On Tue, Mar 17, 2020 at 6:50 PM Mickaël Salaün mic@digikod.net wrote:
On 17/03/2020 17:19, Jann Horn wrote:
On Thu, Mar 12, 2020 at 12:38 AM Mickaël Salaün mic@digikod.net wrote:
On 10/03/2020 00:44, Jann Horn wrote:
On Mon, Feb 24, 2020 at 5:03 PM Mickaël Salaün mic@digikod.net wrote:
[...]
Aside from those things, there is also a major correctness issue where I'm not sure how to solve it properly:
Let's say a process installs a filter on itself like this:
struct landlock_attr_ruleset ruleset = { .handled_access_fs = ACCESS_FS_ROUGHLY_WRITE}; int ruleset_fd = landlock(LANDLOCK_CMD_CREATE_RULESET, LANDLOCK_OPT_CREATE_RULESET, sizeof(ruleset), &ruleset); struct landlock_attr_path_beneath path_beneath = { .ruleset_fd = ruleset_fd, .allowed_access = ACCESS_FS_ROUGHLY_WRITE, .parent_fd = open("/tmp/foobar", O_PATH), }; landlock(LANDLOCK_CMD_ADD_RULE, LANDLOCK_OPT_ADD_RULE_PATH_BENEATH, sizeof(path_beneath), &path_beneath); prctl(PR_SET_NO_NEW_PRIVS, 1, 0, 0, 0); struct landlock_attr_enforce attr_enforce = { .ruleset_fd = ruleset_fd }; landlock(LANDLOCK_CMD_ENFORCE_RULESET, LANDLOCK_OPT_ENFORCE_RULESET, sizeof(attr_enforce), &attr_enforce);
At this point, the process is not supposed to be able to write to anything outside /tmp/foobar, right? But what happens if the process does the following next?
struct landlock_attr_ruleset ruleset = { .handled_access_fs = ACCESS_FS_ROUGHLY_WRITE}; int ruleset_fd = landlock(LANDLOCK_CMD_CREATE_RULESET, LANDLOCK_OPT_CREATE_RULESET, sizeof(ruleset), &ruleset); struct landlock_attr_path_beneath path_beneath = { .ruleset_fd = ruleset_fd, .allowed_access = ACCESS_FS_ROUGHLY_WRITE, .parent_fd = open("/", O_PATH), }; landlock(LANDLOCK_CMD_ADD_RULE, LANDLOCK_OPT_ADD_RULE_PATH_BENEATH, sizeof(path_beneath), &path_beneath); prctl(PR_SET_NO_NEW_PRIVS, 1, 0, 0, 0); struct landlock_attr_enforce attr_enforce = { .ruleset_fd = ruleset_fd }; landlock(LANDLOCK_CMD_ENFORCE_RULESET, LANDLOCK_OPT_ENFORCE_RULESET, sizeof(attr_enforce), &attr_enforce);
As far as I can tell from looking at the source, after this, you will have write access to the entire filesystem again. I think the idea is that LANDLOCK_CMD_ENFORCE_RULESET should only let you drop privileges, not increase them, right?
There is an additionnal check in syscall.c:get_path_from_fd(): it is forbidden to add a rule with a path which is not accessible (according to LANDLOCK_ACCESS_FS_OPEN) thanks to a call to security_file_open(), but this is definitely not perfect.
Ah, I missed that.
I think the easy way to fix this would be to add a bitmask to each rule that says from which ruleset it originally comes, and then let check_access_path() collect these bitmasks from each rule with OR, and check at the end whether the resulting bitmask is full - if not, at least one of the rulesets did not permit the access, and it should be denied.
But maybe it would make more sense to change how the API works instead, and get rid of the concept of "merging" two rulesets together? Instead, we could make the API work like this:
- LANDLOCK_CMD_CREATE_RULESET gives you a file descriptor whose
->private_data contains a pointer to the old ruleset of the process, as well as a pointer to a new empty ruleset.
- LANDLOCK_CMD_ADD_RULE fails if the specified rule would not be
permitted by the old ruleset, then adds the rule to the new ruleset
- LANDLOCK_CMD_ENFORCE_RULESET fails if the old ruleset pointer in
->private_data doesn't match the current ruleset of the process, then replaces the old ruleset with the new ruleset.
With this, the new ruleset is guaranteed to be a subset of the old ruleset because each of the new ruleset's rules is permitted by the old ruleset. (Unless the directory hierarchy rotates, but in that case the inaccuracy isn't much worse than what would've been possible through RCU path walk anyway AFAIK.)
What do you think?
I would prefer to add the same checks you described at first (with check_access_path), but only when creating a new ruleset with merge_ruleset() (which should probably be renamed). This enables not to rely on a parent ruleset/domain until the enforcement, which is the case anyway. Unfortunately this doesn't work for some cases with bind mounts. Because check_access_path() goes through one path, another (bind mounted) path could be illegitimately allowed.
Hmm... I'm not sure what you mean. At the moment, landlock doesn't allow any sandboxed process to change the mount hierarchy, right? Can you give an example where this would go wrong?
Indeed, a Landlocked process must no be able to change its mount namespace layout. However, bind mounts may already exist. Let's say a process sandbox itself to only access /a in a read-write way.
So, first policy:
/a RW
Then, this process (or one of its children) add a new restriction on /a/b to only be able to read this hierarchy.
You mean with the second policy looking like this?
/a RW /a/b R
Then the resulting policy would be:
/a RW policy_bitmask=0x00000003 (bits 0 and 1 set) /a/b R policy_bitmask=0x00000002 (bit 1 set) required_bits=0x00000003 (bits 0 and 1 set)
The check at insertion time would allow this because this access right is a subset of the access right allowed with the parent directory. However, If /a/b is bind mounted somewhere else, let's say in /private/b, then the second enforcement just gave new access rights to this hierarchy too.
But with the solution I proposed, landlock's path walk would see something like this when accessing a file at /private/b/foo: /private/b/foo <no rules> policies seen until now: 0x00000000 /private/b <access: R, policy_bitmask=0x00000002> policies seen until now: 0x00000002 /private <no rules> policies seen until now: 0x00000002 / <no rules> policies seen until now: 0x00000002
It wouldn't encounter any rule from the first policy, so the OR of the seen policy bitmasks would be 0x00000002, which is not the required value 0x00000003, and so the access would be denied.