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[mirror_ubuntu-zesty-kernel.git] / security / device_cgroup.c
1 /*
2 * device_cgroup.c - device cgroup subsystem
3 *
4 * Copyright 2007 IBM Corp
5 */
6
7 #include <linux/device_cgroup.h>
8 #include <linux/cgroup.h>
9 #include <linux/ctype.h>
10 #include <linux/list.h>
11 #include <linux/uaccess.h>
12 #include <linux/seq_file.h>
13 #include <linux/slab.h>
14 #include <linux/rcupdate.h>
15 #include <linux/mutex.h>
16
17 #define ACC_MKNOD 1
18 #define ACC_READ 2
19 #define ACC_WRITE 4
20 #define ACC_MASK (ACC_MKNOD | ACC_READ | ACC_WRITE)
21
22 #define DEV_BLOCK 1
23 #define DEV_CHAR 2
24 #define DEV_ALL 4 /* this represents all devices */
25
26 static DEFINE_MUTEX(devcgroup_mutex);
27
28 /*
29 * whitelist locking rules:
30 * hold devcgroup_mutex for update/read.
31 * hold rcu_read_lock() for read.
32 */
33
34 struct dev_whitelist_item {
35 u32 major, minor;
36 short type;
37 short access;
38 struct list_head list;
39 struct rcu_head rcu;
40 };
41
42 struct dev_cgroup {
43 struct cgroup_subsys_state css;
44 struct list_head whitelist;
45 };
46
47 static inline struct dev_cgroup *css_to_devcgroup(struct cgroup_subsys_state *s)
48 {
49 return container_of(s, struct dev_cgroup, css);
50 }
51
52 static inline struct dev_cgroup *cgroup_to_devcgroup(struct cgroup *cgroup)
53 {
54 return css_to_devcgroup(cgroup_subsys_state(cgroup, devices_subsys_id));
55 }
56
57 static inline struct dev_cgroup *task_devcgroup(struct task_struct *task)
58 {
59 return css_to_devcgroup(task_subsys_state(task, devices_subsys_id));
60 }
61
62 struct cgroup_subsys devices_subsys;
63
64 static int devcgroup_can_attach(struct cgroup *new_cgrp,
65 struct cgroup_taskset *set)
66 {
67 struct task_struct *task = cgroup_taskset_first(set);
68
69 if (current != task && !capable(CAP_SYS_ADMIN))
70 return -EPERM;
71 return 0;
72 }
73
74 /*
75 * called under devcgroup_mutex
76 */
77 static int dev_whitelist_copy(struct list_head *dest, struct list_head *orig)
78 {
79 struct dev_whitelist_item *wh, *tmp, *new;
80
81 list_for_each_entry(wh, orig, list) {
82 new = kmemdup(wh, sizeof(*wh), GFP_KERNEL);
83 if (!new)
84 goto free_and_exit;
85 list_add_tail(&new->list, dest);
86 }
87
88 return 0;
89
90 free_and_exit:
91 list_for_each_entry_safe(wh, tmp, dest, list) {
92 list_del(&wh->list);
93 kfree(wh);
94 }
95 return -ENOMEM;
96 }
97
98 /* Stupid prototype - don't bother combining existing entries */
99 /*
100 * called under devcgroup_mutex
101 */
102 static int dev_whitelist_add(struct dev_cgroup *dev_cgroup,
103 struct dev_whitelist_item *wh)
104 {
105 struct dev_whitelist_item *whcopy, *walk;
106
107 whcopy = kmemdup(wh, sizeof(*wh), GFP_KERNEL);
108 if (!whcopy)
109 return -ENOMEM;
110
111 list_for_each_entry(walk, &dev_cgroup->whitelist, list) {
112 if (walk->type != wh->type)
113 continue;
114 if (walk->major != wh->major)
115 continue;
116 if (walk->minor != wh->minor)
117 continue;
118
119 walk->access |= wh->access;
120 kfree(whcopy);
121 whcopy = NULL;
122 }
123
124 if (whcopy != NULL)
125 list_add_tail_rcu(&whcopy->list, &dev_cgroup->whitelist);
126 return 0;
127 }
128
129 /*
130 * called under devcgroup_mutex
131 */
132 static void dev_whitelist_rm(struct dev_cgroup *dev_cgroup,
133 struct dev_whitelist_item *wh)
134 {
135 struct dev_whitelist_item *walk, *tmp;
136
137 list_for_each_entry_safe(walk, tmp, &dev_cgroup->whitelist, list) {
138 if (walk->type == DEV_ALL)
139 goto remove;
140 if (walk->type != wh->type)
141 continue;
142 if (walk->major != ~0 && walk->major != wh->major)
143 continue;
144 if (walk->minor != ~0 && walk->minor != wh->minor)
145 continue;
146
147 remove:
148 walk->access &= ~wh->access;
149 if (!walk->access) {
150 list_del_rcu(&walk->list);
151 kfree_rcu(walk, rcu);
152 }
153 }
154 }
155
156 /*
157 * called from kernel/cgroup.c with cgroup_lock() held.
158 */
159 static struct cgroup_subsys_state *devcgroup_create(struct cgroup *cgroup)
160 {
161 struct dev_cgroup *dev_cgroup, *parent_dev_cgroup;
162 struct cgroup *parent_cgroup;
163 int ret;
164
165 dev_cgroup = kzalloc(sizeof(*dev_cgroup), GFP_KERNEL);
166 if (!dev_cgroup)
167 return ERR_PTR(-ENOMEM);
168 INIT_LIST_HEAD(&dev_cgroup->whitelist);
169 parent_cgroup = cgroup->parent;
170
171 if (parent_cgroup == NULL) {
172 struct dev_whitelist_item *wh;
173 wh = kmalloc(sizeof(*wh), GFP_KERNEL);
174 if (!wh) {
175 kfree(dev_cgroup);
176 return ERR_PTR(-ENOMEM);
177 }
178 wh->minor = wh->major = ~0;
179 wh->type = DEV_ALL;
180 wh->access = ACC_MASK;
181 list_add(&wh->list, &dev_cgroup->whitelist);
182 } else {
183 parent_dev_cgroup = cgroup_to_devcgroup(parent_cgroup);
184 mutex_lock(&devcgroup_mutex);
185 ret = dev_whitelist_copy(&dev_cgroup->whitelist,
186 &parent_dev_cgroup->whitelist);
187 mutex_unlock(&devcgroup_mutex);
188 if (ret) {
189 kfree(dev_cgroup);
190 return ERR_PTR(ret);
191 }
192 }
193
194 return &dev_cgroup->css;
195 }
196
197 static void devcgroup_destroy(struct cgroup *cgroup)
198 {
199 struct dev_cgroup *dev_cgroup;
200 struct dev_whitelist_item *wh, *tmp;
201
202 dev_cgroup = cgroup_to_devcgroup(cgroup);
203 list_for_each_entry_safe(wh, tmp, &dev_cgroup->whitelist, list) {
204 list_del(&wh->list);
205 kfree(wh);
206 }
207 kfree(dev_cgroup);
208 }
209
210 #define DEVCG_ALLOW 1
211 #define DEVCG_DENY 2
212 #define DEVCG_LIST 3
213
214 #define MAJMINLEN 13
215 #define ACCLEN 4
216
217 static void set_access(char *acc, short access)
218 {
219 int idx = 0;
220 memset(acc, 0, ACCLEN);
221 if (access & ACC_READ)
222 acc[idx++] = 'r';
223 if (access & ACC_WRITE)
224 acc[idx++] = 'w';
225 if (access & ACC_MKNOD)
226 acc[idx++] = 'm';
227 }
228
229 static char type_to_char(short type)
230 {
231 if (type == DEV_ALL)
232 return 'a';
233 if (type == DEV_CHAR)
234 return 'c';
235 if (type == DEV_BLOCK)
236 return 'b';
237 return 'X';
238 }
239
240 static void set_majmin(char *str, unsigned m)
241 {
242 if (m == ~0)
243 strcpy(str, "*");
244 else
245 sprintf(str, "%u", m);
246 }
247
248 static int devcgroup_seq_read(struct cgroup *cgroup, struct cftype *cft,
249 struct seq_file *m)
250 {
251 struct dev_cgroup *devcgroup = cgroup_to_devcgroup(cgroup);
252 struct dev_whitelist_item *wh;
253 char maj[MAJMINLEN], min[MAJMINLEN], acc[ACCLEN];
254
255 rcu_read_lock();
256 list_for_each_entry_rcu(wh, &devcgroup->whitelist, list) {
257 set_access(acc, wh->access);
258 set_majmin(maj, wh->major);
259 set_majmin(min, wh->minor);
260 seq_printf(m, "%c %s:%s %s\n", type_to_char(wh->type),
261 maj, min, acc);
262 }
263 rcu_read_unlock();
264
265 return 0;
266 }
267
268 /*
269 * may_access_whitelist:
270 * does the access granted to dev_cgroup c contain the access
271 * requested in whitelist item refwh.
272 * return 1 if yes, 0 if no.
273 * call with devcgroup_mutex held
274 */
275 static int may_access_whitelist(struct dev_cgroup *c,
276 struct dev_whitelist_item *refwh)
277 {
278 struct dev_whitelist_item *whitem;
279
280 list_for_each_entry(whitem, &c->whitelist, list) {
281 if (whitem->type & DEV_ALL)
282 return 1;
283 if ((refwh->type & DEV_BLOCK) && !(whitem->type & DEV_BLOCK))
284 continue;
285 if ((refwh->type & DEV_CHAR) && !(whitem->type & DEV_CHAR))
286 continue;
287 if (whitem->major != ~0 && whitem->major != refwh->major)
288 continue;
289 if (whitem->minor != ~0 && whitem->minor != refwh->minor)
290 continue;
291 if (refwh->access & (~whitem->access))
292 continue;
293 return 1;
294 }
295 return 0;
296 }
297
298 /*
299 * parent_has_perm:
300 * when adding a new allow rule to a device whitelist, the rule
301 * must be allowed in the parent device
302 */
303 static int parent_has_perm(struct dev_cgroup *childcg,
304 struct dev_whitelist_item *wh)
305 {
306 struct cgroup *pcg = childcg->css.cgroup->parent;
307 struct dev_cgroup *parent;
308
309 if (!pcg)
310 return 1;
311 parent = cgroup_to_devcgroup(pcg);
312 return may_access_whitelist(parent, wh);
313 }
314
315 /*
316 * Modify the whitelist using allow/deny rules.
317 * CAP_SYS_ADMIN is needed for this. It's at least separate from CAP_MKNOD
318 * so we can give a container CAP_MKNOD to let it create devices but not
319 * modify the whitelist.
320 * It seems likely we'll want to add a CAP_CONTAINER capability to allow
321 * us to also grant CAP_SYS_ADMIN to containers without giving away the
322 * device whitelist controls, but for now we'll stick with CAP_SYS_ADMIN
323 *
324 * Taking rules away is always allowed (given CAP_SYS_ADMIN). Granting
325 * new access is only allowed if you're in the top-level cgroup, or your
326 * parent cgroup has the access you're asking for.
327 */
328 static int devcgroup_update_access(struct dev_cgroup *devcgroup,
329 int filetype, const char *buffer)
330 {
331 const char *b;
332 char *endp;
333 int count;
334 struct dev_whitelist_item wh;
335
336 if (!capable(CAP_SYS_ADMIN))
337 return -EPERM;
338
339 memset(&wh, 0, sizeof(wh));
340 b = buffer;
341
342 switch (*b) {
343 case 'a':
344 wh.type = DEV_ALL;
345 wh.access = ACC_MASK;
346 wh.major = ~0;
347 wh.minor = ~0;
348 goto handle;
349 case 'b':
350 wh.type = DEV_BLOCK;
351 break;
352 case 'c':
353 wh.type = DEV_CHAR;
354 break;
355 default:
356 return -EINVAL;
357 }
358 b++;
359 if (!isspace(*b))
360 return -EINVAL;
361 b++;
362 if (*b == '*') {
363 wh.major = ~0;
364 b++;
365 } else if (isdigit(*b)) {
366 wh.major = simple_strtoul(b, &endp, 10);
367 b = endp;
368 } else {
369 return -EINVAL;
370 }
371 if (*b != ':')
372 return -EINVAL;
373 b++;
374
375 /* read minor */
376 if (*b == '*') {
377 wh.minor = ~0;
378 b++;
379 } else if (isdigit(*b)) {
380 wh.minor = simple_strtoul(b, &endp, 10);
381 b = endp;
382 } else {
383 return -EINVAL;
384 }
385 if (!isspace(*b))
386 return -EINVAL;
387 for (b++, count = 0; count < 3; count++, b++) {
388 switch (*b) {
389 case 'r':
390 wh.access |= ACC_READ;
391 break;
392 case 'w':
393 wh.access |= ACC_WRITE;
394 break;
395 case 'm':
396 wh.access |= ACC_MKNOD;
397 break;
398 case '\n':
399 case '\0':
400 count = 3;
401 break;
402 default:
403 return -EINVAL;
404 }
405 }
406
407 handle:
408 switch (filetype) {
409 case DEVCG_ALLOW:
410 if (!parent_has_perm(devcgroup, &wh))
411 return -EPERM;
412 return dev_whitelist_add(devcgroup, &wh);
413 case DEVCG_DENY:
414 dev_whitelist_rm(devcgroup, &wh);
415 break;
416 default:
417 return -EINVAL;
418 }
419 return 0;
420 }
421
422 static int devcgroup_access_write(struct cgroup *cgrp, struct cftype *cft,
423 const char *buffer)
424 {
425 int retval;
426
427 mutex_lock(&devcgroup_mutex);
428 retval = devcgroup_update_access(cgroup_to_devcgroup(cgrp),
429 cft->private, buffer);
430 mutex_unlock(&devcgroup_mutex);
431 return retval;
432 }
433
434 static struct cftype dev_cgroup_files[] = {
435 {
436 .name = "allow",
437 .write_string = devcgroup_access_write,
438 .private = DEVCG_ALLOW,
439 },
440 {
441 .name = "deny",
442 .write_string = devcgroup_access_write,
443 .private = DEVCG_DENY,
444 },
445 {
446 .name = "list",
447 .read_seq_string = devcgroup_seq_read,
448 .private = DEVCG_LIST,
449 },
450 { } /* terminate */
451 };
452
453 struct cgroup_subsys devices_subsys = {
454 .name = "devices",
455 .can_attach = devcgroup_can_attach,
456 .create = devcgroup_create,
457 .destroy = devcgroup_destroy,
458 .subsys_id = devices_subsys_id,
459 .base_cftypes = dev_cgroup_files,
460 };
461
462 int __devcgroup_inode_permission(struct inode *inode, int mask)
463 {
464 struct dev_cgroup *dev_cgroup;
465 struct dev_whitelist_item *wh;
466
467 rcu_read_lock();
468
469 dev_cgroup = task_devcgroup(current);
470
471 list_for_each_entry_rcu(wh, &dev_cgroup->whitelist, list) {
472 if (wh->type & DEV_ALL)
473 goto found;
474 if ((wh->type & DEV_BLOCK) && !S_ISBLK(inode->i_mode))
475 continue;
476 if ((wh->type & DEV_CHAR) && !S_ISCHR(inode->i_mode))
477 continue;
478 if (wh->major != ~0 && wh->major != imajor(inode))
479 continue;
480 if (wh->minor != ~0 && wh->minor != iminor(inode))
481 continue;
482
483 if ((mask & MAY_WRITE) && !(wh->access & ACC_WRITE))
484 continue;
485 if ((mask & MAY_READ) && !(wh->access & ACC_READ))
486 continue;
487 found:
488 rcu_read_unlock();
489 return 0;
490 }
491
492 rcu_read_unlock();
493
494 return -EPERM;
495 }
496
497 int devcgroup_inode_mknod(int mode, dev_t dev)
498 {
499 struct dev_cgroup *dev_cgroup;
500 struct dev_whitelist_item *wh;
501
502 if (!S_ISBLK(mode) && !S_ISCHR(mode))
503 return 0;
504
505 rcu_read_lock();
506
507 dev_cgroup = task_devcgroup(current);
508
509 list_for_each_entry_rcu(wh, &dev_cgroup->whitelist, list) {
510 if (wh->type & DEV_ALL)
511 goto found;
512 if ((wh->type & DEV_BLOCK) && !S_ISBLK(mode))
513 continue;
514 if ((wh->type & DEV_CHAR) && !S_ISCHR(mode))
515 continue;
516 if (wh->major != ~0 && wh->major != MAJOR(dev))
517 continue;
518 if (wh->minor != ~0 && wh->minor != MINOR(dev))
519 continue;
520
521 if (!(wh->access & ACC_MKNOD))
522 continue;
523 found:
524 rcu_read_unlock();
525 return 0;
526 }
527
528 rcu_read_unlock();
529
530 return -EPERM;
531 }
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