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cluster.go
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cluster.go
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// Copyright 2022 Namespace Labs Inc; All rights reserved.
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
package nscloud
import (
"context"
"io"
"github.com/spf13/pflag"
"google.golang.org/grpc/codes"
"google.golang.org/grpc/status"
"google.golang.org/protobuf/proto"
"namespacelabs.dev/foundation/framework/kubernetes/kubedef"
"namespacelabs.dev/foundation/internal/build/registry"
"namespacelabs.dev/foundation/internal/fnerrors"
"namespacelabs.dev/foundation/internal/networking/ingress/nginx"
"namespacelabs.dev/foundation/internal/providers/nscloud/api"
"namespacelabs.dev/foundation/internal/providers/nscloud/ctl"
"namespacelabs.dev/foundation/internal/runtime"
"namespacelabs.dev/foundation/internal/runtime/kubernetes"
"namespacelabs.dev/foundation/internal/runtime/kubernetes/client"
"namespacelabs.dev/foundation/schema"
runtimepb "namespacelabs.dev/foundation/schema/runtime"
"namespacelabs.dev/foundation/std/cfg"
"namespacelabs.dev/foundation/universe/nscloud/configuration"
)
var (
clusterConfigType = cfg.DefineConfigType[*PrebuiltCluster]()
)
var (
defaultMachineType string
)
func SetupFlags(flags *pflag.FlagSet, hide bool) {
api.SetupFlags(flags, hide)
flags.StringVar(&defaultMachineType, "nscloud_default_machine_type", "", "If specified, overrides the default machine type new clusters are created with.")
_ = flags.MarkHidden("nscloud_default_machine_type")
}
func Register() {
api.Register()
RegisterRegistry()
RegisterClusterProvider()
}
func RegisterClusterProvider() {
client.RegisterConfigurationProvider("nscloud", provideCluster)
kubernetes.RegisterOverrideClass("nscloud", provideClass)
cfg.RegisterConfigurationProvider(func(cluster *configuration.Cluster) ([]proto.Message, error) {
if cluster.ClusterId == "" {
return nil, fnerrors.BadInputError("cluster_id must be specified")
}
messages := []proto.Message{
&client.HostEnv{Provider: "nscloud"},
®istry.Provider{Provider: "nscloud"},
&PrebuiltCluster{ClusterId: cluster.ClusterId},
}
return messages, nil
}, "foundation.providers.nscloud.config.Cluster")
}
func provideCluster(ctx context.Context, cfg cfg.Configuration) (client.ClusterConfiguration, error) {
conf, ok := clusterConfigType.CheckGet(cfg)
if !ok {
return client.ClusterConfiguration{}, fnerrors.InternalError("missing configuration")
}
return provideClusterExt(ctx, conf.ClusterId, conf.Ephemeral)
}
func provideClusterExt(ctx context.Context, clusterId string, ephemeral bool) (client.ClusterConfiguration, error) {
wres, err := api.WaitCluster(ctx, api.Endpoint, clusterId)
if err != nil {
return client.ClusterConfiguration{}, err
}
cluster := wres.Cluster
var p client.ClusterConfiguration
p.Ephemeral = ephemeral
p.Config = ctl.MakeConfig(cluster)
for _, lbl := range cluster.Label {
p.Labels = append(p.Labels, &schema.Label{Name: lbl.Name, Value: lbl.Value})
}
return p, nil
}
func provideClass(ctx context.Context, cfg cfg.Configuration) (runtime.Class, error) {
return runtimeClass{}, nil
}
type runtimeClass struct{}
var _ runtime.Class = runtimeClass{}
func (d runtimeClass) AttachToCluster(ctx context.Context, cfg cfg.Configuration) (runtime.Cluster, error) {
conf, ok := clusterConfigType.CheckGet(cfg)
if !ok {
return nil, fnerrors.BadInputError("%s: no cluster configured", cfg.EnvKey())
}
response, err := api.GetCluster(ctx, api.Endpoint, conf.ClusterId)
if err != nil {
return nil, err
}
return ensureCluster(ctx, cfg, response.Cluster.ClusterId, response.Cluster.IngressDomain, response.Registry, false)
}
func (d runtimeClass) EnsureCluster(ctx context.Context, env cfg.Context, purpose string) (runtime.Cluster, error) {
config := env.Configuration()
if _, ok := clusterConfigType.CheckGet(config); ok {
cluster, err := d.AttachToCluster(ctx, config)
return cluster, err
}
ephemeral := env.Environment().Ephemeral
response, err := api.CreateCluster(ctx, api.Endpoint, api.CreateClusterOpts{
MachineType: defaultMachineType,
Ephemeral: ephemeral,
Purpose: purpose,
})
if err != nil {
return nil, err
}
return ensureCluster(ctx, config, response.ClusterId, response.ClusterFragment.IngressDomain, response.Registry, ephemeral)
}
func (d runtimeClass) Planner(ctx context.Context, env cfg.Context, purpose string) (runtime.Planner, error) {
if conf, ok := clusterConfigType.CheckGet(env.Configuration()); ok {
response, err := api.GetCluster(ctx, api.Endpoint, conf.ClusterId)
if err != nil {
return nil, err
}
return completePlanner(ctx, env, conf.ClusterId, response.Cluster.IngressDomain, response.Registry, false)
}
response, err := api.CreateCluster(ctx, api.Endpoint, api.CreateClusterOpts{Ephemeral: true, Purpose: purpose})
if err != nil {
return nil, err
}
return completePlanner(ctx, env, response.ClusterId, response.ClusterFragment.IngressDomain, response.Registry, env.Environment().Ephemeral)
}
func completePlanner(ctx context.Context, env cfg.Context, clusterId, ingressDomain string, registry *api.ImageRegistry, ephemeral bool) (planner, error) {
base := kubernetes.NewPlannerWithRegistry(env, nscloudRegistry{registry: registry, clusterID: clusterId},
func(ctx context.Context) (*kubedef.SystemInfo, error) {
return &kubedef.SystemInfo{
NodePlatform: []string{"linux/amd64"},
DetectedDistribution: "k3s",
}, nil
}, nginx.IngressClass())
return planner{Planner: base, clusterId: clusterId, ingressDomain: ingressDomain, registry: registry, ephemeral: ephemeral}, nil
}
func ensureCluster(ctx context.Context, cfg cfg.Configuration, clusterId, ingressDomain string, registry *api.ImageRegistry, ephemeral bool) (*cluster, error) {
result, err := provideClusterExt(ctx, clusterId, ephemeral)
if err != nil {
return nil, err
}
// The generated configuration is in `default`.
cli, err := client.NewClientFromResult(ctx, &client.HostEnv{Context: "default"}, result.AsResult())
if err != nil {
return nil, err
}
unbound, err := kubernetes.NewCluster(cli, cfg, kubernetes.NewClusterOpts{
FetchSystemInfo: func(ctx context.Context) (*kubedef.SystemInfo, error) {
return &kubedef.SystemInfo{
NodePlatform: []string{"linux/amd64"},
DetectedDistribution: "k3s",
}, nil
},
})
if err != nil {
return nil, err
}
return &cluster{cluster: unbound, clusterId: clusterId, ingressDomain: ingressDomain, registry: registry}, nil
}
func newIngress(cfg cfg.Configuration, clusterId, ingressDomain string) kubedef.IngressClass {
return ingressClass{IngressClass: nginx.IngressClass(), ingressDomain: ingressDomain, clusterId: clusterId}
}
type cluster struct {
cluster *kubernetes.Cluster
clusterId string
ingressDomain string
registry *api.ImageRegistry
}
var _ runtime.Cluster = &cluster{}
var _ kubedef.KubeCluster = &cluster{}
var _ kubernetes.UnwrapCluster = &cluster{}
func (d *cluster) KubernetesCluster() *kubernetes.Cluster {
return d.cluster
}
func (d *cluster) Class() runtime.Class {
return runtimeClass{}
}
func (d *cluster) Ingress() kubedef.IngressClass {
return newIngress(d.cluster.Configuration, d.clusterId, d.ingressDomain)
}
func (d *cluster) Bind(ctx context.Context, env cfg.Context) (runtime.ClusterNamespace, error) {
planner, err := completePlanner(ctx, env, d.clusterId, d.ingressDomain, d.registry, env.Environment().Ephemeral)
if err != nil {
return nil, err
}
return clusterNamespaceFromPlanner(planner, d), nil
}
func (d *cluster) FetchDiagnostics(ctx context.Context, cr *runtimepb.ContainerReference) (*runtimepb.Diagnostics, error) {
return d.cluster.FetchDiagnostics(ctx, cr)
}
func (d *cluster) FetchLogsTo(ctx context.Context, cr *runtimepb.ContainerReference, opts runtime.FetchLogsOpts, callback func(runtime.ContainerLogLine)) error {
return d.cluster.FetchLogsTo(ctx, cr, opts, callback)
}
func (d *cluster) AttachTerminal(ctx context.Context, container *runtimepb.ContainerReference, io runtime.TerminalIO) error {
return d.cluster.AttachTerminal(ctx, container, io)
}
func (d *cluster) ForwardIngress(ctx context.Context, localAddrs []string, localPort int, notify runtime.PortForwardedFunc) (io.Closer, error) {
return d.cluster.ForwardIngress(ctx, localAddrs, localPort, notify)
}
func (d *cluster) EnsureState(ctx context.Context, key string) (any, error) {
// It's important that we don't defer to d.cluster.EnsureState() as it would
// then pass `d.cluster` as `runtime.Cluster`, rather than `d`.
return d.cluster.ClusterAttachedState.EnsureState(ctx, key, d.cluster.Configuration, d, nil)
}
func (d *cluster) EnsureKeyedState(ctx context.Context, key, secondary string) (any, error) {
// It's important that we don't defer to d.cluster.EnsureState() as it would
// then pass `d.cluster` as `runtime.Cluster`, rather than `d`.
return d.cluster.ClusterAttachedState.EnsureState(ctx, key, d.cluster.Configuration, d, &secondary)
}
func (d *cluster) DeleteAllRecursively(ctx context.Context, wait bool, progress io.Writer) (bool, error) {
return d.cluster.DeleteAllRecursively(ctx, wait, progress)
}
func (d *cluster) PreparedClient() client.Prepared {
return d.cluster.PreparedClient()
}
type ingressClass struct {
kubedef.IngressClass
ingressDomain string
clusterId string
}
func (d ingressClass) ComputeNaming(_ context.Context, _ *schema.Environment, source *schema.Naming) (*schema.ComputedNaming, error) {
return &schema.ComputedNaming{
Source: source,
BaseDomain: d.ingressDomain,
TlsPassthroughBaseDomain: "int-" + d.ingressDomain, // XXX receive this value.
Managed: schema.Domain_CLOUD_TERMINATION,
UpstreamTlsTermination: true,
DomainFragmentSuffix: d.clusterId, // XXX fetch ingress external IP to calculate domain.
UseShortAlias: true,
}, nil
}
func (d ingressClass) PrepareRoute(ctx context.Context, _ *schema.Environment, _ *schema.Stack_Entry, domain *schema.Domain, ns, name string) (*kubedef.IngressAllocatedRoute, error) {
return nil, nil
}
type planner struct {
kubernetes.Planner
clusterId string
ingressDomain string
registry *api.ImageRegistry
ephemeral bool
}
func (d planner) Ingress() runtime.IngressClass {
return newIngress(d.Configuration, d.clusterId, d.ingressDomain)
}
func (d planner) EnsureClusterNamespace(ctx context.Context) (runtime.ClusterNamespace, error) {
cluster, err := ensureCluster(ctx, d.Planner.Configuration, d.clusterId, d.ingressDomain, d.registry, d.ephemeral)
if err != nil {
return nil, err
}
return clusterNamespaceFromPlanner(d, cluster), nil
}
func clusterNamespaceFromPlanner(d planner, cluster *cluster) clusterNamespace {
return clusterNamespace{
ClusterNamespace: d.Planner.ClusterNamespaceFor(cluster, cluster.cluster),
clusterId: d.clusterId,
}
}
type clusterNamespace struct {
*kubernetes.ClusterNamespace
clusterId string
}
var _ kubedef.KubeClusterNamespace = clusterNamespace{}
func (cr clusterNamespace) DeleteRecursively(ctx context.Context, wait bool) (bool, error) {
return cr.deleteCluster(ctx)
}
func (cr clusterNamespace) DeleteAllRecursively(ctx context.Context, wait bool, progress io.Writer) (bool, error) {
return cr.deleteCluster(ctx)
}
func (cr clusterNamespace) deleteCluster(ctx context.Context) (bool, error) {
if err := api.DestroyCluster(ctx, api.Endpoint, cr.clusterId); err != nil {
if status.Code(err) == codes.NotFound {
return false, nil
}
return false, err
}
return true, nil
}