Messages in this thread | | | Date | Mon, 29 Apr 2024 00:14:59 +0300 | Subject | Re: [PATCH v5 0/3] implement OA2_CRED_INHERIT flag for openat2() | From | stsp <> |
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28.04.2024 23:19, Andy Lutomirski пишет: >> Doesn't this have the same problem >> that was pointed to me? Namely (explaining >> my impl first), that if someone puts the cred >> fd to an unaware process's fd table, such >> process can't fully drop its privs. He may not >> want to access these dirs, but once its hacked, >> the hacker will access these dirs with the >> creds came from an outside. > This is not a real problem. If I have a writable fd for /etc/shadow or > an fd for /dev/mem, etc, then I need close them to fully drop privs.
But isn't that becoming a problem once you are (maliciously) passed such fds via exec() or SCM_RIGHTS? You may not know about them (or about their creds), so you won't close them. Or?
> The problem is that, in current kernels, directory fds don’t allow > access using their f_cred, and changing that means that existing > software that does not intend to create a capability will start to do > so.
Which is what I am trying to do. :)
>> My solution was to close such fds on >> exec and disallowing SCM_RIGHTS passage. > I don't see what problem this solves.
That the process that received them, doesn't know they have O_CRED_ALLOW within. So it won't deduce to close them in time. Again, this is not the only possible solution. The receiver can indicate its will to receive them anyway, and the kernel can check if such transaction is safe. But it was simpler to just disallow, who needs to pass those?
>> SCM_RIGHTS can be allowed in the future, >> but the receiver will need to use some >> new flag to indicate that he is willing to >> get such an fd. Passage via exec() can >> probably never be allowed however. >> >> If I understand your model correctly, you >> put a magic sub-tree to the fs scope of some >> unaware process. > Only if I want that process to have access!
Who is "I" in that context? Can it be some malicious entity?
>> He may not want to access >> it, but once hacked, the hacker will access >> it with the creds from an outside. >> And, unlike in my impl, in yours there is >> probably no way to prevent that? > This is fundamental to the whole model. If I stick a FAT formatted USB > drive in the system and mount it, then any process that can find its > way to the mountpoint can write to it. And if I open a dirfd, any > process with that dirfd can write it. This is old news and isn't a > problem.
But IIRC O_DIRECTORY only allows O_RDONLY. I even re-checked now, and O_DIRECTORY|O_RDWR gives EISDIR. So is it actually true that whoever has dir_fd, can write to it?
>> In short: my impl confines the hassle within >> the single process. It can be extended, and >> then the receiver will need to explicitly allow >> adding such fds to his fd table. >> But your idea seems to inherently require >> 2 processes, and there is probably no way >> for the second process to say "ok, I allow >> such sub-tree in my fs scope". > A process could use my proposal to open_tree directory, make a whole > new mountns that is otherwise empty, switch to the mountns, mount the > directory, then change its UID and drop all privs, and still have > access to that one directory.
Ok, if that requires actions that can't be done after priv drop, then it can indeed fully drop privs w/o mounting anything, if he doesn't want such access. Then the only security-related difference with my approach is that mine guarantees nothing new can be accessed, no matter who passes what. Currently nothing can be passed at all, but if it can - my approach would still guarantee only the same creds can be passed, not a new ones. Can the same restriction be applied in your case?
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