1cb2c7d1aSMickaël Salaün // SPDX-License-Identifier: GPL-2.0-only
2cb2c7d1aSMickaël Salaün /*
3cb2c7d1aSMickaël Salaün * Landlock LSM - Filesystem management and hooks
4cb2c7d1aSMickaël Salaün *
5cb2c7d1aSMickaël Salaün * Copyright © 2016-2020 Mickaël Salaün <mic@digikod.net>
6cb2c7d1aSMickaël Salaün * Copyright © 2018-2020 ANSSI
7b91c3e4eSMickaël Salaün * Copyright © 2021-2022 Microsoft Corporation
8cb2c7d1aSMickaël Salaün */
9cb2c7d1aSMickaël Salaün
10cb2c7d1aSMickaël Salaün #include <linux/atomic.h>
11cb2c7d1aSMickaël Salaün #include <linux/bitops.h>
12cb2c7d1aSMickaël Salaün #include <linux/bits.h>
13cb2c7d1aSMickaël Salaün #include <linux/compiler_types.h>
14cb2c7d1aSMickaël Salaün #include <linux/dcache.h>
15cb2c7d1aSMickaël Salaün #include <linux/err.h>
16cb2c7d1aSMickaël Salaün #include <linux/fs.h>
17cb2c7d1aSMickaël Salaün #include <linux/init.h>
18cb2c7d1aSMickaël Salaün #include <linux/kernel.h>
19cb2c7d1aSMickaël Salaün #include <linux/limits.h>
20cb2c7d1aSMickaël Salaün #include <linux/list.h>
21cb2c7d1aSMickaël Salaün #include <linux/lsm_hooks.h>
22cb2c7d1aSMickaël Salaün #include <linux/mount.h>
23cb2c7d1aSMickaël Salaün #include <linux/namei.h>
24cb2c7d1aSMickaël Salaün #include <linux/path.h>
25cb2c7d1aSMickaël Salaün #include <linux/rcupdate.h>
26cb2c7d1aSMickaël Salaün #include <linux/spinlock.h>
27cb2c7d1aSMickaël Salaün #include <linux/stat.h>
28cb2c7d1aSMickaël Salaün #include <linux/types.h>
29cb2c7d1aSMickaël Salaün #include <linux/wait_bit.h>
30cb2c7d1aSMickaël Salaün #include <linux/workqueue.h>
31cb2c7d1aSMickaël Salaün #include <uapi/linux/landlock.h>
32cb2c7d1aSMickaël Salaün
33cb2c7d1aSMickaël Salaün #include "common.h"
34cb2c7d1aSMickaël Salaün #include "cred.h"
35cb2c7d1aSMickaël Salaün #include "fs.h"
36cb2c7d1aSMickaël Salaün #include "limits.h"
37cb2c7d1aSMickaël Salaün #include "object.h"
38cb2c7d1aSMickaël Salaün #include "ruleset.h"
39cb2c7d1aSMickaël Salaün #include "setup.h"
40cb2c7d1aSMickaël Salaün
41cb2c7d1aSMickaël Salaün /* Underlying object management */
42cb2c7d1aSMickaël Salaün
release_inode(struct landlock_object * const object)43cb2c7d1aSMickaël Salaün static void release_inode(struct landlock_object *const object)
44cb2c7d1aSMickaël Salaün __releases(object->lock)
45cb2c7d1aSMickaël Salaün {
46cb2c7d1aSMickaël Salaün struct inode *const inode = object->underobj;
47cb2c7d1aSMickaël Salaün struct super_block *sb;
48cb2c7d1aSMickaël Salaün
49cb2c7d1aSMickaël Salaün if (!inode) {
50cb2c7d1aSMickaël Salaün spin_unlock(&object->lock);
51cb2c7d1aSMickaël Salaün return;
52cb2c7d1aSMickaël Salaün }
53cb2c7d1aSMickaël Salaün
54cb2c7d1aSMickaël Salaün /*
55cb2c7d1aSMickaël Salaün * Protects against concurrent use by hook_sb_delete() of the reference
56cb2c7d1aSMickaël Salaün * to the underlying inode.
57cb2c7d1aSMickaël Salaün */
58cb2c7d1aSMickaël Salaün object->underobj = NULL;
59cb2c7d1aSMickaël Salaün /*
60cb2c7d1aSMickaël Salaün * Makes sure that if the filesystem is concurrently unmounted,
61cb2c7d1aSMickaël Salaün * hook_sb_delete() will wait for us to finish iput().
62cb2c7d1aSMickaël Salaün */
63cb2c7d1aSMickaël Salaün sb = inode->i_sb;
64cb2c7d1aSMickaël Salaün atomic_long_inc(&landlock_superblock(sb)->inode_refs);
65cb2c7d1aSMickaël Salaün spin_unlock(&object->lock);
66cb2c7d1aSMickaël Salaün /*
67cb2c7d1aSMickaël Salaün * Because object->underobj was not NULL, hook_sb_delete() and
68cb2c7d1aSMickaël Salaün * get_inode_object() guarantee that it is safe to reset
69cb2c7d1aSMickaël Salaün * landlock_inode(inode)->object while it is not NULL. It is therefore
70cb2c7d1aSMickaël Salaün * not necessary to lock inode->i_lock.
71cb2c7d1aSMickaël Salaün */
72cb2c7d1aSMickaël Salaün rcu_assign_pointer(landlock_inode(inode)->object, NULL);
73cb2c7d1aSMickaël Salaün /*
74cb2c7d1aSMickaël Salaün * Now, new rules can safely be tied to @inode with get_inode_object().
75cb2c7d1aSMickaël Salaün */
76cb2c7d1aSMickaël Salaün
77cb2c7d1aSMickaël Salaün iput(inode);
78cb2c7d1aSMickaël Salaün if (atomic_long_dec_and_test(&landlock_superblock(sb)->inode_refs))
79cb2c7d1aSMickaël Salaün wake_up_var(&landlock_superblock(sb)->inode_refs);
80cb2c7d1aSMickaël Salaün }
81cb2c7d1aSMickaël Salaün
82cb2c7d1aSMickaël Salaün static const struct landlock_object_underops landlock_fs_underops = {
83cb2c7d1aSMickaël Salaün .release = release_inode
84cb2c7d1aSMickaël Salaün };
85cb2c7d1aSMickaël Salaün
86cb2c7d1aSMickaël Salaün /* Ruleset management */
87cb2c7d1aSMickaël Salaün
get_inode_object(struct inode * const inode)88cb2c7d1aSMickaël Salaün static struct landlock_object *get_inode_object(struct inode *const inode)
89cb2c7d1aSMickaël Salaün {
90cb2c7d1aSMickaël Salaün struct landlock_object *object, *new_object;
91cb2c7d1aSMickaël Salaün struct landlock_inode_security *inode_sec = landlock_inode(inode);
92cb2c7d1aSMickaël Salaün
93cb2c7d1aSMickaël Salaün rcu_read_lock();
94cb2c7d1aSMickaël Salaün retry:
95cb2c7d1aSMickaël Salaün object = rcu_dereference(inode_sec->object);
96cb2c7d1aSMickaël Salaün if (object) {
97cb2c7d1aSMickaël Salaün if (likely(refcount_inc_not_zero(&object->usage))) {
98cb2c7d1aSMickaël Salaün rcu_read_unlock();
99cb2c7d1aSMickaël Salaün return object;
100cb2c7d1aSMickaël Salaün }
101cb2c7d1aSMickaël Salaün /*
102cb2c7d1aSMickaël Salaün * We are racing with release_inode(), the object is going
103cb2c7d1aSMickaël Salaün * away. Wait for release_inode(), then retry.
104cb2c7d1aSMickaël Salaün */
105cb2c7d1aSMickaël Salaün spin_lock(&object->lock);
106cb2c7d1aSMickaël Salaün spin_unlock(&object->lock);
107cb2c7d1aSMickaël Salaün goto retry;
108cb2c7d1aSMickaël Salaün }
109cb2c7d1aSMickaël Salaün rcu_read_unlock();
110cb2c7d1aSMickaël Salaün
111cb2c7d1aSMickaël Salaün /*
112cb2c7d1aSMickaël Salaün * If there is no object tied to @inode, then create a new one (without
113cb2c7d1aSMickaël Salaün * holding any locks).
114cb2c7d1aSMickaël Salaün */
115cb2c7d1aSMickaël Salaün new_object = landlock_create_object(&landlock_fs_underops, inode);
116cb2c7d1aSMickaël Salaün if (IS_ERR(new_object))
117cb2c7d1aSMickaël Salaün return new_object;
118cb2c7d1aSMickaël Salaün
119cb2c7d1aSMickaël Salaün /*
120cb2c7d1aSMickaël Salaün * Protects against concurrent calls to get_inode_object() or
121cb2c7d1aSMickaël Salaün * hook_sb_delete().
122cb2c7d1aSMickaël Salaün */
123cb2c7d1aSMickaël Salaün spin_lock(&inode->i_lock);
124cb2c7d1aSMickaël Salaün if (unlikely(rcu_access_pointer(inode_sec->object))) {
125cb2c7d1aSMickaël Salaün /* Someone else just created the object, bail out and retry. */
126cb2c7d1aSMickaël Salaün spin_unlock(&inode->i_lock);
127cb2c7d1aSMickaël Salaün kfree(new_object);
128cb2c7d1aSMickaël Salaün
129cb2c7d1aSMickaël Salaün rcu_read_lock();
130cb2c7d1aSMickaël Salaün goto retry;
131cb2c7d1aSMickaël Salaün }
132cb2c7d1aSMickaël Salaün
133cb2c7d1aSMickaël Salaün /*
134cb2c7d1aSMickaël Salaün * @inode will be released by hook_sb_delete() on its superblock
135cb2c7d1aSMickaël Salaün * shutdown, or by release_inode() when no more ruleset references the
136cb2c7d1aSMickaël Salaün * related object.
137cb2c7d1aSMickaël Salaün */
138cb2c7d1aSMickaël Salaün ihold(inode);
139cb2c7d1aSMickaël Salaün rcu_assign_pointer(inode_sec->object, new_object);
140cb2c7d1aSMickaël Salaün spin_unlock(&inode->i_lock);
141cb2c7d1aSMickaël Salaün return new_object;
142cb2c7d1aSMickaël Salaün }
143cb2c7d1aSMickaël Salaün
144cb2c7d1aSMickaël Salaün /* All access rights that can be tied to files. */
1456cc2df8eSMickaël Salaün /* clang-format off */
146cb2c7d1aSMickaël Salaün #define ACCESS_FILE ( \
147cb2c7d1aSMickaël Salaün LANDLOCK_ACCESS_FS_EXECUTE | \
148cb2c7d1aSMickaël Salaün LANDLOCK_ACCESS_FS_WRITE_FILE | \
149b9f5ce27SGünther Noack LANDLOCK_ACCESS_FS_READ_FILE | \
150b9f5ce27SGünther Noack LANDLOCK_ACCESS_FS_TRUNCATE)
1516cc2df8eSMickaël Salaün /* clang-format on */
152cb2c7d1aSMickaël Salaün
153cb2c7d1aSMickaël Salaün /*
15455e55920SMickaël Salaün * All access rights that are denied by default whether they are handled or not
15555e55920SMickaël Salaün * by a ruleset/layer. This must be ORed with all ruleset->fs_access_masks[]
15655e55920SMickaël Salaün * entries when we need to get the absolute handled access masks.
15755e55920SMickaël Salaün */
15855e55920SMickaël Salaün /* clang-format off */
15955e55920SMickaël Salaün #define ACCESS_INITIALLY_DENIED ( \
16055e55920SMickaël Salaün LANDLOCK_ACCESS_FS_REFER)
16155e55920SMickaël Salaün /* clang-format on */
16255e55920SMickaël Salaün
16355e55920SMickaël Salaün /*
164cb2c7d1aSMickaël Salaün * @path: Should have been checked by get_path_from_fd().
165cb2c7d1aSMickaël Salaün */
landlock_append_fs_rule(struct landlock_ruleset * const ruleset,const struct path * const path,access_mask_t access_rights)166cb2c7d1aSMickaël Salaün int landlock_append_fs_rule(struct landlock_ruleset *const ruleset,
1675f2ff33eSMickaël Salaün const struct path *const path,
1685f2ff33eSMickaël Salaün access_mask_t access_rights)
169cb2c7d1aSMickaël Salaün {
170cb2c7d1aSMickaël Salaün int err;
171cb2c7d1aSMickaël Salaün struct landlock_object *object;
172cb2c7d1aSMickaël Salaün
173cb2c7d1aSMickaël Salaün /* Files only get access rights that make sense. */
17406a1c40aSMickaël Salaün if (!d_is_dir(path->dentry) &&
17506a1c40aSMickaël Salaün (access_rights | ACCESS_FILE) != ACCESS_FILE)
176cb2c7d1aSMickaël Salaün return -EINVAL;
177cb2c7d1aSMickaël Salaün if (WARN_ON_ONCE(ruleset->num_layers != 1))
178cb2c7d1aSMickaël Salaün return -EINVAL;
179cb2c7d1aSMickaël Salaün
180cb2c7d1aSMickaël Salaün /* Transforms relative access rights to absolute ones. */
18155e55920SMickaël Salaün access_rights |=
18255e55920SMickaël Salaün LANDLOCK_MASK_ACCESS_FS &
18355e55920SMickaël Salaün ~(ruleset->fs_access_masks[0] | ACCESS_INITIALLY_DENIED);
184cb2c7d1aSMickaël Salaün object = get_inode_object(d_backing_inode(path->dentry));
185cb2c7d1aSMickaël Salaün if (IS_ERR(object))
186cb2c7d1aSMickaël Salaün return PTR_ERR(object);
187cb2c7d1aSMickaël Salaün mutex_lock(&ruleset->lock);
188cb2c7d1aSMickaël Salaün err = landlock_insert_rule(ruleset, object, access_rights);
189cb2c7d1aSMickaël Salaün mutex_unlock(&ruleset->lock);
190cb2c7d1aSMickaël Salaün /*
191cb2c7d1aSMickaël Salaün * No need to check for an error because landlock_insert_rule()
192cb2c7d1aSMickaël Salaün * increments the refcount for the new object if needed.
193cb2c7d1aSMickaël Salaün */
194cb2c7d1aSMickaël Salaün landlock_put_object(object);
195cb2c7d1aSMickaël Salaün return err;
196cb2c7d1aSMickaël Salaün }
197cb2c7d1aSMickaël Salaün
198cb2c7d1aSMickaël Salaün /* Access-control management */
199cb2c7d1aSMickaël Salaün
2002cd7cd6eSMickaël Salaün /*
2012cd7cd6eSMickaël Salaün * The lifetime of the returned rule is tied to @domain.
2022cd7cd6eSMickaël Salaün *
2032cd7cd6eSMickaël Salaün * Returns NULL if no rule is found or if @dentry is negative.
2042cd7cd6eSMickaël Salaün */
2052cd7cd6eSMickaël Salaün static inline const struct landlock_rule *
find_rule(const struct landlock_ruleset * const domain,const struct dentry * const dentry)2062cd7cd6eSMickaël Salaün find_rule(const struct landlock_ruleset *const domain,
2072cd7cd6eSMickaël Salaün const struct dentry *const dentry)
208cb2c7d1aSMickaël Salaün {
209cb2c7d1aSMickaël Salaün const struct landlock_rule *rule;
210cb2c7d1aSMickaël Salaün const struct inode *inode;
211cb2c7d1aSMickaël Salaün
2122cd7cd6eSMickaël Salaün /* Ignores nonexistent leafs. */
2132cd7cd6eSMickaël Salaün if (d_is_negative(dentry))
2142cd7cd6eSMickaël Salaün return NULL;
2152cd7cd6eSMickaël Salaün
2162cd7cd6eSMickaël Salaün inode = d_backing_inode(dentry);
217cb2c7d1aSMickaël Salaün rcu_read_lock();
21806a1c40aSMickaël Salaün rule = landlock_find_rule(
21906a1c40aSMickaël Salaün domain, rcu_dereference(landlock_inode(inode)->object));
220cb2c7d1aSMickaël Salaün rcu_read_unlock();
2212cd7cd6eSMickaël Salaün return rule;
2222cd7cd6eSMickaël Salaün }
2232cd7cd6eSMickaël Salaün
2248ba0005fSMickaël Salaün /*
2258ba0005fSMickaël Salaün * @layer_masks is read and may be updated according to the access request and
2268ba0005fSMickaël Salaün * the matching rule.
2278ba0005fSMickaël Salaün *
2288ba0005fSMickaël Salaün * Returns true if the request is allowed (i.e. relevant layer masks for the
2298ba0005fSMickaël Salaün * request are empty).
2308ba0005fSMickaël Salaün */
2318ba0005fSMickaël Salaün static inline bool
unmask_layers(const struct landlock_rule * const rule,const access_mask_t access_request,layer_mask_t (* const layer_masks)[LANDLOCK_NUM_ACCESS_FS])2328ba0005fSMickaël Salaün unmask_layers(const struct landlock_rule *const rule,
2332cd7cd6eSMickaël Salaün const access_mask_t access_request,
2348ba0005fSMickaël Salaün layer_mask_t (*const layer_masks)[LANDLOCK_NUM_ACCESS_FS])
2352cd7cd6eSMickaël Salaün {
2362cd7cd6eSMickaël Salaün size_t layer_level;
2372cd7cd6eSMickaël Salaün
2388ba0005fSMickaël Salaün if (!access_request || !layer_masks)
2398ba0005fSMickaël Salaün return true;
240cb2c7d1aSMickaël Salaün if (!rule)
2418ba0005fSMickaël Salaün return false;
242cb2c7d1aSMickaël Salaün
243cb2c7d1aSMickaël Salaün /*
244cb2c7d1aSMickaël Salaün * An access is granted if, for each policy layer, at least one rule
2458ba0005fSMickaël Salaün * encountered on the pathwalk grants the requested access,
2468ba0005fSMickaël Salaün * regardless of its position in the layer stack. We must then check
247cb2c7d1aSMickaël Salaün * the remaining layers for each inode, from the first added layer to
2488ba0005fSMickaël Salaün * the last one. When there is multiple requested accesses, for each
2498ba0005fSMickaël Salaün * policy layer, the full set of requested accesses may not be granted
2508ba0005fSMickaël Salaün * by only one rule, but by the union (binary OR) of multiple rules.
2518ba0005fSMickaël Salaün * E.g. /a/b <execute> + /a <read> => /a/b <execute + read>
252cb2c7d1aSMickaël Salaün */
2532cd7cd6eSMickaël Salaün for (layer_level = 0; layer_level < rule->num_layers; layer_level++) {
2542cd7cd6eSMickaël Salaün const struct landlock_layer *const layer =
2552cd7cd6eSMickaël Salaün &rule->layers[layer_level];
25675c542d6SMickaël Salaün const layer_mask_t layer_bit = BIT_ULL(layer->level - 1);
2578ba0005fSMickaël Salaün const unsigned long access_req = access_request;
2588ba0005fSMickaël Salaün unsigned long access_bit;
2598ba0005fSMickaël Salaün bool is_empty;
260cb2c7d1aSMickaël Salaün
2618ba0005fSMickaël Salaün /*
2628ba0005fSMickaël Salaün * Records in @layer_masks which layer grants access to each
2638ba0005fSMickaël Salaün * requested access.
2648ba0005fSMickaël Salaün */
2658ba0005fSMickaël Salaün is_empty = true;
2668ba0005fSMickaël Salaün for_each_set_bit(access_bit, &access_req,
2678ba0005fSMickaël Salaün ARRAY_SIZE(*layer_masks)) {
2688ba0005fSMickaël Salaün if (layer->access & BIT_ULL(access_bit))
2698ba0005fSMickaël Salaün (*layer_masks)[access_bit] &= ~layer_bit;
2708ba0005fSMickaël Salaün is_empty = is_empty && !(*layer_masks)[access_bit];
271cb2c7d1aSMickaël Salaün }
2728ba0005fSMickaël Salaün if (is_empty)
2738ba0005fSMickaël Salaün return true;
274cb2c7d1aSMickaël Salaün }
2758ba0005fSMickaël Salaün return false;
276cb2c7d1aSMickaël Salaün }
277cb2c7d1aSMickaël Salaün
2789da82b20SMickaël Salaün /*
2799da82b20SMickaël Salaün * Allows access to pseudo filesystems that will never be mountable (e.g.
2809da82b20SMickaël Salaün * sockfs, pipefs), but can still be reachable through
2819da82b20SMickaël Salaün * /proc/<pid>/fd/<file-descriptor>
2829da82b20SMickaël Salaün */
is_nouser_or_private(const struct dentry * dentry)2839da82b20SMickaël Salaün static inline bool is_nouser_or_private(const struct dentry *dentry)
2849da82b20SMickaël Salaün {
2859da82b20SMickaël Salaün return (dentry->d_sb->s_flags & SB_NOUSER) ||
2869da82b20SMickaël Salaün (d_is_positive(dentry) &&
2879da82b20SMickaël Salaün unlikely(IS_PRIVATE(d_backing_inode(dentry))));
2889da82b20SMickaël Salaün }
2899da82b20SMickaël Salaün
290b91c3e4eSMickaël Salaün static inline access_mask_t
get_handled_accesses(const struct landlock_ruleset * const domain)291b91c3e4eSMickaël Salaün get_handled_accesses(const struct landlock_ruleset *const domain)
292b91c3e4eSMickaël Salaün {
29355e55920SMickaël Salaün access_mask_t access_dom = ACCESS_INITIALLY_DENIED;
294b91c3e4eSMickaël Salaün size_t layer_level;
295b91c3e4eSMickaël Salaün
29655e55920SMickaël Salaün for (layer_level = 0; layer_level < domain->num_layers; layer_level++)
29755e55920SMickaël Salaün access_dom |= domain->fs_access_masks[layer_level];
29855e55920SMickaël Salaün return access_dom & LANDLOCK_MASK_ACCESS_FS;
299b91c3e4eSMickaël Salaün }
300b91c3e4eSMickaël Salaün
30152a13488SGünther Noack /**
30252a13488SGünther Noack * init_layer_masks - Initialize layer masks from an access request
30352a13488SGünther Noack *
30452a13488SGünther Noack * Populates @layer_masks such that for each access right in @access_request,
30552a13488SGünther Noack * the bits for all the layers are set where this access right is handled.
30652a13488SGünther Noack *
30752a13488SGünther Noack * @domain: The domain that defines the current restrictions.
30852a13488SGünther Noack * @access_request: The requested access rights to check.
30952a13488SGünther Noack * @layer_masks: The layer masks to populate.
31052a13488SGünther Noack *
31152a13488SGünther Noack * Returns: An access mask where each access right bit is set which is handled
31252a13488SGünther Noack * in any of the active layers in @domain.
31352a13488SGünther Noack */
314b91c3e4eSMickaël Salaün static inline access_mask_t
init_layer_masks(const struct landlock_ruleset * const domain,const access_mask_t access_request,layer_mask_t (* const layer_masks)[LANDLOCK_NUM_ACCESS_FS])315b91c3e4eSMickaël Salaün init_layer_masks(const struct landlock_ruleset *const domain,
316b91c3e4eSMickaël Salaün const access_mask_t access_request,
317b91c3e4eSMickaël Salaün layer_mask_t (*const layer_masks)[LANDLOCK_NUM_ACCESS_FS])
318b91c3e4eSMickaël Salaün {
319b91c3e4eSMickaël Salaün access_mask_t handled_accesses = 0;
320b91c3e4eSMickaël Salaün size_t layer_level;
321b91c3e4eSMickaël Salaün
322b91c3e4eSMickaël Salaün memset(layer_masks, 0, sizeof(*layer_masks));
323b91c3e4eSMickaël Salaün /* An empty access request can happen because of O_WRONLY | O_RDWR. */
324b91c3e4eSMickaël Salaün if (!access_request)
325b91c3e4eSMickaël Salaün return 0;
326b91c3e4eSMickaël Salaün
327b91c3e4eSMickaël Salaün /* Saves all handled accesses per layer. */
328b91c3e4eSMickaël Salaün for (layer_level = 0; layer_level < domain->num_layers; layer_level++) {
329b91c3e4eSMickaël Salaün const unsigned long access_req = access_request;
330b91c3e4eSMickaël Salaün unsigned long access_bit;
331b91c3e4eSMickaël Salaün
332b91c3e4eSMickaël Salaün for_each_set_bit(access_bit, &access_req,
333b91c3e4eSMickaël Salaün ARRAY_SIZE(*layer_masks)) {
33455e55920SMickaël Salaün /*
33555e55920SMickaël Salaün * Artificially handles all initially denied by default
33655e55920SMickaël Salaün * access rights.
33755e55920SMickaël Salaün */
33855e55920SMickaël Salaün if (BIT_ULL(access_bit) &
33955e55920SMickaël Salaün (domain->fs_access_masks[layer_level] |
34055e55920SMickaël Salaün ACCESS_INITIALLY_DENIED)) {
341b91c3e4eSMickaël Salaün (*layer_masks)[access_bit] |=
342b91c3e4eSMickaël Salaün BIT_ULL(layer_level);
343b91c3e4eSMickaël Salaün handled_accesses |= BIT_ULL(access_bit);
344b91c3e4eSMickaël Salaün }
345b91c3e4eSMickaël Salaün }
346b91c3e4eSMickaël Salaün }
347b91c3e4eSMickaël Salaün return handled_accesses;
348b91c3e4eSMickaël Salaün }
349b91c3e4eSMickaël Salaün
350b91c3e4eSMickaël Salaün /*
351b91c3e4eSMickaël Salaün * Check that a destination file hierarchy has more restrictions than a source
352b91c3e4eSMickaël Salaün * file hierarchy. This is only used for link and rename actions.
353b91c3e4eSMickaël Salaün *
354b91c3e4eSMickaël Salaün * @layer_masks_child2: Optional child masks.
355b91c3e4eSMickaël Salaün */
no_more_access(const layer_mask_t (* const layer_masks_parent1)[LANDLOCK_NUM_ACCESS_FS],const layer_mask_t (* const layer_masks_child1)[LANDLOCK_NUM_ACCESS_FS],const bool child1_is_directory,const layer_mask_t (* const layer_masks_parent2)[LANDLOCK_NUM_ACCESS_FS],const layer_mask_t (* const layer_masks_child2)[LANDLOCK_NUM_ACCESS_FS],const bool child2_is_directory)356b91c3e4eSMickaël Salaün static inline bool no_more_access(
357b91c3e4eSMickaël Salaün const layer_mask_t (*const layer_masks_parent1)[LANDLOCK_NUM_ACCESS_FS],
358b91c3e4eSMickaël Salaün const layer_mask_t (*const layer_masks_child1)[LANDLOCK_NUM_ACCESS_FS],
359b91c3e4eSMickaël Salaün const bool child1_is_directory,
360b91c3e4eSMickaël Salaün const layer_mask_t (*const layer_masks_parent2)[LANDLOCK_NUM_ACCESS_FS],
361b91c3e4eSMickaël Salaün const layer_mask_t (*const layer_masks_child2)[LANDLOCK_NUM_ACCESS_FS],
362b91c3e4eSMickaël Salaün const bool child2_is_directory)
363b91c3e4eSMickaël Salaün {
364b91c3e4eSMickaël Salaün unsigned long access_bit;
365b91c3e4eSMickaël Salaün
366b91c3e4eSMickaël Salaün for (access_bit = 0; access_bit < ARRAY_SIZE(*layer_masks_parent2);
367b91c3e4eSMickaël Salaün access_bit++) {
368b91c3e4eSMickaël Salaün /* Ignores accesses that only make sense for directories. */
369b91c3e4eSMickaël Salaün const bool is_file_access =
370b91c3e4eSMickaël Salaün !!(BIT_ULL(access_bit) & ACCESS_FILE);
371b91c3e4eSMickaël Salaün
372b91c3e4eSMickaël Salaün if (child1_is_directory || is_file_access) {
373b91c3e4eSMickaël Salaün /*
374b91c3e4eSMickaël Salaün * Checks if the destination restrictions are a
375b91c3e4eSMickaël Salaün * superset of the source ones (i.e. inherited access
376b91c3e4eSMickaël Salaün * rights without child exceptions):
377b91c3e4eSMickaël Salaün * restrictions(parent2) >= restrictions(child1)
378b91c3e4eSMickaël Salaün */
379b91c3e4eSMickaël Salaün if ((((*layer_masks_parent1)[access_bit] &
380b91c3e4eSMickaël Salaün (*layer_masks_child1)[access_bit]) |
381b91c3e4eSMickaël Salaün (*layer_masks_parent2)[access_bit]) !=
382b91c3e4eSMickaël Salaün (*layer_masks_parent2)[access_bit])
383b91c3e4eSMickaël Salaün return false;
384b91c3e4eSMickaël Salaün }
385b91c3e4eSMickaël Salaün
386b91c3e4eSMickaël Salaün if (!layer_masks_child2)
387b91c3e4eSMickaël Salaün continue;
388b91c3e4eSMickaël Salaün if (child2_is_directory || is_file_access) {
389b91c3e4eSMickaël Salaün /*
390b91c3e4eSMickaël Salaün * Checks inverted restrictions for RENAME_EXCHANGE:
391b91c3e4eSMickaël Salaün * restrictions(parent1) >= restrictions(child2)
392b91c3e4eSMickaël Salaün */
393b91c3e4eSMickaël Salaün if ((((*layer_masks_parent2)[access_bit] &
394b91c3e4eSMickaël Salaün (*layer_masks_child2)[access_bit]) |
395b91c3e4eSMickaël Salaün (*layer_masks_parent1)[access_bit]) !=
396b91c3e4eSMickaël Salaün (*layer_masks_parent1)[access_bit])
397b91c3e4eSMickaël Salaün return false;
398b91c3e4eSMickaël Salaün }
399b91c3e4eSMickaël Salaün }
400b91c3e4eSMickaël Salaün return true;
401b91c3e4eSMickaël Salaün }
402b91c3e4eSMickaël Salaün
403b91c3e4eSMickaël Salaün /*
404b91c3e4eSMickaël Salaün * Removes @layer_masks accesses that are not requested.
405b91c3e4eSMickaël Salaün *
406b91c3e4eSMickaël Salaün * Returns true if the request is allowed, false otherwise.
407b91c3e4eSMickaël Salaün */
408b91c3e4eSMickaël Salaün static inline bool
scope_to_request(const access_mask_t access_request,layer_mask_t (* const layer_masks)[LANDLOCK_NUM_ACCESS_FS])409b91c3e4eSMickaël Salaün scope_to_request(const access_mask_t access_request,
410b91c3e4eSMickaël Salaün layer_mask_t (*const layer_masks)[LANDLOCK_NUM_ACCESS_FS])
411b91c3e4eSMickaël Salaün {
412b91c3e4eSMickaël Salaün const unsigned long access_req = access_request;
413b91c3e4eSMickaël Salaün unsigned long access_bit;
414b91c3e4eSMickaël Salaün
415b91c3e4eSMickaël Salaün if (WARN_ON_ONCE(!layer_masks))
416b91c3e4eSMickaël Salaün return true;
417b91c3e4eSMickaël Salaün
418b91c3e4eSMickaël Salaün for_each_clear_bit(access_bit, &access_req, ARRAY_SIZE(*layer_masks))
419b91c3e4eSMickaël Salaün (*layer_masks)[access_bit] = 0;
420b91c3e4eSMickaël Salaün return !memchr_inv(layer_masks, 0, sizeof(*layer_masks));
421b91c3e4eSMickaël Salaün }
422b91c3e4eSMickaël Salaün
423b91c3e4eSMickaël Salaün /*
424b91c3e4eSMickaël Salaün * Returns true if there is at least one access right different than
425b91c3e4eSMickaël Salaün * LANDLOCK_ACCESS_FS_REFER.
426b91c3e4eSMickaël Salaün */
427b91c3e4eSMickaël Salaün static inline bool
is_eacces(const layer_mask_t (* const layer_masks)[LANDLOCK_NUM_ACCESS_FS],const access_mask_t access_request)428b91c3e4eSMickaël Salaün is_eacces(const layer_mask_t (*const layer_masks)[LANDLOCK_NUM_ACCESS_FS],
4295f2ff33eSMickaël Salaün const access_mask_t access_request)
430cb2c7d1aSMickaël Salaün {
431b91c3e4eSMickaël Salaün unsigned long access_bit;
432b91c3e4eSMickaël Salaün /* LANDLOCK_ACCESS_FS_REFER alone must return -EXDEV. */
433b91c3e4eSMickaël Salaün const unsigned long access_check = access_request &
434b91c3e4eSMickaël Salaün ~LANDLOCK_ACCESS_FS_REFER;
435cb2c7d1aSMickaël Salaün
436b91c3e4eSMickaël Salaün if (!layer_masks)
437b91c3e4eSMickaël Salaün return false;
438b91c3e4eSMickaël Salaün
439b91c3e4eSMickaël Salaün for_each_set_bit(access_bit, &access_check, ARRAY_SIZE(*layer_masks)) {
440b91c3e4eSMickaël Salaün if ((*layer_masks)[access_bit])
441b91c3e4eSMickaël Salaün return true;
442b91c3e4eSMickaël Salaün }
443b91c3e4eSMickaël Salaün return false;
444b91c3e4eSMickaël Salaün }
445b91c3e4eSMickaël Salaün
446b91c3e4eSMickaël Salaün /**
447106794c4SGünther Noack * is_access_to_paths_allowed - Check accesses for requests with a common path
448b91c3e4eSMickaël Salaün *
449b91c3e4eSMickaël Salaün * @domain: Domain to check against.
450b91c3e4eSMickaël Salaün * @path: File hierarchy to walk through.
451b91c3e4eSMickaël Salaün * @access_request_parent1: Accesses to check, once @layer_masks_parent1 is
452b91c3e4eSMickaël Salaün * equal to @layer_masks_parent2 (if any). This is tied to the unique
453b91c3e4eSMickaël Salaün * requested path for most actions, or the source in case of a refer action
454b91c3e4eSMickaël Salaün * (i.e. rename or link), or the source and destination in case of
455b91c3e4eSMickaël Salaün * RENAME_EXCHANGE.
456b91c3e4eSMickaël Salaün * @layer_masks_parent1: Pointer to a matrix of layer masks per access
457b91c3e4eSMickaël Salaün * masks, identifying the layers that forbid a specific access. Bits from
458b91c3e4eSMickaël Salaün * this matrix can be unset according to the @path walk. An empty matrix
459b91c3e4eSMickaël Salaün * means that @domain allows all possible Landlock accesses (i.e. not only
460b91c3e4eSMickaël Salaün * those identified by @access_request_parent1). This matrix can
461b91c3e4eSMickaël Salaün * initially refer to domain layer masks and, when the accesses for the
462b91c3e4eSMickaël Salaün * destination and source are the same, to requested layer masks.
463b91c3e4eSMickaël Salaün * @dentry_child1: Dentry to the initial child of the parent1 path. This
464b91c3e4eSMickaël Salaün * pointer must be NULL for non-refer actions (i.e. not link nor rename).
465b91c3e4eSMickaël Salaün * @access_request_parent2: Similar to @access_request_parent1 but for a
466b91c3e4eSMickaël Salaün * request involving a source and a destination. This refers to the
467b91c3e4eSMickaël Salaün * destination, except in case of RENAME_EXCHANGE where it also refers to
468b91c3e4eSMickaël Salaün * the source. Must be set to 0 when using a simple path request.
469b91c3e4eSMickaël Salaün * @layer_masks_parent2: Similar to @layer_masks_parent1 but for a refer
470b91c3e4eSMickaël Salaün * action. This must be NULL otherwise.
471b91c3e4eSMickaël Salaün * @dentry_child2: Dentry to the initial child of the parent2 path. This
472b91c3e4eSMickaël Salaün * pointer is only set for RENAME_EXCHANGE actions and must be NULL
473b91c3e4eSMickaël Salaün * otherwise.
474b91c3e4eSMickaël Salaün *
475b91c3e4eSMickaël Salaün * This helper first checks that the destination has a superset of restrictions
476b91c3e4eSMickaël Salaün * compared to the source (if any) for a common path. Because of
477b91c3e4eSMickaël Salaün * RENAME_EXCHANGE actions, source and destinations may be swapped. It then
478b91c3e4eSMickaël Salaün * checks that the collected accesses and the remaining ones are enough to
479b91c3e4eSMickaël Salaün * allow the request.
480b91c3e4eSMickaël Salaün *
481b91c3e4eSMickaël Salaün * Returns:
482106794c4SGünther Noack * - true if the access request is granted;
483106794c4SGünther Noack * - false otherwise.
484b91c3e4eSMickaël Salaün */
is_access_to_paths_allowed(const struct landlock_ruleset * const domain,const struct path * const path,const access_mask_t access_request_parent1,layer_mask_t (* const layer_masks_parent1)[LANDLOCK_NUM_ACCESS_FS],const struct dentry * const dentry_child1,const access_mask_t access_request_parent2,layer_mask_t (* const layer_masks_parent2)[LANDLOCK_NUM_ACCESS_FS],const struct dentry * const dentry_child2)485106794c4SGünther Noack static bool is_access_to_paths_allowed(
486b91c3e4eSMickaël Salaün const struct landlock_ruleset *const domain,
487b91c3e4eSMickaël Salaün const struct path *const path,
488b91c3e4eSMickaël Salaün const access_mask_t access_request_parent1,
489b91c3e4eSMickaël Salaün layer_mask_t (*const layer_masks_parent1)[LANDLOCK_NUM_ACCESS_FS],
490b91c3e4eSMickaël Salaün const struct dentry *const dentry_child1,
491b91c3e4eSMickaël Salaün const access_mask_t access_request_parent2,
492b91c3e4eSMickaël Salaün layer_mask_t (*const layer_masks_parent2)[LANDLOCK_NUM_ACCESS_FS],
493b91c3e4eSMickaël Salaün const struct dentry *const dentry_child2)
494b91c3e4eSMickaël Salaün {
495b91c3e4eSMickaël Salaün bool allowed_parent1 = false, allowed_parent2 = false, is_dom_check,
496b91c3e4eSMickaël Salaün child1_is_directory = true, child2_is_directory = true;
497b91c3e4eSMickaël Salaün struct path walker_path;
498b91c3e4eSMickaël Salaün access_mask_t access_masked_parent1, access_masked_parent2;
499b91c3e4eSMickaël Salaün layer_mask_t _layer_masks_child1[LANDLOCK_NUM_ACCESS_FS],
500b91c3e4eSMickaël Salaün _layer_masks_child2[LANDLOCK_NUM_ACCESS_FS];
501b91c3e4eSMickaël Salaün layer_mask_t(*layer_masks_child1)[LANDLOCK_NUM_ACCESS_FS] = NULL,
502b91c3e4eSMickaël Salaün (*layer_masks_child2)[LANDLOCK_NUM_ACCESS_FS] = NULL;
503b91c3e4eSMickaël Salaün
504b91c3e4eSMickaël Salaün if (!access_request_parent1 && !access_request_parent2)
505106794c4SGünther Noack return true;
506cb2c7d1aSMickaël Salaün if (WARN_ON_ONCE(!domain || !path))
507106794c4SGünther Noack return true;
5089da82b20SMickaël Salaün if (is_nouser_or_private(path->dentry))
509106794c4SGünther Noack return true;
510b91c3e4eSMickaël Salaün if (WARN_ON_ONCE(domain->num_layers < 1 || !layer_masks_parent1))
511106794c4SGünther Noack return false;
512cb2c7d1aSMickaël Salaün
513b91c3e4eSMickaël Salaün if (unlikely(layer_masks_parent2)) {
514b91c3e4eSMickaël Salaün if (WARN_ON_ONCE(!dentry_child1))
515106794c4SGünther Noack return false;
516b91c3e4eSMickaël Salaün /*
517b91c3e4eSMickaël Salaün * For a double request, first check for potential privilege
518b91c3e4eSMickaël Salaün * escalation by looking at domain handled accesses (which are
519b91c3e4eSMickaël Salaün * a superset of the meaningful requested accesses).
520b91c3e4eSMickaël Salaün */
521b91c3e4eSMickaël Salaün access_masked_parent1 = access_masked_parent2 =
522b91c3e4eSMickaël Salaün get_handled_accesses(domain);
523b91c3e4eSMickaël Salaün is_dom_check = true;
524b91c3e4eSMickaël Salaün } else {
525b91c3e4eSMickaël Salaün if (WARN_ON_ONCE(dentry_child1 || dentry_child2))
526106794c4SGünther Noack return false;
527b91c3e4eSMickaël Salaün /* For a simple request, only check for requested accesses. */
528b91c3e4eSMickaël Salaün access_masked_parent1 = access_request_parent1;
529b91c3e4eSMickaël Salaün access_masked_parent2 = access_request_parent2;
530b91c3e4eSMickaël Salaün is_dom_check = false;
531b91c3e4eSMickaël Salaün }
5328ba0005fSMickaël Salaün
533b91c3e4eSMickaël Salaün if (unlikely(dentry_child1)) {
534b91c3e4eSMickaël Salaün unmask_layers(find_rule(domain, dentry_child1),
535b91c3e4eSMickaël Salaün init_layer_masks(domain, LANDLOCK_MASK_ACCESS_FS,
536b91c3e4eSMickaël Salaün &_layer_masks_child1),
537b91c3e4eSMickaël Salaün &_layer_masks_child1);
538b91c3e4eSMickaël Salaün layer_masks_child1 = &_layer_masks_child1;
539b91c3e4eSMickaël Salaün child1_is_directory = d_is_dir(dentry_child1);
5408ba0005fSMickaël Salaün }
541b91c3e4eSMickaël Salaün if (unlikely(dentry_child2)) {
542b91c3e4eSMickaël Salaün unmask_layers(find_rule(domain, dentry_child2),
543b91c3e4eSMickaël Salaün init_layer_masks(domain, LANDLOCK_MASK_ACCESS_FS,
544b91c3e4eSMickaël Salaün &_layer_masks_child2),
545b91c3e4eSMickaël Salaün &_layer_masks_child2);
546b91c3e4eSMickaël Salaün layer_masks_child2 = &_layer_masks_child2;
547b91c3e4eSMickaël Salaün child2_is_directory = d_is_dir(dentry_child2);
5488ba0005fSMickaël Salaün }
549cb2c7d1aSMickaël Salaün
550cb2c7d1aSMickaël Salaün walker_path = *path;
551cb2c7d1aSMickaël Salaün path_get(&walker_path);
552cb2c7d1aSMickaël Salaün /*
553cb2c7d1aSMickaël Salaün * We need to walk through all the hierarchy to not miss any relevant
554cb2c7d1aSMickaël Salaün * restriction.
555cb2c7d1aSMickaël Salaün */
556cb2c7d1aSMickaël Salaün while (true) {
557cb2c7d1aSMickaël Salaün struct dentry *parent_dentry;
558b91c3e4eSMickaël Salaün const struct landlock_rule *rule;
559cb2c7d1aSMickaël Salaün
560b91c3e4eSMickaël Salaün /*
561b91c3e4eSMickaël Salaün * If at least all accesses allowed on the destination are
562b91c3e4eSMickaël Salaün * already allowed on the source, respectively if there is at
563b91c3e4eSMickaël Salaün * least as much as restrictions on the destination than on the
564b91c3e4eSMickaël Salaün * source, then we can safely refer files from the source to
565b91c3e4eSMickaël Salaün * the destination without risking a privilege escalation.
566b91c3e4eSMickaël Salaün * This also applies in the case of RENAME_EXCHANGE, which
567b91c3e4eSMickaël Salaün * implies checks on both direction. This is crucial for
568b91c3e4eSMickaël Salaün * standalone multilayered security policies. Furthermore,
569b91c3e4eSMickaël Salaün * this helps avoid policy writers to shoot themselves in the
570b91c3e4eSMickaël Salaün * foot.
571b91c3e4eSMickaël Salaün */
572b91c3e4eSMickaël Salaün if (unlikely(is_dom_check &&
573b91c3e4eSMickaël Salaün no_more_access(
574b91c3e4eSMickaël Salaün layer_masks_parent1, layer_masks_child1,
575b91c3e4eSMickaël Salaün child1_is_directory, layer_masks_parent2,
576b91c3e4eSMickaël Salaün layer_masks_child2,
577b91c3e4eSMickaël Salaün child2_is_directory))) {
578b91c3e4eSMickaël Salaün allowed_parent1 = scope_to_request(
579b91c3e4eSMickaël Salaün access_request_parent1, layer_masks_parent1);
580b91c3e4eSMickaël Salaün allowed_parent2 = scope_to_request(
581b91c3e4eSMickaël Salaün access_request_parent2, layer_masks_parent2);
582b91c3e4eSMickaël Salaün
583b91c3e4eSMickaël Salaün /* Stops when all accesses are granted. */
584b91c3e4eSMickaël Salaün if (allowed_parent1 && allowed_parent2)
585b91c3e4eSMickaël Salaün break;
586b91c3e4eSMickaël Salaün
587b91c3e4eSMickaël Salaün /*
588b91c3e4eSMickaël Salaün * Now, downgrades the remaining checks from domain
589b91c3e4eSMickaël Salaün * handled accesses to requested accesses.
590b91c3e4eSMickaël Salaün */
591b91c3e4eSMickaël Salaün is_dom_check = false;
592b91c3e4eSMickaël Salaün access_masked_parent1 = access_request_parent1;
593b91c3e4eSMickaël Salaün access_masked_parent2 = access_request_parent2;
594b91c3e4eSMickaël Salaün }
595b91c3e4eSMickaël Salaün
596b91c3e4eSMickaël Salaün rule = find_rule(domain, walker_path.dentry);
597b91c3e4eSMickaël Salaün allowed_parent1 = unmask_layers(rule, access_masked_parent1,
598b91c3e4eSMickaël Salaün layer_masks_parent1);
599b91c3e4eSMickaël Salaün allowed_parent2 = unmask_layers(rule, access_masked_parent2,
600b91c3e4eSMickaël Salaün layer_masks_parent2);
601b91c3e4eSMickaël Salaün
602cb2c7d1aSMickaël Salaün /* Stops when a rule from each layer grants access. */
603b91c3e4eSMickaël Salaün if (allowed_parent1 && allowed_parent2)
604cb2c7d1aSMickaël Salaün break;
605cb2c7d1aSMickaël Salaün
606cb2c7d1aSMickaël Salaün jump_up:
607cb2c7d1aSMickaël Salaün if (walker_path.dentry == walker_path.mnt->mnt_root) {
608cb2c7d1aSMickaël Salaün if (follow_up(&walker_path)) {
609cb2c7d1aSMickaël Salaün /* Ignores hidden mount points. */
610cb2c7d1aSMickaël Salaün goto jump_up;
611cb2c7d1aSMickaël Salaün } else {
612cb2c7d1aSMickaël Salaün /*
613cb2c7d1aSMickaël Salaün * Stops at the real root. Denies access
614cb2c7d1aSMickaël Salaün * because not all layers have granted access.
615cb2c7d1aSMickaël Salaün */
616cb2c7d1aSMickaël Salaün break;
617cb2c7d1aSMickaël Salaün }
618cb2c7d1aSMickaël Salaün }
619cb2c7d1aSMickaël Salaün if (unlikely(IS_ROOT(walker_path.dentry))) {
620cb2c7d1aSMickaël Salaün /*
621cb2c7d1aSMickaël Salaün * Stops at disconnected root directories. Only allows
622cb2c7d1aSMickaël Salaün * access to internal filesystems (e.g. nsfs, which is
623cb2c7d1aSMickaël Salaün * reachable through /proc/<pid>/ns/<namespace>).
624cb2c7d1aSMickaël Salaün */
625b91c3e4eSMickaël Salaün allowed_parent1 = allowed_parent2 =
626b91c3e4eSMickaël Salaün !!(walker_path.mnt->mnt_flags & MNT_INTERNAL);
627cb2c7d1aSMickaël Salaün break;
628cb2c7d1aSMickaël Salaün }
629cb2c7d1aSMickaël Salaün parent_dentry = dget_parent(walker_path.dentry);
630cb2c7d1aSMickaël Salaün dput(walker_path.dentry);
631cb2c7d1aSMickaël Salaün walker_path.dentry = parent_dentry;
632cb2c7d1aSMickaël Salaün }
633cb2c7d1aSMickaël Salaün path_put(&walker_path);
634b91c3e4eSMickaël Salaün
635106794c4SGünther Noack return allowed_parent1 && allowed_parent2;
636b91c3e4eSMickaël Salaün }
637b91c3e4eSMickaël Salaün
check_access_path(const struct landlock_ruleset * const domain,const struct path * const path,access_mask_t access_request)638b91c3e4eSMickaël Salaün static inline int check_access_path(const struct landlock_ruleset *const domain,
639b91c3e4eSMickaël Salaün const struct path *const path,
640b91c3e4eSMickaël Salaün access_mask_t access_request)
641b91c3e4eSMickaël Salaün {
642b91c3e4eSMickaël Salaün layer_mask_t layer_masks[LANDLOCK_NUM_ACCESS_FS] = {};
643b91c3e4eSMickaël Salaün
644b91c3e4eSMickaël Salaün access_request = init_layer_masks(domain, access_request, &layer_masks);
645106794c4SGünther Noack if (is_access_to_paths_allowed(domain, path, access_request,
646106794c4SGünther Noack &layer_masks, NULL, 0, NULL, NULL))
647106794c4SGünther Noack return 0;
648106794c4SGünther Noack return -EACCES;
649cb2c7d1aSMickaël Salaün }
650cb2c7d1aSMickaël Salaün
current_check_access_path(const struct path * const path,const access_mask_t access_request)651cb2c7d1aSMickaël Salaün static inline int current_check_access_path(const struct path *const path,
6525f2ff33eSMickaël Salaün const access_mask_t access_request)
653cb2c7d1aSMickaël Salaün {
654cb2c7d1aSMickaël Salaün const struct landlock_ruleset *const dom =
655cb2c7d1aSMickaël Salaün landlock_get_current_domain();
656cb2c7d1aSMickaël Salaün
657cb2c7d1aSMickaël Salaün if (!dom)
658cb2c7d1aSMickaël Salaün return 0;
659cb2c7d1aSMickaël Salaün return check_access_path(dom, path, access_request);
660cb2c7d1aSMickaël Salaün }
661cb2c7d1aSMickaël Salaün
get_mode_access(const umode_t mode)6629da82b20SMickaël Salaün static inline access_mask_t get_mode_access(const umode_t mode)
6639da82b20SMickaël Salaün {
6649da82b20SMickaël Salaün switch (mode & S_IFMT) {
6659da82b20SMickaël Salaün case S_IFLNK:
6669da82b20SMickaël Salaün return LANDLOCK_ACCESS_FS_MAKE_SYM;
6679da82b20SMickaël Salaün case S_IFDIR:
6689da82b20SMickaël Salaün return LANDLOCK_ACCESS_FS_MAKE_DIR;
6699da82b20SMickaël Salaün case S_IFCHR:
6709da82b20SMickaël Salaün return LANDLOCK_ACCESS_FS_MAKE_CHAR;
6719da82b20SMickaël Salaün case S_IFBLK:
6729da82b20SMickaël Salaün return LANDLOCK_ACCESS_FS_MAKE_BLOCK;
6739da82b20SMickaël Salaün case S_IFIFO:
6749da82b20SMickaël Salaün return LANDLOCK_ACCESS_FS_MAKE_FIFO;
6759da82b20SMickaël Salaün case S_IFSOCK:
6769da82b20SMickaël Salaün return LANDLOCK_ACCESS_FS_MAKE_SOCK;
677*39bb3d56SMickaël Salaün case S_IFREG:
678*39bb3d56SMickaël Salaün case 0:
679*39bb3d56SMickaël Salaün /* A zero mode translates to S_IFREG. */
6809da82b20SMickaël Salaün default:
681*39bb3d56SMickaël Salaün /* Treats weird files as regular files. */
682*39bb3d56SMickaël Salaün return LANDLOCK_ACCESS_FS_MAKE_REG;
6839da82b20SMickaël Salaün }
6849da82b20SMickaël Salaün }
6859da82b20SMickaël Salaün
maybe_remove(const struct dentry * const dentry)6869da82b20SMickaël Salaün static inline access_mask_t maybe_remove(const struct dentry *const dentry)
6879da82b20SMickaël Salaün {
6889da82b20SMickaël Salaün if (d_is_negative(dentry))
6899da82b20SMickaël Salaün return 0;
6909da82b20SMickaël Salaün return d_is_dir(dentry) ? LANDLOCK_ACCESS_FS_REMOVE_DIR :
6919da82b20SMickaël Salaün LANDLOCK_ACCESS_FS_REMOVE_FILE;
6929da82b20SMickaël Salaün }
6939da82b20SMickaël Salaün
694b91c3e4eSMickaël Salaün /**
695b91c3e4eSMickaël Salaün * collect_domain_accesses - Walk through a file path and collect accesses
696b91c3e4eSMickaël Salaün *
697b91c3e4eSMickaël Salaün * @domain: Domain to check against.
698b91c3e4eSMickaël Salaün * @mnt_root: Last directory to check.
699b91c3e4eSMickaël Salaün * @dir: Directory to start the walk from.
700b91c3e4eSMickaël Salaün * @layer_masks_dom: Where to store the collected accesses.
701b91c3e4eSMickaël Salaün *
702b91c3e4eSMickaël Salaün * This helper is useful to begin a path walk from the @dir directory to a
703b91c3e4eSMickaël Salaün * @mnt_root directory used as a mount point. This mount point is the common
704b91c3e4eSMickaël Salaün * ancestor between the source and the destination of a renamed and linked
705b91c3e4eSMickaël Salaün * file. While walking from @dir to @mnt_root, we record all the domain's
706b91c3e4eSMickaël Salaün * allowed accesses in @layer_masks_dom.
707b91c3e4eSMickaël Salaün *
708106794c4SGünther Noack * This is similar to is_access_to_paths_allowed() but much simpler because it
709106794c4SGünther Noack * only handles walking on the same mount point and only checks one set of
710106794c4SGünther Noack * accesses.
711b91c3e4eSMickaël Salaün *
712b91c3e4eSMickaël Salaün * Returns:
713b91c3e4eSMickaël Salaün * - true if all the domain access rights are allowed for @dir;
714b91c3e4eSMickaël Salaün * - false if the walk reached @mnt_root.
715b91c3e4eSMickaël Salaün */
collect_domain_accesses(const struct landlock_ruleset * const domain,const struct dentry * const mnt_root,struct dentry * dir,layer_mask_t (* const layer_masks_dom)[LANDLOCK_NUM_ACCESS_FS])716b91c3e4eSMickaël Salaün static bool collect_domain_accesses(
717b91c3e4eSMickaël Salaün const struct landlock_ruleset *const domain,
718b91c3e4eSMickaël Salaün const struct dentry *const mnt_root, struct dentry *dir,
719b91c3e4eSMickaël Salaün layer_mask_t (*const layer_masks_dom)[LANDLOCK_NUM_ACCESS_FS])
720b91c3e4eSMickaël Salaün {
721b91c3e4eSMickaël Salaün unsigned long access_dom;
722b91c3e4eSMickaël Salaün bool ret = false;
723b91c3e4eSMickaël Salaün
724b91c3e4eSMickaël Salaün if (WARN_ON_ONCE(!domain || !mnt_root || !dir || !layer_masks_dom))
725b91c3e4eSMickaël Salaün return true;
726b91c3e4eSMickaël Salaün if (is_nouser_or_private(dir))
727b91c3e4eSMickaël Salaün return true;
728b91c3e4eSMickaël Salaün
729b91c3e4eSMickaël Salaün access_dom = init_layer_masks(domain, LANDLOCK_MASK_ACCESS_FS,
730b91c3e4eSMickaël Salaün layer_masks_dom);
731b91c3e4eSMickaël Salaün
732b91c3e4eSMickaël Salaün dget(dir);
733b91c3e4eSMickaël Salaün while (true) {
734b91c3e4eSMickaël Salaün struct dentry *parent_dentry;
735b91c3e4eSMickaël Salaün
736b91c3e4eSMickaël Salaün /* Gets all layers allowing all domain accesses. */
737b91c3e4eSMickaël Salaün if (unmask_layers(find_rule(domain, dir), access_dom,
738b91c3e4eSMickaël Salaün layer_masks_dom)) {
739b91c3e4eSMickaël Salaün /*
740b91c3e4eSMickaël Salaün * Stops when all handled accesses are allowed by at
741b91c3e4eSMickaël Salaün * least one rule in each layer.
742b91c3e4eSMickaël Salaün */
743b91c3e4eSMickaël Salaün ret = true;
744b91c3e4eSMickaël Salaün break;
745b91c3e4eSMickaël Salaün }
746b91c3e4eSMickaël Salaün
747b91c3e4eSMickaël Salaün /* We should not reach a root other than @mnt_root. */
748b91c3e4eSMickaël Salaün if (dir == mnt_root || WARN_ON_ONCE(IS_ROOT(dir)))
749b91c3e4eSMickaël Salaün break;
750b91c3e4eSMickaël Salaün
751b91c3e4eSMickaël Salaün parent_dentry = dget_parent(dir);
752b91c3e4eSMickaël Salaün dput(dir);
753b91c3e4eSMickaël Salaün dir = parent_dentry;
754b91c3e4eSMickaël Salaün }
755b91c3e4eSMickaël Salaün dput(dir);
756b91c3e4eSMickaël Salaün return ret;
757b91c3e4eSMickaël Salaün }
758b91c3e4eSMickaël Salaün
759b91c3e4eSMickaël Salaün /**
760b91c3e4eSMickaël Salaün * current_check_refer_path - Check if a rename or link action is allowed
761b91c3e4eSMickaël Salaün *
762b91c3e4eSMickaël Salaün * @old_dentry: File or directory requested to be moved or linked.
763b91c3e4eSMickaël Salaün * @new_dir: Destination parent directory.
764b91c3e4eSMickaël Salaün * @new_dentry: Destination file or directory.
765b91c3e4eSMickaël Salaün * @removable: Sets to true if it is a rename operation.
766b91c3e4eSMickaël Salaün * @exchange: Sets to true if it is a rename operation with RENAME_EXCHANGE.
767b91c3e4eSMickaël Salaün *
768b91c3e4eSMickaël Salaün * Because of its unprivileged constraints, Landlock relies on file hierarchies
769b91c3e4eSMickaël Salaün * (and not only inodes) to tie access rights to files. Being able to link or
770b91c3e4eSMickaël Salaün * rename a file hierarchy brings some challenges. Indeed, moving or linking a
771b91c3e4eSMickaël Salaün * file (i.e. creating a new reference to an inode) can have an impact on the
772b91c3e4eSMickaël Salaün * actions allowed for a set of files if it would change its parent directory
773b91c3e4eSMickaël Salaün * (i.e. reparenting).
774b91c3e4eSMickaël Salaün *
775b91c3e4eSMickaël Salaün * To avoid trivial access right bypasses, Landlock first checks if the file or
776b91c3e4eSMickaël Salaün * directory requested to be moved would gain new access rights inherited from
777b91c3e4eSMickaël Salaün * its new hierarchy. Before returning any error, Landlock then checks that
778b91c3e4eSMickaël Salaün * the parent source hierarchy and the destination hierarchy would allow the
779b91c3e4eSMickaël Salaün * link or rename action. If it is not the case, an error with EACCES is
780b91c3e4eSMickaël Salaün * returned to inform user space that there is no way to remove or create the
781b91c3e4eSMickaël Salaün * requested source file type. If it should be allowed but the new inherited
782b91c3e4eSMickaël Salaün * access rights would be greater than the source access rights, then the
783b91c3e4eSMickaël Salaün * kernel returns an error with EXDEV. Prioritizing EACCES over EXDEV enables
784b91c3e4eSMickaël Salaün * user space to abort the whole operation if there is no way to do it, or to
785b91c3e4eSMickaël Salaün * manually copy the source to the destination if this remains allowed, e.g.
786b91c3e4eSMickaël Salaün * because file creation is allowed on the destination directory but not direct
787b91c3e4eSMickaël Salaün * linking.
788b91c3e4eSMickaël Salaün *
789b91c3e4eSMickaël Salaün * To achieve this goal, the kernel needs to compare two file hierarchies: the
790b91c3e4eSMickaël Salaün * one identifying the source file or directory (including itself), and the
791b91c3e4eSMickaël Salaün * destination one. This can be seen as a multilayer partial ordering problem.
792b91c3e4eSMickaël Salaün * The kernel walks through these paths and collects in a matrix the access
793b91c3e4eSMickaël Salaün * rights that are denied per layer. These matrices are then compared to see
794b91c3e4eSMickaël Salaün * if the destination one has more (or the same) restrictions as the source
795b91c3e4eSMickaël Salaün * one. If this is the case, the requested action will not return EXDEV, which
796b91c3e4eSMickaël Salaün * doesn't mean the action is allowed. The parent hierarchy of the source
797b91c3e4eSMickaël Salaün * (i.e. parent directory), and the destination hierarchy must also be checked
798b91c3e4eSMickaël Salaün * to verify that they explicitly allow such action (i.e. referencing,
799b91c3e4eSMickaël Salaün * creation and potentially removal rights). The kernel implementation is then
800b91c3e4eSMickaël Salaün * required to rely on potentially four matrices of access rights: one for the
801b91c3e4eSMickaël Salaün * source file or directory (i.e. the child), a potentially other one for the
802b91c3e4eSMickaël Salaün * other source/destination (in case of RENAME_EXCHANGE), one for the source
803b91c3e4eSMickaël Salaün * parent hierarchy and a last one for the destination hierarchy. These
804b91c3e4eSMickaël Salaün * ephemeral matrices take some space on the stack, which limits the number of
805b91c3e4eSMickaël Salaün * layers to a deemed reasonable number: 16.
806b91c3e4eSMickaël Salaün *
807b91c3e4eSMickaël Salaün * Returns:
808b91c3e4eSMickaël Salaün * - 0 if access is allowed;
809b91c3e4eSMickaël Salaün * - -EXDEV if @old_dentry would inherit new access rights from @new_dir;
810b91c3e4eSMickaël Salaün * - -EACCES if file removal or creation is denied.
811b91c3e4eSMickaël Salaün */
current_check_refer_path(struct dentry * const old_dentry,const struct path * const new_dir,struct dentry * const new_dentry,const bool removable,const bool exchange)812b91c3e4eSMickaël Salaün static int current_check_refer_path(struct dentry *const old_dentry,
813b91c3e4eSMickaël Salaün const struct path *const new_dir,
814b91c3e4eSMickaël Salaün struct dentry *const new_dentry,
815b91c3e4eSMickaël Salaün const bool removable, const bool exchange)
816b91c3e4eSMickaël Salaün {
817b91c3e4eSMickaël Salaün const struct landlock_ruleset *const dom =
818b91c3e4eSMickaël Salaün landlock_get_current_domain();
819b91c3e4eSMickaël Salaün bool allow_parent1, allow_parent2;
820b91c3e4eSMickaël Salaün access_mask_t access_request_parent1, access_request_parent2;
821b91c3e4eSMickaël Salaün struct path mnt_dir;
822cc30d05bSMickaël Salaün struct dentry *old_parent;
823f4906938SMickaël Salaün layer_mask_t layer_masks_parent1[LANDLOCK_NUM_ACCESS_FS] = {},
824f4906938SMickaël Salaün layer_masks_parent2[LANDLOCK_NUM_ACCESS_FS] = {};
825b91c3e4eSMickaël Salaün
826b91c3e4eSMickaël Salaün if (!dom)
827b91c3e4eSMickaël Salaün return 0;
828b91c3e4eSMickaël Salaün if (WARN_ON_ONCE(dom->num_layers < 1))
829b91c3e4eSMickaël Salaün return -EACCES;
830b91c3e4eSMickaël Salaün if (unlikely(d_is_negative(old_dentry)))
831b91c3e4eSMickaël Salaün return -ENOENT;
832b91c3e4eSMickaël Salaün if (exchange) {
833b91c3e4eSMickaël Salaün if (unlikely(d_is_negative(new_dentry)))
834b91c3e4eSMickaël Salaün return -ENOENT;
835b91c3e4eSMickaël Salaün access_request_parent1 =
836b91c3e4eSMickaël Salaün get_mode_access(d_backing_inode(new_dentry)->i_mode);
837b91c3e4eSMickaël Salaün } else {
838b91c3e4eSMickaël Salaün access_request_parent1 = 0;
839b91c3e4eSMickaël Salaün }
840b91c3e4eSMickaël Salaün access_request_parent2 =
841b91c3e4eSMickaël Salaün get_mode_access(d_backing_inode(old_dentry)->i_mode);
842b91c3e4eSMickaël Salaün if (removable) {
843b91c3e4eSMickaël Salaün access_request_parent1 |= maybe_remove(old_dentry);
844b91c3e4eSMickaël Salaün access_request_parent2 |= maybe_remove(new_dentry);
845b91c3e4eSMickaël Salaün }
846b91c3e4eSMickaël Salaün
847b91c3e4eSMickaël Salaün /* The mount points are the same for old and new paths, cf. EXDEV. */
848b91c3e4eSMickaël Salaün if (old_dentry->d_parent == new_dir->dentry) {
849b91c3e4eSMickaël Salaün /*
850b91c3e4eSMickaël Salaün * The LANDLOCK_ACCESS_FS_REFER access right is not required
851b91c3e4eSMickaël Salaün * for same-directory referer (i.e. no reparenting).
852b91c3e4eSMickaël Salaün */
853b91c3e4eSMickaël Salaün access_request_parent1 = init_layer_masks(
854b91c3e4eSMickaël Salaün dom, access_request_parent1 | access_request_parent2,
855b91c3e4eSMickaël Salaün &layer_masks_parent1);
856106794c4SGünther Noack if (is_access_to_paths_allowed(
857106794c4SGünther Noack dom, new_dir, access_request_parent1,
858106794c4SGünther Noack &layer_masks_parent1, NULL, 0, NULL, NULL))
859106794c4SGünther Noack return 0;
860106794c4SGünther Noack return -EACCES;
861b91c3e4eSMickaël Salaün }
862b91c3e4eSMickaël Salaün
863b91c3e4eSMickaël Salaün access_request_parent1 |= LANDLOCK_ACCESS_FS_REFER;
864b91c3e4eSMickaël Salaün access_request_parent2 |= LANDLOCK_ACCESS_FS_REFER;
865b91c3e4eSMickaël Salaün
866b91c3e4eSMickaël Salaün /* Saves the common mount point. */
867b91c3e4eSMickaël Salaün mnt_dir.mnt = new_dir->mnt;
868b91c3e4eSMickaël Salaün mnt_dir.dentry = new_dir->mnt->mnt_root;
869b91c3e4eSMickaël Salaün
870cc30d05bSMickaël Salaün /*
871cc30d05bSMickaël Salaün * old_dentry may be the root of the common mount point and
872cc30d05bSMickaël Salaün * !IS_ROOT(old_dentry) at the same time (e.g. with open_tree() and
873cc30d05bSMickaël Salaün * OPEN_TREE_CLONE). We do not need to call dget(old_parent) because
874cc30d05bSMickaël Salaün * we keep a reference to old_dentry.
875cc30d05bSMickaël Salaün */
876cc30d05bSMickaël Salaün old_parent = (old_dentry == mnt_dir.dentry) ? old_dentry :
877cc30d05bSMickaël Salaün old_dentry->d_parent;
878cc30d05bSMickaël Salaün
879b91c3e4eSMickaël Salaün /* new_dir->dentry is equal to new_dentry->d_parent */
880cc30d05bSMickaël Salaün allow_parent1 = collect_domain_accesses(dom, mnt_dir.dentry, old_parent,
881b91c3e4eSMickaël Salaün &layer_masks_parent1);
882b91c3e4eSMickaël Salaün allow_parent2 = collect_domain_accesses(
883b91c3e4eSMickaël Salaün dom, mnt_dir.dentry, new_dir->dentry, &layer_masks_parent2);
884b91c3e4eSMickaël Salaün
885b91c3e4eSMickaël Salaün if (allow_parent1 && allow_parent2)
886b91c3e4eSMickaël Salaün return 0;
887b91c3e4eSMickaël Salaün
888b91c3e4eSMickaël Salaün /*
889b91c3e4eSMickaël Salaün * To be able to compare source and destination domain access rights,
890b91c3e4eSMickaël Salaün * take into account the @old_dentry access rights aggregated with its
891b91c3e4eSMickaël Salaün * parent access rights. This will be useful to compare with the
892b91c3e4eSMickaël Salaün * destination parent access rights.
893b91c3e4eSMickaël Salaün */
894106794c4SGünther Noack if (is_access_to_paths_allowed(
895106794c4SGünther Noack dom, &mnt_dir, access_request_parent1, &layer_masks_parent1,
896106794c4SGünther Noack old_dentry, access_request_parent2, &layer_masks_parent2,
897106794c4SGünther Noack exchange ? new_dentry : NULL))
898106794c4SGünther Noack return 0;
899106794c4SGünther Noack
900106794c4SGünther Noack /*
901106794c4SGünther Noack * This prioritizes EACCES over EXDEV for all actions, including
902106794c4SGünther Noack * renames with RENAME_EXCHANGE.
903106794c4SGünther Noack */
904106794c4SGünther Noack if (likely(is_eacces(&layer_masks_parent1, access_request_parent1) ||
905106794c4SGünther Noack is_eacces(&layer_masks_parent2, access_request_parent2)))
906106794c4SGünther Noack return -EACCES;
907106794c4SGünther Noack
908106794c4SGünther Noack /*
909106794c4SGünther Noack * Gracefully forbids reparenting if the destination directory
910106794c4SGünther Noack * hierarchy is not a superset of restrictions of the source directory
911106794c4SGünther Noack * hierarchy, or if LANDLOCK_ACCESS_FS_REFER is not allowed by the
912106794c4SGünther Noack * source or the destination.
913106794c4SGünther Noack */
914106794c4SGünther Noack return -EXDEV;
915b91c3e4eSMickaël Salaün }
916b91c3e4eSMickaël Salaün
917cb2c7d1aSMickaël Salaün /* Inode hooks */
918cb2c7d1aSMickaël Salaün
hook_inode_free_security(struct inode * const inode)919cb2c7d1aSMickaël Salaün static void hook_inode_free_security(struct inode *const inode)
920cb2c7d1aSMickaël Salaün {
921cb2c7d1aSMickaël Salaün /*
922cb2c7d1aSMickaël Salaün * All inodes must already have been untied from their object by
923cb2c7d1aSMickaël Salaün * release_inode() or hook_sb_delete().
924cb2c7d1aSMickaël Salaün */
925cb2c7d1aSMickaël Salaün WARN_ON_ONCE(landlock_inode(inode)->object);
926cb2c7d1aSMickaël Salaün }
927cb2c7d1aSMickaël Salaün
928cb2c7d1aSMickaël Salaün /* Super-block hooks */
929cb2c7d1aSMickaël Salaün
930cb2c7d1aSMickaël Salaün /*
931cb2c7d1aSMickaël Salaün * Release the inodes used in a security policy.
932cb2c7d1aSMickaël Salaün *
933cb2c7d1aSMickaël Salaün * Cf. fsnotify_unmount_inodes() and invalidate_inodes()
934cb2c7d1aSMickaël Salaün */
hook_sb_delete(struct super_block * const sb)935cb2c7d1aSMickaël Salaün static void hook_sb_delete(struct super_block *const sb)
936cb2c7d1aSMickaël Salaün {
937cb2c7d1aSMickaël Salaün struct inode *inode, *prev_inode = NULL;
938cb2c7d1aSMickaël Salaün
939cb2c7d1aSMickaël Salaün if (!landlock_initialized)
940cb2c7d1aSMickaël Salaün return;
941cb2c7d1aSMickaël Salaün
942cb2c7d1aSMickaël Salaün spin_lock(&sb->s_inode_list_lock);
943cb2c7d1aSMickaël Salaün list_for_each_entry(inode, &sb->s_inodes, i_sb_list) {
944cb2c7d1aSMickaël Salaün struct landlock_object *object;
945cb2c7d1aSMickaël Salaün
946cb2c7d1aSMickaël Salaün /* Only handles referenced inodes. */
947cb2c7d1aSMickaël Salaün if (!atomic_read(&inode->i_count))
948cb2c7d1aSMickaël Salaün continue;
949cb2c7d1aSMickaël Salaün
950cb2c7d1aSMickaël Salaün /*
951cb2c7d1aSMickaël Salaün * Protects against concurrent modification of inode (e.g.
952cb2c7d1aSMickaël Salaün * from get_inode_object()).
953cb2c7d1aSMickaël Salaün */
954cb2c7d1aSMickaël Salaün spin_lock(&inode->i_lock);
955cb2c7d1aSMickaël Salaün /*
956cb2c7d1aSMickaël Salaün * Checks I_FREEING and I_WILL_FREE to protect against a race
957cb2c7d1aSMickaël Salaün * condition when release_inode() just called iput(), which
958cb2c7d1aSMickaël Salaün * could lead to a NULL dereference of inode->security or a
959cb2c7d1aSMickaël Salaün * second call to iput() for the same Landlock object. Also
960cb2c7d1aSMickaël Salaün * checks I_NEW because such inode cannot be tied to an object.
961cb2c7d1aSMickaël Salaün */
962cb2c7d1aSMickaël Salaün if (inode->i_state & (I_FREEING | I_WILL_FREE | I_NEW)) {
963cb2c7d1aSMickaël Salaün spin_unlock(&inode->i_lock);
964cb2c7d1aSMickaël Salaün continue;
965cb2c7d1aSMickaël Salaün }
966cb2c7d1aSMickaël Salaün
967cb2c7d1aSMickaël Salaün rcu_read_lock();
968cb2c7d1aSMickaël Salaün object = rcu_dereference(landlock_inode(inode)->object);
969cb2c7d1aSMickaël Salaün if (!object) {
970cb2c7d1aSMickaël Salaün rcu_read_unlock();
971cb2c7d1aSMickaël Salaün spin_unlock(&inode->i_lock);
972cb2c7d1aSMickaël Salaün continue;
973cb2c7d1aSMickaël Salaün }
974cb2c7d1aSMickaël Salaün /* Keeps a reference to this inode until the next loop walk. */
975cb2c7d1aSMickaël Salaün __iget(inode);
976cb2c7d1aSMickaël Salaün spin_unlock(&inode->i_lock);
977cb2c7d1aSMickaël Salaün
978cb2c7d1aSMickaël Salaün /*
979cb2c7d1aSMickaël Salaün * If there is no concurrent release_inode() ongoing, then we
980cb2c7d1aSMickaël Salaün * are in charge of calling iput() on this inode, otherwise we
981cb2c7d1aSMickaël Salaün * will just wait for it to finish.
982cb2c7d1aSMickaël Salaün */
983cb2c7d1aSMickaël Salaün spin_lock(&object->lock);
984cb2c7d1aSMickaël Salaün if (object->underobj == inode) {
985cb2c7d1aSMickaël Salaün object->underobj = NULL;
986cb2c7d1aSMickaël Salaün spin_unlock(&object->lock);
987cb2c7d1aSMickaël Salaün rcu_read_unlock();
988cb2c7d1aSMickaël Salaün
989cb2c7d1aSMickaël Salaün /*
990cb2c7d1aSMickaël Salaün * Because object->underobj was not NULL,
991cb2c7d1aSMickaël Salaün * release_inode() and get_inode_object() guarantee
992cb2c7d1aSMickaël Salaün * that it is safe to reset
993cb2c7d1aSMickaël Salaün * landlock_inode(inode)->object while it is not NULL.
994cb2c7d1aSMickaël Salaün * It is therefore not necessary to lock inode->i_lock.
995cb2c7d1aSMickaël Salaün */
996cb2c7d1aSMickaël Salaün rcu_assign_pointer(landlock_inode(inode)->object, NULL);
997cb2c7d1aSMickaël Salaün /*
998cb2c7d1aSMickaël Salaün * At this point, we own the ihold() reference that was
999cb2c7d1aSMickaël Salaün * originally set up by get_inode_object() and the
1000cb2c7d1aSMickaël Salaün * __iget() reference that we just set in this loop
1001cb2c7d1aSMickaël Salaün * walk. Therefore the following call to iput() will
1002cb2c7d1aSMickaël Salaün * not sleep nor drop the inode because there is now at
1003cb2c7d1aSMickaël Salaün * least two references to it.
1004cb2c7d1aSMickaël Salaün */
1005cb2c7d1aSMickaël Salaün iput(inode);
1006cb2c7d1aSMickaël Salaün } else {
1007cb2c7d1aSMickaël Salaün spin_unlock(&object->lock);
1008cb2c7d1aSMickaël Salaün rcu_read_unlock();
1009cb2c7d1aSMickaël Salaün }
1010cb2c7d1aSMickaël Salaün
1011cb2c7d1aSMickaël Salaün if (prev_inode) {
1012cb2c7d1aSMickaël Salaün /*
1013cb2c7d1aSMickaël Salaün * At this point, we still own the __iget() reference
1014cb2c7d1aSMickaël Salaün * that we just set in this loop walk. Therefore we
1015cb2c7d1aSMickaël Salaün * can drop the list lock and know that the inode won't
1016cb2c7d1aSMickaël Salaün * disappear from under us until the next loop walk.
1017cb2c7d1aSMickaël Salaün */
1018cb2c7d1aSMickaël Salaün spin_unlock(&sb->s_inode_list_lock);
1019cb2c7d1aSMickaël Salaün /*
1020cb2c7d1aSMickaël Salaün * We can now actually put the inode reference from the
1021cb2c7d1aSMickaël Salaün * previous loop walk, which is not needed anymore.
1022cb2c7d1aSMickaël Salaün */
1023cb2c7d1aSMickaël Salaün iput(prev_inode);
1024cb2c7d1aSMickaël Salaün cond_resched();
1025cb2c7d1aSMickaël Salaün spin_lock(&sb->s_inode_list_lock);
1026cb2c7d1aSMickaël Salaün }
1027cb2c7d1aSMickaël Salaün prev_inode = inode;
1028cb2c7d1aSMickaël Salaün }
1029cb2c7d1aSMickaël Salaün spin_unlock(&sb->s_inode_list_lock);
1030cb2c7d1aSMickaël Salaün
1031cb2c7d1aSMickaël Salaün /* Puts the inode reference from the last loop walk, if any. */
1032cb2c7d1aSMickaël Salaün if (prev_inode)
1033cb2c7d1aSMickaël Salaün iput(prev_inode);
1034cb2c7d1aSMickaël Salaün /* Waits for pending iput() in release_inode(). */
103506a1c40aSMickaël Salaün wait_var_event(&landlock_superblock(sb)->inode_refs,
103606a1c40aSMickaël Salaün !atomic_long_read(&landlock_superblock(sb)->inode_refs));
1037cb2c7d1aSMickaël Salaün }
1038cb2c7d1aSMickaël Salaün
1039cb2c7d1aSMickaël Salaün /*
1040cb2c7d1aSMickaël Salaün * Because a Landlock security policy is defined according to the filesystem
1041cb2c7d1aSMickaël Salaün * topology (i.e. the mount namespace), changing it may grant access to files
1042cb2c7d1aSMickaël Salaün * not previously allowed.
1043cb2c7d1aSMickaël Salaün *
1044cb2c7d1aSMickaël Salaün * To make it simple, deny any filesystem topology modification by landlocked
1045cb2c7d1aSMickaël Salaün * processes. Non-landlocked processes may still change the namespace of a
1046cb2c7d1aSMickaël Salaün * landlocked process, but this kind of threat must be handled by a system-wide
1047cb2c7d1aSMickaël Salaün * access-control security policy.
1048cb2c7d1aSMickaël Salaün *
1049cb2c7d1aSMickaël Salaün * This could be lifted in the future if Landlock can safely handle mount
1050cb2c7d1aSMickaël Salaün * namespace updates requested by a landlocked process. Indeed, we could
1051cb2c7d1aSMickaël Salaün * update the current domain (which is currently read-only) by taking into
1052cb2c7d1aSMickaël Salaün * account the accesses of the source and the destination of a new mount point.
1053cb2c7d1aSMickaël Salaün * However, it would also require to make all the child domains dynamically
1054cb2c7d1aSMickaël Salaün * inherit these new constraints. Anyway, for backward compatibility reasons,
1055cb2c7d1aSMickaël Salaün * a dedicated user space option would be required (e.g. as a ruleset flag).
1056cb2c7d1aSMickaël Salaün */
hook_sb_mount(const char * const dev_name,const struct path * const path,const char * const type,const unsigned long flags,void * const data)1057cb2c7d1aSMickaël Salaün static int hook_sb_mount(const char *const dev_name,
1058cb2c7d1aSMickaël Salaün const struct path *const path, const char *const type,
1059cb2c7d1aSMickaël Salaün const unsigned long flags, void *const data)
1060cb2c7d1aSMickaël Salaün {
1061cb2c7d1aSMickaël Salaün if (!landlock_get_current_domain())
1062cb2c7d1aSMickaël Salaün return 0;
1063cb2c7d1aSMickaël Salaün return -EPERM;
1064cb2c7d1aSMickaël Salaün }
1065cb2c7d1aSMickaël Salaün
hook_move_mount(const struct path * const from_path,const struct path * const to_path)1066cb2c7d1aSMickaël Salaün static int hook_move_mount(const struct path *const from_path,
1067cb2c7d1aSMickaël Salaün const struct path *const to_path)
1068cb2c7d1aSMickaël Salaün {
1069cb2c7d1aSMickaël Salaün if (!landlock_get_current_domain())
1070cb2c7d1aSMickaël Salaün return 0;
1071cb2c7d1aSMickaël Salaün return -EPERM;
1072cb2c7d1aSMickaël Salaün }
1073cb2c7d1aSMickaël Salaün
1074cb2c7d1aSMickaël Salaün /*
1075cb2c7d1aSMickaël Salaün * Removing a mount point may reveal a previously hidden file hierarchy, which
1076cb2c7d1aSMickaël Salaün * may then grant access to files, which may have previously been forbidden.
1077cb2c7d1aSMickaël Salaün */
hook_sb_umount(struct vfsmount * const mnt,const int flags)1078cb2c7d1aSMickaël Salaün static int hook_sb_umount(struct vfsmount *const mnt, const int flags)
1079cb2c7d1aSMickaël Salaün {
1080cb2c7d1aSMickaël Salaün if (!landlock_get_current_domain())
1081cb2c7d1aSMickaël Salaün return 0;
1082cb2c7d1aSMickaël Salaün return -EPERM;
1083cb2c7d1aSMickaël Salaün }
1084cb2c7d1aSMickaël Salaün
hook_sb_remount(struct super_block * const sb,void * const mnt_opts)1085cb2c7d1aSMickaël Salaün static int hook_sb_remount(struct super_block *const sb, void *const mnt_opts)
1086cb2c7d1aSMickaël Salaün {
1087cb2c7d1aSMickaël Salaün if (!landlock_get_current_domain())
1088cb2c7d1aSMickaël Salaün return 0;
1089cb2c7d1aSMickaël Salaün return -EPERM;
1090cb2c7d1aSMickaël Salaün }
1091cb2c7d1aSMickaël Salaün
1092cb2c7d1aSMickaël Salaün /*
1093cb2c7d1aSMickaël Salaün * pivot_root(2), like mount(2), changes the current mount namespace. It must
1094cb2c7d1aSMickaël Salaün * then be forbidden for a landlocked process.
1095cb2c7d1aSMickaël Salaün *
1096cb2c7d1aSMickaël Salaün * However, chroot(2) may be allowed because it only changes the relative root
1097cb2c7d1aSMickaël Salaün * directory of the current process. Moreover, it can be used to restrict the
1098cb2c7d1aSMickaël Salaün * view of the filesystem.
1099cb2c7d1aSMickaël Salaün */
hook_sb_pivotroot(const struct path * const old_path,const struct path * const new_path)1100cb2c7d1aSMickaël Salaün static int hook_sb_pivotroot(const struct path *const old_path,
1101cb2c7d1aSMickaël Salaün const struct path *const new_path)
1102cb2c7d1aSMickaël Salaün {
1103cb2c7d1aSMickaël Salaün if (!landlock_get_current_domain())
1104cb2c7d1aSMickaël Salaün return 0;
1105cb2c7d1aSMickaël Salaün return -EPERM;
1106cb2c7d1aSMickaël Salaün }
1107cb2c7d1aSMickaël Salaün
1108cb2c7d1aSMickaël Salaün /* Path hooks */
1109cb2c7d1aSMickaël Salaün
hook_path_link(struct dentry * const old_dentry,const struct path * const new_dir,struct dentry * const new_dentry)1110cb2c7d1aSMickaël Salaün static int hook_path_link(struct dentry *const old_dentry,
1111cb2c7d1aSMickaël Salaün const struct path *const new_dir,
1112cb2c7d1aSMickaël Salaün struct dentry *const new_dentry)
1113cb2c7d1aSMickaël Salaün {
1114b91c3e4eSMickaël Salaün return current_check_refer_path(old_dentry, new_dir, new_dentry, false,
1115b91c3e4eSMickaël Salaün false);
1116cb2c7d1aSMickaël Salaün }
1117cb2c7d1aSMickaël Salaün
hook_path_rename(const struct path * const old_dir,struct dentry * const old_dentry,const struct path * const new_dir,struct dentry * const new_dentry,const unsigned int flags)1118cb2c7d1aSMickaël Salaün static int hook_path_rename(const struct path *const old_dir,
1119cb2c7d1aSMickaël Salaün struct dentry *const old_dentry,
1120cb2c7d1aSMickaël Salaün const struct path *const new_dir,
1121100f59d9SMickaël Salaün struct dentry *const new_dentry,
1122100f59d9SMickaël Salaün const unsigned int flags)
1123cb2c7d1aSMickaël Salaün {
1124b91c3e4eSMickaël Salaün /* old_dir refers to old_dentry->d_parent and new_dir->mnt */
1125b91c3e4eSMickaël Salaün return current_check_refer_path(old_dentry, new_dir, new_dentry, true,
1126b91c3e4eSMickaël Salaün !!(flags & RENAME_EXCHANGE));
1127cb2c7d1aSMickaël Salaün }
1128cb2c7d1aSMickaël Salaün
hook_path_mkdir(const struct path * const dir,struct dentry * const dentry,const umode_t mode)1129cb2c7d1aSMickaël Salaün static int hook_path_mkdir(const struct path *const dir,
1130cb2c7d1aSMickaël Salaün struct dentry *const dentry, const umode_t mode)
1131cb2c7d1aSMickaël Salaün {
1132cb2c7d1aSMickaël Salaün return current_check_access_path(dir, LANDLOCK_ACCESS_FS_MAKE_DIR);
1133cb2c7d1aSMickaël Salaün }
1134cb2c7d1aSMickaël Salaün
hook_path_mknod(const struct path * const dir,struct dentry * const dentry,const umode_t mode,const unsigned int dev)1135cb2c7d1aSMickaël Salaün static int hook_path_mknod(const struct path *const dir,
1136cb2c7d1aSMickaël Salaün struct dentry *const dentry, const umode_t mode,
1137cb2c7d1aSMickaël Salaün const unsigned int dev)
1138cb2c7d1aSMickaël Salaün {
1139cb2c7d1aSMickaël Salaün const struct landlock_ruleset *const dom =
1140cb2c7d1aSMickaël Salaün landlock_get_current_domain();
1141cb2c7d1aSMickaël Salaün
1142cb2c7d1aSMickaël Salaün if (!dom)
1143cb2c7d1aSMickaël Salaün return 0;
1144cb2c7d1aSMickaël Salaün return check_access_path(dom, dir, get_mode_access(mode));
1145cb2c7d1aSMickaël Salaün }
1146cb2c7d1aSMickaël Salaün
hook_path_symlink(const struct path * const dir,struct dentry * const dentry,const char * const old_name)1147cb2c7d1aSMickaël Salaün static int hook_path_symlink(const struct path *const dir,
114806a1c40aSMickaël Salaün struct dentry *const dentry,
114906a1c40aSMickaël Salaün const char *const old_name)
1150cb2c7d1aSMickaël Salaün {
1151cb2c7d1aSMickaël Salaün return current_check_access_path(dir, LANDLOCK_ACCESS_FS_MAKE_SYM);
1152cb2c7d1aSMickaël Salaün }
1153cb2c7d1aSMickaël Salaün
hook_path_unlink(const struct path * const dir,struct dentry * const dentry)1154cb2c7d1aSMickaël Salaün static int hook_path_unlink(const struct path *const dir,
1155cb2c7d1aSMickaël Salaün struct dentry *const dentry)
1156cb2c7d1aSMickaël Salaün {
1157cb2c7d1aSMickaël Salaün return current_check_access_path(dir, LANDLOCK_ACCESS_FS_REMOVE_FILE);
1158cb2c7d1aSMickaël Salaün }
1159cb2c7d1aSMickaël Salaün
hook_path_rmdir(const struct path * const dir,struct dentry * const dentry)1160cb2c7d1aSMickaël Salaün static int hook_path_rmdir(const struct path *const dir,
1161cb2c7d1aSMickaël Salaün struct dentry *const dentry)
1162cb2c7d1aSMickaël Salaün {
1163cb2c7d1aSMickaël Salaün return current_check_access_path(dir, LANDLOCK_ACCESS_FS_REMOVE_DIR);
1164cb2c7d1aSMickaël Salaün }
1165cb2c7d1aSMickaël Salaün
hook_path_truncate(const struct path * const path)1166b9f5ce27SGünther Noack static int hook_path_truncate(const struct path *const path)
1167b9f5ce27SGünther Noack {
1168b9f5ce27SGünther Noack return current_check_access_path(path, LANDLOCK_ACCESS_FS_TRUNCATE);
1169b9f5ce27SGünther Noack }
1170b9f5ce27SGünther Noack
1171cb2c7d1aSMickaël Salaün /* File hooks */
1172cb2c7d1aSMickaël Salaün
1173b9f5ce27SGünther Noack /**
1174b9f5ce27SGünther Noack * get_required_file_open_access - Get access needed to open a file
1175b9f5ce27SGünther Noack *
1176b9f5ce27SGünther Noack * @file: File being opened.
1177b9f5ce27SGünther Noack *
1178b9f5ce27SGünther Noack * Returns the access rights that are required for opening the given file,
1179b9f5ce27SGünther Noack * depending on the file type and open mode.
1180b9f5ce27SGünther Noack */
1181b9f5ce27SGünther Noack static inline access_mask_t
get_required_file_open_access(const struct file * const file)1182b9f5ce27SGünther Noack get_required_file_open_access(const struct file *const file)
1183cb2c7d1aSMickaël Salaün {
11845f2ff33eSMickaël Salaün access_mask_t access = 0;
1185cb2c7d1aSMickaël Salaün
1186cb2c7d1aSMickaël Salaün if (file->f_mode & FMODE_READ) {
1187cb2c7d1aSMickaël Salaün /* A directory can only be opened in read mode. */
1188cb2c7d1aSMickaël Salaün if (S_ISDIR(file_inode(file)->i_mode))
1189cb2c7d1aSMickaël Salaün return LANDLOCK_ACCESS_FS_READ_DIR;
1190cb2c7d1aSMickaël Salaün access = LANDLOCK_ACCESS_FS_READ_FILE;
1191cb2c7d1aSMickaël Salaün }
1192cb2c7d1aSMickaël Salaün if (file->f_mode & FMODE_WRITE)
1193cb2c7d1aSMickaël Salaün access |= LANDLOCK_ACCESS_FS_WRITE_FILE;
1194cb2c7d1aSMickaël Salaün /* __FMODE_EXEC is indeed part of f_flags, not f_mode. */
1195cb2c7d1aSMickaël Salaün if (file->f_flags & __FMODE_EXEC)
1196cb2c7d1aSMickaël Salaün access |= LANDLOCK_ACCESS_FS_EXECUTE;
1197cb2c7d1aSMickaël Salaün return access;
1198cb2c7d1aSMickaël Salaün }
1199cb2c7d1aSMickaël Salaün
hook_file_alloc_security(struct file * const file)1200b9f5ce27SGünther Noack static int hook_file_alloc_security(struct file *const file)
1201b9f5ce27SGünther Noack {
1202b9f5ce27SGünther Noack /*
1203b9f5ce27SGünther Noack * Grants all access rights, even if most of them are not checked later
1204b9f5ce27SGünther Noack * on. It is more consistent.
1205b9f5ce27SGünther Noack *
1206b9f5ce27SGünther Noack * Notably, file descriptors for regular files can also be acquired
1207b9f5ce27SGünther Noack * without going through the file_open hook, for example when using
1208b9f5ce27SGünther Noack * memfd_create(2).
1209b9f5ce27SGünther Noack */
1210b9f5ce27SGünther Noack landlock_file(file)->allowed_access = LANDLOCK_MASK_ACCESS_FS;
1211b9f5ce27SGünther Noack return 0;
1212b9f5ce27SGünther Noack }
1213b9f5ce27SGünther Noack
hook_file_open(struct file * const file)1214cb2c7d1aSMickaël Salaün static int hook_file_open(struct file *const file)
1215cb2c7d1aSMickaël Salaün {
1216b9f5ce27SGünther Noack layer_mask_t layer_masks[LANDLOCK_NUM_ACCESS_FS] = {};
1217b9f5ce27SGünther Noack access_mask_t open_access_request, full_access_request, allowed_access;
1218b9f5ce27SGünther Noack const access_mask_t optional_access = LANDLOCK_ACCESS_FS_TRUNCATE;
1219cb2c7d1aSMickaël Salaün const struct landlock_ruleset *const dom =
1220cb2c7d1aSMickaël Salaün landlock_get_current_domain();
1221cb2c7d1aSMickaël Salaün
1222cb2c7d1aSMickaël Salaün if (!dom)
1223cb2c7d1aSMickaël Salaün return 0;
1224b9f5ce27SGünther Noack
1225cb2c7d1aSMickaël Salaün /*
1226b9f5ce27SGünther Noack * Because a file may be opened with O_PATH, get_required_file_open_access()
1227b9f5ce27SGünther Noack * may return 0. This case will be handled with a future Landlock
1228cb2c7d1aSMickaël Salaün * evolution.
1229cb2c7d1aSMickaël Salaün */
1230b9f5ce27SGünther Noack open_access_request = get_required_file_open_access(file);
1231b9f5ce27SGünther Noack
1232b9f5ce27SGünther Noack /*
1233b9f5ce27SGünther Noack * We look up more access than what we immediately need for open(), so
1234b9f5ce27SGünther Noack * that we can later authorize operations on opened files.
1235b9f5ce27SGünther Noack */
1236b9f5ce27SGünther Noack full_access_request = open_access_request | optional_access;
1237b9f5ce27SGünther Noack
1238b9f5ce27SGünther Noack if (is_access_to_paths_allowed(
1239b9f5ce27SGünther Noack dom, &file->f_path,
1240b9f5ce27SGünther Noack init_layer_masks(dom, full_access_request, &layer_masks),
1241b9f5ce27SGünther Noack &layer_masks, NULL, 0, NULL, NULL)) {
1242b9f5ce27SGünther Noack allowed_access = full_access_request;
1243b9f5ce27SGünther Noack } else {
1244b9f5ce27SGünther Noack unsigned long access_bit;
1245b9f5ce27SGünther Noack const unsigned long access_req = full_access_request;
1246b9f5ce27SGünther Noack
1247b9f5ce27SGünther Noack /*
1248b9f5ce27SGünther Noack * Calculate the actual allowed access rights from layer_masks.
1249b9f5ce27SGünther Noack * Add each access right to allowed_access which has not been
1250b9f5ce27SGünther Noack * vetoed by any layer.
1251b9f5ce27SGünther Noack */
1252b9f5ce27SGünther Noack allowed_access = 0;
1253b9f5ce27SGünther Noack for_each_set_bit(access_bit, &access_req,
1254b9f5ce27SGünther Noack ARRAY_SIZE(layer_masks)) {
1255b9f5ce27SGünther Noack if (!layer_masks[access_bit])
1256b9f5ce27SGünther Noack allowed_access |= BIT_ULL(access_bit);
1257b9f5ce27SGünther Noack }
1258b9f5ce27SGünther Noack }
1259b9f5ce27SGünther Noack
1260b9f5ce27SGünther Noack /*
1261b9f5ce27SGünther Noack * For operations on already opened files (i.e. ftruncate()), it is the
1262b9f5ce27SGünther Noack * access rights at the time of open() which decide whether the
1263b9f5ce27SGünther Noack * operation is permitted. Therefore, we record the relevant subset of
1264b9f5ce27SGünther Noack * file access rights in the opened struct file.
1265b9f5ce27SGünther Noack */
1266b9f5ce27SGünther Noack landlock_file(file)->allowed_access = allowed_access;
1267b9f5ce27SGünther Noack
1268b9f5ce27SGünther Noack if ((open_access_request & allowed_access) == open_access_request)
1269b9f5ce27SGünther Noack return 0;
1270b9f5ce27SGünther Noack
1271b9f5ce27SGünther Noack return -EACCES;
1272b9f5ce27SGünther Noack }
1273b9f5ce27SGünther Noack
hook_file_truncate(struct file * const file)1274b9f5ce27SGünther Noack static int hook_file_truncate(struct file *const file)
1275b9f5ce27SGünther Noack {
1276b9f5ce27SGünther Noack /*
1277b9f5ce27SGünther Noack * Allows truncation if the truncate right was available at the time of
1278b9f5ce27SGünther Noack * opening the file, to get a consistent access check as for read, write
1279b9f5ce27SGünther Noack * and execute operations.
1280b9f5ce27SGünther Noack *
1281b9f5ce27SGünther Noack * Note: For checks done based on the file's Landlock allowed access, we
1282b9f5ce27SGünther Noack * enforce them independently of whether the current thread is in a
1283b9f5ce27SGünther Noack * Landlock domain, so that open files passed between independent
1284b9f5ce27SGünther Noack * processes retain their behaviour.
1285b9f5ce27SGünther Noack */
1286b9f5ce27SGünther Noack if (landlock_file(file)->allowed_access & LANDLOCK_ACCESS_FS_TRUNCATE)
1287b9f5ce27SGünther Noack return 0;
1288b9f5ce27SGünther Noack return -EACCES;
1289cb2c7d1aSMickaël Salaün }
1290cb2c7d1aSMickaël Salaün
1291f22f9aafSPaul Moore static struct security_hook_list landlock_hooks[] __ro_after_init = {
1292cb2c7d1aSMickaël Salaün LSM_HOOK_INIT(inode_free_security, hook_inode_free_security),
1293cb2c7d1aSMickaël Salaün
1294cb2c7d1aSMickaël Salaün LSM_HOOK_INIT(sb_delete, hook_sb_delete),
1295cb2c7d1aSMickaël Salaün LSM_HOOK_INIT(sb_mount, hook_sb_mount),
1296cb2c7d1aSMickaël Salaün LSM_HOOK_INIT(move_mount, hook_move_mount),
1297cb2c7d1aSMickaël Salaün LSM_HOOK_INIT(sb_umount, hook_sb_umount),
1298cb2c7d1aSMickaël Salaün LSM_HOOK_INIT(sb_remount, hook_sb_remount),
1299cb2c7d1aSMickaël Salaün LSM_HOOK_INIT(sb_pivotroot, hook_sb_pivotroot),
1300cb2c7d1aSMickaël Salaün
1301cb2c7d1aSMickaël Salaün LSM_HOOK_INIT(path_link, hook_path_link),
1302cb2c7d1aSMickaël Salaün LSM_HOOK_INIT(path_rename, hook_path_rename),
1303cb2c7d1aSMickaël Salaün LSM_HOOK_INIT(path_mkdir, hook_path_mkdir),
1304cb2c7d1aSMickaël Salaün LSM_HOOK_INIT(path_mknod, hook_path_mknod),
1305cb2c7d1aSMickaël Salaün LSM_HOOK_INIT(path_symlink, hook_path_symlink),
1306cb2c7d1aSMickaël Salaün LSM_HOOK_INIT(path_unlink, hook_path_unlink),
1307cb2c7d1aSMickaël Salaün LSM_HOOK_INIT(path_rmdir, hook_path_rmdir),
1308b9f5ce27SGünther Noack LSM_HOOK_INIT(path_truncate, hook_path_truncate),
1309cb2c7d1aSMickaël Salaün
1310b9f5ce27SGünther Noack LSM_HOOK_INIT(file_alloc_security, hook_file_alloc_security),
1311cb2c7d1aSMickaël Salaün LSM_HOOK_INIT(file_open, hook_file_open),
1312b9f5ce27SGünther Noack LSM_HOOK_INIT(file_truncate, hook_file_truncate),
1313cb2c7d1aSMickaël Salaün };
1314cb2c7d1aSMickaël Salaün
landlock_add_fs_hooks(void)1315cb2c7d1aSMickaël Salaün __init void landlock_add_fs_hooks(void)
1316cb2c7d1aSMickaël Salaün {
1317cb2c7d1aSMickaël Salaün security_add_hooks(landlock_hooks, ARRAY_SIZE(landlock_hooks),
1318cb2c7d1aSMickaël Salaün LANDLOCK_NAME);
1319cb2c7d1aSMickaël Salaün }
1320