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After 3b16e9f419, even the libraries are
documented in the man page, it is useful to mention which libraries are
checked in the command output.
Of course, the dependencies are kind of implementation detail, and may
be changed in the future version, but that's especially why I think
showing the library deps in the output is useful.
systemd-analyze is a debugging tool, and already shows many internal
states. I think there is nothing to prevent from showing the deps.
Prompted by #34477.
Somebody wrapped the text, but whitespace is preserved in <programlisting>, so
the output was mangled. It also doesn't make sense to run systemd-path as root
(as indicated by '#'), so drop that. Also, this chunk should be a separate
paragraph.
We generally do _not_ want the same sysexts to be loaded in both initrd and
exitrd phases. The environment is completely different and it's unlikely that
the same code can be useful in both places. Nevertheless, it can be useful in
_some_ cases, for example when the sysexts contains debugging tools.
I think we don't need to differentiate between initrds and exitrds through
SYSEXT_SCOPE, because the two types are made available in completely different
locations and loaded through a different mechanism, with very little chance of
an initrd being loaded as an exitrd without an explicit admin action (or the
other way around). So let's not complicate our code or definitions by an
explicit "exitrd" sysext designator, but just clarify that "initrd" also
encompasses exitrds in this context.
A sencence like "The system manager does, a, b, c, which is really d, and e.",
it is generally understood that the manager also does "e". This can be
quite confusing if the manager cannot do "e", in our case unmount the file
system on which it is sitting.
Similary, we cannot "fall back to x if it is missing", since "it" in that
sentence means "x".
The concept is fairly well established and present in our docs in various
places.
Say that the exitrd is also marked by the presence of /etc/initrd-release.
Otherwise, `<variable>$BOOT</variable>` is rendered:
```
[2548/2992] Generating man/repart.d.5 with a custom command
Element variable in namespace '' encountered in para, but no template matches.
Element variable in namespace '' encountered in para, but no template matches.
```
SetShowStatus() was added in order to fix#11447. Recently, I ran into
the exact same problem that OP was experiencing in #11447. I wasn’t able
to figure out how to deal with the problem until I found #11447, and it
took me a while to find #11447.
This commit takes what I learned from reading #11447 and adds it to the
documentation. Hopefully, this will make it easier for other people who
run into the same problem in the future.
This was designed to deal with $BOOT, as defined by the Boot Loader
Specification, but it was made a generic mechanism because it is useful
elsewhere too. See the updated man page for usage examples, motivation,
and an explanation of how this works.
These are inspired by the existing commands that return the path to the
boot or ESP partitions. However, these new commands show the path to the
boot loader (systemd-boot) or UKI/stub (systemd-stub) that was used on
the current boot. This information is derived from EFI variables.
This introduces 'i' prefix for match string. When specified, string or
pattern will match case-insensitively.
Closes#34359.
Co-authored-by: Ryan Wilson <ryantimwilson@meta.com>
The verb s not really specific to credential management, it was always a
bit misplaced. Hence move it to systemd-analyze, where we already have
some general TPM related verbs such as "srk" and "pcrs"
systemd-stub provides the signing key for TPM2 signed PCR policies in a
file tpm2-pcr-public-key.pem to userspace. Hence, to clarify that this
is the same key as used when signing via "systemd-measure", let's rename
it in the docs like that.
Also rename the private key to tpm2-pcr-private-key.pem, to keep the
symmetry.
With this we should universally stick to this nomenclature:
1. tpm2-pcr-public-key.pem ← public part of signing key
2. tpm2-pcr-private-key.pem ← private part of signing key
3. tpm2-pcr-signature.json ← signature file made with key pair
Inspired by: #34069
It is not true that "no string" is written to journal; the binary
name is used when run via `systemd-cat command`, or `cat` is used
when run via `command | systemd-cat`.
These variables closely mirror the existing
LoaderDevicePartUUID/LoaderImageIdentifier variables. But the Stub…
variables indicate the location of the stub/UKI (i.e. of systemd-stub),
while the Loader… variables indicate the location of the boot loader
(i.e. of systemd-boot). (Except of course, there is no boot loader used,
in which case both sets point to the stub/UKI, as a special case).
This actually matters, as we support that sd-boot runs off the ESP,
while a UKI then runs off XBOOTLDR, i.e. two distinct partitions.
First of all, these were always set, i.e. since sd-boot was merged into
our tree, i.e. v220. Let's say so explicitly.
Also, let's be more accurate, regarding which partition this referes to:
it's usually "the" ESP, but given that you can make firmware boot from
arbitrary disks, it could be any other partition too. Hence, be
explicit on this.
Also, clarify tha sd-stub will set this too, if sd-boot never set it.
This adds a ability to add alternative sections of a specific type in
the same UKI. The primary usecase is for supporting multiple different
kernel cmdlines that are baked into a UKI.
The mechanism is relatively simple (I think), in order to make it robust.
1. A new PE section ".profile" is introduced, that is a lot like
".osrel", but contains information about a specific "profile" to
boot. The ".profile" section can appear multiple times in the same
PE, and acts as delimiter indicating where a new profile starts.
Everything before the first ".profile" is called the "base profile",
and is shared among all other profiles, which can then override or
add addition PE sections on top.
2. An UKI's command line can be prefixed with an argument such as "@0" or
"@1" or "@2" which indicates the "profile" to boot. If no argument is
specified the default is profile 0. Also, a UKI that lacks any
.profile section is treated like one with only a profile 0, but with
no data in that profile section.
3. The stub will first search for its usual set of PE sections
(hereafter called "base sections"), and stop at the first .profile PE
section if any. It will then find the .profile matching the selected
profile by its index, and any sections found as part of that profile
on top of the base sections.
And that's already it.
Example: let's say a distro wants to provide a single UKI that can be
invoked in one of three ways:
1. The regular profile that just boots the system
2. A profile that boots into storagetm
3. A profile that initiates factory reset and reboots.
For this it would define a classic UKI with sections .linux, .initrd,
.cmdline, and whatever else it needs. The .cmdline section would contain
the kernel command line for the regular profile.
It would then insert one ".profile" section, with a contents like the
following:
ID=regular
This is the profile for profile 0. It would immediately afterwards add
another ".profile" section:
ID=storagetm
TITLE=Boot into Storage Target Mode
This would then followed with a .cmdline section that is just like the
basic one, but with "rd.systemd.unit=storage-target-mode.target"
suffixed. Then, another .profile section would be added:
ID=factory-reset
TITLE=Factory Reset
Which is then followed by one last PE section: a .cmdline one with
"systemd.unit=factory-reset.target" suffixed to te regular command line.
i.e. expressed in tabular form the above would be:
The base profile:
.linux
.initrd
.cmdline
.osrel
The regular boot profile:
.profile
The storagetm profile:
.profile
.cmdline
The factory reset profile:
.profile
.cmdline
You might wonder why the first .cmdline in the list above is placed in
the base profile rather than in the regular boot profile, given that it
is overriden in all other profiles anyway. And you are right. The only
reason I'd place it in the base profile is that it makes the UKI more
nicely extensible if later profiles are added that want to replace
something else instead of the .cmdline, for example .ucode or so. But it
really doesn't matter much.
While the primary usecase is of course multiple alternative command
lines, the concept is more powerful than that: for various usecases it
might be valuable to offer multiple choices of devicetree, ucode or
initrds.
The .profile contents is also passed to the invoked kernel as a file in
/.extra/profile (via a synthetic initrd). Thus, this functionality can
even be useful without overriding any section at all, simply by means of
reading that file from userspace.
Design choices:
1. On purposes I used a special command line marker (i.e. the "@" thing,
which maybe we should call the "profile selector"), that doesn't look
like a regular kernel command line option. This is because this is
really not a regular kernel command line option – we process it in
the stub, then remove it as prefix, and measure the unprefixed
command line only after that. The kernel will not see the profile
selector either. I think these special semantics are best
communicated by making it look substantially different from regular
options.
2. This moves around measurements a bit. Previously we measured our UKI
sections right after finding them. Now we first parse the profile
number from the command line, then search for the profile's sections,
and only then measure the sections we actually end up using for this
profile. I think that this logic makes most sense: measure what we
are using, not what we are overriding. Or in other words, if you boot
profile @3, then we'll measure .cmdline (assuming it exists) of
profile 3, and *not* measure .cmdline of the base profile. Also note
that if the user passes in a custom kernel command line via command
line arguments we'll strip off the profile selector (i.e. the initial
"@X" thing) before we pass it on.
3. The .profile stuff is supposed to be generic and extensible. For
example we could use it in future to mark "dangerous" options such as
factory reset, so that boot menus can ask for confirmation before
booting into it. Or we could introduce match expressions against
SMBIOS or other system identifiers, to filter out profiles on
specific hw.
Note btw, that PE allows defining multiple sections that point to the
same offsets in the file. This allows sharing payload under different
names. For example, if profile @4 and @7 shall carry the same .ucode
section, they can define .ucode in each profile and then make it point to
the same offset.
Also note that that one can even "mask" a base section in a profile, by
inserting an empty section. For example, if the base .dtb section should
not be used for profile @4, then add a section .dtb right after the
fourth .profile with a zero size to the UKI, and you will get your wish
fulfilled.
This code only contains changes to sd-stub. A follow-up commit will
teach sd-boot to also find this profile PE sections to synthesize
additional menu entries from a single UKI.
A later commit will add support for gnerating this via ukify.
Fixes: #24539
In mkosi, I want to add a sysupdate verb to wrap systemd-sysupdate.
The definitions will be picked up from mkosi.sysupdate/ and passed
to systemd-sysupdate. I want users to be able to write transfer
definitions that are independent of the output directory used by
mkosi. To make this possible, it should be possible to specify the
directory that transfer sources should be looked up in on the sysupdate
command line. Let's allow this via a new --transfer-source= option.
Additionally, transfer sources that want to take advantage of this
feature should specify PathRelativeTo=directory to indicate the configured
Path= is interpreted relative to the tranfer source directory specified
on the CLI.
This allows for the following transfer definition to be put in
mkosi.sysupdate:
"""
[Transfer]
ProtectVersion=%A
[Source]
Type=regular-file
Path=/
PathRelativeTo=directory
MatchPattern=ParticleOS_@v.usr-%a.@u.raw
[Target]
Type=partition
Path=auto
MatchPattern=ParticleOS_@v
MatchPartitionType=usr
PartitionFlags=0
ReadOnly=1
"""
This options is pretty simple, it allows specifying an UKI whose
sections to import first, and place at the beginning of the new UKI.
This is useful for generating multi-profile UKIs piecemeal: generate the
base UKI first, then append a profile, and another one and another one.
The sections imported this way are not included in any PCR signature,
the assumption is that that already happened before in the imported UKI.