- replace `interface{}` with `any` using `gofmt -r 'interface{} -> any -w'`
- replace `a = []T{}` with `var a []T` where possible.
- replace `a = []T{}` with `a = make([]T, 0, len(b))` where possible.
Signed-off-by: Dmitriy Matrenichev <dmitry.matrenichev@siderolabs.com>
See #7230
Refactor more config interfaces, move config accessor interfaces
to different package to break the dependency loop.
Make `.RawV1Alpha1()` method typed to avoid type assertions everywhere.
No functional changes.
Signed-off-by: Andrey Smirnov <andrey.smirnov@talos-systems.com>
Use a global instance, handle loading/saving META in global context.
Deprecate legacy syslinux ADV, provide an easier interface for
consumers.
Expose META as resources.
Fix the bootloader revert process (it was completely broken for quite a
while :sad:).
This is a first step which mostly does preparation work, real changes
will come in the next PRs:
* add APIs to write to META
* consume META keys for platform network config for `metal`
* custom key for URL `${code}`
Signed-off-by: Andrey Smirnov <andrey.smirnov@talos-systems.com>
There's a cyclic dependency on siderolink library which imports talos
machinery back. We will fix that after we get talos pushed under a new
name.
Signed-off-by: Andrey Smirnov <andrey.smirnov@talos-systems.com>
Add a mock D-Bus daemon and a mock logind implementation over D-Bus.
Kubelet gets a handle to the D-Bus socket, connects over it to our
logind mock and negotiates shutdown activities.
Signed-off-by: Andrey Smirnov <andrey.smirnov@talos-systems.com>
This refactoring is required to simplify the work to be done to support
disk encryption.
Tried to minimize amount of queries done by `blockdevice` `probe`
methods.
Instead, where we have `runtime.Runtime` we get all required blockdevices
there from blockdevice cache stored in `State().Machine().Disk()`.
This opens a way to store encryption settings in the `Partition`
objects.
Signed-off-by: Artem Chernyshev <artem.0xD2@gmail.com>
This brings in `os-runtime` package and exposes resources with first
iteration of read-only API.
Two Talos resources (and one controller) are implemented:
* legacy.Service resource tracks Talos 'service' `RUNNING` state
* config.V1Alpha1 stores current runtime config
Glue point between existing runtime and new os-runtime based runtime is
in `v1alpha2` implementation and `V1Alpha2()` sub-interfaces of existing
`Runtime`, `State`, `Controller` interfaces.
Signed-off-by: Andrey Smirnov <smirnov.andrey@gmail.com>
Regular upgrade path takes just one reboot, but it requires all the
processes to be stopped on the node before upgrade might proceed. Under
some circumstances and with potential Talos bugs it might not work
rendering Talos upgrades almost impossible.
Staged upgrades build upon regular install flow to run the upgrade on
the node reboot. Such upgrades require two reboots of the node, and it
requires two pulls of the installer image, but they should be much less
suspicious to the failure. Once the upgrade is staged, node can be
rebooted in any possible way, including hard reset and upgrade is
performed on the next boot.
New ADV format was implemented as well to allow to store install image
ref/options across reboots. New format allows for bigger values and
takes 50% of the `META` partition. Old ADV is still kept for
compatibility reasons.
Signed-off-by: Andrey Smirnov <smirnov.andrey@gmail.com>
Library `blockdevice` was extracted as `talos-systems/go-blockdevice`,
this PR finalizes the move by removing Talos copy of it.
Some functions around `mkfs`/`growfs` were extracted as `makefs`
package, as they depend on `cmd` package.
Signed-off-by: Andrey Smirnov <smirnov.andrey@gmail.com>
This moves `pkg/config`, `pkg/client` and `pkg/constants`
under `pkg/machinery` umbrella.
And `pkg/machinery` is published as Go module inside Talos repository.
Signed-off-by: Andrey Smirnov <smirnov.andrey@gmail.com>
This makes `pkg/config` directly importable from other projects.
There should be no functional changes.
Signed-off-by: Andrey Smirnov <smirnov.andrey@gmail.com>
This is a rewrite of machined. It addresses some of the limitations and
complexity in the implementation. This introduces the idea of a
controller. A controller is responsible for managing the runtime, the
sequencer, and a new state type introduced in this PR.
A few highlights are:
- no more event bus
- functional approach to tasks (no more types defined for each task)
- the task function definition now offers a lot more context, like
access to raw API requests, the current sequence, a logger, the new
state interface, and the runtime interface.
- no more panics to handle reboots
- additional initialize and reboot sequences
- graceful gRPC server shutdown on critical errors
- config is now stored at install time to avoid having to download it at
install time and at boot time
- upgrades now use the local config instead of downloading it
- the upgrade API's preserve option takes precedence over the config's
install force option
Additionally, this pulls various packes in under machined to make the
code easier to navigate.
Signed-off-by: Andrew Rynhard <andrew@andrewrynhard.com>
