This adds a new crypttab option for volumes "pkcs11-uri=" which takes a
PKCS#11 URI. When used the key stored in the line's key file is
decrypted with the private key the PKCS#11 URI indiciates.
This means any smartcard that can store private RSA keys is usable for
unlocking LUKS devices.
This option is an indication for PID1 that the entry in crypttab is handled by
initrd only and therefore it shouldn't interfer during the usual start-up and
shutdown process.
It should be primarily used with the encrypted device containing the root FS as
we want to keep it (and thus its encrypted device) until the very end of the
shutdown process, i.e. when initrd takes over.
This option is the counterpart of "x-initrd.mount" used in fstab.
Note that the slice containing the cryptsetup services also needs to drop the
usual shutdown dependencies as it's required by the cryptsetup services.
Fixes: #14224
The code was using timeout=0 as the default option string. This option string
was ultimately passed to generator_write_timeouts(), which only looks for
comment=systemd.device-timeout= or x-systemd.device-timeout=, i.e. the whole
call path was bogus. Let's rework this: generator_write_timeouts() now writes
any timeouts if configured by the user. create_disk() writes out it's own
timeout, but with lower priority. Since the code path that was calling
timeout=0 was not effective, the only change is that we stop overwriting the
timeout if explicitly configured by the user.
In both code paths, ignore failure to write.
cryptsetup introduced optional locking scheme that should serialize
unlocking keyslots which use memory hard key derivation
function (argon2). Using the serialization should prevent OOM situation
in early boot while unlocking encrypted volumes.
Note that this slightly changes behaviour: "none" is only allowed as
option, if it's the only option specified, but not in combination with
other options. I think this makes more sense, since it's the choice when
no options shall be specified.
I added a fairly vague entry to docs/ENVIRONMENT because I think it is worth
mentioning there (in case someone is looking for any environment variable that
might be relevant).
libcryptsetup v2.0.1 introduced new API calls, supporting 64 bit wide
integers for `keyfile_offset`. This change invokes the new function
call, gets rid of the warning that was added in #7689, and removes
redundant #ifdefery and constant definitions.
See https://gitlab.com/cryptsetup/cryptsetup/issues/359.
Fixes#7677.
This reverts a part of commit 49fe5c0996 ('tree-wide: port various places
over to STARTSWITH_SET()') that replaced a pair of startswith() calls
with STARTSWITH_SET().
They were in fact for a different strings (device vs. name), botching
the crypttap parsing.
prefix_root() is equivalent to path_join() in almost all ways, hence
let's remove it.
There are subtle differences though: prefix_root() will try shorten
multiple "/" before and after the prefix. path_join() doesn't do that.
This means prefix_root() might return a string shorter than both its
inputs combined, while path_join() never does that. I like the
path_join() semantics better, hence I think dropping prefix_root() is
totally OK. In the end the strings generated by both functon should
always be identical in terms of path_equal() if not streq().
This leaves prefix_roota() in place. Ideally we'd have path_joina(), but
I don't think we can reasonably implement that as a macro. or maybe we
can? (if so, sounds like something for a later PR)
Also add in a few missing OOM checks
Fixes#12650
cryptsetup: Extract dependency check to a separate function
cryptsetup: style improvements, error checking
Return early on failure/nothing to do
Removed braces from single-line ifs
Check return value of fstab_filter_options
cryptsetup: code style
LUKS2 supports so-called tokens. The libcryptsetup internally
support keyring token (it tries to open device using specified
keyring entry).
Only if all token fails (or are not available), it uses a passphrase.
This patch aligns the functionality with the cryptsetup utility
(cryptsetup luksOpen tries tokens first) but does not replace
the systemd native ask-password function (can be used the same in
combination with this patch).
The crypt_load() for LUKS2 can read a quite big area of disk
(metadata area size is configurable and can increase up to megabytes).
This initialization is not needed to be repeated, just use the existing context.
(This patch is also required for the following change.)
If crypt_load() for LUKS succeeds, we know that it is a LUKS device.
Failure of data device setting should fail in this case; remapping
as a PLAIN device late could mean data corruption.
(If a user wants to map PLAIN device over a device with LUKS header,
it should be said explicitly with "plain" argument type.)
Also, if there is no explicit PLAIN type requested and crypt device
is already initialized (crypt_data_type() is set), do not run
the initialization again.
With new LUKS2 header format it is possible to use Argon2 key derivation
function. This function is "memory-hard" hence keyslot unlocking can
potentially use a lot of RAM as this increases resistance to massively
parallel GPU based password cracking.
However, when multiple systemd-cryptsetup binaries run at the same
time it is very likely that system using Argon2 (e.g. Fedora 30)
will encounter memory-pressure during early boot, following OOM killing
spree.
This patch aims to lower the damage done by OOM killer and sets OOMScore
for systemd-cryptsetup units to 500. Hopefully OOM killer will then
shoot us down and leave rest of the system services alone.
6f177c7dc0 caused key file errors to immediately fail, which would make it hard to correct an issue due to e.g. a crypttab typo or a damaged key file.
Closes#11723.
As device units will be reloaded by systemd whenever the corresponding device generates a "changed" event, if the mount unit / cryptsetup service is wanted by its device unit, the former can be restarted by systemd unexpectedly after the user stopped them explicitly. It is not sensible at all and can be considered dangerous. Neither is the behaviour conventional (as `auto` in fstab should only affect behaviour on boot and `mount -a`) or ever documented at all (not even in systemd, see systemd.mount(5) and crypttab(5)).
First of all let's always log where the errors happen, and not in an
upper stackframe, in all cases. Previously we'd do this somethis one way
and sometimes another, which resulted in sometimes duplicate logging and
sometimes none.
When we cannot activate something due to bad password the kernel gives
us EPERM. Let's uniformly return this EAGAIN, so tha the next password
is tried. (previously this was done in most cases but not in all)
When we get EPERM let's also explicitly indicate that this probably
means the password is simply wrong.
Fixes: #11498