I was thinking about writing a blog post about file system immutability flags in OpenBSD, and thought I'd ask ChatGPT to write it for me. It appears to have gleaned its content from OpenBSD man pages, but it is highly misleading and inaccurate, misrepresenting the key distinction between system and user immutability flags.
What it got right is that only the superuser (root) can set and unset the system immutability flag (schg/noschg) while users (if they own the file) can set and unset the user immutability flag (uchg/nouchg). But either flag can be set or unset on any kind of file.
The user immutability flag can be unset (nouchg) by either the superuser or the owner of the file regardless of the system security run level (-1 to 2), but the system immutability flag can only be unset (noschg) by the superuser when the system security run level is 0 (insecure mode) or -1 (permanently insecure mode).
During boot, the system normally starts in single-user mode at security run level 0. The init process raises the run level to 1 (secure mode) when booting to multi-user mode, and to 2 (highly secure mode) if the rc.securelevel config file so specifies. The system secure level can also be raised if the superuser changes it with the sysctl command, setting the kern.securelevel variable. The permanently insecure mode (-1) can be set with sysctl only while in insecure mode, which will cause the init process to not raise the security level to 1 during boot to multi-user mode.
The man page for securelevel gives an overview of the restrictions at each security level. I run my systems at secure level 2, highly secure mode. Secure mode (secure level = 1) and above prevent lowering the secure level except by the init process (when the system is shutdown back to single user mode), do not allow /dev/mem or /dev/kmem to be opened, make raw disk devices read only, and disallow unsetting of system immutability flags (or unsetting the related system append-only flags, sappnd, using nosappnd), along with a few other restrictions. Highly secure mode (securelevel = 2) also prevents setting the time backward or close to overflow, and prevents changing host firewall rules (pf filter and NAT rules), though IP addresses may still be added or removed from tables. The most significant difference between the system and user immutability flags is not what files they are set on, but that the user immutability flags can be turned off at any time by the file owner or superuser, while the system immutability flags can only be changed while in insecure modes, i.e., after a shutdown from multi-user operation.
I use system file immutability flags on most configuration files, system binaries, and system libraries as an obstacle to an attacker in the event of a compromise and escalation of privileges. If an attacker has console access to a system, they can bypass these flags by shutting down the system and unsetting the flags. If I left certain config files without file system immutability flags set, an attacker could modify one of those config files that leads to execution during system startup to insert commands to unset the flags, and then reboot the system so that those commands execute while the system is in insecure mode.
These flags can get in the way and cause problems without an efficient way to manage them, as they need to be unset in order to do system patches and updates--it's bad news if you try to do a system upgrade while many files are set with immutability flags. They also block features like OpenBSD's kernel address randomized link (KARL) and library reordering address space layout randomization (ASLR) features, which relink the kernel and certain key libraries on reboot to make blind return-oriented programming (BROP) attacks more difficult. I use scripts called syslock/sysunlock to manage the immutability flags. These scripts have a config file (kept immutable, of course) that specifies which files and directory contents to set immutable, and defines groups so that I can unlock what I need at a particular time with a single command. When I want to allow KARL and library ASLR to occur, I do a sysunlock -s (unlock system files) while in single user mode and then boot. I've also defined groups for things like "everything in /etc", "everything related to DNS", etc.
My rc.securelevel config file contains a command to sleep for a period of time, then do a syslock -s after raising the system security level, giving the system time to do the relinking, so I don't need to issue a command to re-lock those files. This is a process I also follow when installing kernel patches, as syspatch fails to do kernel relinking when in single-user mode. That is, I boot to single-user mode, unlock the system files with "sysunlock -s", then exit back to multi-user mode and the KARL process (/usr/libexec/reorder_kernel) and library ASLR (part of /etc/rc) run without error.
syslock/sysunlock may be found at https://www.discord.org/lippard/software/ and on Github at https://github.com/lippard661/syslock
Anyway, after that long introduction, here's what ChatGPT had to say about all this; my prompts are in red:
write a few paragraphs explaining immutable flags in OpenBSD including the commands for setting them and the difference between system and user immutable flags
In OpenBSD, immutable flags are used to protect files from being modified or deleted. These flags can be set on both system and user files, and are useful for preventing accidental or malicious changes to important system files.
To set an immutable flag on a file, the "chflags" command can be used. The command takes the form "chflags immutable [filename]" and can be used to set the flag on a single file or multiple files at once. To remove the immutable flag, the command "chflags noschg [filename]" can be used.
The difference between system and user immutable flags is the level of protection they provide. System immutable flags are set on system files and are only modifiable by the superuser. User immutable flags are set on user files and can be modified by the owner of the file. This allows users to protect their own files, while also allowing the system administrator to protect important system files.
It's important to note that while immutable flags provide a level of protection, they should not be considered as a replacement for proper file permissions and security practices. It's still important to use appropriate permissions to control access to files and to keep your system updated to protect against known vulnerabilities.
Can I set the user immutable flag on a system file or the system immutable flag on a user file?
In OpenBSD, the system immutable flag can only be set on system files, and the user immutable flag can only be set on user files. Attempting to set a user immutable flag on a system file or a system immutable flag on a user file will result in an error.
This is because the system immutable flag is intended for use on system files that should not be modified by anyone other than the superuser. Setting this flag on a user file would not provide any additional security, as the user already has full control over their own files. Similarly, the user immutable flag is intended for use on user files that should not be modified by the owner. Setting this flag on a system file would not provide any additional security, as the superuser already has the ability to modify system files.
It's important to use the appropriate immutable flag for the type of file you are working with to ensure that the file is protected as intended.
[UPDATE, 22 Jan 2023:]
That is incorrect. The system immutable flag can be set on user files and the user immutable flag can be set on system files. The difference is not what files they can be used on, but that the system immutable flag can only be unset by the superuser when the system is in insecure mode, while the user immutable flag can be unset by the file owner or superuser at any system security run level.
I apologize, you are correct. The system immutable flag can be set on user files, and the user immutable flag can be set on system files. The difference between the two flags is not the type of file they can be applied to, but rather the level of protection they provide and who can unset them.
The system immutable flag provides a higher level of protection and can only be unset by the superuser when the system is in insecure mode, This means that once the system flag is set, the file cannot be modified or deleted without booting in insecure mode.
On the other hand, the user immutable flag can be unset by the file owner or the superuser at any system security run level. This means that the file can be modified or deleted by the owner of the file or superuser at any time.
Again, I apologize for the confusion in my previous answer. Thank you for bringing this to my attention.
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