spi-topcliff-pch: Fix issue for transmitting over 4KByte
[zen-stable.git] / security / smack / smack_lsm.c
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1 /*
2 * Simplified MAC Kernel (smack) security module
4 * This file contains the smack hook function implementations.
6 * Authors:
7 * Casey Schaufler <casey@schaufler-ca.com>
8 * Jarkko Sakkinen <jarkko.sakkinen@intel.com>
10 * Copyright (C) 2007 Casey Schaufler <casey@schaufler-ca.com>
11 * Copyright (C) 2009 Hewlett-Packard Development Company, L.P.
12 * Paul Moore <paul@paul-moore.com>
13 * Copyright (C) 2010 Nokia Corporation
14 * Copyright (C) 2011 Intel Corporation.
16 * This program is free software; you can redistribute it and/or modify
17 * it under the terms of the GNU General Public License version 2,
18 * as published by the Free Software Foundation.
21 #include <linux/xattr.h>
22 #include <linux/pagemap.h>
23 #include <linux/mount.h>
24 #include <linux/stat.h>
25 #include <linux/kd.h>
26 #include <asm/ioctls.h>
27 #include <linux/ip.h>
28 #include <linux/tcp.h>
29 #include <linux/udp.h>
30 #include <linux/slab.h>
31 #include <linux/mutex.h>
32 #include <linux/pipe_fs_i.h>
33 #include <net/netlabel.h>
34 #include <net/cipso_ipv4.h>
35 #include <linux/audit.h>
36 #include <linux/magic.h>
37 #include <linux/dcache.h>
38 #include <linux/personality.h>
39 #include "smack.h"
41 #define task_security(task) (task_cred_xxx((task), security))
43 #define TRANS_TRUE "TRUE"
44 #define TRANS_TRUE_SIZE 4
46 /**
47 * smk_fetch - Fetch the smack label from a file.
48 * @ip: a pointer to the inode
49 * @dp: a pointer to the dentry
51 * Returns a pointer to the master list entry for the Smack label
52 * or NULL if there was no label to fetch.
54 static char *smk_fetch(const char *name, struct inode *ip, struct dentry *dp)
56 int rc;
57 char in[SMK_LABELLEN];
59 if (ip->i_op->getxattr == NULL)
60 return NULL;
62 rc = ip->i_op->getxattr(dp, name, in, SMK_LABELLEN);
63 if (rc < 0)
64 return NULL;
66 return smk_import(in, rc);
69 /**
70 * new_inode_smack - allocate an inode security blob
71 * @smack: a pointer to the Smack label to use in the blob
73 * Returns the new blob or NULL if there's no memory available
75 struct inode_smack *new_inode_smack(char *smack)
77 struct inode_smack *isp;
79 isp = kzalloc(sizeof(struct inode_smack), GFP_KERNEL);
80 if (isp == NULL)
81 return NULL;
83 isp->smk_inode = smack;
84 isp->smk_flags = 0;
85 mutex_init(&isp->smk_lock);
87 return isp;
90 /**
91 * new_task_smack - allocate a task security blob
92 * @smack: a pointer to the Smack label to use in the blob
94 * Returns the new blob or NULL if there's no memory available
96 static struct task_smack *new_task_smack(char *task, char *forked, gfp_t gfp)
98 struct task_smack *tsp;
100 tsp = kzalloc(sizeof(struct task_smack), gfp);
101 if (tsp == NULL)
102 return NULL;
104 tsp->smk_task = task;
105 tsp->smk_forked = forked;
106 INIT_LIST_HEAD(&tsp->smk_rules);
107 mutex_init(&tsp->smk_rules_lock);
109 return tsp;
113 * smk_copy_rules - copy a rule set
114 * @nhead - new rules header pointer
115 * @ohead - old rules header pointer
117 * Returns 0 on success, -ENOMEM on error
119 static int smk_copy_rules(struct list_head *nhead, struct list_head *ohead,
120 gfp_t gfp)
122 struct smack_rule *nrp;
123 struct smack_rule *orp;
124 int rc = 0;
126 INIT_LIST_HEAD(nhead);
128 list_for_each_entry_rcu(orp, ohead, list) {
129 nrp = kzalloc(sizeof(struct smack_rule), gfp);
130 if (nrp == NULL) {
131 rc = -ENOMEM;
132 break;
134 *nrp = *orp;
135 list_add_rcu(&nrp->list, nhead);
137 return rc;
141 * LSM hooks.
142 * We he, that is fun!
146 * smack_ptrace_access_check - Smack approval on PTRACE_ATTACH
147 * @ctp: child task pointer
148 * @mode: ptrace attachment mode
150 * Returns 0 if access is OK, an error code otherwise
152 * Do the capability checks, and require read and write.
154 static int smack_ptrace_access_check(struct task_struct *ctp, unsigned int mode)
156 int rc;
157 struct smk_audit_info ad;
158 char *tsp;
160 rc = cap_ptrace_access_check(ctp, mode);
161 if (rc != 0)
162 return rc;
164 tsp = smk_of_task(task_security(ctp));
165 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_TASK);
166 smk_ad_setfield_u_tsk(&ad, ctp);
168 rc = smk_curacc(tsp, MAY_READWRITE, &ad);
169 return rc;
173 * smack_ptrace_traceme - Smack approval on PTRACE_TRACEME
174 * @ptp: parent task pointer
176 * Returns 0 if access is OK, an error code otherwise
178 * Do the capability checks, and require read and write.
180 static int smack_ptrace_traceme(struct task_struct *ptp)
182 int rc;
183 struct smk_audit_info ad;
184 char *tsp;
186 rc = cap_ptrace_traceme(ptp);
187 if (rc != 0)
188 return rc;
190 tsp = smk_of_task(task_security(ptp));
191 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_TASK);
192 smk_ad_setfield_u_tsk(&ad, ptp);
194 rc = smk_curacc(tsp, MAY_READWRITE, &ad);
195 return rc;
199 * smack_syslog - Smack approval on syslog
200 * @type: message type
202 * Require that the task has the floor label
204 * Returns 0 on success, error code otherwise.
206 static int smack_syslog(int typefrom_file)
208 int rc = 0;
209 char *sp = smk_of_current();
211 if (capable(CAP_MAC_OVERRIDE))
212 return 0;
214 if (sp != smack_known_floor.smk_known)
215 rc = -EACCES;
217 return rc;
222 * Superblock Hooks.
226 * smack_sb_alloc_security - allocate a superblock blob
227 * @sb: the superblock getting the blob
229 * Returns 0 on success or -ENOMEM on error.
231 static int smack_sb_alloc_security(struct super_block *sb)
233 struct superblock_smack *sbsp;
235 sbsp = kzalloc(sizeof(struct superblock_smack), GFP_KERNEL);
237 if (sbsp == NULL)
238 return -ENOMEM;
240 sbsp->smk_root = smack_known_floor.smk_known;
241 sbsp->smk_default = smack_known_floor.smk_known;
242 sbsp->smk_floor = smack_known_floor.smk_known;
243 sbsp->smk_hat = smack_known_hat.smk_known;
244 sbsp->smk_initialized = 0;
245 spin_lock_init(&sbsp->smk_sblock);
247 sb->s_security = sbsp;
249 return 0;
253 * smack_sb_free_security - free a superblock blob
254 * @sb: the superblock getting the blob
257 static void smack_sb_free_security(struct super_block *sb)
259 kfree(sb->s_security);
260 sb->s_security = NULL;
264 * smack_sb_copy_data - copy mount options data for processing
265 * @orig: where to start
266 * @smackopts: mount options string
268 * Returns 0 on success or -ENOMEM on error.
270 * Copy the Smack specific mount options out of the mount
271 * options list.
273 static int smack_sb_copy_data(char *orig, char *smackopts)
275 char *cp, *commap, *otheropts, *dp;
277 otheropts = (char *)get_zeroed_page(GFP_KERNEL);
278 if (otheropts == NULL)
279 return -ENOMEM;
281 for (cp = orig, commap = orig; commap != NULL; cp = commap + 1) {
282 if (strstr(cp, SMK_FSDEFAULT) == cp)
283 dp = smackopts;
284 else if (strstr(cp, SMK_FSFLOOR) == cp)
285 dp = smackopts;
286 else if (strstr(cp, SMK_FSHAT) == cp)
287 dp = smackopts;
288 else if (strstr(cp, SMK_FSROOT) == cp)
289 dp = smackopts;
290 else
291 dp = otheropts;
293 commap = strchr(cp, ',');
294 if (commap != NULL)
295 *commap = '\0';
297 if (*dp != '\0')
298 strcat(dp, ",");
299 strcat(dp, cp);
302 strcpy(orig, otheropts);
303 free_page((unsigned long)otheropts);
305 return 0;
309 * smack_sb_kern_mount - Smack specific mount processing
310 * @sb: the file system superblock
311 * @flags: the mount flags
312 * @data: the smack mount options
314 * Returns 0 on success, an error code on failure
316 static int smack_sb_kern_mount(struct super_block *sb, int flags, void *data)
318 struct dentry *root = sb->s_root;
319 struct inode *inode = root->d_inode;
320 struct superblock_smack *sp = sb->s_security;
321 struct inode_smack *isp;
322 char *op;
323 char *commap;
324 char *nsp;
326 spin_lock(&sp->smk_sblock);
327 if (sp->smk_initialized != 0) {
328 spin_unlock(&sp->smk_sblock);
329 return 0;
331 sp->smk_initialized = 1;
332 spin_unlock(&sp->smk_sblock);
334 for (op = data; op != NULL; op = commap) {
335 commap = strchr(op, ',');
336 if (commap != NULL)
337 *commap++ = '\0';
339 if (strncmp(op, SMK_FSHAT, strlen(SMK_FSHAT)) == 0) {
340 op += strlen(SMK_FSHAT);
341 nsp = smk_import(op, 0);
342 if (nsp != NULL)
343 sp->smk_hat = nsp;
344 } else if (strncmp(op, SMK_FSFLOOR, strlen(SMK_FSFLOOR)) == 0) {
345 op += strlen(SMK_FSFLOOR);
346 nsp = smk_import(op, 0);
347 if (nsp != NULL)
348 sp->smk_floor = nsp;
349 } else if (strncmp(op, SMK_FSDEFAULT,
350 strlen(SMK_FSDEFAULT)) == 0) {
351 op += strlen(SMK_FSDEFAULT);
352 nsp = smk_import(op, 0);
353 if (nsp != NULL)
354 sp->smk_default = nsp;
355 } else if (strncmp(op, SMK_FSROOT, strlen(SMK_FSROOT)) == 0) {
356 op += strlen(SMK_FSROOT);
357 nsp = smk_import(op, 0);
358 if (nsp != NULL)
359 sp->smk_root = nsp;
364 * Initialize the root inode.
366 isp = inode->i_security;
367 if (isp == NULL)
368 inode->i_security = new_inode_smack(sp->smk_root);
369 else
370 isp->smk_inode = sp->smk_root;
372 return 0;
376 * smack_sb_statfs - Smack check on statfs
377 * @dentry: identifies the file system in question
379 * Returns 0 if current can read the floor of the filesystem,
380 * and error code otherwise
382 static int smack_sb_statfs(struct dentry *dentry)
384 struct superblock_smack *sbp = dentry->d_sb->s_security;
385 int rc;
386 struct smk_audit_info ad;
388 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_DENTRY);
389 smk_ad_setfield_u_fs_path_dentry(&ad, dentry);
391 rc = smk_curacc(sbp->smk_floor, MAY_READ, &ad);
392 return rc;
396 * smack_sb_mount - Smack check for mounting
397 * @dev_name: unused
398 * @path: mount point
399 * @type: unused
400 * @flags: unused
401 * @data: unused
403 * Returns 0 if current can write the floor of the filesystem
404 * being mounted on, an error code otherwise.
406 static int smack_sb_mount(char *dev_name, struct path *path,
407 char *type, unsigned long flags, void *data)
409 struct superblock_smack *sbp = path->dentry->d_sb->s_security;
410 struct smk_audit_info ad;
412 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_PATH);
413 smk_ad_setfield_u_fs_path(&ad, *path);
415 return smk_curacc(sbp->smk_floor, MAY_WRITE, &ad);
419 * smack_sb_umount - Smack check for unmounting
420 * @mnt: file system to unmount
421 * @flags: unused
423 * Returns 0 if current can write the floor of the filesystem
424 * being unmounted, an error code otherwise.
426 static int smack_sb_umount(struct vfsmount *mnt, int flags)
428 struct superblock_smack *sbp;
429 struct smk_audit_info ad;
430 struct path path;
432 path.dentry = mnt->mnt_root;
433 path.mnt = mnt;
435 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_PATH);
436 smk_ad_setfield_u_fs_path(&ad, path);
438 sbp = path.dentry->d_sb->s_security;
439 return smk_curacc(sbp->smk_floor, MAY_WRITE, &ad);
443 * BPRM hooks
447 * smack_bprm_set_creds - set creds for exec
448 * @bprm: the exec information
450 * Returns 0 if it gets a blob, -ENOMEM otherwise
452 static int smack_bprm_set_creds(struct linux_binprm *bprm)
454 struct inode *inode = bprm->file->f_path.dentry->d_inode;
455 struct task_smack *bsp = bprm->cred->security;
456 struct inode_smack *isp;
457 int rc;
459 rc = cap_bprm_set_creds(bprm);
460 if (rc != 0)
461 return rc;
463 if (bprm->cred_prepared)
464 return 0;
466 isp = inode->i_security;
467 if (isp->smk_task == NULL || isp->smk_task == bsp->smk_task)
468 return 0;
470 if (bprm->unsafe)
471 return -EPERM;
473 bsp->smk_task = isp->smk_task;
474 bprm->per_clear |= PER_CLEAR_ON_SETID;
476 return 0;
480 * smack_bprm_committing_creds - Prepare to install the new credentials
481 * from bprm.
483 * @bprm: binprm for exec
485 static void smack_bprm_committing_creds(struct linux_binprm *bprm)
487 struct task_smack *bsp = bprm->cred->security;
489 if (bsp->smk_task != bsp->smk_forked)
490 current->pdeath_signal = 0;
494 * smack_bprm_secureexec - Return the decision to use secureexec.
495 * @bprm: binprm for exec
497 * Returns 0 on success.
499 static int smack_bprm_secureexec(struct linux_binprm *bprm)
501 struct task_smack *tsp = current_security();
502 int ret = cap_bprm_secureexec(bprm);
504 if (!ret && (tsp->smk_task != tsp->smk_forked))
505 ret = 1;
507 return ret;
511 * Inode hooks
515 * smack_inode_alloc_security - allocate an inode blob
516 * @inode: the inode in need of a blob
518 * Returns 0 if it gets a blob, -ENOMEM otherwise
520 static int smack_inode_alloc_security(struct inode *inode)
522 inode->i_security = new_inode_smack(smk_of_current());
523 if (inode->i_security == NULL)
524 return -ENOMEM;
525 return 0;
529 * smack_inode_free_security - free an inode blob
530 * @inode: the inode with a blob
532 * Clears the blob pointer in inode
534 static void smack_inode_free_security(struct inode *inode)
536 kfree(inode->i_security);
537 inode->i_security = NULL;
541 * smack_inode_init_security - copy out the smack from an inode
542 * @inode: the inode
543 * @dir: unused
544 * @qstr: unused
545 * @name: where to put the attribute name
546 * @value: where to put the attribute value
547 * @len: where to put the length of the attribute
549 * Returns 0 if it all works out, -ENOMEM if there's no memory
551 static int smack_inode_init_security(struct inode *inode, struct inode *dir,
552 const struct qstr *qstr, char **name,
553 void **value, size_t *len)
555 struct smack_known *skp;
556 char *csp = smk_of_current();
557 char *isp = smk_of_inode(inode);
558 char *dsp = smk_of_inode(dir);
559 int may;
561 if (name) {
562 *name = kstrdup(XATTR_SMACK_SUFFIX, GFP_KERNEL);
563 if (*name == NULL)
564 return -ENOMEM;
567 if (value) {
568 skp = smk_find_entry(csp);
569 rcu_read_lock();
570 may = smk_access_entry(csp, dsp, &skp->smk_rules);
571 rcu_read_unlock();
574 * If the access rule allows transmutation and
575 * the directory requests transmutation then
576 * by all means transmute.
578 if (may > 0 && ((may & MAY_TRANSMUTE) != 0) &&
579 smk_inode_transmutable(dir))
580 isp = dsp;
582 *value = kstrdup(isp, GFP_KERNEL);
583 if (*value == NULL)
584 return -ENOMEM;
587 if (len)
588 *len = strlen(isp) + 1;
590 return 0;
594 * smack_inode_link - Smack check on link
595 * @old_dentry: the existing object
596 * @dir: unused
597 * @new_dentry: the new object
599 * Returns 0 if access is permitted, an error code otherwise
601 static int smack_inode_link(struct dentry *old_dentry, struct inode *dir,
602 struct dentry *new_dentry)
604 char *isp;
605 struct smk_audit_info ad;
606 int rc;
608 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_DENTRY);
609 smk_ad_setfield_u_fs_path_dentry(&ad, old_dentry);
611 isp = smk_of_inode(old_dentry->d_inode);
612 rc = smk_curacc(isp, MAY_WRITE, &ad);
614 if (rc == 0 && new_dentry->d_inode != NULL) {
615 isp = smk_of_inode(new_dentry->d_inode);
616 smk_ad_setfield_u_fs_path_dentry(&ad, new_dentry);
617 rc = smk_curacc(isp, MAY_WRITE, &ad);
620 return rc;
624 * smack_inode_unlink - Smack check on inode deletion
625 * @dir: containing directory object
626 * @dentry: file to unlink
628 * Returns 0 if current can write the containing directory
629 * and the object, error code otherwise
631 static int smack_inode_unlink(struct inode *dir, struct dentry *dentry)
633 struct inode *ip = dentry->d_inode;
634 struct smk_audit_info ad;
635 int rc;
637 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_DENTRY);
638 smk_ad_setfield_u_fs_path_dentry(&ad, dentry);
641 * You need write access to the thing you're unlinking
643 rc = smk_curacc(smk_of_inode(ip), MAY_WRITE, &ad);
644 if (rc == 0) {
646 * You also need write access to the containing directory
648 smk_ad_setfield_u_fs_path_dentry(&ad, NULL);
649 smk_ad_setfield_u_fs_inode(&ad, dir);
650 rc = smk_curacc(smk_of_inode(dir), MAY_WRITE, &ad);
652 return rc;
656 * smack_inode_rmdir - Smack check on directory deletion
657 * @dir: containing directory object
658 * @dentry: directory to unlink
660 * Returns 0 if current can write the containing directory
661 * and the directory, error code otherwise
663 static int smack_inode_rmdir(struct inode *dir, struct dentry *dentry)
665 struct smk_audit_info ad;
666 int rc;
668 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_DENTRY);
669 smk_ad_setfield_u_fs_path_dentry(&ad, dentry);
672 * You need write access to the thing you're removing
674 rc = smk_curacc(smk_of_inode(dentry->d_inode), MAY_WRITE, &ad);
675 if (rc == 0) {
677 * You also need write access to the containing directory
679 smk_ad_setfield_u_fs_path_dentry(&ad, NULL);
680 smk_ad_setfield_u_fs_inode(&ad, dir);
681 rc = smk_curacc(smk_of_inode(dir), MAY_WRITE, &ad);
684 return rc;
688 * smack_inode_rename - Smack check on rename
689 * @old_inode: the old directory
690 * @old_dentry: unused
691 * @new_inode: the new directory
692 * @new_dentry: unused
694 * Read and write access is required on both the old and
695 * new directories.
697 * Returns 0 if access is permitted, an error code otherwise
699 static int smack_inode_rename(struct inode *old_inode,
700 struct dentry *old_dentry,
701 struct inode *new_inode,
702 struct dentry *new_dentry)
704 int rc;
705 char *isp;
706 struct smk_audit_info ad;
708 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_DENTRY);
709 smk_ad_setfield_u_fs_path_dentry(&ad, old_dentry);
711 isp = smk_of_inode(old_dentry->d_inode);
712 rc = smk_curacc(isp, MAY_READWRITE, &ad);
714 if (rc == 0 && new_dentry->d_inode != NULL) {
715 isp = smk_of_inode(new_dentry->d_inode);
716 smk_ad_setfield_u_fs_path_dentry(&ad, new_dentry);
717 rc = smk_curacc(isp, MAY_READWRITE, &ad);
719 return rc;
723 * smack_inode_permission - Smack version of permission()
724 * @inode: the inode in question
725 * @mask: the access requested
727 * This is the important Smack hook.
729 * Returns 0 if access is permitted, -EACCES otherwise
731 static int smack_inode_permission(struct inode *inode, int mask)
733 struct smk_audit_info ad;
734 int no_block = mask & MAY_NOT_BLOCK;
736 mask &= (MAY_READ|MAY_WRITE|MAY_EXEC|MAY_APPEND);
738 * No permission to check. Existence test. Yup, it's there.
740 if (mask == 0)
741 return 0;
743 /* May be droppable after audit */
744 if (no_block)
745 return -ECHILD;
746 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_INODE);
747 smk_ad_setfield_u_fs_inode(&ad, inode);
748 return smk_curacc(smk_of_inode(inode), mask, &ad);
752 * smack_inode_setattr - Smack check for setting attributes
753 * @dentry: the object
754 * @iattr: for the force flag
756 * Returns 0 if access is permitted, an error code otherwise
758 static int smack_inode_setattr(struct dentry *dentry, struct iattr *iattr)
760 struct smk_audit_info ad;
762 * Need to allow for clearing the setuid bit.
764 if (iattr->ia_valid & ATTR_FORCE)
765 return 0;
766 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_DENTRY);
767 smk_ad_setfield_u_fs_path_dentry(&ad, dentry);
769 return smk_curacc(smk_of_inode(dentry->d_inode), MAY_WRITE, &ad);
773 * smack_inode_getattr - Smack check for getting attributes
774 * @mnt: unused
775 * @dentry: the object
777 * Returns 0 if access is permitted, an error code otherwise
779 static int smack_inode_getattr(struct vfsmount *mnt, struct dentry *dentry)
781 struct smk_audit_info ad;
782 struct path path;
784 path.dentry = dentry;
785 path.mnt = mnt;
787 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_PATH);
788 smk_ad_setfield_u_fs_path(&ad, path);
789 return smk_curacc(smk_of_inode(dentry->d_inode), MAY_READ, &ad);
793 * smack_inode_setxattr - Smack check for setting xattrs
794 * @dentry: the object
795 * @name: name of the attribute
796 * @value: unused
797 * @size: unused
798 * @flags: unused
800 * This protects the Smack attribute explicitly.
802 * Returns 0 if access is permitted, an error code otherwise
804 static int smack_inode_setxattr(struct dentry *dentry, const char *name,
805 const void *value, size_t size, int flags)
807 struct smk_audit_info ad;
808 int rc = 0;
810 if (strcmp(name, XATTR_NAME_SMACK) == 0 ||
811 strcmp(name, XATTR_NAME_SMACKIPIN) == 0 ||
812 strcmp(name, XATTR_NAME_SMACKIPOUT) == 0 ||
813 strcmp(name, XATTR_NAME_SMACKEXEC) == 0 ||
814 strcmp(name, XATTR_NAME_SMACKMMAP) == 0) {
815 if (!capable(CAP_MAC_ADMIN))
816 rc = -EPERM;
818 * check label validity here so import wont fail on
819 * post_setxattr
821 if (size == 0 || size >= SMK_LABELLEN ||
822 smk_import(value, size) == NULL)
823 rc = -EINVAL;
824 } else if (strcmp(name, XATTR_NAME_SMACKTRANSMUTE) == 0) {
825 if (!capable(CAP_MAC_ADMIN))
826 rc = -EPERM;
827 if (size != TRANS_TRUE_SIZE ||
828 strncmp(value, TRANS_TRUE, TRANS_TRUE_SIZE) != 0)
829 rc = -EINVAL;
830 } else
831 rc = cap_inode_setxattr(dentry, name, value, size, flags);
833 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_DENTRY);
834 smk_ad_setfield_u_fs_path_dentry(&ad, dentry);
836 if (rc == 0)
837 rc = smk_curacc(smk_of_inode(dentry->d_inode), MAY_WRITE, &ad);
839 return rc;
843 * smack_inode_post_setxattr - Apply the Smack update approved above
844 * @dentry: object
845 * @name: attribute name
846 * @value: attribute value
847 * @size: attribute size
848 * @flags: unused
850 * Set the pointer in the inode blob to the entry found
851 * in the master label list.
853 static void smack_inode_post_setxattr(struct dentry *dentry, const char *name,
854 const void *value, size_t size, int flags)
856 char *nsp;
857 struct inode_smack *isp = dentry->d_inode->i_security;
859 if (strcmp(name, XATTR_NAME_SMACK) == 0) {
860 nsp = smk_import(value, size);
861 if (nsp != NULL)
862 isp->smk_inode = nsp;
863 else
864 isp->smk_inode = smack_known_invalid.smk_known;
865 } else if (strcmp(name, XATTR_NAME_SMACKEXEC) == 0) {
866 nsp = smk_import(value, size);
867 if (nsp != NULL)
868 isp->smk_task = nsp;
869 else
870 isp->smk_task = smack_known_invalid.smk_known;
871 } else if (strcmp(name, XATTR_NAME_SMACKMMAP) == 0) {
872 nsp = smk_import(value, size);
873 if (nsp != NULL)
874 isp->smk_mmap = nsp;
875 else
876 isp->smk_mmap = smack_known_invalid.smk_known;
877 } else if (strcmp(name, XATTR_NAME_SMACKTRANSMUTE) == 0)
878 isp->smk_flags |= SMK_INODE_TRANSMUTE;
880 return;
884 * smack_inode_getxattr - Smack check on getxattr
885 * @dentry: the object
886 * @name: unused
888 * Returns 0 if access is permitted, an error code otherwise
890 static int smack_inode_getxattr(struct dentry *dentry, const char *name)
892 struct smk_audit_info ad;
894 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_DENTRY);
895 smk_ad_setfield_u_fs_path_dentry(&ad, dentry);
897 return smk_curacc(smk_of_inode(dentry->d_inode), MAY_READ, &ad);
901 * smack_inode_removexattr - Smack check on removexattr
902 * @dentry: the object
903 * @name: name of the attribute
905 * Removing the Smack attribute requires CAP_MAC_ADMIN
907 * Returns 0 if access is permitted, an error code otherwise
909 static int smack_inode_removexattr(struct dentry *dentry, const char *name)
911 struct inode_smack *isp;
912 struct smk_audit_info ad;
913 int rc = 0;
915 if (strcmp(name, XATTR_NAME_SMACK) == 0 ||
916 strcmp(name, XATTR_NAME_SMACKIPIN) == 0 ||
917 strcmp(name, XATTR_NAME_SMACKIPOUT) == 0 ||
918 strcmp(name, XATTR_NAME_SMACKEXEC) == 0 ||
919 strcmp(name, XATTR_NAME_SMACKTRANSMUTE) == 0 ||
920 strcmp(name, XATTR_NAME_SMACKMMAP)) {
921 if (!capable(CAP_MAC_ADMIN))
922 rc = -EPERM;
923 } else
924 rc = cap_inode_removexattr(dentry, name);
926 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_DENTRY);
927 smk_ad_setfield_u_fs_path_dentry(&ad, dentry);
928 if (rc == 0)
929 rc = smk_curacc(smk_of_inode(dentry->d_inode), MAY_WRITE, &ad);
931 if (rc == 0) {
932 isp = dentry->d_inode->i_security;
933 isp->smk_task = NULL;
934 isp->smk_mmap = NULL;
937 return rc;
941 * smack_inode_getsecurity - get smack xattrs
942 * @inode: the object
943 * @name: attribute name
944 * @buffer: where to put the result
945 * @alloc: unused
947 * Returns the size of the attribute or an error code
949 static int smack_inode_getsecurity(const struct inode *inode,
950 const char *name, void **buffer,
951 bool alloc)
953 struct socket_smack *ssp;
954 struct socket *sock;
955 struct super_block *sbp;
956 struct inode *ip = (struct inode *)inode;
957 char *isp;
958 int ilen;
959 int rc = 0;
961 if (strcmp(name, XATTR_SMACK_SUFFIX) == 0) {
962 isp = smk_of_inode(inode);
963 ilen = strlen(isp) + 1;
964 *buffer = isp;
965 return ilen;
969 * The rest of the Smack xattrs are only on sockets.
971 sbp = ip->i_sb;
972 if (sbp->s_magic != SOCKFS_MAGIC)
973 return -EOPNOTSUPP;
975 sock = SOCKET_I(ip);
976 if (sock == NULL || sock->sk == NULL)
977 return -EOPNOTSUPP;
979 ssp = sock->sk->sk_security;
981 if (strcmp(name, XATTR_SMACK_IPIN) == 0)
982 isp = ssp->smk_in;
983 else if (strcmp(name, XATTR_SMACK_IPOUT) == 0)
984 isp = ssp->smk_out;
985 else
986 return -EOPNOTSUPP;
988 ilen = strlen(isp) + 1;
989 if (rc == 0) {
990 *buffer = isp;
991 rc = ilen;
994 return rc;
999 * smack_inode_listsecurity - list the Smack attributes
1000 * @inode: the object
1001 * @buffer: where they go
1002 * @buffer_size: size of buffer
1004 * Returns 0 on success, -EINVAL otherwise
1006 static int smack_inode_listsecurity(struct inode *inode, char *buffer,
1007 size_t buffer_size)
1009 int len = strlen(XATTR_NAME_SMACK);
1011 if (buffer != NULL && len <= buffer_size) {
1012 memcpy(buffer, XATTR_NAME_SMACK, len);
1013 return len;
1015 return -EINVAL;
1019 * smack_inode_getsecid - Extract inode's security id
1020 * @inode: inode to extract the info from
1021 * @secid: where result will be saved
1023 static void smack_inode_getsecid(const struct inode *inode, u32 *secid)
1025 struct inode_smack *isp = inode->i_security;
1027 *secid = smack_to_secid(isp->smk_inode);
1031 * File Hooks
1035 * smack_file_permission - Smack check on file operations
1036 * @file: unused
1037 * @mask: unused
1039 * Returns 0
1041 * Should access checks be done on each read or write?
1042 * UNICOS and SELinux say yes.
1043 * Trusted Solaris, Trusted Irix, and just about everyone else says no.
1045 * I'll say no for now. Smack does not do the frequent
1046 * label changing that SELinux does.
1048 static int smack_file_permission(struct file *file, int mask)
1050 return 0;
1054 * smack_file_alloc_security - assign a file security blob
1055 * @file: the object
1057 * The security blob for a file is a pointer to the master
1058 * label list, so no allocation is done.
1060 * Returns 0
1062 static int smack_file_alloc_security(struct file *file)
1064 file->f_security = smk_of_current();
1065 return 0;
1069 * smack_file_free_security - clear a file security blob
1070 * @file: the object
1072 * The security blob for a file is a pointer to the master
1073 * label list, so no memory is freed.
1075 static void smack_file_free_security(struct file *file)
1077 file->f_security = NULL;
1081 * smack_file_ioctl - Smack check on ioctls
1082 * @file: the object
1083 * @cmd: what to do
1084 * @arg: unused
1086 * Relies heavily on the correct use of the ioctl command conventions.
1088 * Returns 0 if allowed, error code otherwise
1090 static int smack_file_ioctl(struct file *file, unsigned int cmd,
1091 unsigned long arg)
1093 int rc = 0;
1094 struct smk_audit_info ad;
1096 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_PATH);
1097 smk_ad_setfield_u_fs_path(&ad, file->f_path);
1099 if (_IOC_DIR(cmd) & _IOC_WRITE)
1100 rc = smk_curacc(file->f_security, MAY_WRITE, &ad);
1102 if (rc == 0 && (_IOC_DIR(cmd) & _IOC_READ))
1103 rc = smk_curacc(file->f_security, MAY_READ, &ad);
1105 return rc;
1109 * smack_file_lock - Smack check on file locking
1110 * @file: the object
1111 * @cmd: unused
1113 * Returns 0 if current has write access, error code otherwise
1115 static int smack_file_lock(struct file *file, unsigned int cmd)
1117 struct smk_audit_info ad;
1119 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_PATH);
1120 smk_ad_setfield_u_fs_path(&ad, file->f_path);
1121 return smk_curacc(file->f_security, MAY_WRITE, &ad);
1125 * smack_file_fcntl - Smack check on fcntl
1126 * @file: the object
1127 * @cmd: what action to check
1128 * @arg: unused
1130 * Generally these operations are harmless.
1131 * File locking operations present an obvious mechanism
1132 * for passing information, so they require write access.
1134 * Returns 0 if current has access, error code otherwise
1136 static int smack_file_fcntl(struct file *file, unsigned int cmd,
1137 unsigned long arg)
1139 struct smk_audit_info ad;
1140 int rc = 0;
1143 switch (cmd) {
1144 case F_GETLK:
1145 case F_SETLK:
1146 case F_SETLKW:
1147 case F_SETOWN:
1148 case F_SETSIG:
1149 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_PATH);
1150 smk_ad_setfield_u_fs_path(&ad, file->f_path);
1151 rc = smk_curacc(file->f_security, MAY_WRITE, &ad);
1152 break;
1153 default:
1154 break;
1157 return rc;
1161 * smack_file_mmap :
1162 * Check permissions for a mmap operation. The @file may be NULL, e.g.
1163 * if mapping anonymous memory.
1164 * @file contains the file structure for file to map (may be NULL).
1165 * @reqprot contains the protection requested by the application.
1166 * @prot contains the protection that will be applied by the kernel.
1167 * @flags contains the operational flags.
1168 * Return 0 if permission is granted.
1170 static int smack_file_mmap(struct file *file,
1171 unsigned long reqprot, unsigned long prot,
1172 unsigned long flags, unsigned long addr,
1173 unsigned long addr_only)
1175 struct smack_known *skp;
1176 struct smack_rule *srp;
1177 struct task_smack *tsp;
1178 char *sp;
1179 char *msmack;
1180 char *osmack;
1181 struct inode_smack *isp;
1182 struct dentry *dp;
1183 int may;
1184 int mmay;
1185 int tmay;
1186 int rc;
1188 /* do DAC check on address space usage */
1189 rc = cap_file_mmap(file, reqprot, prot, flags, addr, addr_only);
1190 if (rc || addr_only)
1191 return rc;
1193 if (file == NULL || file->f_dentry == NULL)
1194 return 0;
1196 dp = file->f_dentry;
1198 if (dp->d_inode == NULL)
1199 return 0;
1201 isp = dp->d_inode->i_security;
1202 if (isp->smk_mmap == NULL)
1203 return 0;
1204 msmack = isp->smk_mmap;
1206 tsp = current_security();
1207 sp = smk_of_current();
1208 skp = smk_find_entry(sp);
1209 rc = 0;
1211 rcu_read_lock();
1213 * For each Smack rule associated with the subject
1214 * label verify that the SMACK64MMAP also has access
1215 * to that rule's object label.
1217 list_for_each_entry_rcu(srp, &skp->smk_rules, list) {
1218 osmack = srp->smk_object;
1220 * Matching labels always allows access.
1222 if (msmack == osmack)
1223 continue;
1225 * If there is a matching local rule take
1226 * that into account as well.
1228 may = smk_access_entry(srp->smk_subject, osmack,
1229 &tsp->smk_rules);
1230 if (may == -ENOENT)
1231 may = srp->smk_access;
1232 else
1233 may &= srp->smk_access;
1235 * If may is zero the SMACK64MMAP subject can't
1236 * possibly have less access.
1238 if (may == 0)
1239 continue;
1242 * Fetch the global list entry.
1243 * If there isn't one a SMACK64MMAP subject
1244 * can't have as much access as current.
1246 skp = smk_find_entry(msmack);
1247 mmay = smk_access_entry(msmack, osmack, &skp->smk_rules);
1248 if (mmay == -ENOENT) {
1249 rc = -EACCES;
1250 break;
1253 * If there is a local entry it modifies the
1254 * potential access, too.
1256 tmay = smk_access_entry(msmack, osmack, &tsp->smk_rules);
1257 if (tmay != -ENOENT)
1258 mmay &= tmay;
1261 * If there is any access available to current that is
1262 * not available to a SMACK64MMAP subject
1263 * deny access.
1265 if ((may | mmay) != mmay) {
1266 rc = -EACCES;
1267 break;
1271 rcu_read_unlock();
1273 return rc;
1277 * smack_file_set_fowner - set the file security blob value
1278 * @file: object in question
1280 * Returns 0
1281 * Further research may be required on this one.
1283 static int smack_file_set_fowner(struct file *file)
1285 file->f_security = smk_of_current();
1286 return 0;
1290 * smack_file_send_sigiotask - Smack on sigio
1291 * @tsk: The target task
1292 * @fown: the object the signal come from
1293 * @signum: unused
1295 * Allow a privileged task to get signals even if it shouldn't
1297 * Returns 0 if a subject with the object's smack could
1298 * write to the task, an error code otherwise.
1300 static int smack_file_send_sigiotask(struct task_struct *tsk,
1301 struct fown_struct *fown, int signum)
1303 struct file *file;
1304 int rc;
1305 char *tsp = smk_of_task(tsk->cred->security);
1306 struct smk_audit_info ad;
1309 * struct fown_struct is never outside the context of a struct file
1311 file = container_of(fown, struct file, f_owner);
1313 /* we don't log here as rc can be overriden */
1314 rc = smk_access(file->f_security, tsp, MAY_WRITE, NULL);
1315 if (rc != 0 && has_capability(tsk, CAP_MAC_OVERRIDE))
1316 rc = 0;
1318 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_TASK);
1319 smk_ad_setfield_u_tsk(&ad, tsk);
1320 smack_log(file->f_security, tsp, MAY_WRITE, rc, &ad);
1321 return rc;
1325 * smack_file_receive - Smack file receive check
1326 * @file: the object
1328 * Returns 0 if current has access, error code otherwise
1330 static int smack_file_receive(struct file *file)
1332 int may = 0;
1333 struct smk_audit_info ad;
1335 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_TASK);
1336 smk_ad_setfield_u_fs_path(&ad, file->f_path);
1338 * This code relies on bitmasks.
1340 if (file->f_mode & FMODE_READ)
1341 may = MAY_READ;
1342 if (file->f_mode & FMODE_WRITE)
1343 may |= MAY_WRITE;
1345 return smk_curacc(file->f_security, may, &ad);
1349 * smack_dentry_open - Smack dentry open processing
1350 * @file: the object
1351 * @cred: unused
1353 * Set the security blob in the file structure.
1355 * Returns 0
1357 static int smack_dentry_open(struct file *file, const struct cred *cred)
1359 struct inode_smack *isp = file->f_path.dentry->d_inode->i_security;
1361 file->f_security = isp->smk_inode;
1363 return 0;
1367 * Task hooks
1371 * smack_cred_alloc_blank - "allocate" blank task-level security credentials
1372 * @new: the new credentials
1373 * @gfp: the atomicity of any memory allocations
1375 * Prepare a blank set of credentials for modification. This must allocate all
1376 * the memory the LSM module might require such that cred_transfer() can
1377 * complete without error.
1379 static int smack_cred_alloc_blank(struct cred *cred, gfp_t gfp)
1381 struct task_smack *tsp;
1383 tsp = new_task_smack(NULL, NULL, gfp);
1384 if (tsp == NULL)
1385 return -ENOMEM;
1387 cred->security = tsp;
1389 return 0;
1394 * smack_cred_free - "free" task-level security credentials
1395 * @cred: the credentials in question
1398 static void smack_cred_free(struct cred *cred)
1400 struct task_smack *tsp = cred->security;
1401 struct smack_rule *rp;
1402 struct list_head *l;
1403 struct list_head *n;
1405 if (tsp == NULL)
1406 return;
1407 cred->security = NULL;
1409 list_for_each_safe(l, n, &tsp->smk_rules) {
1410 rp = list_entry(l, struct smack_rule, list);
1411 list_del(&rp->list);
1412 kfree(rp);
1414 kfree(tsp);
1418 * smack_cred_prepare - prepare new set of credentials for modification
1419 * @new: the new credentials
1420 * @old: the original credentials
1421 * @gfp: the atomicity of any memory allocations
1423 * Prepare a new set of credentials for modification.
1425 static int smack_cred_prepare(struct cred *new, const struct cred *old,
1426 gfp_t gfp)
1428 struct task_smack *old_tsp = old->security;
1429 struct task_smack *new_tsp;
1430 int rc;
1432 new_tsp = new_task_smack(old_tsp->smk_task, old_tsp->smk_task, gfp);
1433 if (new_tsp == NULL)
1434 return -ENOMEM;
1436 rc = smk_copy_rules(&new_tsp->smk_rules, &old_tsp->smk_rules, gfp);
1437 if (rc != 0)
1438 return rc;
1440 new->security = new_tsp;
1441 return 0;
1445 * smack_cred_transfer - Transfer the old credentials to the new credentials
1446 * @new: the new credentials
1447 * @old: the original credentials
1449 * Fill in a set of blank credentials from another set of credentials.
1451 static void smack_cred_transfer(struct cred *new, const struct cred *old)
1453 struct task_smack *old_tsp = old->security;
1454 struct task_smack *new_tsp = new->security;
1456 new_tsp->smk_task = old_tsp->smk_task;
1457 new_tsp->smk_forked = old_tsp->smk_task;
1458 mutex_init(&new_tsp->smk_rules_lock);
1459 INIT_LIST_HEAD(&new_tsp->smk_rules);
1462 /* cbs copy rule list */
1466 * smack_kernel_act_as - Set the subjective context in a set of credentials
1467 * @new: points to the set of credentials to be modified.
1468 * @secid: specifies the security ID to be set
1470 * Set the security data for a kernel service.
1472 static int smack_kernel_act_as(struct cred *new, u32 secid)
1474 struct task_smack *new_tsp = new->security;
1475 char *smack = smack_from_secid(secid);
1477 if (smack == NULL)
1478 return -EINVAL;
1480 new_tsp->smk_task = smack;
1481 return 0;
1485 * smack_kernel_create_files_as - Set the file creation label in a set of creds
1486 * @new: points to the set of credentials to be modified
1487 * @inode: points to the inode to use as a reference
1489 * Set the file creation context in a set of credentials to the same
1490 * as the objective context of the specified inode
1492 static int smack_kernel_create_files_as(struct cred *new,
1493 struct inode *inode)
1495 struct inode_smack *isp = inode->i_security;
1496 struct task_smack *tsp = new->security;
1498 tsp->smk_forked = isp->smk_inode;
1499 tsp->smk_task = isp->smk_inode;
1500 return 0;
1504 * smk_curacc_on_task - helper to log task related access
1505 * @p: the task object
1506 * @access: the access requested
1507 * @caller: name of the calling function for audit
1509 * Return 0 if access is permitted
1511 static int smk_curacc_on_task(struct task_struct *p, int access,
1512 const char *caller)
1514 struct smk_audit_info ad;
1516 smk_ad_init(&ad, caller, LSM_AUDIT_DATA_TASK);
1517 smk_ad_setfield_u_tsk(&ad, p);
1518 return smk_curacc(smk_of_task(task_security(p)), access, &ad);
1522 * smack_task_setpgid - Smack check on setting pgid
1523 * @p: the task object
1524 * @pgid: unused
1526 * Return 0 if write access is permitted
1528 static int smack_task_setpgid(struct task_struct *p, pid_t pgid)
1530 return smk_curacc_on_task(p, MAY_WRITE, __func__);
1534 * smack_task_getpgid - Smack access check for getpgid
1535 * @p: the object task
1537 * Returns 0 if current can read the object task, error code otherwise
1539 static int smack_task_getpgid(struct task_struct *p)
1541 return smk_curacc_on_task(p, MAY_READ, __func__);
1545 * smack_task_getsid - Smack access check for getsid
1546 * @p: the object task
1548 * Returns 0 if current can read the object task, error code otherwise
1550 static int smack_task_getsid(struct task_struct *p)
1552 return smk_curacc_on_task(p, MAY_READ, __func__);
1556 * smack_task_getsecid - get the secid of the task
1557 * @p: the object task
1558 * @secid: where to put the result
1560 * Sets the secid to contain a u32 version of the smack label.
1562 static void smack_task_getsecid(struct task_struct *p, u32 *secid)
1564 *secid = smack_to_secid(smk_of_task(task_security(p)));
1568 * smack_task_setnice - Smack check on setting nice
1569 * @p: the task object
1570 * @nice: unused
1572 * Return 0 if write access is permitted
1574 static int smack_task_setnice(struct task_struct *p, int nice)
1576 int rc;
1578 rc = cap_task_setnice(p, nice);
1579 if (rc == 0)
1580 rc = smk_curacc_on_task(p, MAY_WRITE, __func__);
1581 return rc;
1585 * smack_task_setioprio - Smack check on setting ioprio
1586 * @p: the task object
1587 * @ioprio: unused
1589 * Return 0 if write access is permitted
1591 static int smack_task_setioprio(struct task_struct *p, int ioprio)
1593 int rc;
1595 rc = cap_task_setioprio(p, ioprio);
1596 if (rc == 0)
1597 rc = smk_curacc_on_task(p, MAY_WRITE, __func__);
1598 return rc;
1602 * smack_task_getioprio - Smack check on reading ioprio
1603 * @p: the task object
1605 * Return 0 if read access is permitted
1607 static int smack_task_getioprio(struct task_struct *p)
1609 return smk_curacc_on_task(p, MAY_READ, __func__);
1613 * smack_task_setscheduler - Smack check on setting scheduler
1614 * @p: the task object
1615 * @policy: unused
1616 * @lp: unused
1618 * Return 0 if read access is permitted
1620 static int smack_task_setscheduler(struct task_struct *p)
1622 int rc;
1624 rc = cap_task_setscheduler(p);
1625 if (rc == 0)
1626 rc = smk_curacc_on_task(p, MAY_WRITE, __func__);
1627 return rc;
1631 * smack_task_getscheduler - Smack check on reading scheduler
1632 * @p: the task object
1634 * Return 0 if read access is permitted
1636 static int smack_task_getscheduler(struct task_struct *p)
1638 return smk_curacc_on_task(p, MAY_READ, __func__);
1642 * smack_task_movememory - Smack check on moving memory
1643 * @p: the task object
1645 * Return 0 if write access is permitted
1647 static int smack_task_movememory(struct task_struct *p)
1649 return smk_curacc_on_task(p, MAY_WRITE, __func__);
1653 * smack_task_kill - Smack check on signal delivery
1654 * @p: the task object
1655 * @info: unused
1656 * @sig: unused
1657 * @secid: identifies the smack to use in lieu of current's
1659 * Return 0 if write access is permitted
1661 * The secid behavior is an artifact of an SELinux hack
1662 * in the USB code. Someday it may go away.
1664 static int smack_task_kill(struct task_struct *p, struct siginfo *info,
1665 int sig, u32 secid)
1667 struct smk_audit_info ad;
1669 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_TASK);
1670 smk_ad_setfield_u_tsk(&ad, p);
1672 * Sending a signal requires that the sender
1673 * can write the receiver.
1675 if (secid == 0)
1676 return smk_curacc(smk_of_task(task_security(p)), MAY_WRITE,
1677 &ad);
1679 * If the secid isn't 0 we're dealing with some USB IO
1680 * specific behavior. This is not clean. For one thing
1681 * we can't take privilege into account.
1683 return smk_access(smack_from_secid(secid),
1684 smk_of_task(task_security(p)), MAY_WRITE, &ad);
1688 * smack_task_wait - Smack access check for waiting
1689 * @p: task to wait for
1691 * Returns 0 if current can wait for p, error code otherwise
1693 static int smack_task_wait(struct task_struct *p)
1695 struct smk_audit_info ad;
1696 char *sp = smk_of_current();
1697 char *tsp = smk_of_forked(task_security(p));
1698 int rc;
1700 /* we don't log here, we can be overriden */
1701 rc = smk_access(tsp, sp, MAY_WRITE, NULL);
1702 if (rc == 0)
1703 goto out_log;
1706 * Allow the operation to succeed if either task
1707 * has privilege to perform operations that might
1708 * account for the smack labels having gotten to
1709 * be different in the first place.
1711 * This breaks the strict subject/object access
1712 * control ideal, taking the object's privilege
1713 * state into account in the decision as well as
1714 * the smack value.
1716 if (capable(CAP_MAC_OVERRIDE) || has_capability(p, CAP_MAC_OVERRIDE))
1717 rc = 0;
1718 /* we log only if we didn't get overriden */
1719 out_log:
1720 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_TASK);
1721 smk_ad_setfield_u_tsk(&ad, p);
1722 smack_log(tsp, sp, MAY_WRITE, rc, &ad);
1723 return rc;
1727 * smack_task_to_inode - copy task smack into the inode blob
1728 * @p: task to copy from
1729 * @inode: inode to copy to
1731 * Sets the smack pointer in the inode security blob
1733 static void smack_task_to_inode(struct task_struct *p, struct inode *inode)
1735 struct inode_smack *isp = inode->i_security;
1736 isp->smk_inode = smk_of_task(task_security(p));
1740 * Socket hooks.
1744 * smack_sk_alloc_security - Allocate a socket blob
1745 * @sk: the socket
1746 * @family: unused
1747 * @gfp_flags: memory allocation flags
1749 * Assign Smack pointers to current
1751 * Returns 0 on success, -ENOMEM is there's no memory
1753 static int smack_sk_alloc_security(struct sock *sk, int family, gfp_t gfp_flags)
1755 char *csp = smk_of_current();
1756 struct socket_smack *ssp;
1758 ssp = kzalloc(sizeof(struct socket_smack), gfp_flags);
1759 if (ssp == NULL)
1760 return -ENOMEM;
1762 ssp->smk_in = csp;
1763 ssp->smk_out = csp;
1764 ssp->smk_packet = NULL;
1766 sk->sk_security = ssp;
1768 return 0;
1772 * smack_sk_free_security - Free a socket blob
1773 * @sk: the socket
1775 * Clears the blob pointer
1777 static void smack_sk_free_security(struct sock *sk)
1779 kfree(sk->sk_security);
1783 * smack_host_label - check host based restrictions
1784 * @sip: the object end
1786 * looks for host based access restrictions
1788 * This version will only be appropriate for really small sets of single label
1789 * hosts. The caller is responsible for ensuring that the RCU read lock is
1790 * taken before calling this function.
1792 * Returns the label of the far end or NULL if it's not special.
1794 static char *smack_host_label(struct sockaddr_in *sip)
1796 struct smk_netlbladdr *snp;
1797 struct in_addr *siap = &sip->sin_addr;
1799 if (siap->s_addr == 0)
1800 return NULL;
1802 list_for_each_entry_rcu(snp, &smk_netlbladdr_list, list)
1804 * we break after finding the first match because
1805 * the list is sorted from longest to shortest mask
1806 * so we have found the most specific match
1808 if ((&snp->smk_host.sin_addr)->s_addr ==
1809 (siap->s_addr & (&snp->smk_mask)->s_addr)) {
1810 /* we have found the special CIPSO option */
1811 if (snp->smk_label == smack_cipso_option)
1812 return NULL;
1813 return snp->smk_label;
1816 return NULL;
1820 * smack_set_catset - convert a capset to netlabel mls categories
1821 * @catset: the Smack categories
1822 * @sap: where to put the netlabel categories
1824 * Allocates and fills attr.mls.cat
1826 static void smack_set_catset(char *catset, struct netlbl_lsm_secattr *sap)
1828 unsigned char *cp;
1829 unsigned char m;
1830 int cat;
1831 int rc;
1832 int byte;
1834 if (!catset)
1835 return;
1837 sap->flags |= NETLBL_SECATTR_MLS_CAT;
1838 sap->attr.mls.cat = netlbl_secattr_catmap_alloc(GFP_ATOMIC);
1839 sap->attr.mls.cat->startbit = 0;
1841 for (cat = 1, cp = catset, byte = 0; byte < SMK_LABELLEN; cp++, byte++)
1842 for (m = 0x80; m != 0; m >>= 1, cat++) {
1843 if ((m & *cp) == 0)
1844 continue;
1845 rc = netlbl_secattr_catmap_setbit(sap->attr.mls.cat,
1846 cat, GFP_ATOMIC);
1851 * smack_to_secattr - fill a secattr from a smack value
1852 * @smack: the smack value
1853 * @nlsp: where the result goes
1855 * Casey says that CIPSO is good enough for now.
1856 * It can be used to effect.
1857 * It can also be abused to effect when necessary.
1858 * Apologies to the TSIG group in general and GW in particular.
1860 static void smack_to_secattr(char *smack, struct netlbl_lsm_secattr *nlsp)
1862 struct smack_cipso cipso;
1863 int rc;
1865 nlsp->domain = smack;
1866 nlsp->flags = NETLBL_SECATTR_DOMAIN | NETLBL_SECATTR_MLS_LVL;
1868 rc = smack_to_cipso(smack, &cipso);
1869 if (rc == 0) {
1870 nlsp->attr.mls.lvl = cipso.smk_level;
1871 smack_set_catset(cipso.smk_catset, nlsp);
1872 } else {
1873 nlsp->attr.mls.lvl = smack_cipso_direct;
1874 smack_set_catset(smack, nlsp);
1879 * smack_netlabel - Set the secattr on a socket
1880 * @sk: the socket
1881 * @labeled: socket label scheme
1883 * Convert the outbound smack value (smk_out) to a
1884 * secattr and attach it to the socket.
1886 * Returns 0 on success or an error code
1888 static int smack_netlabel(struct sock *sk, int labeled)
1890 struct socket_smack *ssp = sk->sk_security;
1891 struct netlbl_lsm_secattr secattr;
1892 int rc = 0;
1895 * Usually the netlabel code will handle changing the
1896 * packet labeling based on the label.
1897 * The case of a single label host is different, because
1898 * a single label host should never get a labeled packet
1899 * even though the label is usually associated with a packet
1900 * label.
1902 local_bh_disable();
1903 bh_lock_sock_nested(sk);
1905 if (ssp->smk_out == smack_net_ambient ||
1906 labeled == SMACK_UNLABELED_SOCKET)
1907 netlbl_sock_delattr(sk);
1908 else {
1909 netlbl_secattr_init(&secattr);
1910 smack_to_secattr(ssp->smk_out, &secattr);
1911 rc = netlbl_sock_setattr(sk, sk->sk_family, &secattr);
1912 netlbl_secattr_destroy(&secattr);
1915 bh_unlock_sock(sk);
1916 local_bh_enable();
1918 return rc;
1922 * smack_netlbel_send - Set the secattr on a socket and perform access checks
1923 * @sk: the socket
1924 * @sap: the destination address
1926 * Set the correct secattr for the given socket based on the destination
1927 * address and perform any outbound access checks needed.
1929 * Returns 0 on success or an error code.
1932 static int smack_netlabel_send(struct sock *sk, struct sockaddr_in *sap)
1934 int rc;
1935 int sk_lbl;
1936 char *hostsp;
1937 struct socket_smack *ssp = sk->sk_security;
1938 struct smk_audit_info ad;
1940 rcu_read_lock();
1941 hostsp = smack_host_label(sap);
1942 if (hostsp != NULL) {
1943 sk_lbl = SMACK_UNLABELED_SOCKET;
1944 #ifdef CONFIG_AUDIT
1945 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_NET);
1946 ad.a.u.net.family = sap->sin_family;
1947 ad.a.u.net.dport = sap->sin_port;
1948 ad.a.u.net.v4info.daddr = sap->sin_addr.s_addr;
1949 #endif
1950 rc = smk_access(ssp->smk_out, hostsp, MAY_WRITE, &ad);
1951 } else {
1952 sk_lbl = SMACK_CIPSO_SOCKET;
1953 rc = 0;
1955 rcu_read_unlock();
1956 if (rc != 0)
1957 return rc;
1959 return smack_netlabel(sk, sk_lbl);
1963 * smack_inode_setsecurity - set smack xattrs
1964 * @inode: the object
1965 * @name: attribute name
1966 * @value: attribute value
1967 * @size: size of the attribute
1968 * @flags: unused
1970 * Sets the named attribute in the appropriate blob
1972 * Returns 0 on success, or an error code
1974 static int smack_inode_setsecurity(struct inode *inode, const char *name,
1975 const void *value, size_t size, int flags)
1977 char *sp;
1978 struct inode_smack *nsp = inode->i_security;
1979 struct socket_smack *ssp;
1980 struct socket *sock;
1981 int rc = 0;
1983 if (value == NULL || size > SMK_LABELLEN || size == 0)
1984 return -EACCES;
1986 sp = smk_import(value, size);
1987 if (sp == NULL)
1988 return -EINVAL;
1990 if (strcmp(name, XATTR_SMACK_SUFFIX) == 0) {
1991 nsp->smk_inode = sp;
1992 nsp->smk_flags |= SMK_INODE_INSTANT;
1993 return 0;
1996 * The rest of the Smack xattrs are only on sockets.
1998 if (inode->i_sb->s_magic != SOCKFS_MAGIC)
1999 return -EOPNOTSUPP;
2001 sock = SOCKET_I(inode);
2002 if (sock == NULL || sock->sk == NULL)
2003 return -EOPNOTSUPP;
2005 ssp = sock->sk->sk_security;
2007 if (strcmp(name, XATTR_SMACK_IPIN) == 0)
2008 ssp->smk_in = sp;
2009 else if (strcmp(name, XATTR_SMACK_IPOUT) == 0) {
2010 ssp->smk_out = sp;
2011 if (sock->sk->sk_family != PF_UNIX) {
2012 rc = smack_netlabel(sock->sk, SMACK_CIPSO_SOCKET);
2013 if (rc != 0)
2014 printk(KERN_WARNING
2015 "Smack: \"%s\" netlbl error %d.\n",
2016 __func__, -rc);
2018 } else
2019 return -EOPNOTSUPP;
2021 return 0;
2025 * smack_socket_post_create - finish socket setup
2026 * @sock: the socket
2027 * @family: protocol family
2028 * @type: unused
2029 * @protocol: unused
2030 * @kern: unused
2032 * Sets the netlabel information on the socket
2034 * Returns 0 on success, and error code otherwise
2036 static int smack_socket_post_create(struct socket *sock, int family,
2037 int type, int protocol, int kern)
2039 if (family != PF_INET || sock->sk == NULL)
2040 return 0;
2042 * Set the outbound netlbl.
2044 return smack_netlabel(sock->sk, SMACK_CIPSO_SOCKET);
2048 * smack_socket_connect - connect access check
2049 * @sock: the socket
2050 * @sap: the other end
2051 * @addrlen: size of sap
2053 * Verifies that a connection may be possible
2055 * Returns 0 on success, and error code otherwise
2057 static int smack_socket_connect(struct socket *sock, struct sockaddr *sap,
2058 int addrlen)
2060 if (sock->sk == NULL || sock->sk->sk_family != PF_INET)
2061 return 0;
2062 if (addrlen < sizeof(struct sockaddr_in))
2063 return -EINVAL;
2065 return smack_netlabel_send(sock->sk, (struct sockaddr_in *)sap);
2069 * smack_flags_to_may - convert S_ to MAY_ values
2070 * @flags: the S_ value
2072 * Returns the equivalent MAY_ value
2074 static int smack_flags_to_may(int flags)
2076 int may = 0;
2078 if (flags & S_IRUGO)
2079 may |= MAY_READ;
2080 if (flags & S_IWUGO)
2081 may |= MAY_WRITE;
2082 if (flags & S_IXUGO)
2083 may |= MAY_EXEC;
2085 return may;
2089 * smack_msg_msg_alloc_security - Set the security blob for msg_msg
2090 * @msg: the object
2092 * Returns 0
2094 static int smack_msg_msg_alloc_security(struct msg_msg *msg)
2096 msg->security = smk_of_current();
2097 return 0;
2101 * smack_msg_msg_free_security - Clear the security blob for msg_msg
2102 * @msg: the object
2104 * Clears the blob pointer
2106 static void smack_msg_msg_free_security(struct msg_msg *msg)
2108 msg->security = NULL;
2112 * smack_of_shm - the smack pointer for the shm
2113 * @shp: the object
2115 * Returns a pointer to the smack value
2117 static char *smack_of_shm(struct shmid_kernel *shp)
2119 return (char *)shp->shm_perm.security;
2123 * smack_shm_alloc_security - Set the security blob for shm
2124 * @shp: the object
2126 * Returns 0
2128 static int smack_shm_alloc_security(struct shmid_kernel *shp)
2130 struct kern_ipc_perm *isp = &shp->shm_perm;
2132 isp->security = smk_of_current();
2133 return 0;
2137 * smack_shm_free_security - Clear the security blob for shm
2138 * @shp: the object
2140 * Clears the blob pointer
2142 static void smack_shm_free_security(struct shmid_kernel *shp)
2144 struct kern_ipc_perm *isp = &shp->shm_perm;
2146 isp->security = NULL;
2150 * smk_curacc_shm : check if current has access on shm
2151 * @shp : the object
2152 * @access : access requested
2154 * Returns 0 if current has the requested access, error code otherwise
2156 static int smk_curacc_shm(struct shmid_kernel *shp, int access)
2158 char *ssp = smack_of_shm(shp);
2159 struct smk_audit_info ad;
2161 #ifdef CONFIG_AUDIT
2162 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_IPC);
2163 ad.a.u.ipc_id = shp->shm_perm.id;
2164 #endif
2165 return smk_curacc(ssp, access, &ad);
2169 * smack_shm_associate - Smack access check for shm
2170 * @shp: the object
2171 * @shmflg: access requested
2173 * Returns 0 if current has the requested access, error code otherwise
2175 static int smack_shm_associate(struct shmid_kernel *shp, int shmflg)
2177 int may;
2179 may = smack_flags_to_may(shmflg);
2180 return smk_curacc_shm(shp, may);
2184 * smack_shm_shmctl - Smack access check for shm
2185 * @shp: the object
2186 * @cmd: what it wants to do
2188 * Returns 0 if current has the requested access, error code otherwise
2190 static int smack_shm_shmctl(struct shmid_kernel *shp, int cmd)
2192 int may;
2194 switch (cmd) {
2195 case IPC_STAT:
2196 case SHM_STAT:
2197 may = MAY_READ;
2198 break;
2199 case IPC_SET:
2200 case SHM_LOCK:
2201 case SHM_UNLOCK:
2202 case IPC_RMID:
2203 may = MAY_READWRITE;
2204 break;
2205 case IPC_INFO:
2206 case SHM_INFO:
2208 * System level information.
2210 return 0;
2211 default:
2212 return -EINVAL;
2214 return smk_curacc_shm(shp, may);
2218 * smack_shm_shmat - Smack access for shmat
2219 * @shp: the object
2220 * @shmaddr: unused
2221 * @shmflg: access requested
2223 * Returns 0 if current has the requested access, error code otherwise
2225 static int smack_shm_shmat(struct shmid_kernel *shp, char __user *shmaddr,
2226 int shmflg)
2228 int may;
2230 may = smack_flags_to_may(shmflg);
2231 return smk_curacc_shm(shp, may);
2235 * smack_of_sem - the smack pointer for the sem
2236 * @sma: the object
2238 * Returns a pointer to the smack value
2240 static char *smack_of_sem(struct sem_array *sma)
2242 return (char *)sma->sem_perm.security;
2246 * smack_sem_alloc_security - Set the security blob for sem
2247 * @sma: the object
2249 * Returns 0
2251 static int smack_sem_alloc_security(struct sem_array *sma)
2253 struct kern_ipc_perm *isp = &sma->sem_perm;
2255 isp->security = smk_of_current();
2256 return 0;
2260 * smack_sem_free_security - Clear the security blob for sem
2261 * @sma: the object
2263 * Clears the blob pointer
2265 static void smack_sem_free_security(struct sem_array *sma)
2267 struct kern_ipc_perm *isp = &sma->sem_perm;
2269 isp->security = NULL;
2273 * smk_curacc_sem : check if current has access on sem
2274 * @sma : the object
2275 * @access : access requested
2277 * Returns 0 if current has the requested access, error code otherwise
2279 static int smk_curacc_sem(struct sem_array *sma, int access)
2281 char *ssp = smack_of_sem(sma);
2282 struct smk_audit_info ad;
2284 #ifdef CONFIG_AUDIT
2285 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_IPC);
2286 ad.a.u.ipc_id = sma->sem_perm.id;
2287 #endif
2288 return smk_curacc(ssp, access, &ad);
2292 * smack_sem_associate - Smack access check for sem
2293 * @sma: the object
2294 * @semflg: access requested
2296 * Returns 0 if current has the requested access, error code otherwise
2298 static int smack_sem_associate(struct sem_array *sma, int semflg)
2300 int may;
2302 may = smack_flags_to_may(semflg);
2303 return smk_curacc_sem(sma, may);
2307 * smack_sem_shmctl - Smack access check for sem
2308 * @sma: the object
2309 * @cmd: what it wants to do
2311 * Returns 0 if current has the requested access, error code otherwise
2313 static int smack_sem_semctl(struct sem_array *sma, int cmd)
2315 int may;
2317 switch (cmd) {
2318 case GETPID:
2319 case GETNCNT:
2320 case GETZCNT:
2321 case GETVAL:
2322 case GETALL:
2323 case IPC_STAT:
2324 case SEM_STAT:
2325 may = MAY_READ;
2326 break;
2327 case SETVAL:
2328 case SETALL:
2329 case IPC_RMID:
2330 case IPC_SET:
2331 may = MAY_READWRITE;
2332 break;
2333 case IPC_INFO:
2334 case SEM_INFO:
2336 * System level information
2338 return 0;
2339 default:
2340 return -EINVAL;
2343 return smk_curacc_sem(sma, may);
2347 * smack_sem_semop - Smack checks of semaphore operations
2348 * @sma: the object
2349 * @sops: unused
2350 * @nsops: unused
2351 * @alter: unused
2353 * Treated as read and write in all cases.
2355 * Returns 0 if access is allowed, error code otherwise
2357 static int smack_sem_semop(struct sem_array *sma, struct sembuf *sops,
2358 unsigned nsops, int alter)
2360 return smk_curacc_sem(sma, MAY_READWRITE);
2364 * smack_msg_alloc_security - Set the security blob for msg
2365 * @msq: the object
2367 * Returns 0
2369 static int smack_msg_queue_alloc_security(struct msg_queue *msq)
2371 struct kern_ipc_perm *kisp = &msq->q_perm;
2373 kisp->security = smk_of_current();
2374 return 0;
2378 * smack_msg_free_security - Clear the security blob for msg
2379 * @msq: the object
2381 * Clears the blob pointer
2383 static void smack_msg_queue_free_security(struct msg_queue *msq)
2385 struct kern_ipc_perm *kisp = &msq->q_perm;
2387 kisp->security = NULL;
2391 * smack_of_msq - the smack pointer for the msq
2392 * @msq: the object
2394 * Returns a pointer to the smack value
2396 static char *smack_of_msq(struct msg_queue *msq)
2398 return (char *)msq->q_perm.security;
2402 * smk_curacc_msq : helper to check if current has access on msq
2403 * @msq : the msq
2404 * @access : access requested
2406 * return 0 if current has access, error otherwise
2408 static int smk_curacc_msq(struct msg_queue *msq, int access)
2410 char *msp = smack_of_msq(msq);
2411 struct smk_audit_info ad;
2413 #ifdef CONFIG_AUDIT
2414 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_IPC);
2415 ad.a.u.ipc_id = msq->q_perm.id;
2416 #endif
2417 return smk_curacc(msp, access, &ad);
2421 * smack_msg_queue_associate - Smack access check for msg_queue
2422 * @msq: the object
2423 * @msqflg: access requested
2425 * Returns 0 if current has the requested access, error code otherwise
2427 static int smack_msg_queue_associate(struct msg_queue *msq, int msqflg)
2429 int may;
2431 may = smack_flags_to_may(msqflg);
2432 return smk_curacc_msq(msq, may);
2436 * smack_msg_queue_msgctl - Smack access check for msg_queue
2437 * @msq: the object
2438 * @cmd: what it wants to do
2440 * Returns 0 if current has the requested access, error code otherwise
2442 static int smack_msg_queue_msgctl(struct msg_queue *msq, int cmd)
2444 int may;
2446 switch (cmd) {
2447 case IPC_STAT:
2448 case MSG_STAT:
2449 may = MAY_READ;
2450 break;
2451 case IPC_SET:
2452 case IPC_RMID:
2453 may = MAY_READWRITE;
2454 break;
2455 case IPC_INFO:
2456 case MSG_INFO:
2458 * System level information
2460 return 0;
2461 default:
2462 return -EINVAL;
2465 return smk_curacc_msq(msq, may);
2469 * smack_msg_queue_msgsnd - Smack access check for msg_queue
2470 * @msq: the object
2471 * @msg: unused
2472 * @msqflg: access requested
2474 * Returns 0 if current has the requested access, error code otherwise
2476 static int smack_msg_queue_msgsnd(struct msg_queue *msq, struct msg_msg *msg,
2477 int msqflg)
2479 int may;
2481 may = smack_flags_to_may(msqflg);
2482 return smk_curacc_msq(msq, may);
2486 * smack_msg_queue_msgsnd - Smack access check for msg_queue
2487 * @msq: the object
2488 * @msg: unused
2489 * @target: unused
2490 * @type: unused
2491 * @mode: unused
2493 * Returns 0 if current has read and write access, error code otherwise
2495 static int smack_msg_queue_msgrcv(struct msg_queue *msq, struct msg_msg *msg,
2496 struct task_struct *target, long type, int mode)
2498 return smk_curacc_msq(msq, MAY_READWRITE);
2502 * smack_ipc_permission - Smack access for ipc_permission()
2503 * @ipp: the object permissions
2504 * @flag: access requested
2506 * Returns 0 if current has read and write access, error code otherwise
2508 static int smack_ipc_permission(struct kern_ipc_perm *ipp, short flag)
2510 char *isp = ipp->security;
2511 int may = smack_flags_to_may(flag);
2512 struct smk_audit_info ad;
2514 #ifdef CONFIG_AUDIT
2515 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_IPC);
2516 ad.a.u.ipc_id = ipp->id;
2517 #endif
2518 return smk_curacc(isp, may, &ad);
2522 * smack_ipc_getsecid - Extract smack security id
2523 * @ipp: the object permissions
2524 * @secid: where result will be saved
2526 static void smack_ipc_getsecid(struct kern_ipc_perm *ipp, u32 *secid)
2528 char *smack = ipp->security;
2530 *secid = smack_to_secid(smack);
2534 * smack_d_instantiate - Make sure the blob is correct on an inode
2535 * @opt_dentry: dentry where inode will be attached
2536 * @inode: the object
2538 * Set the inode's security blob if it hasn't been done already.
2540 static void smack_d_instantiate(struct dentry *opt_dentry, struct inode *inode)
2542 struct super_block *sbp;
2543 struct superblock_smack *sbsp;
2544 struct inode_smack *isp;
2545 char *csp = smk_of_current();
2546 char *fetched;
2547 char *final;
2548 char trattr[TRANS_TRUE_SIZE];
2549 int transflag = 0;
2550 struct dentry *dp;
2552 if (inode == NULL)
2553 return;
2555 isp = inode->i_security;
2557 mutex_lock(&isp->smk_lock);
2559 * If the inode is already instantiated
2560 * take the quick way out
2562 if (isp->smk_flags & SMK_INODE_INSTANT)
2563 goto unlockandout;
2565 sbp = inode->i_sb;
2566 sbsp = sbp->s_security;
2568 * We're going to use the superblock default label
2569 * if there's no label on the file.
2571 final = sbsp->smk_default;
2574 * If this is the root inode the superblock
2575 * may be in the process of initialization.
2576 * If that is the case use the root value out
2577 * of the superblock.
2579 if (opt_dentry->d_parent == opt_dentry) {
2580 isp->smk_inode = sbsp->smk_root;
2581 isp->smk_flags |= SMK_INODE_INSTANT;
2582 goto unlockandout;
2586 * This is pretty hackish.
2587 * Casey says that we shouldn't have to do
2588 * file system specific code, but it does help
2589 * with keeping it simple.
2591 switch (sbp->s_magic) {
2592 case SMACK_MAGIC:
2594 * Casey says that it's a little embarrassing
2595 * that the smack file system doesn't do
2596 * extended attributes.
2598 final = smack_known_star.smk_known;
2599 break;
2600 case PIPEFS_MAGIC:
2602 * Casey says pipes are easy (?)
2604 final = smack_known_star.smk_known;
2605 break;
2606 case DEVPTS_SUPER_MAGIC:
2608 * devpts seems content with the label of the task.
2609 * Programs that change smack have to treat the
2610 * pty with respect.
2612 final = csp;
2613 break;
2614 case SOCKFS_MAGIC:
2616 * Socket access is controlled by the socket
2617 * structures associated with the task involved.
2619 final = smack_known_star.smk_known;
2620 break;
2621 case PROC_SUPER_MAGIC:
2623 * Casey says procfs appears not to care.
2624 * The superblock default suffices.
2626 break;
2627 case TMPFS_MAGIC:
2629 * Device labels should come from the filesystem,
2630 * but watch out, because they're volitile,
2631 * getting recreated on every reboot.
2633 final = smack_known_star.smk_known;
2635 * No break.
2637 * If a smack value has been set we want to use it,
2638 * but since tmpfs isn't giving us the opportunity
2639 * to set mount options simulate setting the
2640 * superblock default.
2642 default:
2644 * This isn't an understood special case.
2645 * Get the value from the xattr.
2649 * UNIX domain sockets use lower level socket data.
2651 if (S_ISSOCK(inode->i_mode)) {
2652 final = smack_known_star.smk_known;
2653 break;
2656 * No xattr support means, alas, no SMACK label.
2657 * Use the aforeapplied default.
2658 * It would be curious if the label of the task
2659 * does not match that assigned.
2661 if (inode->i_op->getxattr == NULL)
2662 break;
2664 * Get the dentry for xattr.
2666 dp = dget(opt_dentry);
2667 fetched = smk_fetch(XATTR_NAME_SMACK, inode, dp);
2668 if (fetched != NULL) {
2669 final = fetched;
2670 if (S_ISDIR(inode->i_mode)) {
2671 trattr[0] = '\0';
2672 inode->i_op->getxattr(dp,
2673 XATTR_NAME_SMACKTRANSMUTE,
2674 trattr, TRANS_TRUE_SIZE);
2675 if (strncmp(trattr, TRANS_TRUE,
2676 TRANS_TRUE_SIZE) == 0)
2677 transflag = SMK_INODE_TRANSMUTE;
2680 isp->smk_task = smk_fetch(XATTR_NAME_SMACKEXEC, inode, dp);
2681 isp->smk_mmap = smk_fetch(XATTR_NAME_SMACKMMAP, inode, dp);
2683 dput(dp);
2684 break;
2687 if (final == NULL)
2688 isp->smk_inode = csp;
2689 else
2690 isp->smk_inode = final;
2692 isp->smk_flags |= (SMK_INODE_INSTANT | transflag);
2694 unlockandout:
2695 mutex_unlock(&isp->smk_lock);
2696 return;
2700 * smack_getprocattr - Smack process attribute access
2701 * @p: the object task
2702 * @name: the name of the attribute in /proc/.../attr
2703 * @value: where to put the result
2705 * Places a copy of the task Smack into value
2707 * Returns the length of the smack label or an error code
2709 static int smack_getprocattr(struct task_struct *p, char *name, char **value)
2711 char *cp;
2712 int slen;
2714 if (strcmp(name, "current") != 0)
2715 return -EINVAL;
2717 cp = kstrdup(smk_of_task(task_security(p)), GFP_KERNEL);
2718 if (cp == NULL)
2719 return -ENOMEM;
2721 slen = strlen(cp);
2722 *value = cp;
2723 return slen;
2727 * smack_setprocattr - Smack process attribute setting
2728 * @p: the object task
2729 * @name: the name of the attribute in /proc/.../attr
2730 * @value: the value to set
2731 * @size: the size of the value
2733 * Sets the Smack value of the task. Only setting self
2734 * is permitted and only with privilege
2736 * Returns the length of the smack label or an error code
2738 static int smack_setprocattr(struct task_struct *p, char *name,
2739 void *value, size_t size)
2741 int rc;
2742 struct task_smack *tsp;
2743 struct task_smack *oldtsp;
2744 struct cred *new;
2745 char *newsmack;
2748 * Changing another process' Smack value is too dangerous
2749 * and supports no sane use case.
2751 if (p != current)
2752 return -EPERM;
2754 if (!capable(CAP_MAC_ADMIN))
2755 return -EPERM;
2757 if (value == NULL || size == 0 || size >= SMK_LABELLEN)
2758 return -EINVAL;
2760 if (strcmp(name, "current") != 0)
2761 return -EINVAL;
2763 newsmack = smk_import(value, size);
2764 if (newsmack == NULL)
2765 return -EINVAL;
2768 * No process is ever allowed the web ("@") label.
2770 if (newsmack == smack_known_web.smk_known)
2771 return -EPERM;
2773 oldtsp = p->cred->security;
2774 new = prepare_creds();
2775 if (new == NULL)
2776 return -ENOMEM;
2778 tsp = new_task_smack(newsmack, oldtsp->smk_forked, GFP_KERNEL);
2779 if (tsp == NULL) {
2780 kfree(new);
2781 return -ENOMEM;
2783 rc = smk_copy_rules(&tsp->smk_rules, &oldtsp->smk_rules, GFP_KERNEL);
2784 if (rc != 0)
2785 return rc;
2787 new->security = tsp;
2788 commit_creds(new);
2789 return size;
2793 * smack_unix_stream_connect - Smack access on UDS
2794 * @sock: one sock
2795 * @other: the other sock
2796 * @newsk: unused
2798 * Return 0 if a subject with the smack of sock could access
2799 * an object with the smack of other, otherwise an error code
2801 static int smack_unix_stream_connect(struct sock *sock,
2802 struct sock *other, struct sock *newsk)
2804 struct socket_smack *ssp = sock->sk_security;
2805 struct socket_smack *osp = other->sk_security;
2806 struct socket_smack *nsp = newsk->sk_security;
2807 struct smk_audit_info ad;
2808 int rc = 0;
2810 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_NET);
2811 smk_ad_setfield_u_net_sk(&ad, other);
2813 if (!capable(CAP_MAC_OVERRIDE))
2814 rc = smk_access(ssp->smk_out, osp->smk_in, MAY_WRITE, &ad);
2817 * Cross reference the peer labels for SO_PEERSEC.
2819 if (rc == 0) {
2820 nsp->smk_packet = ssp->smk_out;
2821 ssp->smk_packet = osp->smk_out;
2824 return rc;
2828 * smack_unix_may_send - Smack access on UDS
2829 * @sock: one socket
2830 * @other: the other socket
2832 * Return 0 if a subject with the smack of sock could access
2833 * an object with the smack of other, otherwise an error code
2835 static int smack_unix_may_send(struct socket *sock, struct socket *other)
2837 struct socket_smack *ssp = sock->sk->sk_security;
2838 struct socket_smack *osp = other->sk->sk_security;
2839 struct smk_audit_info ad;
2840 int rc = 0;
2842 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_NET);
2843 smk_ad_setfield_u_net_sk(&ad, other->sk);
2845 if (!capable(CAP_MAC_OVERRIDE))
2846 rc = smk_access(ssp->smk_out, osp->smk_in, MAY_WRITE, &ad);
2848 return rc;
2852 * smack_socket_sendmsg - Smack check based on destination host
2853 * @sock: the socket
2854 * @msg: the message
2855 * @size: the size of the message
2857 * Return 0 if the current subject can write to the destination
2858 * host. This is only a question if the destination is a single
2859 * label host.
2861 static int smack_socket_sendmsg(struct socket *sock, struct msghdr *msg,
2862 int size)
2864 struct sockaddr_in *sip = (struct sockaddr_in *) msg->msg_name;
2867 * Perfectly reasonable for this to be NULL
2869 if (sip == NULL || sip->sin_family != AF_INET)
2870 return 0;
2872 return smack_netlabel_send(sock->sk, sip);
2876 * smack_from_secattr - Convert a netlabel attr.mls.lvl/attr.mls.cat pair to smack
2877 * @sap: netlabel secattr
2878 * @ssp: socket security information
2880 * Returns a pointer to a Smack label found on the label list.
2882 static char *smack_from_secattr(struct netlbl_lsm_secattr *sap,
2883 struct socket_smack *ssp)
2885 struct smack_known *skp;
2886 char smack[SMK_LABELLEN];
2887 char *sp;
2888 int pcat;
2890 if ((sap->flags & NETLBL_SECATTR_MLS_LVL) != 0) {
2892 * Looks like a CIPSO packet.
2893 * If there are flags but no level netlabel isn't
2894 * behaving the way we expect it to.
2896 * Get the categories, if any
2897 * Without guidance regarding the smack value
2898 * for the packet fall back on the network
2899 * ambient value.
2901 memset(smack, '\0', SMK_LABELLEN);
2902 if ((sap->flags & NETLBL_SECATTR_MLS_CAT) != 0)
2903 for (pcat = -1;;) {
2904 pcat = netlbl_secattr_catmap_walk(
2905 sap->attr.mls.cat, pcat + 1);
2906 if (pcat < 0)
2907 break;
2908 smack_catset_bit(pcat, smack);
2911 * If it is CIPSO using smack direct mapping
2912 * we are already done. WeeHee.
2914 if (sap->attr.mls.lvl == smack_cipso_direct) {
2916 * The label sent is usually on the label list.
2918 * If it is not we may still want to allow the
2919 * delivery.
2921 * If the recipient is accepting all packets
2922 * because it is using the star ("*") label
2923 * for SMACK64IPIN provide the web ("@") label
2924 * so that a directed response will succeed.
2925 * This is not very correct from a MAC point
2926 * of view, but gets around the problem that
2927 * locking prevents adding the newly discovered
2928 * label to the list.
2929 * The case where the recipient is not using
2930 * the star label should obviously fail.
2931 * The easy way to do this is to provide the
2932 * star label as the subject label.
2934 skp = smk_find_entry(smack);
2935 if (skp != NULL)
2936 return skp->smk_known;
2937 if (ssp != NULL &&
2938 ssp->smk_in == smack_known_star.smk_known)
2939 return smack_known_web.smk_known;
2940 return smack_known_star.smk_known;
2943 * Look it up in the supplied table if it is not
2944 * a direct mapping.
2946 sp = smack_from_cipso(sap->attr.mls.lvl, smack);
2947 if (sp != NULL)
2948 return sp;
2949 if (ssp != NULL && ssp->smk_in == smack_known_star.smk_known)
2950 return smack_known_web.smk_known;
2951 return smack_known_star.smk_known;
2953 if ((sap->flags & NETLBL_SECATTR_SECID) != 0) {
2955 * Looks like a fallback, which gives us a secid.
2957 sp = smack_from_secid(sap->attr.secid);
2959 * This has got to be a bug because it is
2960 * impossible to specify a fallback without
2961 * specifying the label, which will ensure
2962 * it has a secid, and the only way to get a
2963 * secid is from a fallback.
2965 BUG_ON(sp == NULL);
2966 return sp;
2969 * Without guidance regarding the smack value
2970 * for the packet fall back on the network
2971 * ambient value.
2973 return smack_net_ambient;
2977 * smack_socket_sock_rcv_skb - Smack packet delivery access check
2978 * @sk: socket
2979 * @skb: packet
2981 * Returns 0 if the packet should be delivered, an error code otherwise
2983 static int smack_socket_sock_rcv_skb(struct sock *sk, struct sk_buff *skb)
2985 struct netlbl_lsm_secattr secattr;
2986 struct socket_smack *ssp = sk->sk_security;
2987 char *csp;
2988 int rc;
2989 struct smk_audit_info ad;
2990 if (sk->sk_family != PF_INET && sk->sk_family != PF_INET6)
2991 return 0;
2994 * Translate what netlabel gave us.
2996 netlbl_secattr_init(&secattr);
2998 rc = netlbl_skbuff_getattr(skb, sk->sk_family, &secattr);
2999 if (rc == 0)
3000 csp = smack_from_secattr(&secattr, ssp);
3001 else
3002 csp = smack_net_ambient;
3004 netlbl_secattr_destroy(&secattr);
3006 #ifdef CONFIG_AUDIT
3007 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_NET);
3008 ad.a.u.net.family = sk->sk_family;
3009 ad.a.u.net.netif = skb->skb_iif;
3010 ipv4_skb_to_auditdata(skb, &ad.a, NULL);
3011 #endif
3013 * Receiving a packet requires that the other end
3014 * be able to write here. Read access is not required.
3015 * This is the simplist possible security model
3016 * for networking.
3018 rc = smk_access(csp, ssp->smk_in, MAY_WRITE, &ad);
3019 if (rc != 0)
3020 netlbl_skbuff_err(skb, rc, 0);
3021 return rc;
3025 * smack_socket_getpeersec_stream - pull in packet label
3026 * @sock: the socket
3027 * @optval: user's destination
3028 * @optlen: size thereof
3029 * @len: max thereof
3031 * returns zero on success, an error code otherwise
3033 static int smack_socket_getpeersec_stream(struct socket *sock,
3034 char __user *optval,
3035 int __user *optlen, unsigned len)
3037 struct socket_smack *ssp;
3038 char *rcp = "";
3039 int slen = 1;
3040 int rc = 0;
3042 ssp = sock->sk->sk_security;
3043 if (ssp->smk_packet != NULL) {
3044 rcp = ssp->smk_packet;
3045 slen = strlen(rcp) + 1;
3048 if (slen > len)
3049 rc = -ERANGE;
3050 else if (copy_to_user(optval, rcp, slen) != 0)
3051 rc = -EFAULT;
3053 if (put_user(slen, optlen) != 0)
3054 rc = -EFAULT;
3056 return rc;
3061 * smack_socket_getpeersec_dgram - pull in packet label
3062 * @sock: the peer socket
3063 * @skb: packet data
3064 * @secid: pointer to where to put the secid of the packet
3066 * Sets the netlabel socket state on sk from parent
3068 static int smack_socket_getpeersec_dgram(struct socket *sock,
3069 struct sk_buff *skb, u32 *secid)
3072 struct netlbl_lsm_secattr secattr;
3073 struct socket_smack *ssp = NULL;
3074 char *sp;
3075 int family = PF_UNSPEC;
3076 u32 s = 0; /* 0 is the invalid secid */
3077 int rc;
3079 if (skb != NULL) {
3080 if (skb->protocol == htons(ETH_P_IP))
3081 family = PF_INET;
3082 else if (skb->protocol == htons(ETH_P_IPV6))
3083 family = PF_INET6;
3085 if (family == PF_UNSPEC && sock != NULL)
3086 family = sock->sk->sk_family;
3088 if (family == PF_UNIX) {
3089 ssp = sock->sk->sk_security;
3090 s = smack_to_secid(ssp->smk_out);
3091 } else if (family == PF_INET || family == PF_INET6) {
3093 * Translate what netlabel gave us.
3095 if (sock != NULL && sock->sk != NULL)
3096 ssp = sock->sk->sk_security;
3097 netlbl_secattr_init(&secattr);
3098 rc = netlbl_skbuff_getattr(skb, family, &secattr);
3099 if (rc == 0) {
3100 sp = smack_from_secattr(&secattr, ssp);
3101 s = smack_to_secid(sp);
3103 netlbl_secattr_destroy(&secattr);
3105 *secid = s;
3106 if (s == 0)
3107 return -EINVAL;
3108 return 0;
3112 * smack_sock_graft - Initialize a newly created socket with an existing sock
3113 * @sk: child sock
3114 * @parent: parent socket
3116 * Set the smk_{in,out} state of an existing sock based on the process that
3117 * is creating the new socket.
3119 static void smack_sock_graft(struct sock *sk, struct socket *parent)
3121 struct socket_smack *ssp;
3123 if (sk == NULL ||
3124 (sk->sk_family != PF_INET && sk->sk_family != PF_INET6))
3125 return;
3127 ssp = sk->sk_security;
3128 ssp->smk_in = ssp->smk_out = smk_of_current();
3129 /* cssp->smk_packet is already set in smack_inet_csk_clone() */
3133 * smack_inet_conn_request - Smack access check on connect
3134 * @sk: socket involved
3135 * @skb: packet
3136 * @req: unused
3138 * Returns 0 if a task with the packet label could write to
3139 * the socket, otherwise an error code
3141 static int smack_inet_conn_request(struct sock *sk, struct sk_buff *skb,
3142 struct request_sock *req)
3144 u16 family = sk->sk_family;
3145 struct socket_smack *ssp = sk->sk_security;
3146 struct netlbl_lsm_secattr secattr;
3147 struct sockaddr_in addr;
3148 struct iphdr *hdr;
3149 char *sp;
3150 int rc;
3151 struct smk_audit_info ad;
3153 /* handle mapped IPv4 packets arriving via IPv6 sockets */
3154 if (family == PF_INET6 && skb->protocol == htons(ETH_P_IP))
3155 family = PF_INET;
3157 netlbl_secattr_init(&secattr);
3158 rc = netlbl_skbuff_getattr(skb, family, &secattr);
3159 if (rc == 0)
3160 sp = smack_from_secattr(&secattr, ssp);
3161 else
3162 sp = smack_known_huh.smk_known;
3163 netlbl_secattr_destroy(&secattr);
3165 #ifdef CONFIG_AUDIT
3166 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_NET);
3167 ad.a.u.net.family = family;
3168 ad.a.u.net.netif = skb->skb_iif;
3169 ipv4_skb_to_auditdata(skb, &ad.a, NULL);
3170 #endif
3172 * Receiving a packet requires that the other end be able to write
3173 * here. Read access is not required.
3175 rc = smk_access(sp, ssp->smk_in, MAY_WRITE, &ad);
3176 if (rc != 0)
3177 return rc;
3180 * Save the peer's label in the request_sock so we can later setup
3181 * smk_packet in the child socket so that SO_PEERCRED can report it.
3183 req->peer_secid = smack_to_secid(sp);
3186 * We need to decide if we want to label the incoming connection here
3187 * if we do we only need to label the request_sock and the stack will
3188 * propagate the wire-label to the sock when it is created.
3190 hdr = ip_hdr(skb);
3191 addr.sin_addr.s_addr = hdr->saddr;
3192 rcu_read_lock();
3193 if (smack_host_label(&addr) == NULL) {
3194 rcu_read_unlock();
3195 netlbl_secattr_init(&secattr);
3196 smack_to_secattr(sp, &secattr);
3197 rc = netlbl_req_setattr(req, &secattr);
3198 netlbl_secattr_destroy(&secattr);
3199 } else {
3200 rcu_read_unlock();
3201 netlbl_req_delattr(req);
3204 return rc;
3208 * smack_inet_csk_clone - Copy the connection information to the new socket
3209 * @sk: the new socket
3210 * @req: the connection's request_sock
3212 * Transfer the connection's peer label to the newly created socket.
3214 static void smack_inet_csk_clone(struct sock *sk,
3215 const struct request_sock *req)
3217 struct socket_smack *ssp = sk->sk_security;
3219 if (req->peer_secid != 0)
3220 ssp->smk_packet = smack_from_secid(req->peer_secid);
3221 else
3222 ssp->smk_packet = NULL;
3226 * Key management security hooks
3228 * Casey has not tested key support very heavily.
3229 * The permission check is most likely too restrictive.
3230 * If you care about keys please have a look.
3232 #ifdef CONFIG_KEYS
3235 * smack_key_alloc - Set the key security blob
3236 * @key: object
3237 * @cred: the credentials to use
3238 * @flags: unused
3240 * No allocation required
3242 * Returns 0
3244 static int smack_key_alloc(struct key *key, const struct cred *cred,
3245 unsigned long flags)
3247 key->security = smk_of_task(cred->security);
3248 return 0;
3252 * smack_key_free - Clear the key security blob
3253 * @key: the object
3255 * Clear the blob pointer
3257 static void smack_key_free(struct key *key)
3259 key->security = NULL;
3263 * smack_key_permission - Smack access on a key
3264 * @key_ref: gets to the object
3265 * @cred: the credentials to use
3266 * @perm: unused
3268 * Return 0 if the task has read and write to the object,
3269 * an error code otherwise
3271 static int smack_key_permission(key_ref_t key_ref,
3272 const struct cred *cred, key_perm_t perm)
3274 struct key *keyp;
3275 struct smk_audit_info ad;
3276 char *tsp = smk_of_task(cred->security);
3278 keyp = key_ref_to_ptr(key_ref);
3279 if (keyp == NULL)
3280 return -EINVAL;
3282 * If the key hasn't been initialized give it access so that
3283 * it may do so.
3285 if (keyp->security == NULL)
3286 return 0;
3288 * This should not occur
3290 if (tsp == NULL)
3291 return -EACCES;
3292 #ifdef CONFIG_AUDIT
3293 smk_ad_init(&ad, __func__, LSM_AUDIT_DATA_KEY);
3294 ad.a.u.key_struct.key = keyp->serial;
3295 ad.a.u.key_struct.key_desc = keyp->description;
3296 #endif
3297 return smk_access(tsp, keyp->security,
3298 MAY_READWRITE, &ad);
3300 #endif /* CONFIG_KEYS */
3303 * Smack Audit hooks
3305 * Audit requires a unique representation of each Smack specific
3306 * rule. This unique representation is used to distinguish the
3307 * object to be audited from remaining kernel objects and also
3308 * works as a glue between the audit hooks.
3310 * Since repository entries are added but never deleted, we'll use
3311 * the smack_known label address related to the given audit rule as
3312 * the needed unique representation. This also better fits the smack
3313 * model where nearly everything is a label.
3315 #ifdef CONFIG_AUDIT
3318 * smack_audit_rule_init - Initialize a smack audit rule
3319 * @field: audit rule fields given from user-space (audit.h)
3320 * @op: required testing operator (=, !=, >, <, ...)
3321 * @rulestr: smack label to be audited
3322 * @vrule: pointer to save our own audit rule representation
3324 * Prepare to audit cases where (@field @op @rulestr) is true.
3325 * The label to be audited is created if necessay.
3327 static int smack_audit_rule_init(u32 field, u32 op, char *rulestr, void **vrule)
3329 char **rule = (char **)vrule;
3330 *rule = NULL;
3332 if (field != AUDIT_SUBJ_USER && field != AUDIT_OBJ_USER)
3333 return -EINVAL;
3335 if (op != Audit_equal && op != Audit_not_equal)
3336 return -EINVAL;
3338 *rule = smk_import(rulestr, 0);
3340 return 0;
3344 * smack_audit_rule_known - Distinguish Smack audit rules
3345 * @krule: rule of interest, in Audit kernel representation format
3347 * This is used to filter Smack rules from remaining Audit ones.
3348 * If it's proved that this rule belongs to us, the
3349 * audit_rule_match hook will be called to do the final judgement.
3351 static int smack_audit_rule_known(struct audit_krule *krule)
3353 struct audit_field *f;
3354 int i;
3356 for (i = 0; i < krule->field_count; i++) {
3357 f = &krule->fields[i];
3359 if (f->type == AUDIT_SUBJ_USER || f->type == AUDIT_OBJ_USER)
3360 return 1;
3363 return 0;
3367 * smack_audit_rule_match - Audit given object ?
3368 * @secid: security id for identifying the object to test
3369 * @field: audit rule flags given from user-space
3370 * @op: required testing operator
3371 * @vrule: smack internal rule presentation
3372 * @actx: audit context associated with the check
3374 * The core Audit hook. It's used to take the decision of
3375 * whether to audit or not to audit a given object.
3377 static int smack_audit_rule_match(u32 secid, u32 field, u32 op, void *vrule,
3378 struct audit_context *actx)
3380 char *smack;
3381 char *rule = vrule;
3383 if (!rule) {
3384 audit_log(actx, GFP_KERNEL, AUDIT_SELINUX_ERR,
3385 "Smack: missing rule\n");
3386 return -ENOENT;
3389 if (field != AUDIT_SUBJ_USER && field != AUDIT_OBJ_USER)
3390 return 0;
3392 smack = smack_from_secid(secid);
3395 * No need to do string comparisons. If a match occurs,
3396 * both pointers will point to the same smack_known
3397 * label.
3399 if (op == Audit_equal)
3400 return (rule == smack);
3401 if (op == Audit_not_equal)
3402 return (rule != smack);
3404 return 0;
3408 * smack_audit_rule_free - free smack rule representation
3409 * @vrule: rule to be freed.
3411 * No memory was allocated.
3413 static void smack_audit_rule_free(void *vrule)
3415 /* No-op */
3418 #endif /* CONFIG_AUDIT */
3421 * smack_secid_to_secctx - return the smack label for a secid
3422 * @secid: incoming integer
3423 * @secdata: destination
3424 * @seclen: how long it is
3426 * Exists for networking code.
3428 static int smack_secid_to_secctx(u32 secid, char **secdata, u32 *seclen)
3430 char *sp = smack_from_secid(secid);
3432 if (secdata)
3433 *secdata = sp;
3434 *seclen = strlen(sp);
3435 return 0;
3439 * smack_secctx_to_secid - return the secid for a smack label
3440 * @secdata: smack label
3441 * @seclen: how long result is
3442 * @secid: outgoing integer
3444 * Exists for audit and networking code.
3446 static int smack_secctx_to_secid(const char *secdata, u32 seclen, u32 *secid)
3448 *secid = smack_to_secid(secdata);
3449 return 0;
3453 * smack_release_secctx - don't do anything.
3454 * @secdata: unused
3455 * @seclen: unused
3457 * Exists to make sure nothing gets done, and properly
3459 static void smack_release_secctx(char *secdata, u32 seclen)
3463 static int smack_inode_notifysecctx(struct inode *inode, void *ctx, u32 ctxlen)
3465 return smack_inode_setsecurity(inode, XATTR_SMACK_SUFFIX, ctx, ctxlen, 0);
3468 static int smack_inode_setsecctx(struct dentry *dentry, void *ctx, u32 ctxlen)
3470 return __vfs_setxattr_noperm(dentry, XATTR_NAME_SMACK, ctx, ctxlen, 0);
3473 static int smack_inode_getsecctx(struct inode *inode, void **ctx, u32 *ctxlen)
3475 int len = 0;
3476 len = smack_inode_getsecurity(inode, XATTR_SMACK_SUFFIX, ctx, true);
3478 if (len < 0)
3479 return len;
3480 *ctxlen = len;
3481 return 0;
3484 struct security_operations smack_ops = {
3485 .name = "smack",
3487 .ptrace_access_check = smack_ptrace_access_check,
3488 .ptrace_traceme = smack_ptrace_traceme,
3489 .syslog = smack_syslog,
3491 .sb_alloc_security = smack_sb_alloc_security,
3492 .sb_free_security = smack_sb_free_security,
3493 .sb_copy_data = smack_sb_copy_data,
3494 .sb_kern_mount = smack_sb_kern_mount,
3495 .sb_statfs = smack_sb_statfs,
3496 .sb_mount = smack_sb_mount,
3497 .sb_umount = smack_sb_umount,
3499 .bprm_set_creds = smack_bprm_set_creds,
3500 .bprm_committing_creds = smack_bprm_committing_creds,
3501 .bprm_secureexec = smack_bprm_secureexec,
3503 .inode_alloc_security = smack_inode_alloc_security,
3504 .inode_free_security = smack_inode_free_security,
3505 .inode_init_security = smack_inode_init_security,
3506 .inode_link = smack_inode_link,
3507 .inode_unlink = smack_inode_unlink,
3508 .inode_rmdir = smack_inode_rmdir,
3509 .inode_rename = smack_inode_rename,
3510 .inode_permission = smack_inode_permission,
3511 .inode_setattr = smack_inode_setattr,
3512 .inode_getattr = smack_inode_getattr,
3513 .inode_setxattr = smack_inode_setxattr,
3514 .inode_post_setxattr = smack_inode_post_setxattr,
3515 .inode_getxattr = smack_inode_getxattr,
3516 .inode_removexattr = smack_inode_removexattr,
3517 .inode_getsecurity = smack_inode_getsecurity,
3518 .inode_setsecurity = smack_inode_setsecurity,
3519 .inode_listsecurity = smack_inode_listsecurity,
3520 .inode_getsecid = smack_inode_getsecid,
3522 .file_permission = smack_file_permission,
3523 .file_alloc_security = smack_file_alloc_security,
3524 .file_free_security = smack_file_free_security,
3525 .file_ioctl = smack_file_ioctl,
3526 .file_lock = smack_file_lock,
3527 .file_fcntl = smack_file_fcntl,
3528 .file_mmap = smack_file_mmap,
3529 .file_set_fowner = smack_file_set_fowner,
3530 .file_send_sigiotask = smack_file_send_sigiotask,
3531 .file_receive = smack_file_receive,
3533 .dentry_open = smack_dentry_open,
3535 .cred_alloc_blank = smack_cred_alloc_blank,
3536 .cred_free = smack_cred_free,
3537 .cred_prepare = smack_cred_prepare,
3538 .cred_transfer = smack_cred_transfer,
3539 .kernel_act_as = smack_kernel_act_as,
3540 .kernel_create_files_as = smack_kernel_create_files_as,
3541 .task_setpgid = smack_task_setpgid,
3542 .task_getpgid = smack_task_getpgid,
3543 .task_getsid = smack_task_getsid,
3544 .task_getsecid = smack_task_getsecid,
3545 .task_setnice = smack_task_setnice,
3546 .task_setioprio = smack_task_setioprio,
3547 .task_getioprio = smack_task_getioprio,
3548 .task_setscheduler = smack_task_setscheduler,
3549 .task_getscheduler = smack_task_getscheduler,
3550 .task_movememory = smack_task_movememory,
3551 .task_kill = smack_task_kill,
3552 .task_wait = smack_task_wait,
3553 .task_to_inode = smack_task_to_inode,
3555 .ipc_permission = smack_ipc_permission,
3556 .ipc_getsecid = smack_ipc_getsecid,
3558 .msg_msg_alloc_security = smack_msg_msg_alloc_security,
3559 .msg_msg_free_security = smack_msg_msg_free_security,
3561 .msg_queue_alloc_security = smack_msg_queue_alloc_security,
3562 .msg_queue_free_security = smack_msg_queue_free_security,
3563 .msg_queue_associate = smack_msg_queue_associate,
3564 .msg_queue_msgctl = smack_msg_queue_msgctl,
3565 .msg_queue_msgsnd = smack_msg_queue_msgsnd,
3566 .msg_queue_msgrcv = smack_msg_queue_msgrcv,
3568 .shm_alloc_security = smack_shm_alloc_security,
3569 .shm_free_security = smack_shm_free_security,
3570 .shm_associate = smack_shm_associate,
3571 .shm_shmctl = smack_shm_shmctl,
3572 .shm_shmat = smack_shm_shmat,
3574 .sem_alloc_security = smack_sem_alloc_security,
3575 .sem_free_security = smack_sem_free_security,
3576 .sem_associate = smack_sem_associate,
3577 .sem_semctl = smack_sem_semctl,
3578 .sem_semop = smack_sem_semop,
3580 .d_instantiate = smack_d_instantiate,
3582 .getprocattr = smack_getprocattr,
3583 .setprocattr = smack_setprocattr,
3585 .unix_stream_connect = smack_unix_stream_connect,
3586 .unix_may_send = smack_unix_may_send,
3588 .socket_post_create = smack_socket_post_create,
3589 .socket_connect = smack_socket_connect,
3590 .socket_sendmsg = smack_socket_sendmsg,
3591 .socket_sock_rcv_skb = smack_socket_sock_rcv_skb,
3592 .socket_getpeersec_stream = smack_socket_getpeersec_stream,
3593 .socket_getpeersec_dgram = smack_socket_getpeersec_dgram,
3594 .sk_alloc_security = smack_sk_alloc_security,
3595 .sk_free_security = smack_sk_free_security,
3596 .sock_graft = smack_sock_graft,
3597 .inet_conn_request = smack_inet_conn_request,
3598 .inet_csk_clone = smack_inet_csk_clone,
3600 /* key management security hooks */
3601 #ifdef CONFIG_KEYS
3602 .key_alloc = smack_key_alloc,
3603 .key_free = smack_key_free,
3604 .key_permission = smack_key_permission,
3605 #endif /* CONFIG_KEYS */
3607 /* Audit hooks */
3608 #ifdef CONFIG_AUDIT
3609 .audit_rule_init = smack_audit_rule_init,
3610 .audit_rule_known = smack_audit_rule_known,
3611 .audit_rule_match = smack_audit_rule_match,
3612 .audit_rule_free = smack_audit_rule_free,
3613 #endif /* CONFIG_AUDIT */
3615 .secid_to_secctx = smack_secid_to_secctx,
3616 .secctx_to_secid = smack_secctx_to_secid,
3617 .release_secctx = smack_release_secctx,
3618 .inode_notifysecctx = smack_inode_notifysecctx,
3619 .inode_setsecctx = smack_inode_setsecctx,
3620 .inode_getsecctx = smack_inode_getsecctx,
3624 static __init void init_smack_know_list(void)
3626 list_add(&smack_known_huh.list, &smack_known_list);
3627 list_add(&smack_known_hat.list, &smack_known_list);
3628 list_add(&smack_known_star.list, &smack_known_list);
3629 list_add(&smack_known_floor.list, &smack_known_list);
3630 list_add(&smack_known_invalid.list, &smack_known_list);
3631 list_add(&smack_known_web.list, &smack_known_list);
3635 * smack_init - initialize the smack system
3637 * Returns 0
3639 static __init int smack_init(void)
3641 struct cred *cred;
3642 struct task_smack *tsp;
3644 if (!security_module_enable(&smack_ops))
3645 return 0;
3647 tsp = new_task_smack(smack_known_floor.smk_known,
3648 smack_known_floor.smk_known, GFP_KERNEL);
3649 if (tsp == NULL)
3650 return -ENOMEM;
3652 printk(KERN_INFO "Smack: Initializing.\n");
3655 * Set the security state for the initial task.
3657 cred = (struct cred *) current->cred;
3658 cred->security = tsp;
3660 /* initialize the smack_know_list */
3661 init_smack_know_list();
3663 * Initialize locks
3665 spin_lock_init(&smack_known_huh.smk_cipsolock);
3666 spin_lock_init(&smack_known_hat.smk_cipsolock);
3667 spin_lock_init(&smack_known_star.smk_cipsolock);
3668 spin_lock_init(&smack_known_floor.smk_cipsolock);
3669 spin_lock_init(&smack_known_invalid.smk_cipsolock);
3672 * Register with LSM
3674 if (register_security(&smack_ops))
3675 panic("smack: Unable to register with kernel.\n");
3677 return 0;
3681 * Smack requires early initialization in order to label
3682 * all processes and objects when they are created.
3684 security_initcall(smack_init);