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TODO
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Bugfixes:
* Many manager configuration settings that are only applicable to user
manager or system manager can be always set. It would be better to reject
them when parsing config.
* Jun 01 09:43:02 krowka systemd[1]: Unit [email protected] has alias [email protected].
Jun 01 09:43:02 krowka systemd[1]: Unit [email protected] has alias [email protected].
Jun 01 09:43:02 krowka systemd[1]: Unit [email protected] has alias [email protected].
External:
* Fedora: add an rpmlint check that verifies that all unit files in the RPM are listed in %systemd_post macros.
* dbus:
- natively watch for dbus-*.service symlinks (PENDING)
- teach dbus to activate all services it finds in /etc/systemd/services/org-*.service
* kernel: add device_type = "fb", "fbcon" to class "graphics"
* /usr/bin/service should actually show the new command line
* fedora: suggest auto-restart on failure, but not on success and not on coredump. also, ask people to think about changing the start limit logic. Also point people to RestartPreventExitStatus=, SuccessExitStatus=
* neither pkexec nor sudo initialize environ[] from the PAM environment?
* fedora: update policy to declare access mode and ownership of unit files to root:root 0644, and add an rpmlint check for it
* register catalog database signature as file magic
* zsh shell completion:
- <command> <verb> -<TAB> should complete options, but currently does not
- systemctl add-wants,add-requires
- systemctl reboot --boot-loader-entry=
* systemctl status should know about 'systemd-analyze calendar ... --iterations='
* If timer has just OnInactiveSec=..., it should fire after a specified time
after being started.
* write blog stories about:
- hwdb: what belongs into it, lsusb
- enabling dbus services
- how to make changes to sysctl and sysfs attributes
- remote access
- how to pass throw-away units to systemd, or dynamically change properties of existing units
- testing with Harald's awesome test kit
- auto-restart
- how to develop against journal browsing APIs
- the journal HTTP iface
- non-cgroup resource management
- dynamic resource management with cgroups
- refreshed, longer missions statement
- calendar time events
- init=/bin/sh vs. "emergency" mode, vs. "rescue" mode, vs. "multi-user" mode, vs. "graphical" mode, and the debug shell
- how to create your own target
- instantiated apache, dovecot and so on
- hooking a script into various stages of shutdown/rearly booot
Regularly:
* look for close() vs. close_nointr() vs. close_nointr_nofail()
* check for strerror(r) instead of strerror(-r)
* pahole
* set_put(), hashmap_put() return values check. i.e. == 0 does not free()!
* use secure_getenv() instead of getenv() where appropriate
* link up selected blog stories from man pages and unit files Documentation= fields
Janitorial Clean-ups:
* rework mount.c and swap.c to follow proper state enumeration/deserialization
semantics, like we do for device.c now
* get rid of prefix_roota() and similar, only use chase_symlinks() and related
calls instead.
* get rid of basename() and replace by path_extract_filename()
* Replace our fstype_is_network() with a call to libmount's mnt_fstype_is_netfs()?
Having two lists is not nice, but maybe it's now worth making a dependency on
libmount for something so trivial.
Deprecations and removals:
* Remove any support for booting without /usr pre-mounted in the initrd entirely.
Update INITRD_INTERFACE.md accordingly.
* 2019-10 – Remove POINTINGSTICK_CONST_ACCEL references from the hwdb, see #9573
* remove cgrouspv1 support EOY 2023. As per
https://lists.freedesktop.org/archives/systemd-devel/2022-July/048120.html
and then rework cgroupsv2 support around fds, i.e. keep one fd per active
unit around, and always operate on that, instead of cgroup fs paths.
* drop support for kernels that lack ambient capabilities support (i.e. make
4.3 new baseline). Then drop support for "!!" modifier for ExecStart= which
is only supported for such old kernels.
* drop support for kernels lacking memfd_create() (i.e. make 3.17 new
baseline), then drop all pipe() based fallbacks.
* drop support for getrandom()-less kernels. (GRND_INSECURE means once kernel
5.6 becomes our baseline). See
https://github.com/systemd/systemd/pull/24101#issuecomment-1193966468 for
details. Maybe before that: at taint-flags/warn about kernels that lack
getrandom()/environments where it is blocked.
* drop support for LOOP_CONFIGURE-less loopback block devices, once kernel
baseline is 5.8.
* drop fd_is_mount_point() fallback mess once we can rely on
STATX_ATTR_MOUNT_ROOT to exist i.e. kernel baseline 5.8
* rework our PID tracking in services and so on, to be strictly based on pidfd,
once kernel baseline is 5.13.
* H2 2023: remove support for unmerged-usr
* Remove /dev/mem ACPI FPDT parsing when /sys/firmware/acpi/fpdt is ubiquitous.
That requires distros to enable CONFIG_ACPI_FPDT, and have kernels v5.12 for
x86 and v6.2 for arm.
Features:
* sd-stub: detect if we are running with uefi console output on serial, and if so
automatically add console= to kernel cmdline matching the same port.
* add a utility that can be used with the kernel's
CONFIG_STATIC_USERMODEHELPER_PATH and then handles them within pid1 so that
security, resource management and cgroup settings can be enforced properly
for all umh processes.
* systemd-shutdown: keep sending sd_notify() status updates immediately before
going down, in particular include the "reboot param" string.
* homed: when resizing an fs don't sync identity beforehand there might simply
not be enough disk space for that. try to be defensive and sync only after
resize.
* homed: if for some reason the partition ended up being much smaller than
whole disk, recover from that, and grow it again.
* in journald, write out a recognizable log record whenever the system clock is
changed ("stepped"), and in timesyncd whenever we acquire an NTP fix
("slewing"). Then, in journalctl for each boot time we come across, find
these records, and use the structured info they include to display
"corrected" wallclock time, as calculted from the monotonic timestamp in the
log record, adjusted by the delta declared in the structured log record.
* in journald: whenever we start a new journal file because the boot ID
changed, let's generate a recognizable log record containing info about old
and new new ID. Then, when displaying log stream in journalctl look for these
records, to be able to order them.
* timesyncd: when saving/restoring clock try to take boot time into account.
Specifically, along with the saved clock, store the current boot ID. When
starting, check if the boot id matches. If so, don't do anything (we are on
the same boot and clock just kept running anyway). If not, then read
CLOCK_BOOTTIME (which started at boot), and add it to the saved clock
timestamp, to compensate for the time we spent booting. If EFI timestamps are
available, also include that in the calculation. With this we'll then only
miss the time spent during shutdown after timesync stopped and before the
system actually reset.
* systemd-stub: maybe store a "boot counter" in the ESP, and pass it down to
userspace to allow ordering boots (for example in journalctl). The counter
would be monotonically increased on every boot.
* systemd-sysext: for sysext DDIs picked up via EFI stub, set much stricter
image policy by default
* systemd-dissect: maybe add "--attach" and "--detach" verbs which
synchronously attach a DDI to a loopback device but not actually mount them.
* pam_systemd_home: add module parameter to control whether to only accept
only password or only pcks11/fido2 auth, and then use this to hook nicely
into two of the three PAM stacks gdm provides.
See discussion at https://github.com/authselect/authselect/pull/311
* sd-boot: make boot loader spec type #1 accept http urls in "linux"
lines. THen, do the uefi http dance to download kernels and boot them. This
is then useful for network boot, by embdedding a cpio with type #1 snippets
in sd-boot, which reference remote kernels.
* fix systemd-gpt-auto-generator in case a UKI is spawned from XBOOTLDR without
sd-boot. In that case LoaderDevicePartUUID will point to the XBOOTLDR, and we
should then derive the root disk from that, and then the ESP/XBOOTLDR from
that. Right now we will only mount ESP if it matches LoaderDEvicePartUUID
which isn't quite the same.
* maybe prohibit setuid() to the nobody user, to lock things down, via seccomp.
the nobody is not a user any code should run under, ever, as that user would
possibly get a lot of access to resources it really shouldn't be getting
access to due to the userns + nfs semantics of the user. Alternatively: use
the seccomp log action, and allow it.
* sd-boot: add a new PE section .bls or so that carries a cpio with additional
boot loader entries (both type1 and type2). Then when initializing, find this
section, iterate through it and populate menu with it. cpio is simple enough
to make a parser for this reasonably robust. use same path structures as in
the ESP. Similar add one for signature key drop-ins.
* sd-boot: also allow passing in the cpio as in the previous item via SMBIOS
* add a new EFI tool "sd-fetch" or so. It looks in a PE section ".url" for an
URL, then downloads the file from it using UEFI HTTP APIs, and executes it.
Usecase: provide a minimal ESP with sd-boot and a couple of these sd-fetch
binaries in place of UKIs, and download them on-the-fly.
* bootctl: warn if ESP is mounted world-readable (and in particular the seed).
* maybe: systemd-loop-generator that sets up loopback devices if requested via kernel
cmdline. usecase: include encrypted/verity root fs in UKI.
* systemd-gpt-auto-generator: add kernel cmdline option to override block
device to dissect. also support dissecting a regular file. useccase: include
encrypted/verity root fs in UKI.
* sd-stub: add ".bootcfg" section for kernel bootconfig data (as per
https://docs.kernel.org/admin-guide/bootconfig.html)
* tpm2: add (optional) support for generating a local signing key from PCR 15
state. use private key part to sign PCR 7+14 policies. stash signatures for
expected PCR7+14 policies in EFI var. use public key part in disk encryption.
generate new sigs whenever db/dbx/mok/mokx gets updated. that way we can
securely bind against SecureBoot/shim state, without having to renroll
everything on each update (but we still have to generate one sig on each
update, but that should be robust/idempotent). needs rollback protection, as
usual.
* Lennart: big blog story about DDIs
* Lennart: big blog story about building initrds
* Lennart: big blog story about "why systemd-boot"
* bpf: see if we can use BPF to solve the syslog message cgroup source problem:
one idea would be to patch source sockaddr of all AF_UNIX/SOCK_DGRAM to
implicitly contain the source cgroup id. Another idea would be to patch
sendto()/connect()/sendmsg() sockaddr on-the-fly to use a different target
sockaddr.
* bpf: see if we can address opportunistic inode sharing of immutable fs images
with BPF. i.e. if bpf gives us power to hook into openat() and return a
different inode than is requested for which we however it has same contents
then we can use that to implement opportunistic inode sharing among DDIs:
make all DDIs ship xattr on all reg files with a SHA256 hash. Then, also
dictate that DDIs should come with a top-level subdir where all reg files are
linked into by their SHA256 sum. Then, whenever an inode is opened with the
xattr set, check bpf table to find dirs with hashes for other prior DDIs and
try to use inode from there.
* extend the verity signature partition to permit multiple signatures for the
same root hash, so that people can sign a single image with multiple keys.
* consider adding a new partition type, just for /opt/ for usage in system
extensions
* gpt-auto-discovery: also use the pkcs7 signature stuff, and pass signature to
kernel. So far we only did this for the various --image= switches, but not
for the root fs or /usr/.
* dissection policy should enforce that unlocking can only take place by
certain means, i.e. only via pw, only via tpm2, or only via fido, or a
combination thereof.
* make the systemd-repart "seed" value provisionable via credentials, so that
confidential computing environments can set it and deterministically
enforce the uuids for partitions created, so that they can calculate PCR 15
ahead of time.
* systemd-repart: also derive the volume key from the seed value, for the
aforementioned purpose.
* in the initrd: derive the default machine ID to pass to the host PID 1 via
$machine_id from the same seed credential.
* Add systemd-sysupdate-initrd.service or so that runs systemd-sysupdate in the
initrd to bootstrap the initrd to populate the initial partitions. Some things
to figure out:
- Should it run on firstboot or on every boot?
- If run on every boot, should it use the sysupdate config from the host on
subsequent boots?
* hook up journald with TPMs? measure new journal records to the TPM in regular
intervals, validate the journal against current TPM state with that. (taking
inspiration from IMA log)
* provide an API to apps to encrypt/decrypt credentials. usecase: allow
bluez bluetooth daemon to pass pairings to initrd that way, without shelling
out to our tools.
* revisit default PCR bindings in cryptenroll and systemd-creds. Currently they
use PCR 7 which should contain secureboot state db/dbx. Which sounded like a
safe bet, given that it should change only on policy changes, and not
software updates. But that's wrong. Recent fwupd (rightfully) contains code
for updating the dbx denylist. This means even without any active policy
change PCR 7 might change. Hence, better idea might be in systemd-creds to
default to PCR 15 at least if sd-stub is used (i.e. bind to system identity),
and in cryptsetup simply the empty list? Also, PCR 14 almost certainly should
be included as much as PCR 7 (as it contains shim's policy, which is
certainly as relevant as PCR 7 on many systems)
* move discoverable partition spec and boot loader spec over to uapi group
* maybe measure UUIDs of important mounted file systems (after mount, via the
new ioctls to query them) into PCR 15? Add "x-systemd.measure-pcr=" or so for
this that pulls in a per mount service?
* measure /etc/machine-id during early boot into PCR 15?
* To mimic the new tpm2-measure-pcr= crypttab option add the same to veritytab
(measuring the root hash) and integritytab (measuring the HMAC key if one is
used)
* We should start measuring all services, containers, and system extensions we
activate. probably into PCR 13. i.e. add --tpm2-measure-pcr= or so to
systemd-nspawn, and MeasurePCR= to unit files. Should contain a measurement
of the activated configuration and the image that is being activated (in case
verity is used, hash of the root hash).
* whenever we measure something into a TPM PCR from userspace, write a record in
TCG's "Canonical Event Log" format to some file, so that we can reason about
how PCR values we manage came to
be. https://trustedcomputinggroup.org/resource/canonical-event-log-format/
* bootspec: permit graceful "update" from type #2 to type #1. If both a type #1
and a type #2 entry exist under otherwise the exact same name, then use the
type #1 entry, and ignore the type #2 entry. This way, people can "upgrade"
from the UKI with all parameters baked in to a Type #1 .conf file with manual
parametrization, if needed. This matches our usual rule that admin config
should win over vendor defaults.
* sd-stub: optionally allow users to configure manual kernel command line even
in SecureBoot by authenticating it via shim's APIs, integrating with MOK and
similar: instead of authenticating just PE code shim should be capable of
authenticating any kind of data for us, including files containing kernel
command lines.
* write a "search path" spec, that documents the prefixes to search in
(i.e. the usual /etc/, /run/, /usr/lib/ dance, potentially /usr/etc/), how to
sort found entries, how masking works and overriding.
* automatic boot assessment: add one more default success check that just waits
for a bit after boot, and blesses the boot if the system stayed up that long.
* implement concept of "versioned" resources inside a dir, and write a spec for
it. Make all tools in systemd, in particular
RootImage=/RootDirectory=/--image=/--directory= implement this. Idea:
directories ending in ".v/" indicate a directory with versioned resources in
them. Versioned resources inside a .v dir are always named in the pattern
<prefix>_<version>[+<tries-left>[-<tries-done>]].<suffix>
* add support for using this .v/ logic on the root fs itself: in the initrd,
after mounting the rootfs, look for root-<arch>.v/ in the root fs, and then
apply the logic, moving the switch root logic there.
* systemd-repart: add support for generating ISO9660 images
* systemd-repart: in addition to the existing "factory reset" mode (which
simply empties existing partitions marked for that). add a mode where
partitions marked for it are entirely removed. Usecase: remove secondary OS
copy, and redundant partitions entirely, and recreate them anew.
* systemd-boot: maybe add support for collapsing menu entries of the same OS
into one item that can be opened (like in a "tree view" UI element) or
collapsed. If only a single OS is installed, disable this mode, but if
multiple OSes are installed might make sense to default to it, so that user
is not immediately bombarded with a multitude of Linux kernel versions but
only one for each OS.
* systemd-repart: if the GPT *disk* UUID (i.e. the one global for the entire
disk) is set to all FFFFF then use this as trigger for factory reset, in
addition to the existing mechanisms via EFI variables and kernel command
line. Benefit: works also on non-EFI systems, and can be requested on one
boot, for the next.
* figure out a sane way when building UKIs how to extract SBAT data from inner
kernel, extend it with component info, and add to outer kernel.
* systemd-sysupdate: make transport pluggable, so people can plug casync or
similar behind it, instead of http.
* systemd-tmpfiles: add concept for conditionalizing lines on factory reset
boot, or on first boot.
* in UKIs: add way to define allowlist of additional words that can be added to
the kernel cmdline even in SecureBoot mode
* we probably needs .pcrpkeyrd or so as additional PE section in UKIs,
which contains a separate public key for PCR values that only apply in the
initrd, i.e. in the boot phase "enter-initrd". Then, consumers in userspace
can easily bind resources to just the initrd. Similar, maybe one more for
"enter-initrd:leave-initrd" for resources that shall be accessible only
before unprivileged user code is allowed. (we only need this for .pcrpkey,
not for .pcrsig, since the latter is a list of signatures anyway). With that,
when you enroll a LUKS volume or similar, pick either the .pcrkey (for
coverage through all phases of the boot, but excluding shutdown), the
.pcrpkeyrd (for coverage in the initrd only) and .pcrpkeybt (for coverage
until users are allowed to log in).
* Once the root fs LUKS volume key is measured into PCR 15, default to binding
credentials to PCR 15 in "systemd-creds"
* add support for asymmetric LUKS2 TPM based encryption. i.e. allow preparing
an encrypted image on some host given a public key belonging to a specific
other host, so that only hosts possessing the private key in the TPM2 chip
can decrypt the volume key and activate the volume. Usecase: systemd-syscfg
for a central orchestrator to generate syscfg images securely that can only
be activated on one specific host (which can be used for installing a bunch
of creds in /etc/credstore/ for example). Extending on this: allow binding
LUKS2 TPM based encryption also to the TPM2 internal clock. Net result:
prepare a syscfg image that can only be activated on a specific host that
runs a specific software in a specific time window. syscfg would be
automatically invalidated outside of it.
* maybe add a "systemd-report" tool, that generates a TPM2-backed "report" of
current system state, i.e. a combination of PCR information, local system
time and TPM clock, running services, recent high-priority log
messages/coredumps, system load/PSI, signed by the local TPM chip, to form an
enhanced remote attestation quote. Usecase: a simple orchestrator could use
this: have the report tool upload these reports every 3min somewhere. Then
have the orchestrator collect these reports centrally over a 3min time
window, and use them to determine what which node should now start/stop what,
and generate a small syscfg for each node, that uses Uphold= to pin services
on each node. The syscfg would be encrypted using the asymmetric encryption
proposed above, so that it can only be activated on the specific host, if the
software is in a good state, and within a specific time frame. Then run a
loop on each node that sends report to orchestrator and then sysupdate to
update syscfg. Orchestrator would be stateless, i.e. operate on desired
config and collected reports in the last 3min time window only, and thus can
be trivially scaled up since all instances of the orchestrator should come to
the same conclusions given the same inputs of reports/desired workload info.
Could also be used to deliver Wireguard secrets and thus to clients, thus
permitting zero-trust networking: secrets are rolled over via syscfg updates,
and via the time window TPM logic invalidated if node doesn't keep itself
updated, or becomes corrupted in some way.
* Always measure the LUKS rootfs volume key into PCR 15, and derive the machine
ID from it securely. This would then allow us to bind secrets a specific
system securely.
* tree-wide: convert as much as possible over to use sd_event_set_signal_exit(), instead
of manually hooking into SIGINT/SIGTERM
* tree-wide: convert as much as possible over to SD_EVENT_SIGNAL_PROCMASK
instead of manual blocking.
* sd-boot: for each installed OS, grey out older entries (i.e. all but the
newest), to indicate they are obsolete
* automatically propagate LUKS password credential into cryptsetup from host
(i.e. SMBIOS type #11, …), so that one can unlock LUKS via VM hypervisor
supplied password.
* add ability to path_is_valid() to classify paths that refer to a dir from
those which may refer to anything, and use that in various places to filter
early. i.e. stuff ending in "/", "/." and "/.." definitely refers to a
directory, and paths ending that way can be refused early in many contexts.
* systemd-measure: allow operating with PEM certificates in addition to PEM
public keys when signing PCR values. SecureBoot and our Verity signatures
operate with certificates already, hence I guess we should also just deal for
convencience with certificates for the PCR stuff too.
* systemd-measure: add --pcrpkey-auto as an alternative to --pcrpkey=, where it
would just use the same public key specified with --public-key= (or the one
automatically derived from --private-key=).
* tmpfiles: add new line type for setting btrfs subvolume attributes (i.e. rw/ro)
* tmpfiles: add new line type for setting fcaps
* push people to use ".sysext.raw" as suffix for sysext DDIs (DDI =
discoverable disk images, i.e. the new name for gpt disk images following the
discoverable disk spec). [Also: just ".sysext/" for directory-based sysext]
* Add "purpose" flag to partition flags in discoverable partition spec that
indicate if partition is intended for sysext, for portable service, for
booting and so on. Then, when dissecting DDI allow specifying a purpose to
use as additional search condition. Usecase: images that combined a sysext
partition with a portable service partition in one.
* On boot, auto-generate an asymmetric key pair from the TPM,
and use it for validating DDIs and credentials. Maybe upload it to the kernel
keyring, so that the kernel does this validation for us for verity and kernel
modules
* for systemd-syscfg: add a tool that can generate suitable DDIs with verity +
sig using squashfs-tools-ng's library. Maybe just systemd-repart called under
a new name with a built-in config?
* gpt-auto: generate mount units that reference partitions via
/dev/disk/by-diskseq/… so that they can't be swapped out behind our back.
* lock down acceptable encrypted credentials at boot, via simple allowlist,
maybe on kernel command line:
systemd.import_encrypted_creds=foobar.waldo,tmpfiles.extra to protect locked
down kernels from credentials generated on the host with a weak kernel
* Add support for extra verity configuration options to systemd-repart (FEC,
hash type, etc)
* chase_symlinks(): take inspiration from path_extract_filename() and return
O_DIRECTORY if input path contains trailing slash.
* chase_symlinks(): refuse resolution if trailing slash is specified on input,
but final node is not a directory
* chase_symlinks(): add new flag that simply refuses all symlink use in a path,
then use that for accessing XBOOTLDR/ESP
* document in boot loader spec that symlinks in XBOOTLDR/ESP are not OK even if
non-VFAT fs is used.
* measure credentials picked up from SMBIOS to some suitable PCR
* measure GPT and LUKS headers somewhere when we use them (i.e. in
systemd-gpt-auto-generator/systemd-repart and in systemd-cryptsetup?)
* pick up creds from EFI vars
* sd-boot: we probably should include all BootXY EFI variable defined boot
entries in our menu, and then suppress ourselves. Benefit: instant
compatibility with all other OSes which register things there, in particular
on other disks. Always boot into them via NextBoot EFI variable, to not
affect PCR values.
* systemd-measure tool:
- pre-calculate PCR 12 (command line) + PCR 13 (sysext) the same way we can precalculate PCR 11
* in sd-boot: load EFI drivers from a new PE section. That way, one can have a
"supercharged" sd-boot binary, that could carry ext4 drivers built-in.
* sd-bus: document that sd_bus_process() only returns messages that non of the
filters/handlers installed on the connection took possession of.
* sd-device: add an API for acquiring list of child devices, given a device
objects (i.e. all child dirents that dirs or symlinks to dirs)
* sd-device: maybe pin the sysfs dir with an fd, during the entire runtime of
an sd_device, then always work based on that.
* add small wrapper around qemu that implements sd_notify/AF_VSOCK + machined and
maybe some other stuff and boots it
* maybe add new flags to gpt partition tables for rootfs and usrfs indicating
purpose, i.e. whether something is supposed to be bootable in a VM, on
baremetal, on an nspawn-style container, if it is a portable service image,
or a sysext for initrd, for host os, or for portable container. Then hook
portabled/… up to udev to watch block devices coming up with the flags set, and
use it.
* sd-boot should look for information what to boot in SMBIOS, too, so that VM
managers can tell sd-boot what to boot into and suchlike
* add "systemd-sysext identify" verb, that you can point on any file in /usr/
and that determines from which overlayfs layer it originates, which image, and with
what it was signed.
* journald: generate recognizable log events whenever we shutdown journald
cleanly, and when we migrate run → var. This way tools can verify that a
previous boot terminated cleanly, because either of these two messages must
be safely written to disk, then.
* systemd-creds: extend encryption logic to support asymmetric
encryption/authentication. Idea: add new verb "systemd-creds public-key"
which generates a priv/pub key pair on the TPM2 and stores the priv key
locally in /var. It then outputs a certificate for the pub part to stdout.
This can then be copied/taken elsewhere, and can be used for encrypting creds
that only the host on its specific hw can decrypt. Then, support a drop-in
dir with certificates that can be used to authenticate credentials. Flow of
operations is then this: build image with owner certificate, then after
boot up issue "systemd-creds public-key" to acquire pubkey of the machine.
Then, when passing data to the machine, sign with privkey belonging to one of
the dropped in certs and encrypted with machine pubkey, and pass to machine.
Machine is then able to authenticate you, and confidentiality is guaranteed.
* building on top of the above, the pub/priv key pair generated on the TPM2
should probably also one you can use to get a remote attestation quote.
* bootctl: add "gc" verb that loads all type #1 .conf files, and then removes
all files from the set of files from the ESP/XBOOTLDR matching the entry
token that are not referenced by any. Then, change kernel-install to use only
this to remove auxiliary files, and never remove them explicitly. Benefit:
resources such as initrds/kernels/dtb can be shared between entries.
* Process credentials in:
• networkd/udevd: add a way to define additional .link, .network, .netdev files
via the credentials logic.
• fstab-generator: allow defining additional fstab-like mounts via
credentials (similar: crypttab-generator, verity-generator,
integrity-generator)
• getty-generator: allow defining additional getty instances via a credential
• run-generator: allow defining additional commands to run via a credential
• resolved: allow defining additional /etc/hosts entries via a credential (it
might make sense to then synthesize a new combined /etc/hosts file in /run
and bind mount it on /etc/hosts for other clients that want to read it.
• repart: allow defining additional partitions via credential
• timesyncd: pick NTP server info from credential
• portabled: read a credential "portable.extra" or so, that takes a list of
file system paths to enable on start.
• make systemd-fstab-generator look for a system credential encoding root= or
usr=
• systemd-homed: when initializing, look for a credential
systemd.homed.register or so with JSON user records to automatically
register if not registered yet. Usecase: deploy a system, and add an
account one can directly log into.
• initialize machine ID from systemd credential picked up from the ESP via
sd-stub, so that machine ID is stable even on systems where unified kernels
are used, and hence kernel cmdline cannot be modified locally
• in gpt-auto-generator: check partition uuids against such uuids supplied via
sd-stub credentials. That way, we can support parallel OS installations with
pre-built kernels.
* define a JSON format for units, separating out unit definitions from unit
runtime state. Then, expose it:
1. Add Describe() method to Unit D-Bus object that returns a JSON object
about the unit.
2. Expose this natively via Varlink, in similar style
3. Use it when invoking binaries (i.e. make PID 1 fork off systemd-executor
binary which reads the JSON definition and runs it), to address the cow
trap issue and the fact that NSS is actually forbidden in
forked-but-not-exec'ed children
4. Add varlink API to run transient units based on provided JSON definitions
* show SUPPORT_END= data in "hostnamectl" output (and thus also expose a prop
for this on dbus)
* Add SUPPORT_END_URL= field to os-release with more *actionable* information
what to do if support ended
* pam_systemd: on interactive logins, maybe show SUPPORT_END information at
login time, á la motd
* sd-boot: instead of unconditionally deriving the ESP to search boot loader
spec entries in from the paths of sd-boot binary, let's optionally allow it
to be configured on sd-boot cmdline + efi var. Usecase: embed sd-boot in the
UEFI firmware (for example, ovmf supports that via qemu cmdline option), and
use it to load stuff from the ESP.
* mount /var/ from initrd, so that we can apply sysext and stuff before the
initrd transition. Specifically:
1. There should be a var= kernel cmdline option, matching root= and usr=
2. systemd-gpt-auto-generator should auto-mount /var if it finds it on disk
3. mount.x-initrd mount option in fstab should be implied for /var
* implement varlink introspection
* we should probably drop all use of prefix_roota() and friends, and use
chase_symlinks() instead
* make persistent restarts easier by adding a new setting OpenPersistentFile=
or so, which allows opening one or more files that is "persistent" across
service restarts, hot reboot, cold reboots (depending on configuration): the
files are created empty on first invocation, and on subsequent invocations
the files are reboot. The files would be backed by tmpfs, pmem or /var
depending on desired level of persistency.
* sd-event: add ability to "chain" event sources. Specifically, add a call
sd_event_source_chain(x, y), which will automatically enable event source y
in oneshit mode once x is triggered. Use case: in src/core/mount.c implement
the /proc/self/mountinfo rescan on SIGCHLD with this: whenever a SIGCHLD is
seen, trigger the rescan defer event source automatically, and allow it to be
dispatched *before* the SIGCHLD is handled (based on priorities). Benefit:
dispatch order is strictly controlled by priorities again. (next step: chain
event sources to the ratelimit being over)
* if we fork of a service with StandardOutput=journal, and it forks off a
subprocess that quickly dies, we might not be able to identify the cgroup it
comes from, but we can still derive that from the stdin socket its output
came from. We apparently don't do that right now.
* add ability to set hostname with suffix derived from machine id at boot
* add PR_SET_DUMPABLE service setting
* homed/userdb: maybe define a "companion" dir for home directories where apps
can safely put privileged stuff in. Would not be writable by the user, but
still conceptually belong to the user. Would be included in user's quota if
possible, even if files are not owned by UID of user. Usecase: container
images that owned by arbitrary UIDs, and are owned/managed by the users, but
are not directly belonging to the user's UID. Goal: we shouldn't place more
privileged dirs inside of unprivileged dirs, and thus containers really
should not be placed inside of traditional UNIX home dirs (which are owned by
users themselves) but somewhere else, that is separate, but still close
by. Inform user code about path to this companion dir via env var, so that
container managers find it. the ~/.identity file is also a candidate for a
file to move there, since it is managed by privileged code (i.e. homed) and
not unprivileged code.
* given that /etc/ssh/ssh_config.d/ is a thing now, ship a drop-in for that
that hooks up userbdctl ssh-key stuff.
* maybe add support for binding and connecting AF_UNIX sockets in the file
system outside of the 108ch limit. When connecting, open O_PATH fd to socket
inode first, then connect to /proc/self/fd/XYZ. When binding, create symlink
to target dir in /tmp, and bind through it.
* add a proper concept of a "developer" mode, i.e. where cryptographic
protections of the root OS are weakened after interactive confirmation, to
allow hackers to allow their own stuff. idea: allow entering developer mode
only via explicit choice in boot menu: i.e. add explicit boot menu item for
it. when developer mode is entered generate a key pair in the TPM2, and add
the public part of it automatically to keychain of valid code signature keys
on subsequent boots. Then provide a tool to sign code with the key in the
TPM2. Ensure that boot menu item is only way to enter developer mode, by
binding it to locality/PCRs so that that keys cannot be generated otherwise.
* services: add support for cryptographically unlocking per-service directories
via TPM2. Specifically, for StateDirectory= (and related dirs) use fscrypt to
set up the directory so that it can only be accessed if host and app are in
order.
* TPM2: extend unlock policy to protect against version downgrades in signed
policies: policy probably must take some nvram based generation counter into
account that can only monotonically increase and can be used to invalidate
old PCR signatures. Otherwise people could downgrade to old signed PCR sets
whenever they want.
* update HACKING.md to suggest developing systemd with the ideas from:
https://0pointer.net/blog/testing-my-system-code-in-usr-without-modifying-usr.html
https://0pointer.net/blog/running-an-container-off-the-host-usr.html
* add a clear concept how the initrd can make up credentials on their own to
pass to the system when transitioning into the host OS. usecase: things like
cloud-init/ignitation and similar can parameterize the host with data they
acquire.
* sd-event: compat wd reuse in inotify code: keep a set of removed watch
descriptors, and clear this set piecemeal when we see the IN_IGNORED event
for it, or when read() returns EAGAIN or on IN_Q_OVERFLOW. Then, whenever we
see an inotify wd event check against this set, and if it is contained ignore
the event. (to be fully correct this would have to count the occurrences, in
case the same wd is reused multiple times before we start processing
IN_IGNORED again)
* systemd-fstab-generator: support addition mount specifications via kernel
cmdline. Usecase: invoke a VM, and mount a host homedir into it via
virtio-fs.
* for vendor-built signed initrds:
- make sysext run in the initrd
- sysext should pick up sysext images from /.extra/ in the initrd, and insist
on verification if in secureboot mode
- kernel-install should be able to install pre-built unified kernel images in
type #2 drop-in dir in the ESP.
- kernel-install should be able install encrypted creds automatically for
machine id, root pw, rootfs uuid, resume partition uuid, and place next to
EFI kernel, for sd-stub to pick them up. These creds should be locked to
the TPM, and bind to the right PCR the kernel is measured to.
- kernel-install should be able to pick up initrd sysexts automatically and
place them next to EFI kernel, for sd-stub to pick them up.
- systemd-fstab-generator should look for rootfs device to mount in creds
- pid 1 should look for machine ID in creds
- systemd-resume-generator should look for resume partition uuid in creds
- sd-stub: automatically pick up microcode from ESP (/loader/microcode/*)
and synthesize initrd from it, and measure it. Signing is not necessary, as
microcode does that on its own. Pass as first initrd to kernel.
* Add a new service type very similar to Type=notify, that goes one step
further and extends the protocol to cover reloads. Specifically, SIGHUP will
become the official way to reload, and daemon has to respond with sd_notify()
to report when it starts reloading, and when it is complete reloading. Care
must be taken to remove races from this model. I.e. PID 1 needs to take
CLOCK_MONOTONIC, then send SIGHUP, then wait for at least one RELOADING=1
message that comes with a newer timestamp, then wait for a READY=1 message.
while we are at it, also maybe extend the logic to require handling of some
specific SIGRT signal for setting debug log level, that carries the level via
the sigqueue() data parameter. With that we extended with minimal logic the
service runtime logic quite substantially.
* firstboot: maybe just default to C.UTF-8 locale if nothing is set, so that we
don't query this unnecessarily in entirely uninitialized
containers. (i.e. containers with empty /etc).
* sd_notify/vsock: maybe support binding to AF_VSOCK in Type=notify services,
then passing $NOTIFY_SOCKET and $NOTIFY_GUESTCID with PID1's cid (typically
fixed to "2", i.e. the official host cid) and the expected guest cid, for the
two sides of the channel. The latter env var could then be used in an
appropriate qemu cmdline. That way qemu payloads could talk sd_notify()
directly to host service manager.
* maybe write a tool that binds an AF_VFSOCK socket, then invokes qemu,
extending the command line to enable vsock on the VM, and using fw_cfg to
configure socket address.
* sd-boot: add menu item for shutdown? or hotkey?
* sd-device has an API to create an sd_device object from a device id, but has
no api to query the device id
* sd-device should return the devnum type (i.e. 'b' or 'c') via some API for an
sd_device object, so that data passed into sd_device_new_from_devnum() can
also be queried.
* sd-event: optionally, if per-event source rate limit is hit, downgrade
priority, but leave enabled, and once ratelimit window is over, upgrade
priority again. That way we can combat event source starvation without
stopping processing events from one source entirely.
* sd-event: similar to existing inotify support add fanotify support (given
that apparently new features in this area are only going to be added to the
latter).
* sd-event: add 1st class event source for clock changes
* sd-event: add 1st class event source for timezone changes
* support uefi/http boots with sd-boot: instead of looking for dropin files in
/loader/entries/ dir, look for a file /loader/entries/SHA256SUMS and use that
as directory manifest. The file would be a standard directory listing as
generated by GNU sha256sums.
* sd-boot: maybe add support for embedding the various auxiliary resources we
look for right in the sd-boot binary. i.e. take inspiration from sd-stub
logic: allow combining sd-boot via objcopy with kernels to enumerate, .conf
files, drivers, keys to enroll and so on. Then, add whatever we find that way
to the menu. Usecase: allow building a single PE image you can boot into via
UEFI HTTP boot.
* maybe add a new UEFI stub binary "sd-http". It works similar to sd-stub, but
all it does is download a file from a http server, and execute it, after
optionally checking its hash sum. idea would be: combine this "sd-http" stub
binary with some minimal info about an URL + hash sum, plus .osrel data, and
drop it into the unified kernel dir in the ESP. And bam you have something
that is tiny, feels a lot like a unified kernel, but all it does is chainload
the real kernel. benefit: downloading these stubs would be tiny and quick,
hence cheap for enumeration.
* sysext: measure all activated sysext into a TPM PCR
* maybe add a "syscfg" concept, that is almost entirely identical to "sysext",
but operates on /etc/ instead of /usr/ and /opt/. Use case would be: trusted,
authenticated, atomic, additive configuration management primitive: drop in a
configuration bundle, and activate it, so that it is instantly visible,
comprehensively.
* systemd-dissect: show available versions inside of a disk image, i.e. if
multiple versions are around of the same resource, show which ones. (in other
words: show partition labels).
* maybe add a generator that reads /proc/cmdline, looks for
systemd.pull-raw-portable=, systemd-pull-raw-sysext= and similar switches
that take an URL as parameter. It then generates service units for
systemd-pull calls that download these URLs if not installed yet. usecase:
invoke a VM or nspawn container in a way it automatically deploys/runs these
images as OS payloads. i.e. have a generic OS image you can point to any
payload you like, which is then downloaded, securely verified and run.
* improve scope units to support creation by pidfd instead of by PID
* deprecate cgroupsv1 further (print log message at boot)
* systemd-dissect: add --cat switch for dumping files such as /etc/os-release
* per-service sandboxing option: ProtectIds=. If used, will overmount
/etc/machine-id and /proc/sys/kernel/random/boot_id with synthetic files, to
make it harder for the service to identify the host. Depending on the user
setting it should be fully randomized at invocation time, or a hash of the
real thing, keyed by the unit name or so. Of course, there are other ways to
get these IDs (e.g. journal) or similar ids (e.g. MAC addresses, DMI ids, CPU
ids), so this knob would only be useful in combination with other lockdown
options. Particularly useful for portable services, and anything else that
uses RootDirectory= or RootImage=. (Might also over-mount
/sys/class/dmi/id/*{uuid,serial} with /dev/null).
* journalctl/timesyncd: whenever timesyncd acquires a synchronization from NTP,
create a structured log entry that contains boot ID, monotonic clock and
realtime clock (I mean, this requires no special work, as these three fields
are implicit). Then in journalctl when attempting to display the realtime
timestamp of a log entry, first search for the closest later log entry
of this kinda that has a matching boot id, and convert the monotonic clock
timestamp of the entry to the realtime clock using this info. This way we can
retroactively correct the wallclock timestamps, in particular for systems
without RTC, i.e. where initially wallclock timestamps carry rubbish, until
an NTP sync is acquired.
* kernel-install:
- add --all switch for rerunning kernel-install for all installed kernels
- maybe add env var that shortcuts kernel-install for installers that want to
call it at the end only
* doc: prep a document explaining resolved's internal objects, i.e. Query
vs. Question vs. Transaction vs. Stream and so on.
* doc: prep a document explaining PID 1's internal logic, i.e. transactions,
jobs, units
* bootspec: bring UEFI and userspace enumeration of bootspec entries back into
sync, i.e. parse out architecture field in sd-boot (currently only done in
userspace)
* automatically ignore threaded cgroups in cg_xyz().
* add linker script that implicitly adds symbol for build ID and new coredump
json package metadata, and use that when logging
* Enable RestrictFileSystems= for all our long-running services (similar:
RestrictNetworkInterfaces=)
* Add systemd-analyze security checks for RestrictFileSystems= and
RestrictNetworkInterfaces=
* cryptsetup/homed: implement TOTP authentication backed by TPM2 and its
internal clock.
* man: rework os-release(5), and clearly separate our extension-release.d/ and
initrd-release parts, i.e. list explicitly which fields are about what.
* sysext: before applying a sysext, do a superficial validation run so that
things are not rearranged to wildy. I.e. protect against accidental fuckups,
such as masking out /usr/lib/ or so. We should probably refuse if existing
inodes are replaced by other types of inodes or so.
* userdb: when synthesizing NSS records, pick "best" password from defined
passwords, not just the first. i.e. if there are multiple defined, prefer
unlocked over locked and prefer non-empty over empty.
* maybe add a tool inspired by the GPT auto discovery spec that runs in the
initrd and rearranges the rootfs hierarchy via bind mounts, if
enabled. Specifically in some top-level dir /@auto/ it will look for
dirs/symlinks/subvolumes that are named after their purpose, and optionally
encode a version as well as assessment counters, and then mount them into the
file system tree to boot into, similar to how we do that for the gpt auto
logic. Maybe then bind mount the original root into /.superior or something
like that (so that update tools can look there). Further discussion in this
thread:
https://lists.freedesktop.org/archives/systemd-devel/2021-November/047059.html
The GPT dissection logic should automatically enable this tool whenever we
detect a specially marked root fs (i.e introduce a new generic root gpt type
for this, that is arch independent). The also implement this in the image
dissection logic, so that nspawn/RootImage= and so on grok it. Maybe make
generic enough so that it can also work for ostrees arrangements.
* if a path ending in ".auto.d/" is set for RootDirectory=/RootImage= then do a
strverscmp() of everything inside that dir and use that. i.e. implement very
simple version control. Also use this in systemd-nspawn --image= and so on.
* homed: while a home dir is not activated generate slightly different NSS
records for it, that reports the home dir as "/" and the shell as some binary
provided by us. Then, when an SSH login happens and SSH permits it our binary
is invoked. This binary can then talk to homed and activate the homedir if
it's not around yet, prompting the user for a password. Once that succeeded
we'll switch to the real user record, i.e. home dir and shell, and our tool
exec()s the latter. Net effect: ssh'ing into a homed account will just work:
we'll neatly prompt for the homedir's password if its needed. –– Building on
this we could take this even further: since this tool will potentially have
access to the client's ssh-agent (if ssh-agent forwarding is enabled) we
could implement SSH unlocking of a homedir with that: when enrolling a new
ssh pubkey in a user record we'd ask the ssh-agent to sign some random value
with the privkey, then use that as luks key to unlock the home dir. Will not
work for ECDSA keys since their signatures contain a random component, but
will work for RSA and Ed25519 keys.
* add tiny service that decrypts encrypted user records passed via initrd
credential logic and drops them into /run where nss-systemd can pick them up,
similar to /run/host/userdb/. Usecase: drop a root user JSON record there,
and use it in the initrd to log in as root with locally selected password,
for debugging purposes. Other usecase: boot into qemu with regular user
mounted from host. maybe put this in systemd-user-sessions.service?
* drop dependency on libcap, replace by direct syscalls based on
CapabilityQuintet we already have. (This likely allows us drop drop libcap
dep in the base OS image)
* sysext: automatically activate sysext images dropped in via new sd-stub
sysext pickup logic. (must insist on verity + signature on those though)
* add concept for "exitrd" as inverse of "initrd", that we can transition to at
shutdown, and has similar security semantics. This should then take the place
of dracut's shutdown logic. Should probably support sysexts too. Care needs
to be taken that the resulting logic ends up in RAM, i.e. is copied out of
on-disk storage.
* userdbd: implement an additional varlink service socket that provides the
host user db in restricted form, then allow this to be bind mounted into
sandboxed environments that want the host database in minimal form. All
records would be stripped of all meta info, except the basic UID/name
info. Then use this in portabled environments that do not use PrivateUsers=1.
* portabled: when extracting unit files and copying to system.attached, if a
.p7s is available in the image, use it to protect the system.attached copy
with fs-verity, so that it cannot be tampered with
* logind introduce two types of sessions: "heavy" and "light". The former would
be our current sessions. But the latter would be a new type of session that
is mostly the same but does not pull in [email protected] or wait for it. Then,
allow configuration which type of session is desired via pam_systemd
parameters, and then make [email protected]'s session one of these "light" ones.
People could then choose to make FTP sessions and suchlike "light" if they
don't want the service manager to be started for that.
* /etc/veritytab: allow that the roothash column can be specified as fs path
including a path to an AF_UNIX path, similar to how we do things with the