Re: [PATCH bpf-next v10 06/10] bpf,landlock: Add a new map type: inode

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On 27/07/2019 03:40, Alexei Starovoitov wrote:
> On Sun, Jul 21, 2019 at 11:31:12PM +0200, Mickaël Salaün wrote:
>> FIXME: 64-bits in the doc

FYI, this FIXME was fixed, just not removed from this message. :)

>>
>> This new map store arbitrary values referenced by inode keys.  The map
>> can be updated from user space with file descriptor pointing to inodes
>> tied to a file system.  From an eBPF (Landlock) program point of view,
>> such a map is read-only and can only be used to retrieved a value tied
>> to a given inode.  This is useful to recognize an inode tagged by user
>> space, without access right to this inode (i.e. no need to have a write
>> access to this inode).
>>
>> Add dedicated BPF functions to handle this type of map:
>> * bpf_inode_htab_map_update_elem()
>> * bpf_inode_htab_map_lookup_elem()
>> * bpf_inode_htab_map_delete_elem()
>>
>> This new map require a dedicated helper inode_map_lookup_elem() because
>> of the key which is a pointer to an opaque data (only provided by the
>> kernel).  This act like a (physical or cryptographic) key, which is why
>> it is also not allowed to get the next key.
>>
>> Signed-off-by: Mickaël Salaün <mic@xxxxxxxxxxx>
>
> there are too many things to comment on.
> Let's do this patch.
>
> imo inode_map concept is interesting, but see below...
>
>> +
>> +    /*
>> +     * Limit number of entries in an inode map to the maximum number of
>> +     * open files for the current process. The maximum number of file
>> +     * references (including all inode maps) for a process is then
>> +     * (RLIMIT_NOFILE - 1) * RLIMIT_NOFILE. If the process' RLIMIT_NOFILE
>> +     * is 0, then any entry update is forbidden.
>> +     *
>> +     * An eBPF program can inherit all the inode map FD. The worse case is
>> +     * to fill a bunch of arraymaps, create an eBPF program, close the
>> +     * inode map FDs, and start again. The maximum number of inode map
>> +     * entries can then be close to RLIMIT_NOFILE^3.
>> +     */
>> +    if (attr->max_entries > rlimit(RLIMIT_NOFILE))
>> +            return -EMFILE;
>
> rlimit is checked, but no fd are consumed.
> Once created such inode map_fd can be passed to a different process.
> map_fd can be pinned into bpffs.
> etc.
> what the value of the check?

I was looking for the most meaningful limit for a process, and rlimit is
the best I found. As the limit of open FD per processes, rlimit is not
perfect, but I think the semantic is close here (e.g. a process can also
pass FD through unix socket).

>
>> +
>> +    /* decorelate UAPI from kernel API */
>> +    attr->key_size = sizeof(struct inode *);
>> +
>> +    return htab_map_alloc_check(attr);
>> +}
>> +
>> +static void inode_htab_put_key(void *key)
>> +{
>> +    struct inode **inode = key;
>> +
>> +    if ((*inode)->i_state & I_FREEING)
>> +            return;
>
> checking the state without take a lock? isn't it racy?

This should only trigger when called from security_inode_free(). I'll
add a comment.

>
>> +    iput(*inode);
>> +}
>> +
>> +/* called from syscall or (never) from eBPF program */
>> +static int map_get_next_no_key(struct bpf_map *map, void *key, void *next_key)
>> +{
>> +    /* do not leak a file descriptor */
>
> what this comment suppose to mean?

Because a key is a reference to an inode, a possible return value for
this function could be a file descriptor pointing to this inode (the
same way a file descriptor is use to add an element). For now, I don't
want to implement a way for a process with such a map to extract such
inode, which I compare to a possible leak (of information, not kernel
memory nor object). This could be implemented in the future if there is
value in it (and probably some additional safeguards), though.

>
>> +    return -ENOTSUPP;
>> +}
>> +
>> +/* must call iput(inode) after this call */
>> +static struct inode *inode_from_fd(int ufd, bool check_access)
>> +{
>> +    struct inode *ret;
>> +    struct fd f;
>> +    int deny;
>> +
>> +    f = fdget(ufd);
>> +    if (unlikely(!f.file))
>> +            return ERR_PTR(-EBADF);
>> +    /* TODO?: add this check when called from an eBPF program too (already
>> +    * checked by the LSM parent hooks anyway) */
>> +    if (unlikely(IS_PRIVATE(file_inode(f.file)))) {
>> +            ret = ERR_PTR(-EINVAL);
>> +            goto put_fd;
>> +    }
>> +    /* check if the FD is tied to a mount point */
>> +    /* TODO?: add this check when called from an eBPF program too */
>> +    if (unlikely(f.file->f_path.mnt->mnt_flags & MNT_INTERNAL)) {
>> +            ret = ERR_PTR(-EINVAL);
>> +            goto put_fd;
>> +    }
>
> a bunch of TODOs do not inspire confidence.

I think the current implement is good, but these TODOs are here to draw
attention on particular points for which I would like external review
and opinion (hence the "?").

>
>> +    if (check_access) {
>> +            /*
>> +            * must be allowed to access attributes from this file to then
>> +            * be able to compare an inode to its map entry
>> +            */
>> +            deny = security_inode_getattr(&f.file->f_path);
>> +            if (deny) {
>> +                    ret = ERR_PTR(deny);
>> +                    goto put_fd;
>> +            }
>> +    }
>> +    ret = file_inode(f.file);
>> +    ihold(ret);
>> +
>> +put_fd:
>> +    fdput(f);
>> +    return ret;
>> +}
>> +
>> +/*
>> + * The key is a FD when called from a syscall, but an inode address when called
>> + * from an eBPF program.
>> + */
>> +
>> +/* called from syscall */
>> +int bpf_inode_fd_htab_map_lookup_elem(struct bpf_map *map, int *key, void *value)
>> +{
>> +    void *ptr;
>> +    struct inode *inode;
>> +    int ret;
>> +
>> +    /* check inode access */
>> +    inode = inode_from_fd(*key, true);
>> +    if (IS_ERR(inode))
>> +            return PTR_ERR(inode);
>> +
>> +    rcu_read_lock();
>> +    ptr = htab_map_lookup_elem(map, &inode);
>> +    iput(inode);
>> +    if (IS_ERR(ptr)) {
>> +            ret = PTR_ERR(ptr);
>> +    } else if (!ptr) {
>> +            ret = -ENOENT;
>> +    } else {
>> +            ret = 0;
>> +            copy_map_value(map, value, ptr);
>> +    }
>> +    rcu_read_unlock();
>> +    return ret;
>> +}
>> +
>> +/* called from kernel */
>
> wrong comment?
> kernel side cannot call it, right?

This is called from bpf_inode_fd_htab_map_delete_elem() (code just
beneath), and from
kernel/bpf/syscall.c:bpf_inode_ptr_unlocked_htab_map_delet_elem() which
can be called by security_inode_free() (hook_inode_free_security).

>
>> +int bpf_inode_ptr_locked_htab_map_delete_elem(struct bpf_map *map,
>> +            struct inode **key, bool remove_in_inode)
>> +{
>> +    if (remove_in_inode)
>> +            landlock_inode_remove_map(*key, map);
>> +    return htab_map_delete_elem(map, key);
>> +}
>> +
>> +/* called from syscall */
>> +int bpf_inode_fd_htab_map_delete_elem(struct bpf_map *map, int *key)
>> +{
>> +    struct inode *inode;
>> +    int ret;
>> +
>> +    /* do not check inode access (similar to directory check) */
>> +    inode = inode_from_fd(*key, false);
>> +    if (IS_ERR(inode))
>> +            return PTR_ERR(inode);
>> +    ret = bpf_inode_ptr_locked_htab_map_delete_elem(map, &inode, true);
>> +    iput(inode);
>> +    return ret;
>> +}
>> +
>> +/* called from syscall */
>> +int bpf_inode_fd_htab_map_update_elem(struct bpf_map *map, int *key, void *value,
>> +            u64 map_flags)
>> +{
>> +    struct inode *inode;
>> +    int ret;
>> +
>> +    WARN_ON_ONCE(!rcu_read_lock_held());
>> +
>> +    /* check inode access */
>> +    inode = inode_from_fd(*key, true);
>> +    if (IS_ERR(inode))
>> +            return PTR_ERR(inode);
>> +    ret = htab_map_update_elem(map, &inode, value, map_flags);
>> +    if (!ret)
>> +            ret = landlock_inode_add_map(inode, map);
>> +    iput(inode);
>> +    return ret;
>> +}
>> +
>> +static void inode_htab_map_free(struct bpf_map *map)
>> +{
>> +    struct bpf_htab *htab = container_of(map, struct bpf_htab, map);
>> +    struct hlist_nulls_node *n;
>> +    struct hlist_nulls_head *head;
>> +    struct htab_elem *l;
>> +    int i;
>> +
>> +    for (i = 0; i < htab->n_buckets; i++) {
>> +            head = select_bucket(htab, i);
>> +            hlist_nulls_for_each_entry_safe(l, n, head, hash_node) {
>> +                    landlock_inode_remove_map(*((struct inode **)l->key), map);
>> +            }
>> +    }
>> +    htab_map_free(map);
>> +}
>
> user space can delete the map.
> that will trigger inode_htab_map_free() which will call
> landlock_inode_remove_map().
> which will simply itereate the list and delete from the list.

landlock_inode_remove_map() removes the reference to the map (being
freed) from the inode (with an RCU lock).

>
> While in parallel inode can be destoyed and hook_inode_free_security()
> will be called.
> I think nothing that protects from this race.

According to security_inode_free(), the inode is effectively freed after
the RCU grace period. However, I forgot to call bpf_map_inc() in
landlock_inode_add_map(), which would prevent the map to be freed
outside of the security_inode_free(). I'll fix that.

>
>> +
>> +/*
>> + * We need a dedicated helper to deal with inode maps because the key is a
>> + * pointer to an opaque data, only provided by the kernel.  This really act
>> + * like a (physical or cryptographic) key, which is why it is also not allowed
>> + * to get the next key with map_get_next_key().
>
> inode pointer is like cryptographic key? :)

I wanted to highlight the fact that, contrary to other map key types,
the value of this one should not be readable, only usable. A "secret
value" is more appropriate but still confusing. I'll rephrase that.

>
>> + */
>> +BPF_CALL_2(bpf_inode_map_lookup_elem, struct bpf_map *, map, void *, key)
>> +{
>> +    WARN_ON_ONCE(!rcu_read_lock_held());
>> +    return (unsigned long)htab_map_lookup_elem(map, &key);
>> +}
>> +
>> +const struct bpf_func_proto bpf_inode_map_lookup_elem_proto = {
>> +    .func           = bpf_inode_map_lookup_elem,
>> +    .gpl_only       = false,
>> +    .pkt_access     = true,
>
> pkt_access ? :)

This slipped in with this rebase, I'll remove it. :)

>
>> +    .ret_type       = RET_PTR_TO_MAP_VALUE_OR_NULL,
>> +    .arg1_type      = ARG_CONST_MAP_PTR,
>> +    .arg2_type      = ARG_PTR_TO_INODE,
>> +};
>> diff --git a/kernel/bpf/syscall.c b/kernel/bpf/syscall.c
>> index b2a8cb14f28e..e46441c42b68 100644
>> --- a/kernel/bpf/syscall.c
>> +++ b/kernel/bpf/syscall.c
>> @@ -801,6 +801,8 @@ static int map_lookup_elem(union bpf_attr *attr)
>>      } else if (map->map_type == BPF_MAP_TYPE_QUEUE ||
>>                 map->map_type == BPF_MAP_TYPE_STACK) {
>>              err = map->ops->map_peek_elem(map, value);
>> +    } else if (map->map_type == BPF_MAP_TYPE_INODE) {
>> +            err = bpf_inode_fd_htab_map_lookup_elem(map, key, value);
>>      } else {
>>              rcu_read_lock();
>>              if (map->ops->map_lookup_elem_sys_only)
>> @@ -951,6 +953,10 @@ static int map_update_elem(union bpf_attr *attr)
>>      } else if (map->map_type == BPF_MAP_TYPE_QUEUE ||
>>                 map->map_type == BPF_MAP_TYPE_STACK) {
>>              err = map->ops->map_push_elem(map, value, attr->flags);
>> +    } else if (map->map_type == BPF_MAP_TYPE_INODE) {
>> +            rcu_read_lock();
>> +            err = bpf_inode_fd_htab_map_update_elem(map, key, value, attr->flags);
>> +            rcu_read_unlock();
>>      } else {
>>              rcu_read_lock();
>>              err = map->ops->map_update_elem(map, key, value, attr->flags);
>> @@ -1006,7 +1012,10 @@ static int map_delete_elem(union bpf_attr *attr)
>>      preempt_disable();
>>      __this_cpu_inc(bpf_prog_active);
>>      rcu_read_lock();
>> -    err = map->ops->map_delete_elem(map, key);
>> +    if (map->map_type == BPF_MAP_TYPE_INODE)
>> +            err = bpf_inode_fd_htab_map_delete_elem(map, key);
>> +    else
>> +            err = map->ops->map_delete_elem(map, key);
>>      rcu_read_unlock();
>>      __this_cpu_dec(bpf_prog_active);
>>      preempt_enable();
>> @@ -1018,6 +1027,22 @@ static int map_delete_elem(union bpf_attr *attr)
>>      return err;
>>  }
>>
>> +int bpf_inode_ptr_unlocked_htab_map_delete_elem(struct bpf_map *map,
>> +                                            struct inode **key, bool remove_in_inode)
>> +{
>> +    int err;
>> +
>> +    preempt_disable();
>> +    __this_cpu_inc(bpf_prog_active);
>> +    rcu_read_lock();
>> +    err = bpf_inode_ptr_locked_htab_map_delete_elem(map, key, remove_in_inode);
>> +    rcu_read_unlock();
>> +    __this_cpu_dec(bpf_prog_active);
>> +    preempt_enable();
>> +    maybe_wait_bpf_programs(map);
>
> if that function was actually doing synchronize_rcu() the consequences
> would have been unpleasant. Fortunately it's a nop in this case.
> Please read the code carefully before copy-paste.
> Also what do you think the reason of bpf_prog_active above?
> What is the reason of rcu_read_lock above?

The RCU is used as for every map modifications (usually from userspace).
I wasn't sure about the other protections so I kept the same (generic)
checks as in map_delete_elem() (just above) because this function follow
the same semantic. What can I safely remove?

>
> I think the patch set needs to shrink at least in half to be reviewable.
> The way you tie seccomp and lsm is probably the biggest obstacle
> than any of the bugs above.
> Can you drop seccomp ? and do it as normal lsm ?

The seccomp/enforcement part is needed to have a minimum viable product,
i.e. a process able to sandbox itself. Are you suggesting to first merge
a version when it is only possible to create inode maps but not use them
in an useful way (i.e. for sandboxing)? I can do it if it's OK with you,
and I hope it will not be a problem for the security folks if it can
help to move forward.

--
Mickaël Salaün
ANSSI/SDE/ST/LAM

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