Swift client for talking to a Kubernetes cluster via a fluent DSL based on SwiftNIO and the AysncHTTPClient.
- Covers all Kubernetes API Groups in v1.28.3
- Automatic configuration discovery
- DSL style API
- For all API Groups/Versions
- Generic client support
- Swift-Logging support
- Loading resources from external sources
- from files
- from URLs
- Read Options
- List Options
- Delete Options
- PATCH API
-
/scale
API -
/status
API - Resource watch support
- Follow pod logs support
- Discovery API
- CRD support
- Controller/Informer support
- Swift Metrics
- Complete documentation
- End-to-end tests
1.18.9 | 1.19.8 | 1.20.9 | 1.22.7 | 1.24.8 | 1.24.10 | 1.26.4 | 1.28.0 | 1.28.3 | 1.29.6 | |
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✓
Exact match of API objects in both client and the Kubernetes version.-
API objects mismatches either due to the removal of old API or the addition of new API. However, everything the- client and Kubernetes have in common will work.
Concrete examples for using the Swiftkube
tooling reside in the Swiftkube:Examples
repository.
To create a client just import SwiftkubeClient
and init an instance.
import SwiftkubeClient
let client = try KubernetesClient()
You should shut down the KubernetesClient
instance when you're done using it, which in turn shuts down the underlying
HTTPClient
. Thus, you shouldn't call client.syncShutdown()
before all requests have finished. You can also shut down
the client asynchronously in an async/await context or by providing a DispatchQueue
for the completion callback.
// when finished close the client
try client.syncShutdown()
// async/await
try await client.shutdown()
// DispatchQueue
let queue: DispatchQueue = ...
client.shutdown(queue: queue) { (error: Error?) in
print(error)
}
The client tries to resolve a kube config
automatically from different sources in the following order:
- Kube config file in the user's
$HOME/.kube/config
directory ServiceAccount
token located at/var/run/secrets/kubernetes.io/serviceaccount/token
and a mounted CA certificate,- if it's running in Kubernetes.
Alternatively it can be configured manually, for example:
let caCert = try NIOSSLCertificate.fromPEMFile(caFile)
let authentication = KubernetesClientAuthentication.basicAuth(
username: "admin",
password: "admin"
)
let config = KubernetesClientConfig(
masterURL: "https://kubernetesmaster",
namespace: "default",
authentication: authentication,
trustRoots: NIOSSLTrustRoots.certificates(caCert),
insecureSkipTLSVerify: false,
timeout: HTTPClient.Configuration.Timeout.init(connect: .seconds(1), read: .seconds(10)),
redirectConfiguration: HTTPClient.Configuration.RedirectConfiguration.follow(max: 5, allowCycles: false)
)
let client = KubernetesClient(config: config)
The following authentication schemes are supported:
- Basic Auth:
.basicAuth(username: String, password: String)
- Bearer Token:
.bearer(token: String)
- Client certificate:
.x509(clientCertificate: NIOSSLCertificate, clientKey: NIOSSLPrivateKey)
SwiftkubeClient
defines convenience API to work with Kubernetes resources. Using this DSL is the same for all resources.
The client exposes asynchronous functions using the new Swift concurrency model.
let namespaces = try await client.namespaces.list()
let deployments = try await client.appsV1.deployments.list(in: .allNamespaces)
let roles = try await client.rbacV1.roles.list(in: .namespace("ns"))
You can filter the listed resources or limit the returned list size via the ListOptions
:
let deployments = try await client.appsV1.deployments.list(in: .allNamespaces, options: [
.labelSelector(.eq(["app": "nginx"])),
.labelSelector(.notIn(["env": ["dev", "staging"]])),
.labelSelector(.exists(["app", "env"])),
.fieldSelector(.eq(["status.phase": "Running"])),
.resourceVersion("9001"),
.limit(20),
.timeoutSeconds(10)
])
let namespace = try await client.namespaces.get(name: "ns")
let deployment = try await client.appsV1.deployments.get(in: .namespace("ns"), name: "nginx")
let roles = try await client.rbacV1.roles.get(in: .namespace("ns"), name: "role")
You can also provide the following ReadOptions
:
let deployments = try await client.appsV1.deployments.get(in: .allNamespaces, options: [
.pretty(true),
.exact(false),
.export(true)
])
try await client.namespaces.delete(name: "ns")
try await client.appsV1.deployments.delete(in: .namespace("ns"), name: "nginx")
try await client.rbacV1.roles.delete(in: .namespace("ns"), name: "role")
You can pass an instance of meta.v1.DeleteOptions
to control the behaviour of the delete operation:
let deletOptions = meta.v1.DeleteOptions(
gracePeriodSeconds: 10,
propagationPolicy: "Foreground"
)
try await client.pods.delete(in: .namespace("ns"), name: "nginx", options: deleteOptions)
Resources can be created/updated directly or via the convenience builders defined in SwiftkubeModel
// Create a resource instance and post it
let configMap = core.v1.ConfigMap(
metadata: meta.v1.ObjectMeta(name: "test"),
data: ["foo": "bar"]
)
try cm = try await client.configMaps.create(inNamespace: .default, configMap)
// Or inline via a builder
let pod = try await client.pods.create(inNamespace: .default) {
sk.pod {
$0.metadata = sk.metadata(name: "nginx")
$0.spec = sk.podSpec {
$0.containers = [
sk.container(name: "nginx") {
$0.image = "nginx"
}
]
}
}
}
You can watch for Kubernetes events about specific objects via the watch
API.
Watching resources opens a persistent connection to the API server. The connection is represented by a SwiftkubeClientTask
instance, that acts as an active "subscription" to the events stream.
The task instance must be started explicitly via SwiftkubeClientTask/start()
, which returns an
AsyncThrowingStream
, that starts yielding items immediately as they are received from the Kubernetes API server.
The async stream buffers its results if there are no active consumers. The
AsyncThrowingStream.BufferingPolicy.unbounded
buffering policy is used, which should be taken into consideration.
let task: SwiftkubeClientTask = client.pods.watch(in: .allNamespaces)
let stream = task.start()
for try await event in stream {
print(event)
}
You can also pass ListOptions
to filter, i.e. select the required objects:
let options = [
.labelSelector(.eq(["app": "nginx"])),
.labelSelector(.exists(["env"]))
]
let task = client.pods.watch(in: .default, options: options)
The client reconnects automatically and restarts the watch upon encountering non-recoverable errors. The
reconnect-behaviour can be controlled by passing an instance of RetryStrategy
.
The default strategy is 10 retry attempts with a fixed 5 seconds delay between each attempt. The initial delay is one second. A jitter of 0.2 seconds is applied.
Passing RetryStrategy.never
disables any reconnection attempts.
let strategy = RetryStrategy(
policy: .maxAttemtps(20),
backoff: .exponentiaBackoff(maxDelay: 60, multiplier: 2.0),
initialDelay = 5.0,
jitter = 0.2
)
let task = client.pods.watch(in: .default, retryStrategy: strategy)
for try await event in task.stream() {
print(event)
}
The task must be cancelled when it is no longer needed:
task.cancel()
The follow
API resembles the watch
, but instead of events, it emits the log lines.
follow
mode.
let task = client.pods.follow(in: .default, name: "nginx", container: "app")
for try await line in task.start() {
print(line)
}
// The task can be cancelled later to stop following logs
task.cancel()
The client provides a discovery interface for the API server, which can be used to retrieve the server version, the API groups and the API resources for a specific group version.
let version: Info = try await client.discovery.serverVersion()
let groups: meta.v1.APIGroupList = try await client.discovery.serverGroups()
let resources: meta.v1.APIResourceList = try await client.discovery.serverResources(forGroupVersion: "apps/v1")
A resource can be loaded from a file or a URL:
// Load from URL, e.g. a file
let url = URL(fileURLWithPath: "/path/to/manifest.yaml")
let deployment = try apps.v1.Deployment.load(contentsOf: url)
Often when working with Kubernetes the concrete type of the resource is not known or not relevant, e.g. when creating resources from a YAML manifest file. Other times the type or kind of the resource must be derived at runtime given its string representation.
Leveraging SwiftkubeModel
's type-erased resource implementations UnstructuredResource
and its corresponding
List-Type UnstructuredResourceList
it is possible to have a generic client instance, which must be initialized
with a GroupVersionResource
type:
guard let gvr = try? GroupVersionResource(for: "deployment") else {
// handle this
}
// Get by name
let resource: UnstructuredResource = try await client.for(gvr: gvr).get(in: .default , name: "nginx")
// List all
let resources: UnstructuredResourceList = try await client.for(gvr: gvr).list(in: .allNamespaces)
A GroupVersionKind
& GroupVersionResource
can be initialized from:
KubernetesAPIResource
instanceKubernetesAPIResource
type- Full API Group string
- Lower-cased singular resource kind
- Lower-cased plural resource name
- Lower-cased short resource name
let deployment = ..
let gvk = GroupVersionKind(of: deployment)
let gvr = GroupVersionResource(of: deployment)
let gvk = GroupVersionKind(of: apps.v1.Deployment.self)
let gvr = GroupVersionResource(for: "configmaps")
let gvk = GroupVersionKind(for: "cm")
let gvr = GroupVersionResource(for: "cm")
// etc.
SwiftkubeClient
supports Custom Resource Definitions (CRDs) natively. For example, a CRD manifest can be loaded
from a YAML file or created programmatically, and then created via the client DSL:
let crd = apiextensions.v1.CustomResourceDefinition.load(contentsOf: URL(filePath: "/path/to/crd.yaml"))
try await client.apiExtensionsV1.customResourceDefinitions.create(crd)
The KubernetesClient
can now be "extended", in order to manage the Custom Resources. One way would be to use the
UnstructuredResource
described in the previous section given some GroupVersionResource
.
However, the client can work with any object that implement the relevant marker protocols, which allows for custom types to be defined and used directly.
Here is a complete example to clarify.
Given the following CRD:
apiVersion: apiextensions.k8s.io/v1
kind: CustomResourceDefinition
metadata:
name: crontabs.example.com
spec:
group: example.com
names:
plural: crontabs
singular: crontab
kind: CronTab
shortNames:
- ct
scope: Namespaced
versions:
- name: v1
served: true
storage: true
schema:
openAPIV3Schema:
type: object
properties:
spec:
type: object
properties:
cronSpec:
type: string
image:
type: string
replicas:
type: integer
The marker protocols are:
KubernetesAPIResource
marks the object as a Kubernetes resource that has a corresponding API endpointNamespacedResource
&ClusterScopedResource
to indicate whether the resource is namespaced or cluster-scopedReadableResource
activates theget
,list
andwatch
API for the resourceCreatableResource
activates thecreate
API for the resourceReplaceableResource
activates theupdate
API for the resourceDeletableResource
activates thedelete
API for the resourceCollectionDeletableResource
activate thedeleteAll
API for the resourceScalableResource
activates thescale
API for the resourceMetadataHavingResource
indicates, that the resource has ametadata
field of typemeta.v1.ObjectMeta?
StatusHavingResource
indicate, that the resource has ascale
field (w/o assuming its type)
The following custom structs can be defined:
struct CronTab: KubernetesAPIResource, NamespacedResource, MetadataHavingResource,
ReadableResource, CreatableResource, ListableResource {
typealias List = CronTabList
var apiVersion = "example.com/v1"
var kind = "CronTab"
var metadata: meta.v1.ObjectMeta?
var spec: CronTabSpec
}
struct CronTabSpec: Codable, Hashable {
var cronSpec: String
var image: String
var replicas: Int
}
struct CronTabList: KubernetesResourceList {
var apiVersion = "example.com/v1"
var kind = "crontabs"
var items: [CronTab]
}
Now, the new Custom Resource can be used like any other Kubernetes resource:
let gvr = GroupVersionResource(
group: "example.com",
version: "v1",
resource: "crontabs"
)
let cronTabClient = client.for(CronTab.self, gvr: gvr)
let cronTab = CronTab(
metadata: meta.v1.ObjectMeta(name: "new-cron"),
spec: CronTabSpec(
cronSpec : "* * * * */5",
image: "some-cron-image",
replicas: 2
)
)
let new = try await cronTabClient.create(in: .default, cronTab)
let cronTabs: CronTabList = try await cronTabClient.list(in: .allNamespaces)
KubernetesClient
uses SwiftMetrics to collect metric information about the
requests count and latencies.
The following metrics are gathered:
sk_http_requests_total(counter)
: the total count of the requests made by the client.sk_http_request_errors_total(counter)
: the total number of requests made, that returned a http error.sk_request_errors_total(counter)
: the total number of requests that couldn't be dispatched due to non-http errors.sk_http_request_duration_seconds(timer)
: the complete request durations.
To collect the metrics you have to bootstrap a metrics backend in your application. For example, you can collect the
metrics to prometheus via SwiftPrometheus
:
import Metrics
import Prometheus
let prom = PrometheusClient()
MetricsSystem.bootstrap(prom)
and expose a /metrics
endpoint for scraping:
// if using vapor
app.get("metrics") { request -> EventLoopFuture<String> in
let promise = request.eventLoop.makePromise(of: String.self)
try MetricsSystem.prometheus().collect(into: promise)
return promise.futureResult
}
To use the SwiftkubeClient
in a SwiftPM project, add the following line to the dependencies in your Package.swift
file:
.package(name: "SwiftkubeClient", url: "https://github.com/swiftkube/client.git", from: "0.18.0")
then include it as a dependency in your target:
import PackageDescription
let package = Package(
// ...
dependencies: [
.package(name: "SwiftkubeClient", url: "https://github.com/swiftkube/client.git", from: "0.18.0")
],
targets: [
.target(name: "<your-target>", dependencies: [
.product(name: "SwiftkubeClient", package: "SwiftkubeClient"),
])
]
)
Then run swift build
.
Swiftkube project is licensed under version 2.0 of the Apache License. See LICENSE for more details.