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|
/*
* AppArmor security module
*
* This file contains AppArmor label definitions
*
* Copyright 2017 Canonical Ltd.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation, version 2 of the
* License.
*/
#include <linux/audit.h>
#include <linux/seq_file.h>
#include <linux/sort.h>
#include "include/apparmor.h"
#include "include/cred.h"
#include "include/label.h"
#include "include/policy.h"
#include "include/secid.h"
/*
* the aa_label represents the set of profiles confining an object
*
* Labels maintain a reference count to the set of pointers they reference
* Labels are ref counted by
* tasks and object via the security field/security context off the field
* code - will take a ref count on a label if it needs the label
* beyond what is possible with an rcu_read_lock.
* profiles - each profile is a label
* secids - a pinned secid will keep a refcount of the label it is
* referencing
* objects - inode, files, sockets, ...
*
* Labels are not ref counted by the label set, so they maybe removed and
* freed when no longer in use.
*
*/
#define PROXY_POISON 97
#define LABEL_POISON 100
static void free_proxy(struct aa_proxy *proxy)
{
if (proxy) {
/* p->label will not updated any more as p is dead */
aa_put_label(rcu_dereference_protected(proxy->label, true));
memset(proxy, 0, sizeof(*proxy));
RCU_INIT_POINTER(proxy->label, (struct aa_label *)PROXY_POISON);
kfree(proxy);
}
}
void aa_proxy_kref(struct kref *kref)
{
struct aa_proxy *proxy = container_of(kref, struct aa_proxy, count);
free_proxy(proxy);
}
struct aa_proxy *aa_alloc_proxy(struct aa_label *label, gfp_t gfp)
{
struct aa_proxy *new;
new = kzalloc(sizeof(struct aa_proxy), gfp);
if (new) {
kref_init(&new->count);
rcu_assign_pointer(new->label, aa_get_label(label));
}
return new;
}
/* requires profile list write lock held */
void __aa_proxy_redirect(struct aa_label *orig, struct aa_label *new)
{
struct aa_label *tmp;
AA_BUG(!orig);
AA_BUG(!new);
lockdep_assert_held_exclusive(&labels_set(orig)->lock);
tmp = rcu_dereference_protected(orig->proxy->label,
&labels_ns(orig)->lock);
rcu_assign_pointer(orig->proxy->label, aa_get_label(new));
orig->flags |= FLAG_STALE;
aa_put_label(tmp);
}
static void __proxy_share(struct aa_label *old, struct aa_label *new)
{
struct aa_proxy *proxy = new->proxy;
new->proxy = aa_get_proxy(old->proxy);
__aa_proxy_redirect(old, new);
aa_put_proxy(proxy);
}
/**
* ns_cmp - compare ns for label set ordering
* @a: ns to compare (NOT NULL)
* @b: ns to compare (NOT NULL)
*
* Returns: <0 if a < b
* ==0 if a == b
* >0 if a > b
*/
static int ns_cmp(struct aa_ns *a, struct aa_ns *b)
{
int res;
AA_BUG(!a);
AA_BUG(!b);
AA_BUG(!a->base.hname);
AA_BUG(!b->base.hname);
if (a == b)
return 0;
res = a->level - b->level;
if (res)
return res;
return strcmp(a->base.hname, b->base.hname);
}
/**
* profile_cmp - profile comparison for set ordering
* @a: profile to compare (NOT NULL)
* @b: profile to compare (NOT NULL)
*
* Returns: <0 if a < b
* ==0 if a == b
* >0 if a > b
*/
static int profile_cmp(struct aa_profile *a, struct aa_profile *b)
{
int res;
AA_BUG(!a);
AA_BUG(!b);
AA_BUG(!a->ns);
AA_BUG(!b->ns);
AA_BUG(!a->base.hname);
AA_BUG(!b->base.hname);
if (a == b || a->base.hname == b->base.hname)
return 0;
res = ns_cmp(a->ns, b->ns);
if (res)
return res;
return strcmp(a->base.hname, b->base.hname);
}
/**
* vec_cmp - label comparison for set ordering
* @a: label to compare (NOT NULL)
* @vec: vector of profiles to compare (NOT NULL)
* @n: length of @vec
*
* Returns: <0 if a < vec
* ==0 if a == vec
* >0 if a > vec
*/
static int vec_cmp(struct aa_profile **a, int an, struct aa_profile **b, int bn)
{
int i;
AA_BUG(!a);
AA_BUG(!*a);
AA_BUG(!b);
AA_BUG(!*b);
AA_BUG(an <= 0);
AA_BUG(bn <= 0);
for (i = 0; i < an && i < bn; i++) {
int res = profile_cmp(a[i], b[i]);
if (res != 0)
return res;
}
return an - bn;
}
static bool vec_is_stale(struct aa_profile **vec, int n)
{
int i;
AA_BUG(!vec);
for (i = 0; i < n; i++) {
if (profile_is_stale(vec[i]))
return true;
}
return false;
}
static bool vec_unconfined(struct aa_profile **vec, int n)
{
int i;
AA_BUG(!vec);
for (i = 0; i < n; i++) {
if (!profile_unconfined(vec[i]))
return false;
}
return true;
}
static int sort_cmp(const void *a, const void *b)
{
return profile_cmp(*(struct aa_profile **)a, *(struct aa_profile **)b);
}
/*
* assumes vec is sorted
* Assumes @vec has null terminator at vec[n], and will null terminate
* vec[n - dups]
*/
static inline int unique(struct aa_profile **vec, int n)
{
int i, pos, dups = 0;
AA_BUG(n < 1);
AA_BUG(!vec);
pos = 0;
for (i = 1; i < n; i++) {
int res = profile_cmp(vec[pos], vec[i]);
AA_BUG(res > 0, "vec not sorted");
if (res == 0) {
/* drop duplicate */
aa_put_profile(vec[i]);
dups++;
continue;
}
pos++;
if (dups)
vec[pos] = vec[i];
}
AA_BUG(dups < 0);
return dups;
}
/**
* aa_vec_unique - canonical sort and unique a list of profiles
* @n: number of refcounted profiles in the list (@n > 0)
* @vec: list of profiles to sort and merge
*
* Returns: the number of duplicates eliminated == references put
*
* If @flags & VEC_FLAG_TERMINATE @vec has null terminator at vec[n], and will
* null terminate vec[n - dups]
*/
int aa_vec_unique(struct aa_profile **vec, int n, int flags)
{
int i, dups = 0;
AA_BUG(n < 1);
AA_BUG(!vec);
/* vecs are usually small and inorder, have a fallback for larger */
if (n > 8) {
sort(vec, n, sizeof(struct aa_profile *), sort_cmp, NULL);
dups = unique(vec, n);
goto out;
}
/* insertion sort + unique in one */
for (i = 1; i < n; i++) {
struct aa_profile *tmp = vec[i];
int pos, j;
for (pos = i - 1 - dups; pos >= 0; pos--) {
int res = profile_cmp(vec[pos], tmp);
if (res == 0) {
/* drop duplicate entry */
aa_put_profile(tmp);
dups++;
goto continue_outer;
} else if (res < 0)
break;
}
/* pos is at entry < tmp, or index -1. Set to insert pos */
pos++;
for (j = i - dups; j > pos; j--)
vec[j] = vec[j - 1];
vec[pos] = tmp;
continue_outer:
;
}
AA_BUG(dups < 0);
out:
if (flags & VEC_FLAG_TERMINATE)
vec[n - dups] = NULL;
return dups;
}
static void label_destroy(struct aa_label *label)
{
struct aa_label *tmp;
AA_BUG(!label);
if (!label_isprofile(label)) {
struct aa_profile *profile;
struct label_it i;
aa_put_str(label->hname);
label_for_each(i, label, profile) {
aa_put_profile(profile);
label->vec[i.i] = (struct aa_profile *)
(LABEL_POISON + (long) i.i);
}
}
if (rcu_dereference_protected(label->proxy->label, true) == label)
rcu_assign_pointer(label->proxy->label, NULL);
aa_free_secid(label->secid);
tmp = rcu_dereference_protected(label->proxy->label, true);
if (tmp == label)
rcu_assign_pointer(label->proxy->label, NULL);
aa_put_proxy(label->proxy);
label->proxy = (struct aa_proxy *) PROXY_POISON + 1;
}
void aa_label_free(struct aa_label *label)
{
if (!label)
return;
label_destroy(label);
kfree(label);
}
static void label_free_switch(struct aa_label *label)
{
if (label->flags & FLAG_NS_COUNT)
aa_free_ns(labels_ns(label));
else if (label_isprofile(label))
aa_free_profile(labels_profile(label));
else
aa_label_free(label);
}
static void label_free_rcu(struct rcu_head *head)
{
struct aa_label *label = container_of(head, struct aa_label, rcu);
if (label->flags & FLAG_IN_TREE)
(void) aa_label_remove(label);
label_free_switch(label);
}
void aa_label_kref(struct kref *kref)
{
struct aa_label *label = container_of(kref, struct aa_label, count);
struct aa_ns *ns = labels_ns(label);
if (!ns) {
/* never live, no rcu callback needed, just using the fn */
label_free_switch(label);
return;
}
/* TODO: update labels_profile macro so it works here */
AA_BUG(label_isprofile(label) &&
on_list_rcu(&label->vec[0]->base.profiles));
AA_BUG(label_isprofile(label) &&
on_list_rcu(&label->vec[0]->base.list));
/* TODO: if compound label and not stale add to reclaim cache */
call_rcu(&label->rcu, label_free_rcu);
}
static void label_free_or_put_new(struct aa_label *label, struct aa_label *new)
{
if (label != new)
/* need to free directly to break circular ref with proxy */
aa_label_free(new);
else
aa_put_label(new);
}
bool aa_label_init(struct aa_label *label, int size, gfp_t gfp)
{
AA_BUG(!label);
AA_BUG(size < 1);
if (aa_alloc_secid(label, gfp) < 0)
return false;
label->size = size; /* doesn't include null */
label->vec[size] = NULL; /* null terminate */
kref_init(&label->count);
RB_CLEAR_NODE(&label->node);
return true;
}
/**
* aa_label_alloc - allocate a label with a profile vector of @size length
* @size: size of profile vector in the label
* @proxy: proxy to use OR null if to allocate a new one
* @gfp: memory allocation type
*
* Returns: new label
* else NULL if failed
*/
struct aa_label *aa_label_alloc(int size, struct aa_proxy *proxy, gfp_t gfp)
{
struct aa_label *new;
AA_BUG(size < 1);
/* + 1 for null terminator entry on vec */
new = kzalloc(sizeof(*new) + sizeof(struct aa_profile *) * (size + 1),
gfp);
AA_DEBUG("%s (%p)\n", __func__, new);
if (!new)
goto fail;
if (!aa_label_init(new, size, gfp))
goto fail;
if (!proxy) {
proxy = aa_alloc_proxy(new, gfp);
if (!proxy)
goto fail;
} else
aa_get_proxy(proxy);
/* just set new's proxy, don't redirect proxy here if it was passed in*/
new->proxy = proxy;
return new;
fail:
kfree(new);
return NULL;
}
/**
* label_cmp - label comparison for set ordering
* @a: label to compare (NOT NULL)
* @b: label to compare (NOT NULL)
*
* Returns: <0 if a < b
* ==0 if a == b
* >0 if a > b
*/
static int label_cmp(struct aa_label *a, struct aa_label *b)
{
AA_BUG(!b);
if (a == b)
return 0;
return vec_cmp(a->vec, a->size, b->vec, b->size);
}
/* helper fn for label_for_each_confined */
int aa_label_next_confined(struct aa_label *label, int i)
{
AA_BUG(!label);
AA_BUG(i < 0);
for (; i < label->size; i++) {
if (!profile_unconfined(label->vec[i]))
return i;
}
return i;
}
/**
* aa_label_next_not_in_set - return the next profile of @sub not in @set
* @I: label iterator
* @set: label to test against
* @sub: label to if is subset of @set
*
* Returns: profile in @sub that is not in @set, with iterator set pos after
* else NULL if @sub is a subset of @set
*/
struct aa_profile *__aa_label_next_not_in_set(struct label_it *I,
struct aa_label *set,
struct aa_label *sub)
{
AA_BUG(!set);
AA_BUG(!I);
AA_BUG(I->i < 0);
AA_BUG(I->i > set->size);
AA_BUG(!sub);
AA_BUG(I->j < 0);
AA_BUG(I->j > sub->size);
while (I->j < sub->size && I->i < set->size) {
int res = profile_cmp(sub->vec[I->j], set->vec[I->i]);
if (res == 0) {
(I->j)++;
(I->i)++;
} else if (res > 0)
(I->i)++;
else
return sub->vec[(I->j)++];
}
if (I->j < sub->size)
return sub->vec[(I->j)++];
return NULL;
}
/**
* aa_label_is_subset - test if @sub is a subset of @set
* @set: label to test against
* @sub: label to test if is subset of @set
*
* Returns: true if @sub is subset of @set
* else false
*/
bool aa_label_is_subset(struct aa_label *set, struct aa_label *sub)
{
struct label_it i = { };
AA_BUG(!set);
AA_BUG(!sub);
if (sub == set)
return true;
return __aa_label_next_not_in_set(&i, set, sub) == NULL;
}
/**
* aa_label_is_unconfined_subset - test if @sub is a subset of @set
* @set: label to test against
* @sub: label to test if is subset of @set
*
* This checks for subset but taking into account unconfined. IF
* @sub contains an unconfined profile that does not have a matching
* unconfined in @set then this will not cause the test to fail.
* Conversely we don't care about an unconfined in @set that is not in
* @sub
*
* Returns: true if @sub is special_subset of @set
* else false
*/
bool aa_label_is_unconfined_subset(struct aa_label *set, struct aa_label *sub)
{
struct label_it i = { };
struct aa_profile *p;
AA_BUG(!set);
AA_BUG(!sub);
if (sub == set)
return true;
do {
p = __aa_label_next_not_in_set(&i, set, sub);
if (p && !profile_unconfined(p))
break;
} while (p);
return p == NULL;
}
/**
* __label_remove - remove @label from the label set
* @l: label to remove
* @new: label to redirect to
*
* Requires: labels_set(@label)->lock write_lock
* Returns: true if the label was in the tree and removed
*/
static bool __label_remove(struct aa_label *label, struct aa_label *new)
{
struct aa_labelset *ls = labels_set(label);
AA_BUG(!ls);
AA_BUG(!label);
lockdep_assert_held_exclusive(&ls->lock);
if (new)
__aa_proxy_redirect(label, new);
if (!label_is_stale(label))
__label_make_stale(label);
if (label->flags & FLAG_IN_TREE) {
rb_erase(&label->node, &ls->root);
label->flags &= ~FLAG_IN_TREE;
return true;
}
return false;
}
/**
* __label_replace - replace @old with @new in label set
* @old: label to remove from label set
* @new: label to replace @old with
*
* Requires: labels_set(@old)->lock write_lock
* valid ref count be held on @new
* Returns: true if @old was in set and replaced by @new
*
* Note: current implementation requires label set be order in such a way
* that @new directly replaces @old position in the set (ie.
* using pointer comparison of the label address would not work)
*/
static bool __label_replace(struct aa_label *old, struct aa_label *new)
{
struct aa_labelset *ls = labels_set(old);
AA_BUG(!ls);
AA_BUG(!old);
AA_BUG(!new);
lockdep_assert_held_exclusive(&ls->lock);
AA_BUG(new->flags & FLAG_IN_TREE);
if (!label_is_stale(old))
__label_make_stale(old);
if (old->flags & FLAG_IN_TREE) {
rb_replace_node(&old->node, &new->node, &ls->root);
old->flags &= ~FLAG_IN_TREE;
new->flags |= FLAG_IN_TREE;
return true;
}
return false;
}
/**
* __label_insert - attempt to insert @l into a label set
* @ls: set of labels to insert @l into (NOT NULL)
* @label: new label to insert (NOT NULL)
* @replace: whether insertion should replace existing entry that is not stale
*
* Requires: @ls->lock
* caller to hold a valid ref on l
* if @replace is true l has a preallocated proxy associated
* Returns: @l if successful in inserting @l - with additional refcount
* else ref counted equivalent label that is already in the set,
* the else condition only happens if @replace is false
*/
static struct aa_label *__label_insert(struct aa_labelset *ls,
struct aa_label *label, bool replace)
{
struct rb_node **new, *parent = NULL;
AA_BUG(!ls);
AA_BUG(!label);
AA_BUG(labels_set(label) != ls);
lockdep_assert_held_exclusive(&ls->lock);
AA_BUG(label->flags & FLAG_IN_TREE);
/* Figure out where to put new node */
new = &ls->root.rb_node;
while (*new) {
struct aa_label *this = rb_entry(*new, struct aa_label, node);
int result = label_cmp(label, this);
parent = *new;
if (result == 0) {
/* !__aa_get_label means queued for destruction,
* so replace in place, however the label has
* died before the replacement so do not share
* the proxy
*/
if (!replace && !label_is_stale(this)) {
if (__aa_get_label(this))
return this;
} else
__proxy_share(this, label);
AA_BUG(!__label_replace(this, label));
return aa_get_label(label);
} else if (result < 0)
new = &((*new)->rb_left);
else /* (result > 0) */
new = &((*new)->rb_right);
}
/* Add new node and rebalance tree. */
rb_link_node(&label->node, parent, new);
rb_insert_color(&label->node, &ls->root);
label->flags |= FLAG_IN_TREE;
return aa_get_label(label);
}
/**
* __vec_find - find label that matches @vec in label set
* @vec: vec of profiles to find matching label for (NOT NULL)
* @n: length of @vec
*
* Requires: @vec_labelset(vec) lock held
* caller to hold a valid ref on l
*
* Returns: ref counted @label if matching label is in tree
* ref counted label that is equiv to @l in tree
* else NULL if @vec equiv is not in tree
*/
static struct aa_label *__vec_find(struct aa_profile **vec, int n)
{
struct rb_node *node;
AA_BUG(!vec);
AA_BUG(!*vec);
AA_BUG(n <= 0);
node = vec_labelset(vec, n)->root.rb_node;
while (node) {
struct aa_label *this = rb_entry(node, struct aa_label, node);
int result = vec_cmp(this->vec, this->size, vec, n);
if (result > 0)
node = node->rb_left;
else if (result < 0)
node = node->rb_right;
else
return __aa_get_label(this);
}
return NULL;
}
/**
* __label_find - find label @label in label set
* @label: label to find (NOT NULL)
*
* Requires: labels_set(@label)->lock held
* caller to hold a valid ref on l
*
* Returns: ref counted @label if @label is in tree OR
* ref counted label that is equiv to @label in tree
* else NULL if @label or equiv is not in tree
*/
static struct aa_label *__label_find(struct aa_label *label)
{
AA_BUG(!label);
return __vec_find(label->vec, label->size);
}
/**
* aa_label_remove - remove a label from the labelset
* @label: label to remove
*
* Returns: true if @label was removed from the tree
* else @label was not in tree so it could not be removed
*/
bool aa_label_remove(struct aa_label *label)
{
struct aa_labelset *ls = labels_set(label);
unsigned long flags;
bool res;
AA_BUG(!ls);
write_lock_irqsave(&ls->lock, flags);
res = __label_remove(label, ns_unconfined(labels_ns(label)));
write_unlock_irqrestore(&ls->lock, flags);
return res;
}
/**
* aa_label_replace - replace a label @old with a new version @new
* @old: label to replace
* @new: label replacing @old
*
* Returns: true if @old was in tree and replaced
* else @old was not in tree, and @new was not inserted
*/
bool aa_label_replace(struct aa_label *old, struct aa_label *new)
{
unsigned long flags;
bool res;
if (name_is_shared(old, new) && labels_ns(old) == labels_ns(new)) {
write_lock_irqsave(&labels_set(old)->lock, flags);
if (old->proxy != new->proxy)
__proxy_share(old, new);
else
__aa_proxy_redirect(old, new);
res = __label_replace(old, new);
write_unlock_irqrestore(&labels_set(old)->lock, flags);
} else {
struct aa_label *l;
struct aa_labelset *ls = labels_set(old);
write_lock_irqsave(&ls->lock, flags);
res = __label_remove(old, new);
if (labels_ns(old) != labels_ns(new)) {
write_unlock_irqrestore(&ls->lock, flags);
ls = labels_set(new);
write_lock_irqsave(&ls->lock, flags);
}
l = __label_insert(ls, new, true);
res = (l == new);
write_unlock_irqrestore(&ls->lock, flags);
aa_put_label(l);
}
return res;
}
/**
* vec_find - find label @l in label set
* @vec: array of profiles to find equiv label for (NOT NULL)
* @n: length of @vec
*
* Returns: refcounted label if @vec equiv is in tree
* else NULL if @vec equiv is not in tree
*/
static struct aa_label *vec_find(struct aa_profile **vec, int n)
{
struct aa_labelset *ls;
struct aa_label *label;
unsigned long flags;
AA_BUG(!vec);
AA_BUG(!*vec);
AA_BUG(n <= 0);
ls = vec_labelset(vec, n);
read_lock_irqsave(&ls->lock, flags);
label = __vec_find(vec, n);
read_unlock_irqrestore(&ls->lock, flags);
return label;
}
/* requires sort and merge done first */
static struct aa_label *vec_create_and_insert_label(struct aa_profile **vec,
int len, gfp_t gfp)
{
struct aa_label *label = NULL;
struct aa_labelset *ls;
unsigned long flags;
struct aa_label *new;
int i;
AA_BUG(!vec);
if (len == 1)
return aa_get_label(&vec[0]->label);
ls = labels_set(&vec[len - 1]->label);
/* TODO: enable when read side is lockless
* check if label exists before taking locks
*/
new = aa_label_alloc(len, NULL, gfp);
if (!new)
return NULL;
for (i = 0; i < len; i++)
new->vec[i] = aa_get_profile(vec[i]);
write_lock_irqsave(&ls->lock, flags);
label = __label_insert(ls, new, false);
write_unlock_irqrestore(&ls->lock, flags);
label_free_or_put_new(label, new);
return label;
}
struct aa_label *aa_vec_find_or_create_label(struct aa_profile **vec, int len,
gfp_t gfp)
{
struct aa_label *label = vec_find(vec, len);
if (label)
return label;
return vec_create_and_insert_label(vec, len, gfp);
}
/**
* aa_label_find - find label @label in label set
* @label: label to find (NOT NULL)
*
* Requires: caller to hold a valid ref on l
*
* Returns: refcounted @label if @label is in tree
* refcounted label that is equiv to @label in tree
* else NULL if @label or equiv is not in tree
*/
struct aa_label *aa_label_find(struct aa_label *label)
{
AA_BUG(!label);
return vec_find(label->vec, label->size);
}
/**
* aa_label_insert - insert label @label into @ls or return existing label
* @ls - labelset to insert @label into
* @label - label to insert
*
* Requires: caller to hold a valid ref on @label
*
* Returns: ref counted @label if successful in inserting @label
* else ref counted equivalent label that is already in the set
*/
struct aa_label *aa_label_insert(struct aa_labelset *ls, struct aa_label *label)
{
struct aa_label *l;
unsigned long flags;
AA_BUG(!ls);
AA_BUG(!label);
/* check if label exists before taking lock */
if (!label_is_stale(label)) {
read_lock_irqsave(&ls->lock, flags);
l = __label_find(label);
read_unlock_irqrestore(&ls->lock, flags);
if (l)
return l;
}
write_lock_irqsave(&ls->lock, flags);
l = __label_insert(ls, label, false);
write_unlock_irqrestore(&ls->lock, flags);
return l;
}
/**
* aa_label_next_in_merge - find the next profile when merging @a and @b
* @I: label iterator
* @a: label to merge
* @b: label to merge
*
* Returns: next profile
* else null if no more profiles
*/
struct aa_profile *aa_label_next_in_merge(struct label_it *I,
struct aa_label *a,
struct aa_label *b)
{
AA_BUG(!a);
AA_BUG(!b);
AA_BUG(!I);
AA_BUG(I->i < 0);
AA_BUG(I->i > a->size);
AA_BUG(I->j < 0);
AA_BUG(I->j > b->size);
if (I->i < a->size) {
if (I->j < b->size) {
int res = profile_cmp(a->vec[I->i], b->vec[I->j]);
if (res > 0)
return b->vec[(I->j)++];
if (res == 0)
(I->j)++;
}
return a->vec[(I->i)++];
}
if (I->j < b->size)
return b->vec[(I->j)++];
return NULL;
}
/**
* label_merge_cmp - cmp of @a merging with @b against @z for set ordering
* @a: label to merge then compare (NOT NULL)
* @b: label to merge then compare (NOT NULL)
* @z: label to compare merge against (NOT NULL)
*
* Assumes: using the most recent versions of @a, @b, and @z
*
* Returns: <0 if a < b
* ==0 if a == b
* >0 if a > b
*/
static int label_merge_cmp(struct aa_label *a, struct aa_label *b,
struct aa_label *z)
{
struct aa_profile *p = NULL;
struct label_it i = { };
int k;
AA_BUG(!a);
AA_BUG(!b);
AA_BUG(!z);
for (k = 0;
k < z->size && (p = aa_label_next_in_merge(&i, a, b));
k++) {
int res = profile_cmp(p, z->vec[k]);
if (res != 0)
return res;
}
if (p)
return 1;
else if (k < z->size)
return -1;
return 0;
}
/**
* label_merge_insert - create a new label by merging @a and @b
* @new: preallocated label to merge into (NOT NULL)
* @a: label to merge with @b (NOT NULL)
* @b: label to merge with @a (NOT NULL)
*
* Requires: preallocated proxy
*
* Returns: ref counted label either @new if merge is unique
* @a if @b is a subset of @a
* @b if @a is a subset of @b
*
* NOTE: will not use @new if the merge results in @new == @a or @b
*
* Must be used within labelset write lock to avoid racing with
* setting labels stale.
*/
static struct aa_label *label_merge_insert(struct aa_label *new,
struct aa_label *a,
struct aa_label *b)
{
struct aa_label *label;
struct aa_labelset *ls;
struct aa_profile *next;
struct label_it i;
unsigned long flags;
int k = 0, invcount = 0;
bool stale = false;
AA_BUG(!a);
AA_BUG(a->size < 0);
AA_BUG(!b);
AA_BUG(b->size < 0);
AA_BUG(!new);
AA_BUG(new->size < a->size + b->size);
label_for_each_in_merge(i, a, b, next) {
AA_BUG(!next);
if (profile_is_stale(next)) {
new->vec[k] = aa_get_newest_profile(next);
AA_BUG(!new->vec[k]->label.proxy);
AA_BUG(!new->vec[k]->label.proxy->label);
if (next->label.proxy != new->vec[k]->label.proxy)
invcount++;
k++;
stale = true;
} else
new->vec[k++] = aa_get_profile(next);
}
/* set to actual size which is <= allocated len */
new->size = k;
new->vec[k] = NULL;
if (invcount) {
new->size -= aa_vec_unique(&new->vec[0], new->size,
VEC_FLAG_TERMINATE);
/* TODO: deal with reference labels */
if (new->size == 1) {
label = aa_get_label(&new->vec[0]->label);
return label;
}
} else if (!stale) {
/*
* merge could be same as a || b, note: it is not possible
* for new->size == a->size == b->size unless a == b
*/
if (k == a->size)
return aa_get_label(a);
else if (k == b->size)
return aa_get_label(b);
}
if (vec_unconfined(new->vec, new->size))
new->flags |= FLAG_UNCONFINED;
ls = labels_set(new);
write_lock_irqsave(&ls->lock, flags);
label = __label_insert(labels_set(new), new, false);
write_unlock_irqrestore(&ls->lock, flags);
return label;
}
/**
* labelset_of_merge - find which labelset a merged label should be inserted
* @a: label to merge and insert
* @b: label to merge and insert
*
* Returns: labelset that the merged label should be inserted into
*/
static struct aa_labelset *labelset_of_merge(struct aa_label *a,
struct aa_label *b)
{
struct aa_ns *nsa = labels_ns(a);
struct aa_ns *nsb = labels_ns(b);
if (ns_cmp(nsa, nsb) <= 0)
return &nsa->labels;
return &nsb->labels;
}
/**
* __label_find_merge - find label that is equiv to merge of @a and @b
* @ls: set of labels to search (NOT NULL)
* @a: label to merge with @b (NOT NULL)
* @b: label to merge with @a (NOT NULL)
*
* Requires: ls->lock read_lock held
*
* Returns: ref counted label that is equiv to merge of @a and @b
* else NULL if merge of @a and @b is not in set
*/
static struct aa_label *__label_find_merge(struct aa_labelset *ls,
struct aa_label *a,
struct aa_label *b)
{
struct rb_node *node;
AA_BUG(!ls);
AA_BUG(!a);
AA_BUG(!b);
if (a == b)
return __label_find(a);
node = ls->root.rb_node;
while (node) {
struct aa_label *this = container_of(node, struct aa_label,
node);
int result = label_merge_cmp(a, b, this);
if (result < 0)
node = node->rb_left;
else if (result > 0)
node = node->rb_right;
else
return __aa_get_label(this);
}
return NULL;
}
/**
* aa_label_find_merge - find label that is equiv to merge of @a and @b
* @a: label to merge with @b (NOT NULL)
* @b: label to merge with @a (NOT NULL)
*
* Requires: labels be fully constructed with a valid ns
*
* Returns: ref counted label that is equiv to merge of @a and @b
* else NULL if merge of @a and @b is not in set
*/
struct aa_label *aa_label_find_merge(struct aa_label *a, struct aa_label *b)
{
struct aa_labelset *ls;
struct aa_label *label, *ar = NULL, *br = NULL;
unsigned long flags;
AA_BUG(!a);
AA_BUG(!b);
if (label_is_stale(a))
a = ar = aa_get_newest_label(a);
if (label_is_stale(b))
b = br = aa_get_newest_label(b);
ls = labelset_of_merge(a, b);
read_lock_irqsave(&ls->lock, flags);
label = __label_find_merge(ls, a, b);
read_unlock_irqrestore(&ls->lock, flags);
aa_put_label(ar);
aa_put_label(br);
return label;
}
/**
* aa_label_merge - attempt to insert new merged label of @a and @b
* @ls: set of labels to insert label into (NOT NULL)
* @a: label to merge with @b (NOT NULL)
* @b: label to merge with @a (NOT NULL)
* @gfp: memory allocation type
*
* Requires: caller to hold valid refs on @a and @b
* labels be fully constructed with a valid ns
*
* Returns: ref counted new label if successful in inserting merge of a & b
* else ref counted equivalent label that is already in the set.
* else NULL if could not create label (-ENOMEM)
*/
struct aa_label *aa_label_merge(struct aa_label *a, struct aa_label *b,
gfp_t gfp)
{
struct aa_label *label = NULL;
AA_BUG(!a);
AA_BUG(!b);
if (a == b)
return aa_get_newest_label(a);
/* TODO: enable when read side is lockless
* check if label exists before taking locks
if (!label_is_stale(a) && !label_is_stale(b))
label = aa_label_find_merge(a, b);
*/
if (!label) {
struct aa_label *new;
a = aa_get_newest_label(a);
b = aa_get_newest_label(b);
/* could use label_merge_len(a, b), but requires double
* comparison for small savings
*/
new = aa_label_alloc(a->size + b->size, NULL, gfp);
if (!new)
goto out;
label = label_merge_insert(new, a, b);
label_free_or_put_new(label, new);
out:
aa_put_label(a);
aa_put_label(b);
}
return label;
}
static inline bool label_is_visible(struct aa_profile *profile,
struct aa_label *label)
{
return aa_ns_visible(profile->ns, labels_ns(label), true);
}
/* match a profile and its associated ns component if needed
* Assumes visibility test has already been done.
* If a subns profile is not to be matched should be prescreened with
* visibility test.
*/
static inline unsigned int match_component(struct aa_profile *profile,
struct aa_profile *tp,
unsigned int state)
{
const char *ns_name;
if (profile->ns == tp->ns)
return aa_dfa_match(profile->policy.dfa, state, tp->base.hname);
/* try matching with namespace name and then profile */
ns_name = aa_ns_name(profile->ns, tp->ns, true);
state = aa_dfa_match_len(profile->policy.dfa, state, ":", 1);
state = aa_dfa_match(profile->policy.dfa, state, ns_name);
state = aa_dfa_match_len(profile->policy.dfa, state, ":", 1);
return aa_dfa_match(profile->policy.dfa, state, tp->base.hname);
}
/**
* label_compound_match - find perms for full compound label
* @profile: profile to find perms for
* @label: label to check access permissions for
* @start: state to start match in
* @subns: whether to do permission checks on components in a subns
* @request: permissions to request
* @perms: perms struct to set
*
* Returns: 0 on success else ERROR
*
* For the label A//&B//&C this does the perm match for A//&B//&C
* @perms should be preinitialized with allperms OR a previous permission
* check to be stacked.
*/
static int label_compound_match(struct aa_profile *profile,
struct aa_label *label,
unsigned int state, bool subns, u32 request,
struct aa_perms *perms)
{
struct aa_profile *tp;
struct label_it i;
/* find first subcomponent that is visible */
label_for_each(i, label, tp) {
if (!aa_ns_visible(profile->ns, tp->ns, subns))
continue;
state = match_component(profile, tp, state);
if (!state)
goto fail;
goto next;
}
/* no component visible */
*perms = allperms;
return 0;
next:
label_for_each_cont(i, label, tp) {
if (!aa_ns_visible(profile->ns, tp->ns, subns))
continue;
state = aa_dfa_match(profile->policy.dfa, state, "//&");
state = match_component(profile, tp, state);
if (!state)
goto fail;
}
aa_compute_perms(profile->policy.dfa, state, perms);
aa_apply_modes_to_perms(profile, perms);
if ((perms->allow & request) != request)
return -EACCES;
return 0;
fail:
*perms = nullperms;
return state;
}
/**
* label_components_match - find perms for all subcomponents of a label
* @profile: profile to find perms for
* @label: label to check access permissions for
* @start: state to start match in
* @subns: whether to do permission checks on components in a subns
* @request: permissions to request
* @perms: an initialized perms struct to add accumulation to
*
* Returns: 0 on success else ERROR
*
* For the label A//&B//&C this does the perm match for each of A and B and C
* @perms should be preinitialized with allperms OR a previous permission
* check to be stacked.
*/
static int label_components_match(struct aa_profile *profile,
struct aa_label *label, unsigned int start,
bool subns, u32 request,
struct aa_perms *perms)
{
struct aa_profile *tp;
struct label_it i;
struct aa_perms tmp;
unsigned int state = 0;
/* find first subcomponent to test */
label_for_each(i, label, tp) {
if (!aa_ns_visible(profile->ns, tp->ns, subns))
continue;
state = match_component(profile, tp, start);
if (!state)
goto fail;
goto next;
}
/* no subcomponents visible - no change in perms */
return 0;
next:
aa_compute_perms(profile->policy.dfa, state, &tmp);
aa_apply_modes_to_perms(profile, &tmp);
aa_perms_accum(perms, &tmp);
label_for_each_cont(i, label, tp) {
if (!aa_ns_visible(profile->ns, tp->ns, subns))
continue;
state = match_component(profile, tp, start);
if (!state)
goto fail;
aa_compute_perms(profile->policy.dfa, state, &tmp);
aa_apply_modes_to_perms(profile, &tmp);
aa_perms_accum(perms, &tmp);
}
if ((perms->allow & request) != request)
return -EACCES;
return 0;
fail:
*perms = nullperms;
return -EACCES;
}
/**
* aa_label_match - do a multi-component label match
* @profile: profile to match against (NOT NULL)
* @label: label to match (NOT NULL)
* @state: state to start in
* @subns: whether to match subns components
* @request: permission request
* @perms: Returns computed perms (NOT NULL)
*
* Returns: the state the match finished in, may be the none matching state
*/
int aa_label_match(struct aa_profile *profile, struct aa_label *label,
unsigned int state, bool subns, u32 request,
struct aa_perms *perms)
{
int error = label_compound_match(profile, label, state, subns, request,
perms);
if (!error)
return error;
*perms = allperms;
return label_components_match(profile, label, state, subns, request,
perms);
}
/**
* aa_update_label_name - update a label to have a stored name
* @ns: ns being viewed from (NOT NULL)
* @label: label to update (NOT NULL)
* @gfp: type of memory allocation
*
* Requires: labels_set(label) not locked in caller
*
* note: only updates the label name if it does not have a name already
* and if it is in the labelset
*/
bool aa_update_label_name(struct aa_ns *ns, struct aa_label *label, gfp_t gfp)
{
struct aa_labelset *ls;
unsigned long flags;
char __counted *name;
bool res = false;
AA_BUG(!ns);
AA_BUG(!label);
if (label->hname || labels_ns(label) != ns)
return res;
if (aa_label_acntsxprint(&name, ns, label, FLAGS_NONE, gfp) < 0)
return res;
ls = labels_set(label);
write_lock_irqsave(&ls->lock, flags);
if (!label->hname && label->flags & FLAG_IN_TREE) {
label->hname = name;
res = true;
} else
aa_put_str(name);
write_unlock_irqrestore(&ls->lock, flags);
return res;
}
/*
* cached label name is present and visible
* @label->hname only exists if label is namespace hierachical
*/
static inline bool use_label_hname(struct aa_ns *ns, struct aa_label *label,
int flags)
{
if (label->hname && (!ns || labels_ns(label) == ns) &&
!(flags & ~FLAG_SHOW_MODE))
return true;
return false;
}
/* helper macro for snprint routines */
#define update_for_len(total, len, size, str) \
do { \
size_t ulen = len; \
\
AA_BUG(len < 0); \
total += ulen; \
ulen = min(ulen, size); \
size -= ulen; \
str += ulen; \
} while (0)
/**
* aa_profile_snxprint - print a profile name to a buffer
* @str: buffer to write to. (MAY BE NULL if @size == 0)
* @size: size of buffer
* @view: namespace profile is being viewed from
* @profile: profile to view (NOT NULL)
* @flags: whether to include the mode string
* @prev_ns: last ns printed when used in compound print
*
* Returns: size of name written or would be written if larger than
* available buffer
*
* Note: will not print anything if the profile is not visible
*/
static int aa_profile_snxprint(char *str, size_t size, struct aa_ns *view,
struct aa_profile *profile, int flags,
struct aa_ns **prev_ns)
{
const char *ns_name = NULL;
AA_BUG(!str && size != 0);
AA_BUG(!profile);
if (!view)
view = profiles_ns(profile);
if (view != profile->ns &&
(!prev_ns || (*prev_ns != profile->ns))) {
if (prev_ns)
*prev_ns = profile->ns;
ns_name = aa_ns_name(view, profile->ns,
flags & FLAG_VIEW_SUBNS);
if (ns_name == aa_hidden_ns_name) {
if (flags & FLAG_HIDDEN_UNCONFINED)
return snprintf(str, size, "%s", "unconfined");
return snprintf(str, size, "%s", ns_name);
}
}
if ((flags & FLAG_SHOW_MODE) && profile != profile->ns->unconfined) {
const char *modestr = aa_profile_mode_names[profile->mode];
if (ns_name)
return snprintf(str, size, ":%s:%s (%s)", ns_name,
profile->base.hname, modestr);
return snprintf(str, size, "%s (%s)", profile->base.hname,
modestr);
}
if (ns_name)
return snprintf(str, size, ":%s:%s", ns_name,
profile->base.hname);
return snprintf(str, size, "%s", profile->base.hname);
}
static const char *label_modename(struct aa_ns *ns, struct aa_label *label,
int flags)
{
struct aa_profile *profile;
struct label_it i;
int mode = -1, count = 0;
label_for_each(i, label, profile) {
if (aa_ns_visible(ns, profile->ns, flags & FLAG_VIEW_SUBNS)) {
count++;
if (profile == profile->ns->unconfined)
/* special case unconfined so stacks with
* unconfined don't report as mixed. ie.
* profile_foo//&:ns1:unconfined (mixed)
*/
continue;
if (mode == -1)
mode = profile->mode;
else if (mode != profile->mode)
return "mixed";
}
}
if (count == 0)
return "-";
if (mode == -1)
/* everything was unconfined */
mode = APPARMOR_UNCONFINED;
return aa_profile_mode_names[mode];
}
/* if any visible label is not unconfined the display_mode returns true */
static inline bool display_mode(struct aa_ns *ns, struct aa_label *label,
int flags)
{
if ((flags & FLAG_SHOW_MODE)) {
struct aa_profile *profile;
struct label_it i;
label_for_each(i, label, profile) {
if (aa_ns_visible(ns, profile->ns,
flags & FLAG_VIEW_SUBNS) &&
profile != profile->ns->unconfined)
return true;
}
/* only ns->unconfined in set of profiles in ns */
return false;
}
return false;
}
/**
* aa_label_snxprint - print a label name to a string buffer
* @str: buffer to write to. (MAY BE NULL if @size == 0)
* @size: size of buffer
* @ns: namespace profile is being viewed from
* @label: label to view (NOT NULL)
* @flags: whether to include the mode string
*
* Returns: size of name written or would be written if larger than
* available buffer
*
* Note: labels do not have to be strictly hierarchical to the ns as
* objects may be shared across different namespaces and thus
* pickup labeling from each ns. If a particular part of the
* label is not visible it will just be excluded. And if none
* of the label is visible "---" will be used.
*/
int aa_label_snxprint(char *str, size_t size, struct aa_ns *ns,
struct aa_label *label, int flags)
{
struct aa_profile *profile;
struct aa_ns *prev_ns = NULL;
struct label_it i;
int count = 0, total = 0;
ssize_t len;
AA_BUG(!str && size != 0);
AA_BUG(!label);
if (AA_DEBUG_LABEL && (flags & FLAG_ABS_ROOT)) {
ns = root_ns;
len = snprintf(str, size, "_");
update_for_len(total, len, size, str);
} else if (!ns) {
ns = labels_ns(label);
}
label_for_each(i, label, profile) {
if (aa_ns_visible(ns, profile->ns, flags & FLAG_VIEW_SUBNS)) {
if (count > 0) {
len = snprintf(str, size, "//&");
update_for_len(total, len, size, str);
}
len = aa_profile_snxprint(str, size, ns, profile,
flags & FLAG_VIEW_SUBNS,
&prev_ns);
update_for_len(total, len, size, str);
count++;
}
}
if (count == 0) {
if (flags & FLAG_HIDDEN_UNCONFINED)
return snprintf(str, size, "%s", "unconfined");
return snprintf(str, size, "%s", aa_hidden_ns_name);
}
/* count == 1 && ... is for backwards compat where the mode
* is not displayed for 'unconfined' in the current ns
*/
if (display_mode(ns, label, flags)) {
len = snprintf(str, size, " (%s)",
label_modename(ns, label, flags));
update_for_len(total, len, size, str);
}
return total;
}
#undef update_for_len
/**
* aa_label_asxprint - allocate a string buffer and print label into it
* @strp: Returns - the allocated buffer with the label name. (NOT NULL)
* @ns: namespace profile is being viewed from
* @label: label to view (NOT NULL)
* @flags: flags controlling what label info is printed
* @gfp: kernel memory allocation type
*
* Returns: size of name written or would be written if larger than
* available buffer
*/
int aa_label_asxprint(char **strp, struct aa_ns *ns, struct aa_label *label,
int flags, gfp_t gfp)
{
int size;
AA_BUG(!strp);
AA_BUG(!label);
size = aa_label_snxprint(NULL, 0, ns, label, flags);
if (size < 0)
return size;
*strp = kmalloc(size + 1, gfp);
if (!*strp)
return -ENOMEM;
return aa_label_snxprint(*strp, size + 1, ns, label, flags);
}
/**
* aa_label_acntsxprint - allocate a __counted string buffer and print label
* @strp: buffer to write to.
* @ns: namespace profile is being viewed from
* @label: label to view (NOT NULL)
* @flags: flags controlling what label info is printed
* @gfp: kernel memory allocation type
*
* Returns: size of name written or would be written if larger than
* available buffer
*/
int aa_label_acntsxprint(char __counted **strp, struct aa_ns *ns,
struct aa_label *label, int flags, gfp_t gfp)
{
int size;
AA_BUG(!strp);
AA_BUG(!label);
size = aa_label_snxprint(NULL, 0, ns, label, flags);
if (size < 0)
return size;
*strp = aa_str_alloc(size + 1, gfp);
if (!*strp)
return -ENOMEM;
return aa_label_snxprint(*strp, size + 1, ns, label, flags);
}
void aa_label_xaudit(struct audit_buffer *ab, struct aa_ns *ns,
struct aa_label *label, int flags, gfp_t gfp)
{
const char *str;
char *name = NULL;
int len;
AA_BUG(!ab);
AA_BUG(!label);
if (!use_label_hname(ns, label, flags) ||
display_mode(ns, label, flags)) {
len = aa_label_asxprint(&name, ns, label, flags, gfp);
if (len < 0) {
AA_DEBUG("label print error");
return;
}
str = name;
} else {
str = (char *) label->hname;
len = strlen(str);
}
if (audit_string_contains_control(str, len))
audit_log_n_hex(ab, str, len);
else
audit_log_n_string(ab, str, len);
kfree(name);
}
void aa_label_seq_xprint(struct seq_file *f, struct aa_ns *ns,
struct aa_label *label, int flags, gfp_t gfp)
{
AA_BUG(!f);
AA_BUG(!label);
if (!use_label_hname(ns, label, flags)) {
char *str;
int len;
len = aa_label_asxprint(&str, ns, label, flags, gfp);
if (len < 0) {
AA_DEBUG("label print error");
return;
}
seq_printf(f, "%s", str);
kfree(str);
} else if (display_mode(ns, label, flags))
seq_printf(f, "%s (%s)", label->hname,
label_modename(ns, label, flags));
else
seq_printf(f, "%s", label->hname);
}
void aa_label_xprintk(struct aa_ns *ns, struct aa_label *label, int flags,
gfp_t gfp)
{
AA_BUG(!label);
if (!use_label_hname(ns, label, flags)) {
char *str;
int len;
len = aa_label_asxprint(&str, ns, label, flags, gfp);
if (len < 0) {
AA_DEBUG("label print error");
return;
}
pr_info("%s", str);
kfree(str);
} else if (display_mode(ns, label, flags))
pr_info("%s (%s)", label->hname,
label_modename(ns, label, flags));
else
pr_info("%s", label->hname);
}
void aa_label_audit(struct audit_buffer *ab, struct aa_label *label, gfp_t gfp)
{
struct aa_ns *ns = aa_get_current_ns();
aa_label_xaudit(ab, ns, label, FLAG_VIEW_SUBNS, gfp);
aa_put_ns(ns);
}
void aa_label_seq_print(struct seq_file *f, struct aa_label *label, gfp_t gfp)
{
struct aa_ns *ns = aa_get_current_ns();
aa_label_seq_xprint(f, ns, label, FLAG_VIEW_SUBNS, gfp);
aa_put_ns(ns);
}
void aa_label_printk(struct aa_label *label, gfp_t gfp)
{
struct aa_ns *ns = aa_get_current_ns();
aa_label_xprintk(ns, label, FLAG_VIEW_SUBNS, gfp);
aa_put_ns(ns);
}
static int label_count_strn_entries(const char *str, size_t n)
{
const char *end = str + n;
const char *split;
int count = 1;
AA_BUG(!str);
for (split = aa_label_strn_split(str, end - str);
split;
split = aa_label_strn_split(str, end - str)) {
count++;
str = split + 3;
}
return count;
}
/*
* ensure stacks with components like
* :ns:A//&B
* have :ns: applied to both 'A' and 'B' by making the lookup relative
* to the base if the lookup specifies an ns, else making the stacked lookup
* relative to the last embedded ns in the string.
*/
static struct aa_profile *fqlookupn_profile(struct aa_label *base,
struct aa_label *currentbase,
const char *str, size_t n)
{
const char *first = skipn_spaces(str, n);
if (first && *first == ':')
return aa_fqlookupn_profile(base, str, n);
return aa_fqlookupn_profile(currentbase, str, n);
}
/**
* aa_label_strn_parse - parse, validate and convert a text string to a label
* @base: base label to use for lookups (NOT NULL)
* @str: null terminated text string (NOT NULL)
* @n: length of str to parse, will stop at \0 if encountered before n
* @gfp: allocation type
* @create: true if should create compound labels if they don't exist
* @force_stack: true if should stack even if no leading &
*
* Returns: the matching refcounted label if present
* else ERRPTR
*/
struct aa_label *aa_label_strn_parse(struct aa_label *base, const char *str,
size_t n, gfp_t gfp, bool create,
bool force_stack)
{
DEFINE_VEC(profile, vec);
struct aa_label *label, *currbase = base;
int i, len, stack = 0, error;
const char *end = str + n;
const char *split;
AA_BUG(!base);
AA_BUG(!str);
str = skipn_spaces(str, n);
if (str == NULL || (AA_DEBUG_LABEL && *str == '_' &&
base != &root_ns->unconfined->label))
return ERR_PTR(-EINVAL);
len = label_count_strn_entries(str, end - str);
if (*str == '&' || force_stack) {
/* stack on top of base */
stack = base->size;
len += stack;
if (*str == '&')
str++;
}
error = vec_setup(profile, vec, len, gfp);
if (error)
return ERR_PTR(error);
for (i = 0; i < stack; i++)
vec[i] = aa_get_profile(base->vec[i]);
for (split = aa_label_strn_split(str, end - str), i = stack;
split && i < len; i++) {
vec[i] = fqlookupn_profile(base, currbase, str, split - str);
if (!vec[i])
goto fail;
/*
* if component specified a new ns it becomes the new base
* so that subsequent lookups are relative to it
*/
if (vec[i]->ns != labels_ns(currbase))
currbase = &vec[i]->label;
str = split + 3;
split = aa_label_strn_split(str, end - str);
}
/* last element doesn't have a split */
if (i < len) {
vec[i] = fqlookupn_profile(base, currbase, str, end - str);
if (!vec[i])
goto fail;
}
if (len == 1)
/* no need to free vec as len < LOCAL_VEC_ENTRIES */
return &vec[0]->label;
len -= aa_vec_unique(vec, len, VEC_FLAG_TERMINATE);
/* TODO: deal with reference labels */
if (len == 1) {
label = aa_get_label(&vec[0]->label);
goto out;
}
if (create)
label = aa_vec_find_or_create_label(vec, len, gfp);
else
label = vec_find(vec, len);
if (!label)
goto fail;
out:
/* use adjusted len from after vec_unique, not original */
vec_cleanup(profile, vec, len);
return label;
fail:
label = ERR_PTR(-ENOENT);
goto out;
}
struct aa_label *aa_label_parse(struct aa_label *base, const char *str,
gfp_t gfp, bool create, bool force_stack)
{
return aa_label_strn_parse(base, str, strlen(str), gfp, create,
force_stack);
}
/**
* aa_labelset_destroy - remove all labels from the label set
* @ls: label set to cleanup (NOT NULL)
*
* Labels that are removed from the set may still exist beyond the set
* being destroyed depending on their reference counting
*/
void aa_labelset_destroy(struct aa_labelset *ls)
{
struct rb_node *node;
unsigned long flags;
AA_BUG(!ls);
write_lock_irqsave(&ls->lock, flags);
for (node = rb_first(&ls->root); node; node = rb_first(&ls->root)) {
struct aa_label *this = rb_entry(node, struct aa_label, node);
if (labels_ns(this) != root_ns)
__label_remove(this,
ns_unconfined(labels_ns(this)->parent));
else
__label_remove(this, NULL);
}
write_unlock_irqrestore(&ls->lock, flags);
}
/*
* @ls: labelset to init (NOT NULL)
*/
void aa_labelset_init(struct aa_labelset *ls)
{
AA_BUG(!ls);
rwlock_init(&ls->lock);
ls->root = RB_ROOT;
}
static struct aa_label *labelset_next_stale(struct aa_labelset *ls)
{
struct aa_label *label;
struct rb_node *node;
unsigned long flags;
AA_BUG(!ls);
read_lock_irqsave(&ls->lock, flags);
__labelset_for_each(ls, node) {
label = rb_entry(node, struct aa_label, node);
if ((label_is_stale(label) ||
vec_is_stale(label->vec, label->size)) &&
__aa_get_label(label))
goto out;
}
label = NULL;
out:
read_unlock_irqrestore(&ls->lock, flags);
return label;
}
/**
* __label_update - insert updated version of @label into labelset
* @label - the label to update/replace
*
* Returns: new label that is up to date
* else NULL on failure
*
* Requires: @ns lock be held
*
* Note: worst case is the stale @label does not get updated and has
* to be updated at a later time.
*/
static struct aa_label *__label_update(struct aa_label *label)
{
struct aa_label *new, *tmp;
struct aa_labelset *ls;
unsigned long flags;
int i, invcount = 0;
AA_BUG(!label);
AA_BUG(!mutex_is_locked(&labels_ns(label)->lock));
new = aa_label_alloc(label->size, label->proxy, GFP_KERNEL);
if (!new)
return NULL;
/*
* while holding the ns_lock will stop profile replacement, removal,
* and label updates, label merging and removal can be occurring
*/
ls = labels_set(label);
write_lock_irqsave(&ls->lock, flags);
for (i = 0; i < label->size; i++) {
AA_BUG(!label->vec[i]);
new->vec[i] = aa_get_newest_profile(label->vec[i]);
AA_BUG(!new->vec[i]);
AA_BUG(!new->vec[i]->label.proxy);
AA_BUG(!new->vec[i]->label.proxy->label);
if (new->vec[i]->label.proxy != label->vec[i]->label.proxy)
invcount++;
}
/* updated stale label by being removed/renamed from labelset */
if (invcount) {
new->size -= aa_vec_unique(&new->vec[0], new->size,
VEC_FLAG_TERMINATE);
/* TODO: deal with reference labels */
if (new->size == 1) {
tmp = aa_get_label(&new->vec[0]->label);
AA_BUG(tmp == label);
goto remove;
}
if (labels_set(label) != labels_set(new)) {
write_unlock_irqrestore(&ls->lock, flags);
tmp = aa_label_insert(labels_set(new), new);
write_lock_irqsave(&ls->lock, flags);
goto remove;
}
} else
AA_BUG(labels_ns(label) != labels_ns(new));
tmp = __label_insert(labels_set(label), new, true);
remove:
/* ensure label is removed, and redirected correctly */
__label_remove(label, tmp);
write_unlock_irqrestore(&ls->lock, flags);
label_free_or_put_new(tmp, new);
return tmp;
}
/**
* __labelset_update - update labels in @ns
* @ns: namespace to update labels in (NOT NULL)
*
* Requires: @ns lock be held
*
* Walk the labelset ensuring that all labels are up to date and valid
* Any label that has a stale component is marked stale and replaced and
* by an updated version.
*
* If failures happen due to memory pressures then stale labels will
* be left in place until the next pass.
*/
static void __labelset_update(struct aa_ns *ns)
{
struct aa_label *label;
AA_BUG(!ns);
AA_BUG(!mutex_is_locked(&ns->lock));
do {
label = labelset_next_stale(&ns->labels);
if (label) {
struct aa_label *l = __label_update(label);
aa_put_label(l);
aa_put_label(label);
}
} while (label);
}
/**
* __aa_labelset_udate_subtree - update all labels with a stale component
* @ns: ns to start update at (NOT NULL)
*
* Requires: @ns lock be held
*
* Invalidates labels based on @p in @ns and any children namespaces.
*/
void __aa_labelset_update_subtree(struct aa_ns *ns)
{
struct aa_ns *child;
AA_BUG(!ns);
AA_BUG(!mutex_is_locked(&ns->lock));
__labelset_update(ns);
list_for_each_entry(child, &ns->sub_ns, base.list) {
mutex_lock_nested(&child->lock, child->level);
__aa_labelset_update_subtree(child);
mutex_unlock(&child->lock);
}
}
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