	ringid;
292 	const uint16_t	dir;		/* 0: tx, 1: rx */
293 
294 	uint32_t        head;		/* (u) first user slot */
295 	uint32_t        cur;		/* (u) wakeup point */
296 	uint32_t	tail;		/* (k) first kernel slot */
297 
298 	uint32_t	flags;
299 
300 	struct timeval	ts;		/* (k) time of last *sync() */
301 
302 	/* opaque room for a mutex or similar object */
303 #if !defined(_WIN32) || defined(__CYGWIN__)
304 	uint8_t	__attribute__((__aligned__(NM_CACHE_ALIGN))) sem[128];
305 #else
306 	uint8_t	__declspec(align(NM_CACHE_ALIGN)) sem[128];
307 #endif
308 
309 	/* the slots follow. This struct has variable size */
310 	struct netmap_slot slot[0];	/* array of slots. */
311 };
312 
313 
314 /*
315  * RING FLAGS
316  */
317 #define	NR_TIMESTAMP	0x0002		/* set timestamp on *sync() */
318 	/*
319 	 * updates the 'ts' field on each netmap syscall. This saves
320 	 * saves a separate gettimeofday(), and is not much worse than
321 	 * software timestamps generated in the interrupt handler.
322 	 */
323 
324 #define	NR_FORWARD	0x0004		/* enable NS_FORWARD for ring */
325  	/*
326 	 * Enables the NS_FORWARD slot flag for the ring.
327 	 */
328 
329 /*
330  * Helper functions for kernel and userspace
331  */
332 
333 /*
334  * check if space is available in the ring.
335  */
336 static inline int
337 nm_ring_empty(struct netmap_ring *ring)
338 {
339 	return (ring->cur == ring->tail);
340 }
341 
342 /*
343  * Netmap representation of an interface and its queue(s).
344  * This is initialized by the kernel when binding a file
345  * descriptor to a port, and should be considered as readonly
346  * by user programs. The kernel never uses it.
347  *
348  * There is one netmap_if for each file descriptor on which we want
349  * to select/poll.
350  * select/poll operates on one or all pairs depending on the value of
351  * nmr_queueid passed on the ioctl.
352  */
353 struct netmap_if {
354 	char		ni_name[IFNAMSIZ]; /* name of the interface. */
355 	const uint32_t	ni_version;	/* API version, currently unused */
356 	const uint32_t	ni_flags;	/* properties */
357 #define	NI_PRIV_MEM	0x1		/* private memory region */
358 
359 	/*
360 	 * The number of packet rings available in netmap mode.
361 	 * Physical NICs can have different numbers of tx and rx rings.
362 	 * Physical NICs also have a 'host' ring pair.
363 	 * Additionally, clients can request additional ring pairs to
364 	 * be used for internal communication.
365 	 */
366 	const uint32_t	ni_tx_rings;	/* number of HW tx rings */
367 	const uint32_t	ni_rx_rings;	/* number of HW rx rings */
368 
369 	uint32_t	ni_bufs_head;	/* head index for extra bufs */
370 	uint32_t	ni_spare1[5];
371 	/*
372 	 * The following array contains the offset of each netmap ring
373 	 * from this structure, in the following order:
374 	 * NIC tx rings (ni_tx_rings); host tx ring (1); extra tx rings;
375 	 * NIC rx rings (ni_rx_rings); host tx ring (1); extra rx rings.
376 	 *
377 	 * The area is filled up by the kernel on NIOCREGIF,
378 	 * and then only read by userspace code.
379 	 */
380 	const ssize_t	ring_ofs[0];
381 };
382 
383 /* Legacy interface to interact with a netmap control device.
384  * Included for backward compatibility. The user should not include this
385  * file directly. */
386 #include "netmap_legacy.h"
387 
388 /*
389  * New API to control netmap control devices. New applications should only use
390  * nmreq_xyz structs with the NIOCCTRL ioctl() command.
391  *
392  * NIOCCTRL takes a nmreq_header struct, which contains the required
393  * API version, the name of a netmap port, a command type, and pointers
394  * to request body and options.
395  *
396  *	nr_name	(in)
397  *		The name of the port (em0, valeXXX:YYY, eth0{pn1 etc.)
398  *
399  *	nr_version (in/out)
400  *		Must match NETMAP_API as used in the kernel, error otherwise.
401  *		Always returns the desired value on output.
402  *
403  *	nr_reqtype (in)
404  *		One of the NETMAP_REQ_* command types below
405  *
406  *	nr_body (in)
407  *		Pointer to a command-specific struct, described by one
408  *		of the struct nmreq_xyz below.
409  *
410  *	nr_options (in)
411  *		Command specific options, if any.
412  *
413  * A NETMAP_REQ_REGISTER command activates netmap mode on the netmap
414  * port (e.g. physical interface) specified by nmreq_header.nr_name.
415  * The request body (struct nmreq_register) has several arguments to
416  * specify how the port is to be registered.
417  *
418  *	nr_tx_slots, nr_tx_slots, nr_tx_rings, nr_rx_rings (in/out)
419  *		On input, non-zero values may be used to reconfigure the port
420  *		according to the requested values, but this is not guaranteed.
421  *		On output the actual values in use are reported.
422  *
423  *	nr_mode (in)
424  *		Indicate what set of rings must be bound to the netmap
425  *		device (e.g. all NIC rings, host rings only, NIC and
426  *		host rings, ...). Values are in NR_REG_*.
427  *
428  *	nr_ringid (in)
429  *		If nr_mode == NR_REG_ONE_NIC (only a single couple of TX/RX
430  *		rings), indicate which NIC TX and/or RX ring is to be bound
431  *		(0..nr_*x_rings-1).
432  *
433  *	nr_flags (in)
434  *		Indicate special options for how to open the port.
435  *
436  *		NR_NO_TX_POLL can be OR-ed to make select()/poll() push
437  *			packets on tx rings only if POLLOUT is set.
438  *			The default is to push any pending packet.
439  *
440  *		NR_DO_RX_POLL can be OR-ed to make select()/poll() release
441  *			packets on rx rings also when POLLIN is NOT set.
442  *			The default is to touch the rx ring only with POLLIN.
443  *			Note that this is the opposite of TX because it
444  *			reflects the common usage.
445  *
446  *		Other options are NR_MONITOR_TX, NR_MONITOR_RX, NR_ZCOPY_MON,
447  *		NR_EXCLUSIVE, NR_RX_RINGS_ONLY, NR_TX_RINGS_ONLY and
448  *		NR_ACCEPT_VNET_HDR.
449  *
450  *	nr_mem_id (in/out)
451  *		The identity of the memory region used.
452  *		On input, 0 means the system decides autonomously,
453  *		other values may try to select a specific region.
454  *		On return the actual value is reported.
455  *		Region '1' is the global allocator, normally shared
456  *		by all interfaces. Other values are private regions.
457  *		If two ports the same region zero-copy is possible.
458  *
459  *	nr_extra_bufs (in/out)
460  *		Number of extra buffers to be allocated.
461  *
462  * The other NETMAP_REQ_* commands are described below.
463  *
464  */
465 
466 /* maximum size of a request, including all options */
467 #define NETMAP_REQ_MAXSIZE	4096
468 
469 /* Header common to all request options. */
470 struct nmreq_option {
471 	/* Pointer ot the next option. */
472 	uint64_t		nro_next;
473 	/* Option type. */
474 	uint32_t		nro_reqtype;
475 	/* (out) status of the option:
476 	 * 0: recognized and processed
477 	 * !=0: errno value
478 	 */
479 	uint32_t		nro_status;
480 };
481 
482 /* Header common to all requests. Do not reorder these fields, as we need
483  * the second one (nr_reqtype) to know how much to copy from/to userspace. */
484 struct nmreq_header {
485 	uint16_t		nr_version;	/* API version */
486 	uint16_t		nr_reqtype;	/* nmreq type (NETMAP_REQ_*) */
487 	uint32_t		nr_reserved;	/* must be zero */
488 #define NETMAP_REQ_IFNAMSIZ	64
489 	char			nr_name[NETMAP_REQ_IFNAMSIZ]; /* port name */
490 	uint64_t		nr_options;	/* command-specific options */
491 	uint64_t		nr_body;	/* ptr to nmreq_xyz struct */
492 };
493 
494 enum {
495 	/* Register a netmap port with the device. */
496 	NETMAP_REQ_REGISTER = 1,
497 	/* Get information from a netmap port. */
498 	NETMAP_REQ_PORT_INFO_GET,
499 	/* Attach a netmap port to a VALE switch. */
500 	NETMAP_REQ_VALE_ATTACH,
501 	/* Detach a netmap port from a VALE switch. */
502 	NETMAP_REQ_VALE_DETACH,
503 	/* List the ports attached to a VALE switch. */
504 	NETMAP_REQ_VALE_LIST,
505 	/* Set the port header length (was virtio-net header length). */
506 	NETMAP_REQ_PORT_HDR_SET,
507 	/* Get the port header length (was virtio-net header length). */
508 	NETMAP_REQ_PORT_HDR_GET,
509 	/* Create a new persistent VALE port. */
510 	NETMAP_REQ_VALE_NEWIF,
511 	/* Delete a persistent VALE port. */
512 	NETMAP_REQ_VALE_DELIF,
513 	/* Enable polling kernel thread(s) on an attached VALE port. */
514 	NETMAP_REQ_VALE_POLLING_ENABLE,
515 	/* Disable polling kernel thread(s) on an attached VALE port. */
516 	NETMAP_REQ_VALE_POLLING_DISABLE,
517 	/* Get info about the pools of a memory allocator. */
518 	NETMAP_REQ_POOLS_INFO_GET,
519 };
520 
521 enum {
522 	/* On NETMAP_REQ_REGISTER, ask netmap to use memory allocated
523 	 * from user-space allocated memory pools (e.g. hugepages). */
524 	NETMAP_REQ_OPT_EXTMEM = 1,
525 };
526 
527 /*
528  * nr_reqtype: NETMAP_REQ_REGISTER
529  * Bind (register) a netmap port to this control device.
530  */
531 struct nmreq_register {
532 	uint64_t	nr_offset;	/* nifp offset in the shared region */
533 	uint64_t	nr_memsize;	/* size of the shared region */
534 	uint32_t	nr_tx_slots;	/* slots in tx rings */
535 	uint32_t	nr_rx_slots;	/* slots in rx rings */
536 	uint16_t	nr_tx_rings;	/* number of tx rings */
537 	uint16_t	nr_rx_rings;	/* number of rx rings */
538 
539 	uint16_t	nr_mem_id;	/* id of the memory allocator */
540 	uint16_t	nr_ringid;	/* ring(s) we care about */
541 	uint32_t	nr_mode;	/* specify NR_REG_* modes */
542 
543 	uint64_t	nr_flags;	/* additional flags (see below) */
544 /* monitors use nr_ringid and nr_mode to select the rings to monitor */
545 #define NR_MONITOR_TX	0x100
546 #define NR_MONITOR_RX	0x200
547 #define NR_ZCOPY_MON	0x400
548 /* request exclusive access to the selected rings */
549 #define NR_EXCLUSIVE	0x800
550 /* request ptnetmap host support */
551 #define NR_PASSTHROUGH_HOST	NR_PTNETMAP_HOST /* deprecated */
552 #define NR_PTNETMAP_HOST	0x1000
553 #define NR_RX_RINGS_ONLY	0x2000
554 #define NR_TX_RINGS_ONLY	0x4000
555 /* Applications set this flag if they are able to deal with virtio-net headers,
556  * that is send/receive frames that start with a virtio-net header.
557  * If not set, NIOCREGIF will fail with netmap ports that require applications
558  * to use those headers. If the flag is set, the application can use the
559  * NETMAP_VNET_HDR_GET command to figure out the header length. */
560 #define NR_ACCEPT_VNET_HDR	0x8000
561 /* The following two have the same meaning of NETMAP_NO_TX_POLL and
562  * NETMAP_DO_RX_POLL. */
563 #define NR_DO_RX_POLL		0x10000
564 #define NR_NO_TX_POLL		0x20000
565 
566 	uint32_t	nr_extra_bufs;	/* number of requested extra buffers */
567 };
568 
569 /* Valid values for nmreq_register.nr_mode (see above). */
570 enum {	NR_REG_DEFAULT	= 0,	/* backward compat, should not be used. */
571 	NR_REG_ALL_NIC	= 1,
572 	NR_REG_SW	= 2,
573 	NR_REG_NIC_SW	= 3,
574 	NR_REG_ONE_NIC	= 4,
575 	NR_REG_PIPE_MASTER = 5, /* deprecated, use "x{y" port name syntax */
576 	NR_REG_PIPE_SLAVE = 6,  /* deprecated, use "x}y" port name syntax */
577 };
578 
579 /* A single ioctl number is shared by all the new API command.
580  * Demultiplexing is done using the nr_hdr.nr_reqtype field.
581  * FreeBSD uses the size value embedded in the _IOWR to determine
582  * how much to copy in/out, so we define the ioctl() command
583  * specifying only nmreq_header, and copyin/copyout the rest. */
584 #define NIOCCTRL	_IOWR('i', 151, struct nmreq_header)
585 
586 /* The ioctl commands to sync TX/RX netmap rings.
587  * NIOCTXSYNC, NIOCRXSYNC synchronize tx or rx queues,
588  *	whose identity is set in NIOCREGIF through nr_ringid.
589  *	These are non blocking and take no argument. */
590 #define NIOCTXSYNC	_IO('i', 148) /* sync tx queues */
591 #define NIOCRXSYNC	_IO('i', 149) /* sync rx queues */
592 
593 /*
594  * nr_reqtype: NETMAP_REQ_PORT_INFO_GET
595  * Get information about a netmap port, including number of rings.
596  * slots per ring, id of the memory allocator, etc.
597  */
598 struct nmreq_port_info_get {
599 	uint64_t	nr_offset;	/* nifp offset in the shared region */
600 	uint64_t	nr_memsize;	/* size of the shared region */
601 	uint32_t	nr_tx_slots;	/* slots in tx rings */
602 	uint32_t	nr_rx_slots;	/* slots in rx rings */
603 	uint16_t	nr_tx_rings;	/* number of tx rings */
604 	uint16_t	nr_rx_rings;	/* number of rx rings */
605 	uint16_t	nr_mem_id;	/* id of the memory allocator */
606 };
607 
608 #define	NM_BDG_NAME		"vale"	/* prefix for bridge port name */
609 
610 /*
611  * nr_reqtype: NETMAP_REQ_VALE_ATTACH
612  * Attach a netmap port to a VALE switch. Both the name of the netmap
613  * port and the VALE switch are specified through the nr_name argument.
614  * The attach operation could need to register a port, so at least
615  * the same arguments are available.
616  * port_index will contain the index where the port has been attached.
617  */
618 struct nmreq_vale_attach {
619 	struct nmreq_register reg;
620 	uint32_t port_index;
621 };
622 
623 /*
624  * nr_reqtype: NETMAP_REQ_VALE_DETACH
625  * Detach a netmap port from a VALE switch. Both the name of the netmap
626  * port and the VALE switch are specified through the nr_name argument.
627  * port_index will contain the index where the port was attached.
628  */
629 struct nmreq_vale_detach {
630 	uint32_t port_index;
631 };
632 
633 /*
634  * nr_reqtype: NETMAP_REQ_VALE_LIST
635  * List the ports of a VALE switch.
636  */
637 struct nmreq_vale_list {
638 	/* Name of the VALE port (valeXXX:YYY) or empty. */
639 	uint16_t	nr_bridge_idx;
640 	uint32_t	nr_port_idx;
641 };
642 
643 /*
644  * nr_reqtype: NETMAP_REQ_PORT_HDR_SET or NETMAP_REQ_PORT_HDR_GET
645  * Set the port header length.
646  */
647 struct nmreq_port_hdr {
648 	uint32_t	nr_hdr_len;
649 };
650 
651 /*
652  * nr_reqtype: NETMAP_REQ_VALE_NEWIF
653  * Create a new persistent VALE port.
654  */
655 struct nmreq_vale_newif {
656 	uint32_t	nr_tx_slots;	/* slots in tx rings */
657 	uint32_t	nr_rx_slots;	/* slots in rx rings */
658 	uint16_t	nr_tx_rings;	/* number of tx rings */
659 	uint16_t	nr_rx_rings;	/* number of rx rings */
660 	uint16_t	nr_mem_id;	/* id of the memory allocator */
661 };
662 
663 /*
664  * nr_reqtype: NETMAP_REQ_VALE_POLLING_ENABLE or NETMAP_REQ_VALE_POLLING_DISABLE
665  * Enable or disable polling kthreads on a VALE port.
666  */
667 struct nmreq_vale_polling {
668 	uint32_t	nr_mode;
669 #define NETMAP_POLLING_MODE_SINGLE_CPU 1
670 #define NETMAP_POLLING_MODE_MULTI_CPU 2
671 	uint32_t	nr_first_cpu_id;
672 	uint32_t	nr_num_polling_cpus;
673 };
674 
675 /*
676  * nr_reqtype: NETMAP_REQ_POOLS_INFO_GET
677  * Get info about the pools of the memory allocator of the port bound
678  * to a given netmap control device (used i.e. by a ptnetmap-enabled
679  * hypervisor). The nr_hdr.nr_name field is ignored.
680  */
681 struct nmreq_pools_info {
682 	uint64_t	nr_memsize;
683 	uint16_t	nr_mem_id;
684 	uint64_t	nr_if_pool_offset;
685 	uint32_t	nr_if_pool_objtotal;
686 	uint32_t	nr_if_pool_objsize;
687 	uint64_t	nr_ring_pool_offset;
688 	uint32_t	nr_ring_pool_objtotal;
689 	uint32_t	nr_ring_pool_objsize;
690 	uint64_t	nr_buf_pool_offset;
691 	uint32_t	nr_buf_pool_objtotal;
692 	uint32_t	nr_buf_pool_objsize;
693 };
694 
695 /*
696  * data for NETMAP_REQ_OPT_* options
697  */
698 
699 struct nmreq_opt_extmem {
700 	struct nmreq_option	nro_opt;	/* common header */
701 	uint64_t		nro_usrptr;	/* (in) ptr to usr memory */
702 	struct nmreq_pools_info	nro_info;	/* (in/out) */
703 };
704 
705 #endif /* _NET_NETMAP_H_ */
706