The RPC for listing volume snapshots requires a plugin ID. Update the
`volume snapshot list` command to find the specific plugin from the
provided prefix.
The `CreateSnapshot` RPC expects a plugin ID to be set by the API, but
in the common case of the `nomad volume snapshot create` command, we
don't ask the user for the plugin ID because it's available from the
volume we're snapshotting.
Change the order of the RPC so that we get the volume first and then
use the volume's plugin ID for the plugin if the API didn't set the
value.
The `CSIPlugin.List` RPC was intended to accept a prefix to filter the
list of plugins being listed. This was being accidentally being done
in the state store instead, which contributed to incorrect filtering
behavior for plugins in the `volume plugin status` command.
Move the prefix matching into the RPC so that it calls the
prefix-matching method in the state store if we're looking for a
prefix.
Update the `plugin status command` to accept a prefix for the plugin
ID argument so that it matches the expected behavior of other commands.
When using a prefix value and the * wildcard for namespace, the endpoint
would not take the prefix value into consideration due to the order in
which the checks were executed but also the logic for retrieving volumes
from the state store.
This commit changes the order to check for a prefix first and wraps the
result iterator of the state store query in a filter to apply the
prefix.
The HTTP endpoint for CSI manually serializes the internal struct to
the API struct for purposes of redaction (see also #10470). Add fields
that were missing from this serialization so they don't show up as
always empty in the API response.
The `volume status` command and associated API redacts the entire
mount options instead of just the `MountFlags` field that can contain
sensitive data. Return a redacted value so that the return value makes
sense to operators who have set this field.
This PR
- upgrades the serf library
- has the test start the join process using the un-joined server first
- disables schedulers on the servers
- uses the WaitForLeader and wantPeers helpers
Not sure which, if any of these actually improves the flakiness of this test.
The behaviors of CSI plugins are governed by their capabilities as
defined by the CSI specification. When debugging plugin issues, it's
useful to know which behaviors are expected so they can be matched
against RPC calls made to the plugin allocations.
Expose the plugin capabilities as named in the CSI spec in the `nomad
plugin status -verbose` output.
When the alloc runner claims a volume, an allocation for a previous
version of the job may still have the volume claimed because it's
still shutting down. In this case we'll receive an error from the
server. Retry this error until we succeed or until a very long timeout
expires, to give operators a chance to recover broken plugins.
Make the alloc runner hook tolerant of temporary RPC failures.
* Remove redundant schedulable check in `FreeWriteClaims`. If a volume
has been created but not yet claimed, its capabilities will be checked
in `WriteSchedulable` at both scheduling time and claim time. We don't
need to also check them in the `FreeWriteClaims` method.
* Enforce maximum volume claims for writers.
When the scheduler checks feasibility for CSI volumes, the check is
fairly loose: earlier versions of the same job are not counted as
active claims. This allows the scheduler to place new allocations
for the new version of a job, under the assumption that we'll replace
the existing allocations and their volume claims.
But when the alloc runner claims the volume, we need to enforce the
active claims even if they're for allocations of an earlier version of
the job. Otherwise we'll try to mount a volume that's currently being
unmounted, and this will cause replacement allocations to frequently
fail.
* Enforce single-node reader check for read-only volumes. When the
alloc runner makes a claim for a read-only volume, we only check that
the volume is potentially schedulable and not that it actually has
free read claims.
If a plugin job fails before successfully fingerprinting the plugins,
the plugin will not exist when we try to delete the job. Tolerate
missing plugins.
The dynamic plugin registry assumes that plugins are singletons, which
matches the behavior of other Nomad plugins. But because dynamic
plugins like CSI are implemented by allocations, we need to handle the
possibility of multiple allocations for a given plugin type + ID, as
well as behaviors around interleaved allocation starts and stops.
Update the data structure for the dynamic registry so that more recent
allocations take over as the instance manager singleton, but we still
preserve the previous running allocations so that restores work
without racing.
Multiple allocations can run on a client for the same plugin, even if
only during updates. Provide each plugin task a unique path for the
control socket so that the tasks don't interfere with each other.
This PR modifies the Consul CLI arguments used to bootstrap envoy for
Connect sidecars to make use of '-proxy-id' instead of '-sidecar-for'.
Nomad registers the sidecar service, so we know what ID it has. The
'-sidecar-for' was intended for use when you only know the name of the
service for which the sidecar is being created.
The improvement here is that using '-proxy-id' does not require an underlying
request for listing Consul services. This will make make the interaction
between Nomad and Consul more efficient.
Closes#10452
When Consul Connect just works, it's wonderful. When it doesn't work it
can be exceeding difficult to debug: operators have to check task
events, Nomad logs, Consul logs, Consul APIs, and even then critical
information is missing.
Using Consul to generate a bootstrap config for Envoy is notoriously
difficult. Nomad doesn't even log stderr, so operators are left trying
to piece together what went wrong.
This patch attempts to provide *maximal* context which unfortunately
includes secrets. **Secrets are always restricted to the secrets/
directory.** This makes debugging a little harder, but allows operators
to know exactly what operation Nomad was trying to perform.
What's added:
- stderr is sent to alloc/logs/envoy_bootstrap.stderr.0
- the CLI is written to secrets/.envoy_bootstrap.cmd
- the environment is written to secrets/.envoy_bootstrap.env as JSON
Accessing this information is unfortunately awkward:
```
nomad alloc exec -task connect-proxy-count-countdash b36a cat secrets/.envoy_bootstrap.env
nomad alloc exec -task connect-proxy-count-countdash b36a cat secrets/.envoy_bootstrap.cmd
nomad alloc fs b36a alloc/logs/envoy_bootstrap.stderr.0
```
The above assumes an alloc id that starts with `b36a` and a Connect
sidecar proxy for a service named `count-countdash`.
If the alloc is unable to start successfully, the debugging files are
only accessible from the host filesystem.
This PR updates GNUMakefile to respect $GOBIN if it is set in the
environment or via an $GOENV file. Previously we hard-coded the output
to $GOPATH/bin, which is not necessarily the desired behavior.
Nomad communicates with CSI plugin tasks via gRPC. The plugin
supervisor hook uses this to ping the plugin for health checks which
it emits as task events. After the first successful health check the
plugin supervisor registers the plugin in the client's dynamic plugin
registry, which in turn creates a CSI plugin manager instance that has
its own gRPC client for fingerprinting the plugin and sending mount
requests.
If the plugin manager instance fails to connect to the plugin on its
first attempt, it exits. The plugin supervisor hook is unaware that
connection failed so long as its own pings continue to work. A
transient failure during plugin startup may mislead the plugin
supervisor hook into thinking the plugin is up (so there's no need to
restart the allocation) but no fingerprinter is started.
* Refactors the gRPC client to connect on first use. This provides the
plugin manager instance the ability to retry the gRPC client
connection until success.
* Add a 30s timeout to the plugin supervisor so that we don't poll
forever waiting for a plugin that will never come back up.
Minor improvements:
* The plugin supervisor hook creates a new gRPC client for every probe
and then throws it away. Instead, reuse the client as we do for the
plugin manager.
* The gRPC client constructor has a 1 second timeout. Clarify that this
timeout applies to the connection and not the rest of the client
lifetime.
These API endpoints now return results in chronological order. They
can return results in reverse chronological order by setting the
query parameter ascending=true.
- Eval.List
- Deployment.List
The `volume detach`, `volume deregister`, and `volume status` commands
accept a prefix argument for the volume ID. Update the behavior on
exact matches so that if there is more than one volume that matches
the prefix, we should only return an error if one of the volume IDs is
not an exact match. Otherwise we won't be able to use these commands
at all on those volumes. This also makes the behavior of these commands
consistent with `job stop`.
The CSI specification says:
> The CO SHALL provide the listen-address for the Plugin by way of the
`CSI_ENDPOINT` environment variable.
Note that plugins without filesystem isolation won't have the plugin
dir bind-mounted to their alloc dir, but we can provide a path to the
socket anyways.
Refactor to use opts struct for plugin supervisor hook config.
The parameter list for configuring the plugin supervisor hook has
grown enough where is makes sense to use an options struct similiar to
many of the other task runner hooks (ex. template).
The spread iterator can panic when processing an evaluation, resulting
in an unrecoverable state in the cluster. Whenever a panicked server
restarts and quorum is restored, the next server to dequeue the
evaluation will panic.
To trigger this state:
* The job must have `max_parallel = 0` and a `canary >= 1`.
* The job must not have a `spread` block.
* The job must have a previous version.
* The previous version must have a `spread` block and at least one
failed allocation.
In this scenario, the desired changes include `(place 1+) (stop
1+), (ignore n) (canary 1)`. Before the scheduler can place the canary
allocation, it tries to find out which allocations can be
stopped. This passes back through the stack so that we can determine
previous-node penalties, etc. We call `SetJob` on the stack with the
previous version of the job, which will include assessing the `spread`
block (even though the results are unused). The task group spread info
state from that pass through the spread iterator is not reset when we
call `SetJob` again. When the new job version iterates over the
`groupPropertySets`, it will get an empty `spreadAttributeMap`,
resulting in an unexpected nil pointer dereference.
This changeset resets the spread iterator internal state when setting
the job, logging with a bypass around the bug in case we hit similar
cases, and a test that panics the scheduler without the patch.
Add new namespace ACL requirement for the /v1/jobs/parse endpoint and
return early if HCLv2 parsing fails.
The endpoint now requires the new `parse-job` ACL capability or
`submit-job`.
go-getter creates a circular dependency between a Client and Getter,
which means each is inherently thread-unsafe if you try to re-use
on or the other.
This PR fixes Nomad to no longer make use of the default Getter objects
provided by the go-getter package. Nomad must create a new Client object
on every artifact download, as the Client object controls the Src and Dst
among other things. When Caling Client.Get, the Getter modifies its own
Client reference, creating the circular reference and race condition.
We can still achieve most of the desired connection caching behavior by
re-using a shared HTTP client with transport pooling enabled.
Processing an evaluation is nearly a pure function over the state
snapshot, but we randomly shuffle the nodes. This means that
developers can't take a given state snapshot and pass an evaluation
through it and be guaranteed the same plan results.
But the evaluation ID is already random, so if we use this as the seed
for shuffling the nodes we can greatly reduce the sources of
non-determinism. Unfortunately golang map iteration uses a global
source of randomness and not a goroutine-local one, but arguably
if the scheduler behavior is impacted by this, that's a bug in the
iteration.
If processing a specific evaluation causes the scheduler (and
therefore the entire server) to panic, that evaluation will never
get a chance to be nack'd and cleared from the state store. It will
get dequeued by another scheduler, causing that server to panic, and
so forth until all servers are in a panic loop. This prevents the
operator from intervening to remove the evaluation or update the
state.
Recover the goroutine from the top-level `Process` methods for each
scheduler so that this condition can be detected without panicking the
server process. This will lead to a loop of recovering the scheduler
goroutine until the eval can be removed or nack'd, but that's much
better than taking a downtime.
Update the logic in the Nomad client's alloc health tracker which
erroneously marks existing healthy allocations with dead poststart ephemeral
tasks as unhealthy even if they were already successful during a previous
deployment.
This PR replaces use of time.After with a safe helper function
that creates a time.Timer to use instead. The new function returns
both a time.Timer and a Stop function that the caller must handle.
Unlike time.NewTimer, the helper function does not panic if the duration
set is <= 0.
* csi: resolve invalid claim states on read
It's currently possible for CSI volumes to be claimed by allocations
that no longer exist. This changeset asserts a reasonable state at
the state store level by registering these nil allocations as "past
claims" on any read. This will cause any pass through the periodic GC
or volumewatcher to trigger the unpublishing workflow for those claims.
* csi: make feasibility check errors more understandable
When the feasibility checker finds we have no free write claims, it
checks to see if any of those claims are for the job we're currently
scheduling (so that earlier versions of a job can't block claims for
new versions) and reports a conflict if the volume can't be scheduled
so that the user can fix their claims. But when the checker hits a
claim that has a GCd allocation, the state is recoverable by the
server once claim reaping completes and no user intervention is
required; the blocked eval should complete. Differentiate the
scheduler error produced by these two conditions.
The volumewatcher that runs on the leader needs to make RPC calls
rather than writing to raft (as we do in the deploymentwatcher)
because the unpublish workflow needs to make RPC calls to the
clients. This requires that the volumewatcher has access to the
leader's ACL token.
But when leadership transitions, the new leader creates a new leader
ACL token. This ACL token needs to be passed into the volumewatcher
when we enable it, otherwise the volumewatcher can find itself with a
stale token.
* csi: resolve invalid claim states on read
It's currently possible for CSI volumes to be claimed by allocations
that no longer exist. This changeset asserts a reasonable state at
the state store level by registering these nil allocations as "past
claims" on any read. This will cause any pass through the periodic GC
or volumewatcher to trigger the unpublishing workflow for those claims.
* csi: make feasibility check errors more understandable
When the feasibility checker finds we have no free write claims, it
checks to see if any of those claims are for the job we're currently
scheduling (so that earlier versions of a job can't block claims for
new versions) and reports a conflict if the volume can't be scheduled
so that the user can fix their claims. But when the checker hits a
claim that has a GCd allocation, the state is recoverable by the
server once claim reaping completes and no user intervention is
required; the blocked eval should complete. Differentiate the
scheduler error produced by these two conditions.
The HCL1 parser did not respect connect.sidecar_task.resources if the
connect.sidecar_service block was not set (an optimiztion that no longer
makes sense with connect gateways).
Fixes#10899
This PR sets the minimum Go version for the `api` submodule to Go 1.17.
It also upgrades
- gorilla/websocket 1.4.1 -> 1.4.2
- mitchelh/mapstructure 1.4.2 -> 1.4.3
- stretchr/testify 1.5.1 -> 1.7.0
Closes#11518#11602#11528
The volumewatcher that runs on the leader needs to make RPC calls
rather than writing to raft (as we do in the deploymentwatcher)
because the unpublish workflow needs to make RPC calls to the
clients. This requires that the volumewatcher has access to the
leader's ACL token.
But when leadership transitions, the new leader creates a new leader
ACL token. This ACL token needs to be passed into the volumewatcher
when we enable it, otherwise the volumewatcher can find itself with a
stale token.
This PR upgrades our CI images and fixes some affected tests.
- upgrade go-machine-image to premade latest ubuntu LTS (ubuntu-2004:202111-02)
- eliminate go-machine-recent-image (no longer necessary)
- manage GOPATH in GNUMakefile (see https://discuss.circleci.com/t/gopath-is-set-to-multiple-directories/7174)
- fix tcp dial error check (message seems to be OS specific)
- spot check values measured instead of specifically 'RSS' (rss no longer reported in cgroups v2)
- use safe MkdirTemp for generating tmpfiles
NOT applied: (too flakey)
- eliminate setting GOMAXPROCS=1 (build tools were also affected by this setting)
- upgrade resource type for all imanges to large (2C -> 4C)
github.com/kr/pty was moved to github.com/creack/pty
Swap this dependency so we can upgrade to the latest version
and no longer need a replace directive.
After swapping gzip handler to use the gorilla library, we
must account for a quirk in how zero/minimal length response
bodies are delivered.
The previous gzip handler was configured to compress all responses
regardless of size - even if the data was zero length or below the
network MTU. This behavior changed in [v1.1.0](c551b6c3b4 (diff-de723e6602cc2f16f7a9d85fd89d69954edc12a49134dab8901b10ee06d1879d))
which is why we could not upgrade.
The Nomad HTTP Client mutates the http.Response.Body object, making
a strong assumption that if the Content-Encoding header is set to "gzip",
the response will be readable via gzip decoder. This is no longer true
for the nytimes gzip handler, and is also not true for the gorilla gzip
handler.
It seems in practice this only makes a difference on the /v1/operator/license
endpoint which returns an empty response in OSS Nomad.
The fix here is to simply not wrap the response body reader if we
encounter an io.EOF while creating the gzip reader - indicating there
is no data to decode.
Improves `nomad debug` error messages when contacting agents that do not
have /v1/agent/host endpoints (the endpoint was added in v0.12.0)
Part of #9568 and manually tested against Nomad v0.8.7.
Hopefully isRedirectError can be reused for more cases listed in #9568
The command line client sends a specific volume ID, but this isn't
enforced at the API level and we were incorrectly using a prefix match
for volume deregistration, resulting in cases where a volume with a
shorter ID that's a prefix of another volume would be deregistered
instead of the intended volume.
When the `volume deregister` or `volume detach` commands get an ID
prefix that matches multiple volumes, show the full length of the
volume IDs in the list of volumes shown so so that the user can select
the correct one.
The size of `stat_t` fields is architecture dependent, which was
reportedly causing a build failure on FreeBSD ARM7 32-bit
systems. This changeset matches the behavior we have on Linux.
When we copy the system DNS to a task's `resolv.conf`, we should set
the permissions as world-readable so that unprivileged users within
the task can read it.
