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deployment.go
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deployment.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 kubernetes
import (
"context"
"crypto/sha256"
"embed"
"encoding/json"
"fmt"
"io"
"io/fs"
"path/filepath"
"strings"
"time"
specs "github.com/opencontainers/image-spec/specs-go/v1"
"golang.org/x/exp/slices"
corev1 "k8s.io/api/core/v1"
v1 "k8s.io/api/core/v1"
"k8s.io/apimachinery/pkg/api/resource"
"k8s.io/apimachinery/pkg/util/intstr"
appsv1 "k8s.io/client-go/applyconfigurations/apps/v1"
applycorev1 "k8s.io/client-go/applyconfigurations/core/v1"
applymetav1 "k8s.io/client-go/applyconfigurations/meta/v1"
rbacv1 "k8s.io/client-go/applyconfigurations/rbac/v1"
"namespacelabs.dev/foundation/framework/kubernetes/kubedef"
"namespacelabs.dev/foundation/framework/kubernetes/kubenaming"
"namespacelabs.dev/foundation/framework/secrets"
"namespacelabs.dev/foundation/internal/fnerrors"
"namespacelabs.dev/foundation/internal/protos"
"namespacelabs.dev/foundation/internal/runtime"
xsecrets "namespacelabs.dev/foundation/internal/secrets"
"namespacelabs.dev/foundation/internal/support"
"namespacelabs.dev/foundation/library/kubernetes/rbac"
"namespacelabs.dev/foundation/schema"
"namespacelabs.dev/foundation/std/execution/defs"
"namespacelabs.dev/foundation/std/resources"
"namespacelabs.dev/foundation/std/runtime/constants"
"namespacelabs.dev/go-ids"
"sigs.k8s.io/yaml"
)
//go:embed defaults/*.yaml
var defaults embed.FS
var DeployAsPodsInTests = true
const (
kubeNode schema.PackageName = "namespacelabs.dev/foundation/std/runtime/kubernetes"
revisionHistoryLimit int32 = 10
defaultOneShotDeadline = time.Hour
)
type definitions []definition
type definition interface {
defs.MakeDefinition
AppliedResource() any
}
type serverRunState struct {
operations definitions
}
func getArg(c *applycorev1.ContainerApplyConfiguration, name string) (string, bool) {
for _, arg := range c.Args {
if !strings.HasPrefix(arg, "-") {
continue
}
// Remove up to two dashes.
cleaned := strings.TrimPrefix(strings.TrimPrefix(arg, "-"), "-")
parts := strings.SplitN(cleaned, "=", 2)
if len(parts) != 2 {
continue
}
if parts[0] == name {
return parts[1], true
}
}
return "", false
}
type deployOpts struct {
secrets secrets.GroundedSecrets
platforms []specs.Platform
}
func prepareDeployment(ctx context.Context, target BoundNamespace, deployable runtime.DeployableSpec, opts deployOpts, s *serverRunState) error {
if deployable.MainContainer.Image.Repository == "" {
return fnerrors.InternalError("kubernetes: no repository defined in image: %v", deployable.MainContainer.Image)
}
secCtx, err := makeSecurityContext(deployable.MainContainer)
if err != nil {
return err
}
ctrName := kubedef.ServerCtrName(deployable)
containers := []string{ctrName}
mainContainer := applycorev1.Container().
WithName(ctrName).
WithTerminationMessagePolicy(corev1.TerminationMessageFallbackToLogsOnError).
WithImage(deployable.MainContainer.Image.RepoAndDigest()).
WithArgs(deployable.MainContainer.Args...).
WithCommand(deployable.MainContainer.Command...).
WithSecurityContext(secCtx)
for _, port := range deployable.MainContainer.AllocatedPorts {
mainContainer.WithPorts(applycorev1.ContainerPort().WithName(port.Name).WithContainerPort(port.ContainerPort))
}
switch deployable.Attachable {
case runtime.AttachableKind_WITH_STDIN_ONLY:
mainContainer = mainContainer.WithStdin(true).WithStdinOnce(true)
case runtime.AttachableKind_WITH_TTY:
mainContainer = mainContainer.WithStdin(true).WithStdinOnce(true).WithTTY(true)
}
mainEnv := slices.Clone(deployable.MainContainer.Env)
if deployable.MainContainer.WorkingDir != "" {
mainContainer = mainContainer.WithWorkingDir(deployable.MainContainer.WorkingDir)
}
spec := applycorev1.PodSpec().
WithEnableServiceLinks(false) // Disable service injection via environment variables.
if target.planning != nil {
nodeSelector := target.planning.DefaultNodeSelector
for _, c := range target.planning.OverrideNodeSelector {
if c.DeployablePackageRef != nil && c.DeployablePackageRef.Equals(deployable.PackageRef) {
nodeSelector = c.NodeSelector
}
}
labelList := map[string]string{}
for _, v := range nodeSelector {
labelList[v.Name] = v.Value
}
spec = spec.WithNodeSelector(labelList)
}
for _, toleration := range deployable.Tolerations {
t := applycorev1.Toleration().
WithEffect(v1.TaintEffect(toleration.Effect)).
WithKey(toleration.Key)
if toleration.Operator != "" {
t = t.WithOperator(v1.TolerationOperator(toleration.Operator))
}
if toleration.Value != "" {
t = t.WithValue(toleration.Value)
}
spec = spec.WithTolerations(t)
}
// Explicitly allow all pods on all available platforms.
// On GKE, workloads are not allowed on ARM nodes by default, even if all nodes are ARM.
// https://cloud.google.com/kubernetes-engine/docs/how-to/prepare-arm-workloads-for-deployment#overview
// TODO make node affinity configurable.
var archs []string
for _, plat := range opts.platforms {
archs = append(archs, plat.Architecture)
}
spec = spec.WithAffinity(applycorev1.Affinity().WithNodeAffinity(
applycorev1.NodeAffinity().WithRequiredDuringSchedulingIgnoredDuringExecution(
applycorev1.NodeSelector().WithNodeSelectorTerms(
applycorev1.NodeSelectorTerm().WithMatchExpressions(
applycorev1.NodeSelectorRequirement().
WithKey(kubedef.KubernetesIoArch).
WithOperator("In").
WithValues(archs...))))))
labels := kubedef.MakeLabels(target.env, deployable)
annotations := kubedef.MakeAnnotations(target.env, deployable.GetPackageRef().AsPackageName())
deploymentId := kubedef.MakeDeploymentId(deployable)
tmpl := applycorev1.PodTemplateSpec().
WithAnnotations(annotations).
WithLabels(labels)
var initVolumeMounts []*applycorev1.VolumeMountApplyConfiguration
// Key: PackageRef.CanonicalString().
initArgs := map[string][]string{}
var serviceAccount string // May be specified by a SpecExtension.
var createServiceAccount bool
var serviceAccountAnnotations []*kubedef.SpecExtension_Annotation
if len(deployable.Permissions.GetClusterRole()) > 0 {
createServiceAccount = true
serviceAccount = kubedef.MakeDeploymentId(deployable)
for _, role := range deployable.Permissions.ClusterRole {
var clusterRole *runtime.ComputedResource
for _, res := range deployable.ComputedResources {
if res.ResourceInstanceID == role.ResourceId {
clusterRole = &res
// XXX check dups?
}
}
if clusterRole == nil {
return fnerrors.New("permissions refer to %q which is not present", role.Label)
}
const roleInstance = "library.kubernetes.rbac.ClusterRoleInstance"
if clusterRole.InstanceType.GetProtoType() != roleInstance {
return fnerrors.New("expected resource class to be %q, got %q", roleInstance, clusterRole.InstanceType.GetProtoType())
}
instance := &rbac.ClusterRoleInstance{}
if err := json.Unmarshal(clusterRole.InstanceSerializedJSON, instance); err != nil {
return fnerrors.New("failed to unmarshal instance %q: %w", roleInstance, err)
}
s.operations = append(s.operations, kubedef.Apply{
Description: fmt.Sprintf("%s: bind Cluster Role", role.Label),
Resource: rbacv1.ClusterRoleBinding(fmt.Sprintf("binding:%s:%s", kubedef.MakeDeploymentId(deployable), instance.Name)).
WithLabels(labels).
WithAnnotations(kubedef.BaseAnnotations()).
WithRoleRef(rbacv1.RoleRef().
WithAPIGroup("rbac.authorization.k8s.io").
WithKind("ClusterRole").
WithName(instance.Name)).
WithSubjects(rbacv1.Subject().
WithKind("ServiceAccount").
WithNamespace(target.namespace).
WithName(serviceAccount)),
})
}
}
var specifiedSec *kubedef.SpecExtension_SecurityContext
probes := deployable.Probes
for _, input := range deployable.Extensions {
specExt := &kubedef.SpecExtension{}
containerExt := &kubedef.ContainerExtension{}
initContainerExt := &kubedef.InitContainerExtension{}
switch {
case input.Impl.MessageIs(specExt):
if err := input.Impl.UnmarshalTo(specExt); err != nil {
return fnerrors.InternalError("failed to unmarshal SpecExtension: %w", err)
}
for _, vol := range specExt.Volume {
k8svol, err := toK8sVol(vol)
if err != nil {
return err
}
spec = spec.WithVolumes(k8svol)
}
for _, toleration := range specExt.Toleration {
t := applycorev1.Toleration().WithEffect(v1.TaintEffect(toleration.Effect)).WithKey(toleration.Key)
if toleration.Operator != "" {
t = t.WithOperator(v1.TolerationOperator(toleration.Operator))
}
if toleration.Value != "" {
t = t.WithValue(toleration.Value)
}
spec = spec.WithTolerations(t)
}
if len(specExt.Annotation) > 0 {
m := map[string]string{}
for _, annotation := range specExt.Annotation {
m[annotation.Key] = annotation.Value
}
tmpl = tmpl.WithAnnotations(m)
}
if specExt.EnsureServiceAccount {
createServiceAccount = true
if specExt.ServiceAccount == "" {
return fnerrors.NewWithLocation(deployable.ErrorLocation, "ensure_service_account requires service_account to be set")
}
}
serviceAccountAnnotations = append(serviceAccountAnnotations, specExt.ServiceAccountAnnotation...)
if specExt.ServiceAccount != "" {
if serviceAccount != "" && serviceAccount != specExt.ServiceAccount {
return fnerrors.NewWithLocation(deployable.ErrorLocation, "incompatible service accounts defined, %q vs %q",
serviceAccount, specExt.ServiceAccount)
}
serviceAccount = specExt.ServiceAccount
}
if specExt.SecurityContext != nil {
if !protos.CheckConsolidate(specExt.SecurityContext, &specifiedSec) {
return fnerrors.NewWithLocation(deployable.ErrorLocation, "incompatible securitycontext defined, %v vs %v",
specifiedSec, specExt.SecurityContext)
}
}
case input.Impl.MessageIs(containerExt):
if err := input.Impl.UnmarshalTo(containerExt); err != nil {
return fnerrors.InternalError("failed to unmarshal ContainerExtension: %w", err)
}
for _, mount := range containerExt.VolumeMount {
volumeMount := applycorev1.VolumeMount().
WithName(mount.Name).
WithReadOnly(mount.ReadOnly).
WithMountPath(mount.MountPath)
mainContainer = mainContainer.WithVolumeMounts(volumeMount)
if mount.MountOnInit {
// Volume mounts may declare to be available also during server initialization.
// E.g. Initializing the schema of a data store requires early access to server secrets.
// The volume mount provider has full control over whether the volume is available.
initVolumeMounts = append(initVolumeMounts, volumeMount)
}
}
var err error
mainEnv, err = support.MergeEnvs(mainEnv, containerExt.Env)
if err != nil {
return err
}
if containerExt.Args != nil {
mainContainer = mainContainer.WithArgs(containerExt.Args...)
} else {
// Deprecated path.
for _, arg := range containerExt.ArgTuple {
if currentValue, found := getArg(mainContainer, arg.Name); found && currentValue != arg.Value {
return fnerrors.NewWithLocation(deployable.ErrorLocation, "argument '%s' is already set to '%s' but would be overwritten to '%s' by container extension", arg.Name, currentValue, arg.Value)
}
mainContainer = mainContainer.WithArgs(fmt.Sprintf("--%s=%s", arg.Name, arg.Value))
}
}
probes = append(probes, containerExt.Probe...)
// Deprecated path.
for _, initContainer := range containerExt.InitContainer {
key := initContainer.PackageName
initArgs[key] = append(initArgs[key], initContainer.Arg...)
}
case input.Impl.MessageIs(initContainerExt):
if err := input.Impl.UnmarshalTo(initContainerExt); err != nil {
return fnerrors.InternalError("failed to unmarshal InitContainerExtension: %w", err)
}
var key string
if initContainerExt.PackageRef != nil {
key = initContainerExt.PackageRef.Canonical()
} else {
key = initContainerExt.PackageName
}
initArgs[key] = append(initArgs[key], initContainerExt.Args...)
default:
return fnerrors.InternalError("unused startup input: %s", input.Impl.GetTypeUrl())
}
}
if len(deployable.Annotations) > 0 {
x := runtime.ResolvableSinkMap{}
if err := runtime.ResolveResolvables(ctx, deployable.RuntimeConfig, nil, deployable.Annotations, &x); err != nil {
return err
}
tmpl = tmpl.WithAnnotations(x)
}
var readinessProbe, livenessProbe *schema.Probe
for _, probe := range probes {
switch probe.Kind {
case runtime.FnServiceLivez:
if !protos.CheckConsolidate(probe, &livenessProbe) {
return fnerrors.BadInputError("inconsistent live probe definition")
}
case runtime.FnServiceReadyz:
if !protos.CheckConsolidate(probe, &readinessProbe) {
return fnerrors.BadInputError("inconsistent ready probe definition")
}
default:
return fnerrors.BadInputError("%s: unknown probe kind", probe.Kind)
}
}
probevalues := perEnvConfMapping[target.env.GetPurpose()]
if readinessProbe != nil || livenessProbe != nil {
if probevalues == nil {
return fnerrors.InternalError("%s: no constants configured", target.env.GetPurpose())
}
}
if readinessProbe != nil {
probe, err := toK8sProbe(applycorev1.Probe().WithInitialDelaySeconds(probevalues.readinessInitialDelay),
probevalues, readinessProbe)
if err != nil {
return err
}
mainContainer = mainContainer.WithReadinessProbe(probe)
}
if livenessProbe != nil {
probe, err := toK8sProbe(applycorev1.Probe().WithInitialDelaySeconds(probevalues.livenessInitialDelay),
probevalues, livenessProbe)
if err != nil {
return err
}
mainContainer = mainContainer.WithLivenessProbe(probe)
}
// XXX Think through this, should it also be hashed + immutable?
secretId := fmt.Sprintf("ns-managed-%s-%s", deployable.Name, deployable.GetId())
seccol := newSecretCollector(opts.secrets, secretId)
ensure := kubedef.EnsureDeployment{
Deployable: deployable,
InhibitEvents: deployable.Class == schema.DeployableClass_MANUAL || (target.namespace == kubedef.AdminNamespace && !deployable.Focused),
SchedCategory: []string{
runtime.DeployableCategory(deployable),
runtime.OwnedByDeployable(deployable),
},
SetContainerFields: slices.Clone(deployable.SetContainerField),
}
if _, err := fillEnv(ctx, deployable.RuntimeConfig, mainContainer, mainEnv, seccol, &ensure); err != nil {
return err
}
volumes := deployable.Volumes
mounts := deployable.MainContainer.Mounts
volumeDefs := map[string]*volumeDef{}
for k, volume := range volumes {
if volume.Name == "" {
return fnerrors.InternalError("volume #%d is missing a name", k)
}
name := kubedef.MakeVolumeName(volume)
volumeDef := &volumeDef{name: name}
volumeDefs[volume.Name] = volumeDef
switch volume.Kind {
case constants.VolumeKindEphemeral:
ev := &schema.EphemeralVolume{}
if err := volume.Definition.UnmarshalTo(ev); err != nil {
return fnerrors.InternalError("%s: failed to unmarshal hostDir volume definition: %w", volume.Name, err)
}
emptydir := applycorev1.EmptyDirVolumeSource()
if ev.SizeBytes > 0 {
quantity := resource.NewScaledQuantity(int64(ev.SizeBytes), 0)
emptydir = emptydir.WithSizeLimit(*quantity)
}
spec = spec.WithVolumes(applycorev1.Volume().WithName(name).WithEmptyDir(emptydir))
case constants.VolumeKindHostPath:
pv := &schema.HostPathVolume{}
if err := volume.Definition.UnmarshalTo(pv); err != nil {
return fnerrors.InternalError("%s: failed to unmarshal hostDir volume definition: %w", volume.Name, err)
}
switch {
case pv.Directory != "":
spec = spec.WithVolumes(applycorev1.Volume().WithName(name).
WithHostPath(applycorev1.HostPathVolumeSource().
WithType(v1.HostPathDirectoryOrCreate).WithPath(pv.Directory)))
}
case constants.VolumeKindPersistent:
pv := &schema.PersistentVolume{}
if err := volume.Definition.UnmarshalTo(pv); err != nil {
return fnerrors.InternalError("%s: failed to unmarshal persistent volume definition: %w", volume.Name, err)
}
if pv.Id == "" {
return fnerrors.BadInputError("%s: persistent ID is missing", volume.Name)
}
v, operations, err := makePersistentVolume(target.namespace, target.env, deployable.ErrorLocation, volume.Owner, name, pv.Id, pv.SizeBytes, annotations)
if err != nil {
return err
}
spec = spec.WithVolumes(v)
s.operations = append(s.operations, operations...)
case constants.VolumeKindWorkspaceSync:
volumeDef.isWorkspaceSync = true
case constants.VolumeKindConfigurable:
cv := &schema.ConfigurableVolume{}
if err := volume.Definition.UnmarshalTo(cv); err != nil {
return fnerrors.InternalError("%s: failed to unmarshal configurable volume definition: %w", volume.Name, err)
}
configs := newDataItemCollector()
configHash := sha256.New()
projected := applycorev1.ProjectedVolumeSource()
var configmapItems []*applycorev1.KeyToPathApplyConfiguration
var secretItems []*applycorev1.KeyToPathApplyConfiguration
for _, entry := range cv.Entries {
switch {
case entry.Inline != nil:
configmapItems = append(configmapItems, makeConfigEntry(configHash, entry, entry.Inline, configs).WithPath(entry.Path))
case entry.InlineSet != nil:
for _, rsc := range entry.InlineSet.Resource {
configmapItems = append(configmapItems, makeConfigEntry(configHash, entry, rsc, configs).WithPath(filepath.Join(entry.Path, rsc.Path)))
}
case entry.SecretRef != nil:
resource, err := opts.secrets.Get(ctx, entry.SecretRef)
if err != nil {
return err
}
if resource.FileContents != nil {
secretItems = append(secretItems, makeConfigEntry(configHash, entry, resource.FileContents, seccol.items).WithPath(entry.Path))
} else if resource.Spec.Generate != nil {
alloc := seccol.allocateGenerated(resource.Ref, resource.Spec)
projected = projected.WithSources(applycorev1.VolumeProjection().WithSecret(
applycorev1.SecretProjection().WithName(alloc.Name).WithItems(
applycorev1.KeyToPath().WithKey(alloc.Key).WithPath(entry.Path)),
))
}
case entry.KubernetesSecretRef != nil:
projected = projected.WithSources(applycorev1.VolumeProjection().WithSecret(
applycorev1.SecretProjection().WithName(entry.KubernetesSecretRef.SecretName).
WithItems(applycorev1.KeyToPath().WithKey(entry.KubernetesSecretRef.SecretName).WithPath(entry.Path)),
))
}
}
if len(configmapItems) > 0 {
configId := "ns-static-" + ids.EncodeToBase32String(configHash.Sum(nil))
projected = projected.WithSources(applycorev1.VolumeProjection().WithConfigMap(
applycorev1.ConfigMapProjection().WithName(configId).WithItems(configmapItems...)))
// Needs to be declared before it's used.
s.operations = append(s.operations, kubedef.Apply{
Description: "Static configuration",
Resource: applycorev1.ConfigMap(configId, target.namespace).
WithAnnotations(annotations).
WithLabels(labels).
WithLabels(map[string]string{
kubedef.K8sKind: kubedef.K8sStaticConfigKind,
}).
WithData(configs.data).
WithBinaryData(configs.binaryData),
})
}
if len(secretItems) > 0 {
projected = projected.WithSources(applycorev1.VolumeProjection().WithSecret(
applycorev1.SecretProjection().WithName(secretId).WithItems(secretItems...)))
}
spec = spec.WithVolumes(applycorev1.Volume().WithName(name).WithProjected(projected))
default:
return fnerrors.InternalError("%s: unsupported volume type", volume.Kind)
}
}
for k, mount := range mounts {
if mount.Path == "" {
return fnerrors.InternalError("mount #%d is missing a path", k)
}
if mount.VolumeRef == nil {
return fnerrors.InternalError("mount %q is missing a target volume", mount.Path)
}
volumeDef, ok := volumeDefs[mount.VolumeRef.Name]
if !ok {
return fnerrors.InternalError("unknown target volume %q for mount %q", mount.VolumeRef.Name, mount.Path)
}
if !volumeDef.isWorkspaceSync {
mainContainer = mainContainer.WithVolumeMounts(applycorev1.VolumeMount().
WithMountPath(mount.Path).
WithName(volumeDef.name).
WithReadOnly(mount.Readonly))
}
}
regularResources := slices.Clone(deployable.ResourceDeps)
const projectedSecretsVolName = "ns-projected-secrets"
var secretProjections []*applycorev1.SecretProjectionApplyConfiguration
var injected []*kubedef.OpEnsureRuntimeConfig_InjectedResource
for _, res := range deployable.SecretResources {
alloc, err := seccol.Allocate(ctx, res.SecretRef)
if err != nil {
return err
}
serialized, err := xsecrets.Serialize(res.ResourceRef)
if err != nil {
return err
}
secretProjections = append(secretProjections,
applycorev1.SecretProjection().WithName(alloc.Name).WithItems(
applycorev1.KeyToPath().WithKey(alloc.Key).WithPath(serialized.RelPath)))
injected = append(injected, &kubedef.OpEnsureRuntimeConfig_InjectedResource{
ResourceRef: res.ResourceRef,
SerializedJson: serialized.JSON,
})
}
for _, dep := range deployable.PlannedResourceDeps {
handled := false
for _, x := range deployable.ComputedResources {
if dep.ResourceInstanceId == x.ResourceInstanceID {
injected = append(injected, &kubedef.OpEnsureRuntimeConfig_InjectedResource{
ResourceRef: dep.ResourceRef,
SerializedJson: x.InstanceSerializedJSON,
})
handled = true
break
}
}
if !handled {
return fnerrors.InternalError("%s: resource value is missing", dep.ResourceRef.Canonical())
}
}
if len(secretProjections) > 0 {
src := applycorev1.ProjectedVolumeSource()
for _, p := range secretProjections {
src = src.WithSources(applycorev1.VolumeProjection().WithSecret(p))
}
spec = spec.WithVolumes(applycorev1.Volume().WithName(projectedSecretsVolName).WithProjected(src))
mainContainer = mainContainer.WithVolumeMounts(applycorev1.VolumeMount().
WithName(projectedSecretsVolName).
WithMountPath(xsecrets.SecretBaseMountPath).
WithReadOnly(true))
}
// Before sidecars so they have access to the "runtime config" volume.
if deployable.RuntimeConfig != nil || len(regularResources) > 0 || len(injected) > 0 {
slices.SortFunc(regularResources, func(a, b *resources.ResourceDependency) bool {
return strings.Compare(a.ResourceInstanceId, b.ResourceInstanceId) < 0
})
ensureConfig := kubedef.EnsureRuntimeConfig{
Description: "Runtime configuration",
RuntimeConfig: deployable.RuntimeConfig,
Deployable: deployable,
ResourceDependencies: regularResources,
InjectedResources: injected,
BuildVCS: deployable.BuildVCS,
PersistConfiguration: deployable.MountRuntimeConfigPath != "",
}
s.operations = append(s.operations, ensureConfig)
// Make sure we wait for the runtime configuration to be created before
// deploying a new deployment or statefulset.
ensure.RuntimeConfigDependency = kubedef.RuntimeConfigOutput(deployable)
if deployable.MountRuntimeConfigPath != "" {
ensure.ConfigurationVolumeName = "namespace-rtconfig"
mainContainer = mainContainer.WithVolumeMounts(
applycorev1.VolumeMount().
WithMountPath(deployable.MountRuntimeConfigPath).
WithName(ensure.ConfigurationVolumeName).
WithReadOnly(true))
}
}
for _, sidecar := range deployable.Sidecars {
if sidecar.Name == "" {
return fnerrors.InternalError("sidecar name is missing")
}
name := sidecarName(sidecar, "sidecar")
for _, c := range containers {
if name == c {
return fnerrors.NewWithLocation(deployable.ErrorLocation, "duplicate sidecar container name: %s", name)
}
}
containers = append(containers, name)
sidecarSecCtx, err := makeSecurityContext(sidecar.ContainerRunOpts)
if err != nil {
return fnerrors.AttachLocation(deployable.ErrorLocation, err)
}
scntr := applycorev1.Container().
WithName(name).
WithTerminationMessagePolicy(corev1.TerminationMessageFallbackToLogsOnError).
WithImage(sidecar.Image.RepoAndDigest()).
WithArgs(sidecar.Args...).
WithCommand(sidecar.Command...).
WithSecurityContext(sidecarSecCtx)
// XXX remove this
scntr = scntr.WithEnv(
applycorev1.EnvVar().WithName("FN_KUBERNETES_NAMESPACE").WithValue(target.namespace),
applycorev1.EnvVar().WithName("FN_SERVER_ID").WithValue(deployable.GetId()),
applycorev1.EnvVar().WithName("FN_SERVER_NAME").WithValue(deployable.Name),
)
if _, err := fillEnv(ctx, deployable.RuntimeConfig, scntr, sidecar.Env, seccol, &ensure); err != nil {
return err
}
// Share all mounts with sidecards for now.
// XXX security review this.
scntr.VolumeMounts = mainContainer.VolumeMounts
spec.WithContainers(scntr)
}
for _, init := range deployable.Inits {
if init.Name == "" {
return fnerrors.InternalError("sidecar name is missing")
}
name := sidecarName(init, "init")
for _, c := range containers {
if name == c {
return fnerrors.NewWithLocation(deployable.ErrorLocation, "duplicate init container name: %s", name)
}
}
containers = append(containers, name)
scntr := applycorev1.Container().
WithName(name).
WithTerminationMessagePolicy(corev1.TerminationMessageFallbackToLogsOnError).
WithImage(init.Image.RepoAndDigest()).
WithArgs(append(init.Args, initArgs[init.BinaryRef.Canonical()]...)...).
WithCommand(init.Command...).
WithVolumeMounts(initVolumeMounts...)
if _, err := fillEnv(ctx, deployable.RuntimeConfig, scntr, init.Env, seccol, &ensure); err != nil {
return err
}
spec.WithInitContainers(scntr)
}
s.operations = append(s.operations, seccol.planDeployment(target.namespace, annotations, labels)...)
podSecCtx := applycorev1.PodSecurityContext()
if specifiedSec == nil {
toparse := map[string]any{
"defaults/pod.podsecuritycontext.yaml": podSecCtx,
}
for path, obj := range toparse {
contents, err := fs.ReadFile(defaults, path)
if err != nil {
return fnerrors.InternalError("internal kubernetes data failed to read: %w", err)
}
if err := yaml.Unmarshal(contents, obj); err != nil {
return fnerrors.InternalError("%s: failed to parse defaults: %w", path, err)
}
}
} else {
if specifiedSec.RunAsUser != 0 {
podSecCtx = podSecCtx.WithRunAsUser(specifiedSec.RunAsUser)
}
if specifiedSec.RunAsGroup != 0 {
podSecCtx = podSecCtx.WithRunAsGroup(specifiedSec.RunAsGroup)
}
if specifiedSec.FsGroup != 0 {
podSecCtx = podSecCtx.WithFSGroup(specifiedSec.FsGroup)
}
}
if _, err := runAsToPodSecCtx(podSecCtx, deployable.MainContainer.RunAs); err != nil {
return fnerrors.AttachLocation(deployable.ErrorLocation, err)
}
if deployable.MainContainer.Privileged {
podSecCtx = podSecCtx.WithRunAsUser(0).WithRunAsGroup(0)
}
if deployable.MainContainer.HostNetwork {
spec = spec.WithHostNetwork(true).WithDNSPolicy(corev1.DNSClusterFirstWithHostNet)
}
spec = spec.
WithSecurityContext(podSecCtx).
WithContainers(mainContainer).
WithAutomountServiceAccountToken(serviceAccount != "")
if serviceAccount != "" {
spec = spec.WithServiceAccountName(serviceAccount)
}
tmpl = tmpl.WithSpec(spec)
if createServiceAccount {
annotations := map[string]string{}
for _, ann := range serviceAccountAnnotations {
annotations[ann.Key] = ann.Value
}
s.operations = append(s.operations, kubedef.Apply{
Description: "Service Account",
Resource: applycorev1.ServiceAccount(serviceAccount, target.namespace).
WithLabels(labels).
WithAnnotations(annotations),
})
} else {
if len(serviceAccountAnnotations) > 0 {
return fnerrors.NewWithLocation(deployable.ErrorLocation, "can't set service account annotations without ensure_service_account")
}
}
// We don't deploy managed deployments or statefulsets in tests, as these are one-shot
// servers which we want to control a bit more carefully. For example, we want to deploy
// them with restart_policy=never, which we would otherwise not be able to do with
// deployments.
if deployAsPods(target.env) || isOneShotLike(deployable.Class) {
desc := fmt.Sprintf("Server %s", deployable.Name)
if isOneShotLike(deployable.Class) {
desc = fmt.Sprintf("One-shot %s", deployable.Name)
// TODO make this configurable
tmpl.Spec = tmpl.Spec.WithActiveDeadlineSeconds(int64(defaultOneShotDeadline.Seconds()))
}
ensure.Description = firstStr(deployable.Description, desc)
ensure.Resource = applycorev1.Pod(deploymentId, target.namespace).
WithAnnotations(annotations).
WithAnnotations(tmpl.Annotations).
WithLabels(labels).
WithLabels(tmpl.Labels).
WithSpec(tmpl.Spec.WithRestartPolicy(corev1.RestartPolicyNever))
} else {
replicas := int32(1)
if deployable.Replicas > 0 {
replicas = deployable.Replicas
}
switch deployable.Class {
case schema.DeployableClass_STATELESS:
ensure.Description = firstStr(deployable.Description, fmt.Sprintf("Server Deployment %s", deployable.Name))
deployment := appsv1.
Deployment(deploymentId, target.namespace).
WithAnnotations(annotations).
WithLabels(labels).
WithSpec(appsv1.DeploymentSpec().
WithReplicas(replicas).
WithRevisionHistoryLimit(revisionHistoryLimit).
WithTemplate(tmpl).
WithSelector(applymetav1.LabelSelector().WithMatchLabels(kubedef.SelectById(deployable))))
if deployable.ConfigImage != nil {
deployment.WithAnnotations(map[string]string{
kubedef.K8sConfigImage: deployable.ConfigImage.RepoAndDigest(),
})
}
ensure.Resource = deployment
case schema.DeployableClass_STATEFUL:
ensure.Description = firstStr(deployable.Description, fmt.Sprintf("Server StatefulSet %s", deployable.Name))
statefulSet := appsv1.
StatefulSet(deploymentId, target.namespace).
WithAnnotations(annotations).
WithLabels(labels).
WithSpec(appsv1.StatefulSetSpec().
WithReplicas(replicas).
WithRevisionHistoryLimit(revisionHistoryLimit).
WithTemplate(tmpl).
WithSelector(applymetav1.LabelSelector().WithMatchLabels(kubedef.SelectById(deployable))))
if deployable.ConfigImage != nil {
statefulSet.WithAnnotations(map[string]string{
kubedef.K8sConfigImage: deployable.ConfigImage.RepoAndDigest(),
})
}
ensure.Resource = statefulSet
case schema.DeployableClass_DAEMONSET:
ensure.Description = firstStr(deployable.Description, fmt.Sprintf("Server DaemonSet %s", deployable.Name))
deployment := appsv1.
DaemonSet(deploymentId, target.namespace).
WithAnnotations(annotations).
WithLabels(labels).
WithSpec(appsv1.DaemonSetSpec().
WithRevisionHistoryLimit(revisionHistoryLimit).
WithTemplate(tmpl).
WithSelector(applymetav1.LabelSelector().WithMatchLabels(kubedef.SelectById(deployable))))
if deployable.ConfigImage != nil {
deployment.WithAnnotations(map[string]string{
kubedef.K8sConfigImage: deployable.ConfigImage.RepoAndDigest(),
})
}
ensure.Resource = deployment
default:
return fnerrors.InternalError("%s: unsupported deployable class", deployable.Class)
}
}
s.operations = append(s.operations, ensure)
return nil
}
func firstStr(strs ...string) string {
for _, str := range strs {
if str != "" {
return str
}
}
return ""
}
func isOneShotLike(class schema.DeployableClass) bool {
return class == schema.DeployableClass_ONESHOT || class == schema.DeployableClass_MANUAL
}
type collector struct {
data map[string]string
binaryData map[string][]byte
}
func newDataItemCollector() *collector {
return &collector{data: map[string]string{}, binaryData: map[string][]byte{}}
}
func (cm *collector) set(key string, rsc []byte) {
cm.binaryData[key] = rsc
}
func makeConfigEntry(hash io.Writer, entry *schema.ConfigurableVolume_Entry, rsc *schema.FileContents, cm *collector) *applycorev1.KeyToPathApplyConfiguration {
key := kubenaming.DomainFragLike(entry.Path, rsc.Path)
fmt.Fprintf(hash, "%s:", key)
_, _ = hash.Write(rsc.Contents)
fmt.Fprintln(hash)
cm.set(key, rsc.Contents)
return applycorev1.KeyToPath().WithKey(key)
}
func sidecarName(o runtime.SidecarRunOpts, prefix string) string {
return fmt.Sprintf("%s-%s", prefix, o.Name)
}
func deployEndpoint(ctx context.Context, r BoundNamespace, deployable runtime.DeployableSpec, endpoint *schema.Endpoint, s *serverRunState) error {
serviceSpec := applycorev1.ServiceSpec().WithSelector(kubedef.SelectById(deployable))
port := endpoint.Port
if port != nil {
serviceSpec = serviceSpec.WithPorts(
applycorev1.ServicePort().
WithProtocol(corev1.ProtocolTCP).
WithName(port.Name).
WithPort(endpoint.ExportedPort).
WithTargetPort(intstr.FromInt(int(port.ContainerPort))))
if endpoint.Type == schema.Endpoint_LOAD_BALANCER {
serviceSpec = serviceSpec.WithType(corev1.ServiceTypeLoadBalancer)
}
serviceAnnotations, err := kubedef.MakeServiceAnnotations(endpoint)
if err != nil {
return err
}
for _, md := range endpoint.ServiceMetadata {
x := &schema.ServiceAnnotations{}
if md.Details.MessageIs(x) {
if err := md.Details.UnmarshalTo(x); err != nil {
return fnerrors.InternalError("failed to unmarshal ServiceAnnotations: %w", err)
}