2 * Copyright (c) 2011, 2013, 2014 Nicira, Inc.
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at:
8 * http://www.apache.org/licenses/LICENSE-2.0
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
23 #include <sys/ioctl.h>
29 #include "socket-util.h"
30 #include "openvswitch/vlog.h"
32 VLOG_DEFINE_THIS_MODULE(vlandev
);
34 /* A vlandev implementation. */
35 struct vlandev_class
{
36 int (*vd_refresh
)(void);
37 int (*vd_add
)(const char *real_dev
, int vid
);
38 int (*vd_del
)(const char *vlan_dev
);
42 static const struct vlandev_class vlandev_linux_class
;
44 static const struct vlandev_class vlandev_stub_class
;
45 static const struct vlandev_class vlandev_dummy_class
;
47 /* The in-use vlandev implementation. */
48 static const struct vlandev_class
*vd_class
;
50 /* Maps from a VLAN device name (e.g. "eth0.10") to struct vlan_dev. */
51 static struct shash vlan_devs
= SHASH_INITIALIZER(&vlan_devs
);
53 /* Maps from a VLAN real device name (e.g. "eth0") to struct vlan_real_dev. */
54 static struct shash vlan_real_devs
= SHASH_INITIALIZER(&vlan_real_devs
);
56 static int vlandev_add__(const char *vlan_dev
, const char *real_dev
, int vid
);
57 static int vlandev_del__(const char *vlan_dev
);
58 static void vlandev_clear__(void);
60 static const struct vlandev_class
*
61 vlandev_get_class(void)
65 vd_class
= &vlandev_linux_class
;
67 vd_class
= &vlandev_stub_class
;
73 /* On Linux, the default implementation of VLAN devices creates and destroys
74 * Linux VLAN devices. On other OSess, the default implementation is a
75 * nonfunctional stub. In either case, this function replaces this default
76 * implementation by a "dummy" implementation that simply reports back whatever
77 * the client sets up with vlandev_add() and vlandev_del().
79 * Don't call this function directly; use dummy_enable() from dummy.h. */
81 vlandev_dummy_enable(void)
83 if (vd_class
!= &vlandev_dummy_class
) {
84 vd_class
= &vlandev_dummy_class
;
89 /* Creates a new VLAN device for VLAN 'vid' on top of real Ethernet device
90 * 'real_dev'. Returns 0 if successful, otherwise a positive errno value. On
91 * OSes other than Linux, in the absence of dummies (see
92 * vlandev_dummy_enable()), this always fails.
94 * The name of the new VLAN device is not easily predictable, because Linux
95 * provides multiple naming schemes, does not allow the client to specify a
96 * name, and does not directly report the new VLAN device's name. Use
97 * vlandev_refresh() then vlandev_get_name() to find out the new VLAN device's
100 vlandev_add(const char *real_dev
, int vid
)
102 return vlandev_get_class()->vd_add(real_dev
, vid
);
105 /* Deletes the VLAN device named 'vlan_dev'. Returns 0 if successful,
106 * otherwise a positive errno value. On OSes other than Linux, in the absence
107 * of dummies (see vlandev_dummy_enable()), this always fails. */
109 vlandev_del(const char *vlan_dev
)
111 return vlandev_get_class()->vd_del(vlan_dev
);
114 /* Refreshes the cache of real device to VLAN device mappings reported by
115 * vlandev_get_real_devs() and vlandev_get_name(). Without calling this
116 * function, changes made by vlandev_add() and vlandev_del() may not be
117 * reflected by vlandev_get_real_devs() and vlandev_get_name() output. */
119 vlandev_refresh(void)
121 const struct vlandev_class
*class = vlandev_get_class();
122 return class->vd_refresh
? class->vd_refresh() : 0;
125 /* Returns a shash mapping from the name of real Ethernet devices used as the
126 * basis of VLAN devices to struct vlan_real_devs. The caller must not modify
127 * or free anything in the returned shash.
129 * Changes made by vlandev_add() and vlandev_del() may not be reflected in this
130 * function's output without an intervening call to vlandev_refresh(). */
132 vlandev_get_real_devs(void)
134 return &vlan_real_devs
;
137 /* Returns the name of the VLAN device for VLAN 'vid' on top of
138 * 'real_dev_name', or NULL if there is no such VLAN device.
140 * Changes made by vlandev_add() and vlandev_del() may not be reflected in this
141 * function's output without an intervening call to vlandev_refresh(). */
143 vlandev_get_name(const char *real_dev_name
, int vid
)
145 const struct vlan_real_dev
*real_dev
;
147 real_dev
= shash_find_data(&vlan_real_devs
, real_dev_name
);
149 const struct vlan_dev
*vlan_dev
;
151 HMAP_FOR_EACH_WITH_HASH (vlan_dev
, hmap_node
, hash_int(vid
, 0),
152 &real_dev
->vlan_devs
) {
153 if (vlan_dev
->vid
== vid
) {
154 return vlan_dev
->name
;
162 /* The Linux vlandev implementation. */
165 #include "rtnetlink-link.h"
166 #include <linux/if_vlan.h>
167 #include <linux/sockios.h>
168 #include "netdev-linux.h"
170 static struct nln_notifier
*vlan_cache_notifier
;
171 static bool cache_valid
;
174 vlan_cache_cb(const struct rtnetlink_link_change
*change OVS_UNUSED
,
175 void *aux OVS_UNUSED
)
181 vlandev_linux_refresh(void)
183 const char *fn
= "/proc/net/vlan/config";
187 if (!vlan_cache_notifier
) {
188 vlan_cache_notifier
= rtnetlink_link_notifier_create(vlan_cache_cb
,
190 if (!vlan_cache_notifier
) {
201 /* Repopulate cache. */
202 stream
= fopen(fn
, "r");
204 static struct vlog_rate_limit rl
= VLOG_RATE_LIMIT_INIT(1, 1);
208 if (error
== ENOENT
&& !stat("/proc", &s
)) {
209 /* Probably the vlan module just isn't loaded, and probably that's
210 * because no VLAN devices have been created.
212 * Not really an error. */
216 VLOG_WARN_RL(&rl
, "%s: open failed (%s)", fn
, ovs_strerror(error
));
220 while (fgets(line
, sizeof line
, stream
)) {
221 char vlan_dev
[16], real_dev
[16];
224 if (ovs_scan(line
, "%15[^ |] | %d | %15s", vlan_dev
, &vid
, real_dev
)) {
225 vlandev_add__(vlan_dev
, real_dev
, vid
);
235 do_vlan_ioctl(const char *netdev_name
, struct vlan_ioctl_args
*via
,
236 int cmd
, const char *cmd_name
)
238 static struct vlog_rate_limit rl
= VLOG_RATE_LIMIT_INIT(1, 1);
242 ovs_strlcpy(via
->device1
, netdev_name
, sizeof via
->device1
);
244 error
= af_inet_ioctl(SIOCSIFVLAN
, via
);
246 VLOG_WARN_RL(&rl
, "%s: VLAN ioctl %s failed (%s)",
247 netdev_name
, cmd_name
, ovs_strerror(error
));
253 vlandev_linux_add(const char *real_dev
, int vid
)
255 struct vlan_ioctl_args via
;
258 memset(&via
, 0, sizeof via
);
261 error
= do_vlan_ioctl(real_dev
, &via
, ADD_VLAN_CMD
, "ADD_VLAN_CMD");
269 vlandev_linux_del(const char *vlan_dev
)
271 struct vlan_ioctl_args via
;
274 memset(&via
, 0, sizeof via
);
275 error
= do_vlan_ioctl(vlan_dev
, &via
, DEL_VLAN_CMD
, "DEL_VLAN_CMD");
282 static const struct vlandev_class vlandev_linux_class
= {
283 vlandev_linux_refresh
,
289 /* Stub implementation. */
292 vlandev_stub_add(const char *real_dev OVS_UNUSED
, int vid OVS_UNUSED
)
294 VLOG_ERR("not supported on non-Linux platform");
299 vlandev_stub_del(const char *vlan_dev OVS_UNUSED
)
301 VLOG_ERR("not supported on non-Linux platform");
305 static const struct vlandev_class OVS_UNUSED vlandev_stub_class
= {
306 NULL
, /* vd_refresh */
311 /* Dummy implementation. */
314 vlandev_dummy_add(const char *real_dev
, int vid
)
318 if (snprintf(name
, sizeof name
, "%s.%d", real_dev
, vid
) >= sizeof name
) {
321 return vlandev_add__(name
, real_dev
, vid
);
325 vlandev_dummy_del(const char *vlan_dev
)
327 return vlandev_del__(vlan_dev
);
330 static const struct vlandev_class vlandev_dummy_class
= {
331 NULL
, /* vd_refresh */
337 vlandev_add__(const char *vlan_dev
, const char *real_dev
, int vid
)
339 uint32_t vid_hash
= hash_int(vid
, 0);
340 struct vlan_real_dev
*vrd
;
343 if (vid
< 0 || vid
> 4095) {
345 } else if (shash_find(&vlan_devs
, vlan_dev
)) {
349 vrd
= shash_find_data(&vlan_real_devs
, real_dev
);
351 vrd
= xmalloc(sizeof *vrd
);
352 vrd
->name
= xstrdup(real_dev
);
353 hmap_init(&vrd
->vlan_devs
);
354 shash_add_nocopy(&vlan_real_devs
, vrd
->name
, vrd
);
356 HMAP_FOR_EACH_WITH_HASH (vd
, hmap_node
, vid_hash
, &vrd
->vlan_devs
) {
357 if (vd
->vid
== vid
) {
363 vd
= xmalloc(sizeof *vd
);
364 hmap_insert(&vrd
->vlan_devs
, &vd
->hmap_node
, vid_hash
);
365 vd
->name
= xstrdup(vlan_dev
);
368 shash_add_nocopy(&vlan_devs
, vd
->name
, vd
);
374 vlandev_del__(const char *vlan_dev
)
376 struct shash_node
*vd_node
= shash_find(&vlan_devs
, vlan_dev
);
378 struct vlan_dev
*vd
= vd_node
->data
;
379 struct vlan_real_dev
*vrd
= vd
->real_dev
;
381 hmap_remove(&vrd
->vlan_devs
, &vd
->hmap_node
);
382 if (hmap_is_empty(&vrd
->vlan_devs
)) {
383 shash_find_and_delete_assert(&vlan_real_devs
, vrd
->name
);
387 shash_delete(&vlan_devs
, vd_node
);
396 /* Clear 'vlan_devs' and 'vlan_real_devs' in preparation for repopulating. */
398 vlandev_clear__(void)
400 /* We do not free the 'name' members of struct vlan_dev and struct
401 * vlan_real_dev, because the "shash"es own them.. */
402 struct shash_node
*node
;
404 shash_clear_free_data(&vlan_devs
);
405 SHASH_FOR_EACH (node
, &vlan_real_devs
) {
406 struct vlan_real_dev
*vrd
= node
->data
;
408 hmap_destroy(&vrd
->vlan_devs
);
410 shash_clear_free_data(&vlan_real_devs
);