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postgres-operator/pkg/cluster/k8sres.go

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package cluster
import (
"context"
"encoding/json"
"fmt"
"path"
"sort"
"strings"
"github.com/sirupsen/logrus"
appsv1 "k8s.io/api/apps/v1"
v1 "k8s.io/api/core/v1"
policybeta1 "k8s.io/api/policy/v1beta1"
"k8s.io/apimachinery/pkg/api/resource"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/types"
"k8s.io/apimachinery/pkg/util/intstr"
acidv1 "github.com/zalando/postgres-operator/pkg/apis/acid.zalan.do/v1"
"github.com/zalando/postgres-operator/pkg/spec"
"github.com/zalando/postgres-operator/pkg/util"
"github.com/zalando/postgres-operator/pkg/util/config"
"github.com/zalando/postgres-operator/pkg/util/constants"
"github.com/zalando/postgres-operator/pkg/util/k8sutil"
batchv1 "k8s.io/api/batch/v1"
batchv1beta1 "k8s.io/api/batch/v1beta1"
"k8s.io/apimachinery/pkg/labels"
)
const (
pgBinariesLocationTemplate = "/usr/lib/postgresql/%v/bin"
patroniPGBinariesParameterName = "bin_dir"
patroniPGParametersParameterName = "parameters"
patroniPGHBAConfParameterName = "pg_hba"
localHost = "127.0.0.1/32"
connectionPoolerContainer = "connection-pooler"
pgPort = 5432
)
type pgUser struct {
Password string `json:"password"`
Options []string `json:"options"`
}
type patroniDCS struct {
TTL uint32 `json:"ttl,omitempty"`
LoopWait uint32 `json:"loop_wait,omitempty"`
RetryTimeout uint32 `json:"retry_timeout,omitempty"`
MaximumLagOnFailover float32 `json:"maximum_lag_on_failover,omitempty"`
SynchronousMode bool `json:"synchronous_mode,omitempty"`
SynchronousModeStrict bool `json:"synchronous_mode_strict,omitempty"`
PGBootstrapConfiguration map[string]interface{} `json:"postgresql,omitempty"`
Slots map[string]map[string]string `json:"slots,omitempty"`
}
type pgBootstrap struct {
Initdb []interface{} `json:"initdb"`
Users map[string]pgUser `json:"users"`
DCS patroniDCS `json:"dcs,omitempty"`
}
type spiloConfiguration struct {
PgLocalConfiguration map[string]interface{} `json:"postgresql"`
Bootstrap pgBootstrap `json:"bootstrap"`
}
func (c *Cluster) containerName() string {
return "postgres"
}
func (c *Cluster) statefulSetName() string {
return c.Name
}
func (c *Cluster) endpointName(role PostgresRole) string {
name := c.Name
if role == Replica {
name = name + "-repl"
}
return name
}
func (c *Cluster) serviceName(role PostgresRole) string {
name := c.Name
if role == Replica {
name = name + "-repl"
}
return name
}
func (c *Cluster) serviceAddress(role PostgresRole) string {
service, exist := c.Services[role]
if exist {
return service.ObjectMeta.Name
}
c.logger.Warningf("No service for role %s", role)
return ""
}
func (c *Cluster) servicePort(role PostgresRole) string {
service, exist := c.Services[role]
if exist {
return fmt.Sprint(service.Spec.Ports[0].Port)
}
c.logger.Warningf("No service for role %s", role)
return ""
}
func (c *Cluster) podDisruptionBudgetName() string {
return c.OpConfig.PDBNameFormat.Format("cluster", c.Name)
}
func (c *Cluster) makeDefaultResources() acidv1.Resources {
config := c.OpConfig
defaultRequests := acidv1.ResourceDescription{
CPU: config.Resources.DefaultCPURequest,
Memory: config.Resources.DefaultMemoryRequest,
}
defaultLimits := acidv1.ResourceDescription{
CPU: config.Resources.DefaultCPULimit,
Memory: config.Resources.DefaultMemoryLimit,
}
return acidv1.Resources{
ResourceRequests: defaultRequests,
ResourceLimits: defaultLimits,
}
}
func generateResourceRequirements(resources acidv1.Resources, defaultResources acidv1.Resources) (*v1.ResourceRequirements, error) {
var err error
specRequests := resources.ResourceRequests
specLimits := resources.ResourceLimits
result := v1.ResourceRequirements{}
result.Requests, err = fillResourceList(specRequests, defaultResources.ResourceRequests)
if err != nil {
return nil, fmt.Errorf("could not fill resource requests: %v", err)
}
result.Limits, err = fillResourceList(specLimits, defaultResources.ResourceLimits)
if err != nil {
return nil, fmt.Errorf("could not fill resource limits: %v", err)
}
return &result, nil
}
func fillResourceList(spec acidv1.ResourceDescription, defaults acidv1.ResourceDescription) (v1.ResourceList, error) {
var err error
requests := v1.ResourceList{}
if spec.CPU != "" {
requests[v1.ResourceCPU], err = resource.ParseQuantity(spec.CPU)
if err != nil {
return nil, fmt.Errorf("could not parse CPU quantity: %v", err)
}
} else {
requests[v1.ResourceCPU], err = resource.ParseQuantity(defaults.CPU)
if err != nil {
return nil, fmt.Errorf("could not parse default CPU quantity: %v", err)
}
}
if spec.Memory != "" {
requests[v1.ResourceMemory], err = resource.ParseQuantity(spec.Memory)
if err != nil {
return nil, fmt.Errorf("could not parse memory quantity: %v", err)
}
} else {
requests[v1.ResourceMemory], err = resource.ParseQuantity(defaults.Memory)
if err != nil {
return nil, fmt.Errorf("could not parse default memory quantity: %v", err)
}
}
return requests, nil
}
func generateSpiloJSONConfiguration(pg *acidv1.PostgresqlParam, patroni *acidv1.Patroni, pamRoleName string, EnablePgVersionEnvVar bool, logger *logrus.Entry) (string, error) {
config := spiloConfiguration{}
config.Bootstrap = pgBootstrap{}
config.Bootstrap.Initdb = []interface{}{map[string]string{"auth-host": "md5"},
map[string]string{"auth-local": "trust"}}
initdbOptionNames := []string{}
for k := range patroni.InitDB {
initdbOptionNames = append(initdbOptionNames, k)
}
/* We need to sort the user-defined options to more easily compare the resulting specs */
sort.Strings(initdbOptionNames)
// Initdb parameters in the manifest take priority over the default ones
// The whole type switch dance is caused by the ability to specify both
// maps and normal string items in the array of initdb options. We need
// both to convert the initial key-value to strings when necessary, and
// to de-duplicate the options supplied.
PatroniInitDBParams:
for _, k := range initdbOptionNames {
v := patroni.InitDB[k]
for i, defaultParam := range config.Bootstrap.Initdb {
switch defaultParam.(type) {
case map[string]string:
{
for k1 := range defaultParam.(map[string]string) {
if k1 == k {
(config.Bootstrap.Initdb[i]).(map[string]string)[k] = v
continue PatroniInitDBParams
}
}
}
case string:
{
/* if the option already occurs in the list */
if defaultParam.(string) == v {
continue PatroniInitDBParams
}
}
default:
logger.Warningf("unsupported type for initdb configuration item %s: %T", defaultParam, defaultParam)
continue PatroniInitDBParams
}
}
// The following options are known to have no parameters
if v == "true" {
switch k {
case "data-checksums", "debug", "no-locale", "noclean", "nosync", "sync-only":
config.Bootstrap.Initdb = append(config.Bootstrap.Initdb, k)
continue
}
}
config.Bootstrap.Initdb = append(config.Bootstrap.Initdb, map[string]string{k: v})
}
if patroni.MaximumLagOnFailover >= 0 {
config.Bootstrap.DCS.MaximumLagOnFailover = patroni.MaximumLagOnFailover
}
if patroni.LoopWait != 0 {
config.Bootstrap.DCS.LoopWait = patroni.LoopWait
}
if patroni.RetryTimeout != 0 {
config.Bootstrap.DCS.RetryTimeout = patroni.RetryTimeout
}
if patroni.TTL != 0 {
config.Bootstrap.DCS.TTL = patroni.TTL
}
if patroni.Slots != nil {
config.Bootstrap.DCS.Slots = patroni.Slots
}
if patroni.SynchronousMode {
config.Bootstrap.DCS.SynchronousMode = patroni.SynchronousMode
}
if patroni.SynchronousModeStrict != false {
config.Bootstrap.DCS.SynchronousModeStrict = patroni.SynchronousModeStrict
}
config.PgLocalConfiguration = make(map[string]interface{})
// the newer and preferred way to specify the PG version is to use the `PGVERSION` env variable
// setting postgresq.bin_dir in the SPILO_CONFIGURATION still works and takes precedence over PGVERSION
// so we add postgresq.bin_dir only if PGVERSION is unused
// see PR 222 in Spilo
if !EnablePgVersionEnvVar {
config.PgLocalConfiguration[patroniPGBinariesParameterName] = fmt.Sprintf(pgBinariesLocationTemplate, pg.PgVersion)
}
if len(pg.Parameters) > 0 {
local, bootstrap := getLocalAndBoostrapPostgreSQLParameters(pg.Parameters)
if len(local) > 0 {
config.PgLocalConfiguration[patroniPGParametersParameterName] = local
}
if len(bootstrap) > 0 {
config.Bootstrap.DCS.PGBootstrapConfiguration = make(map[string]interface{})
config.Bootstrap.DCS.PGBootstrapConfiguration[patroniPGParametersParameterName] = bootstrap
}
}
// Patroni gives us a choice of writing pg_hba.conf to either the bootstrap section or to the local postgresql one.
// We choose the local one, because we need Patroni to change pg_hba.conf in PostgreSQL after the user changes the
// relevant section in the manifest.
if len(patroni.PgHba) > 0 {
config.PgLocalConfiguration[patroniPGHBAConfParameterName] = patroni.PgHba
}
config.Bootstrap.Users = map[string]pgUser{
pamRoleName: {
Password: "",
Options: []string{constants.RoleFlagCreateDB, constants.RoleFlagNoLogin},
},
}
res, err := json.Marshal(config)
return string(res), err
}
func getLocalAndBoostrapPostgreSQLParameters(parameters map[string]string) (local, bootstrap map[string]string) {
local = make(map[string]string)
bootstrap = make(map[string]string)
for param, val := range parameters {
if isBootstrapOnlyParameter(param) {
bootstrap[param] = val
} else {
local[param] = val
}
}
return
}
func generateCapabilities(capabilities []string) *v1.Capabilities {
additionalCapabilities := make([]v1.Capability, 0, len(capabilities))
for _, capability := range capabilities {
additionalCapabilities = append(additionalCapabilities, v1.Capability(strings.ToUpper(capability)))
}
if len(additionalCapabilities) > 0 {
return &v1.Capabilities{
Add: additionalCapabilities,
}
}
return nil
}
func nodeAffinity(nodeReadinessLabel map[string]string, nodeAffinity *v1.NodeAffinity) *v1.Affinity {
if len(nodeReadinessLabel) == 0 && nodeAffinity == nil {
return nil
}
nodeAffinityCopy := *&v1.NodeAffinity{}
if nodeAffinity != nil {
nodeAffinityCopy = *nodeAffinity.DeepCopy()
}
if len(nodeReadinessLabel) > 0 {
matchExpressions := make([]v1.NodeSelectorRequirement, 0)
for k, v := range nodeReadinessLabel {
matchExpressions = append(matchExpressions, v1.NodeSelectorRequirement{
Key: k,
Operator: v1.NodeSelectorOpIn,
Values: []string{v},
})
}
nodeReadinessSelectorTerm := v1.NodeSelectorTerm{MatchExpressions: matchExpressions}
if nodeAffinityCopy.RequiredDuringSchedulingIgnoredDuringExecution == nil {
nodeAffinityCopy.RequiredDuringSchedulingIgnoredDuringExecution = &v1.NodeSelector{
NodeSelectorTerms: []v1.NodeSelectorTerm{
nodeReadinessSelectorTerm,
},
}
} else {
nodeAffinityCopy.RequiredDuringSchedulingIgnoredDuringExecution = &v1.NodeSelector{
NodeSelectorTerms: append(nodeAffinityCopy.RequiredDuringSchedulingIgnoredDuringExecution.NodeSelectorTerms, nodeReadinessSelectorTerm),
}
}
}
return &v1.Affinity{
NodeAffinity: &nodeAffinityCopy,
}
}
func generatePodAffinity(labels labels.Set, topologyKey string, nodeAffinity *v1.Affinity) *v1.Affinity {
// generate pod anti-affinity to avoid multiple pods of the same Postgres cluster in the same topology , e.g. node
podAffinity := v1.Affinity{
PodAntiAffinity: &v1.PodAntiAffinity{
RequiredDuringSchedulingIgnoredDuringExecution: []v1.PodAffinityTerm{{
LabelSelector: &metav1.LabelSelector{
MatchLabels: labels,
},
TopologyKey: topologyKey,
}},
},
}
if nodeAffinity != nil && nodeAffinity.NodeAffinity != nil {
podAffinity.NodeAffinity = nodeAffinity.NodeAffinity
}
return &podAffinity
}
func tolerations(tolerationsSpec *[]v1.Toleration, podToleration map[string]string) []v1.Toleration {
// allow to override tolerations by postgresql manifest
if len(*tolerationsSpec) > 0 {
return *tolerationsSpec
}
if len(podToleration["key"]) > 0 ||
len(podToleration["operator"]) > 0 ||
len(podToleration["value"]) > 0 ||
len(podToleration["effect"]) > 0 {
return []v1.Toleration{
{
Key: podToleration["key"],
Operator: v1.TolerationOperator(podToleration["operator"]),
Value: podToleration["value"],
Effect: v1.TaintEffect(podToleration["effect"]),
},
}
}
return []v1.Toleration{}
}
// isBootstrapOnlyParameter checks against special Patroni bootstrap parameters.
// Those parameters must go to the bootstrap/dcs/postgresql/parameters section.
// See http://patroni.readthedocs.io/en/latest/dynamic_configuration.html.
func isBootstrapOnlyParameter(param string) bool {
return param == "max_connections" ||
param == "max_locks_per_transaction" ||
param == "max_worker_processes" ||
param == "max_prepared_transactions" ||
param == "wal_level" ||
param == "wal_log_hints" ||
param == "track_commit_timestamp"
}
func generateVolumeMounts(volume acidv1.Volume) []v1.VolumeMount {
return []v1.VolumeMount{
{
Name: constants.DataVolumeName,
MountPath: constants.PostgresDataMount, //TODO: fetch from manifest
SubPath: volume.SubPath,
},
}
}
func generateContainer(
name string,
dockerImage *string,
resourceRequirements *v1.ResourceRequirements,
envVars []v1.EnvVar,
volumeMounts []v1.VolumeMount,
privilegedMode bool,
privilegeEscalationMode *bool,
additionalPodCapabilities *v1.Capabilities,
) *v1.Container {
return &v1.Container{
Name: name,
Image: *dockerImage,
ImagePullPolicy: v1.PullIfNotPresent,
Resources: *resourceRequirements,
Ports: []v1.ContainerPort{
{
ContainerPort: 8008,
Protocol: v1.ProtocolTCP,
},
{
ContainerPort: 5432,
Protocol: v1.ProtocolTCP,
},
{
ContainerPort: 8080,
Protocol: v1.ProtocolTCP,
},
},
VolumeMounts: volumeMounts,
Env: envVars,
SecurityContext: &v1.SecurityContext{
AllowPrivilegeEscalation: privilegeEscalationMode,
Privileged: &privilegedMode,
ReadOnlyRootFilesystem: util.False(),
Capabilities: additionalPodCapabilities,
},
}
}
func generateSidecarContainers(sidecars []acidv1.Sidecar,
defaultResources acidv1.Resources, startIndex int, logger *logrus.Entry) ([]v1.Container, error) {
if len(sidecars) > 0 {
result := make([]v1.Container, 0)
for index, sidecar := range sidecars {
resources, err := generateResourceRequirements(
makeResources(
sidecar.Resources.ResourceRequests.CPU,
sidecar.Resources.ResourceRequests.Memory,
sidecar.Resources.ResourceLimits.CPU,
sidecar.Resources.ResourceLimits.Memory,
),
defaultResources,
)
if err != nil {
return nil, err
}
sc := getSidecarContainer(sidecar, startIndex+index, resources)
result = append(result, *sc)
}
return result, nil
}
return nil, nil
}
// adds common fields to sidecars
func patchSidecarContainers(in []v1.Container, volumeMounts []v1.VolumeMount, superUserName string, credentialsSecretName string, logger *logrus.Entry) []v1.Container {
result := []v1.Container{}
for _, container := range in {
container.VolumeMounts = append(container.VolumeMounts, volumeMounts...)
env := []v1.EnvVar{
{
Name: "POD_NAME",
ValueFrom: &v1.EnvVarSource{
FieldRef: &v1.ObjectFieldSelector{
APIVersion: "v1",
FieldPath: "metadata.name",
},
},
},
{
Name: "POD_NAMESPACE",
ValueFrom: &v1.EnvVarSource{
FieldRef: &v1.ObjectFieldSelector{
APIVersion: "v1",
FieldPath: "metadata.namespace",
},
},
},
{
Name: "POSTGRES_USER",
Value: superUserName,
},
{
Name: "POSTGRES_PASSWORD",
ValueFrom: &v1.EnvVarSource{
SecretKeyRef: &v1.SecretKeySelector{
LocalObjectReference: v1.LocalObjectReference{
Name: credentialsSecretName,
},
Key: "password",
},
},
},
}
mergedEnv := append(env, container.Env...)
container.Env = deduplicateEnvVars(mergedEnv, container.Name, logger)
result = append(result, container)
}
return result
}
// Check whether or not we're requested to mount an shm volume,
// taking into account that PostgreSQL manifest has precedence.
func mountShmVolumeNeeded(opConfig config.Config, spec *acidv1.PostgresSpec) *bool {
if spec.ShmVolume != nil && *spec.ShmVolume {
return spec.ShmVolume
}
return opConfig.ShmVolume
}
func (c *Cluster) generatePodTemplate(
namespace string,
labels labels.Set,
annotations map[string]string,
spiloContainer *v1.Container,
initContainers []v1.Container,
sidecarContainers []v1.Container,
tolerationsSpec *[]v1.Toleration,
spiloRunAsUser *int64,
spiloRunAsGroup *int64,
spiloFSGroup *int64,
nodeAffinity *v1.Affinity,
schedulerName *string,
terminateGracePeriod int64,
podServiceAccountName string,
kubeIAMRole string,
priorityClassName string,
shmVolume *bool,
podAntiAffinity bool,
podAntiAffinityTopologyKey string,
additionalSecretMount string,
additionalSecretMountPath string,
additionalVolumes []acidv1.AdditionalVolume,
) (*v1.PodTemplateSpec, error) {
terminateGracePeriodSeconds := terminateGracePeriod
containers := []v1.Container{*spiloContainer}
containers = append(containers, sidecarContainers...)
securityContext := v1.PodSecurityContext{}
if spiloRunAsUser != nil {
securityContext.RunAsUser = spiloRunAsUser
}
if spiloRunAsGroup != nil {
securityContext.RunAsGroup = spiloRunAsGroup
}
if spiloFSGroup != nil {
securityContext.FSGroup = spiloFSGroup
}
podSpec := v1.PodSpec{
ServiceAccountName: podServiceAccountName,
TerminationGracePeriodSeconds: &terminateGracePeriodSeconds,
Containers: containers,
InitContainers: initContainers,
Tolerations: *tolerationsSpec,
SecurityContext: &securityContext,
}
if schedulerName != nil {
podSpec.SchedulerName = *schedulerName
}
if shmVolume != nil && *shmVolume {
addShmVolume(&podSpec)
}
if podAntiAffinity {
podSpec.Affinity = generatePodAffinity(labels, podAntiAffinityTopologyKey, nodeAffinity)
} else if nodeAffinity != nil {
podSpec.Affinity = nodeAffinity
}
if priorityClassName != "" {
podSpec.PriorityClassName = priorityClassName
}
if additionalSecretMount != "" {
addSecretVolume(&podSpec, additionalSecretMount, additionalSecretMountPath)
}
if additionalVolumes != nil {
c.addAdditionalVolumes(&podSpec, additionalVolumes)
}
template := v1.PodTemplateSpec{
ObjectMeta: metav1.ObjectMeta{
Labels: labels,
Namespace: namespace,
Annotations: annotations,
},
Spec: podSpec,
}
if kubeIAMRole != "" {
if template.Annotations == nil {
template.Annotations = make(map[string]string)
}
template.Annotations[constants.KubeIAmAnnotation] = kubeIAMRole
}
return &template, nil
}
// generatePodEnvVars generates environment variables for the Spilo Pod
func (c *Cluster) generateSpiloPodEnvVars(uid types.UID, spiloConfiguration string, cloneDescription *acidv1.CloneDescription, standbyDescription *acidv1.StandbyDescription, customPodEnvVarsList []v1.EnvVar) []v1.EnvVar {
envVars := []v1.EnvVar{
{
Name: "SCOPE",
Value: c.Name,
},
{
Name: "PGROOT",
Value: constants.PostgresDataPath,
},
{
Name: "POD_IP",
ValueFrom: &v1.EnvVarSource{
FieldRef: &v1.ObjectFieldSelector{
APIVersion: "v1",
FieldPath: "status.podIP",
},
},
},
{
Name: "POD_NAMESPACE",
ValueFrom: &v1.EnvVarSource{
FieldRef: &v1.ObjectFieldSelector{
APIVersion: "v1",
FieldPath: "metadata.namespace",
},
},
},
{
Name: "PGUSER_SUPERUSER",
Value: c.OpConfig.SuperUsername,
},
{
Name: "KUBERNETES_SCOPE_LABEL",
Value: c.OpConfig.ClusterNameLabel,
},
{
Name: "KUBERNETES_ROLE_LABEL",
Value: c.OpConfig.PodRoleLabel,
},
{
Name: "PGPASSWORD_SUPERUSER",
ValueFrom: &v1.EnvVarSource{
SecretKeyRef: &v1.SecretKeySelector{
LocalObjectReference: v1.LocalObjectReference{
Name: c.credentialSecretName(c.OpConfig.SuperUsername),
},
Key: "password",
},
},
},
{
Name: "PGUSER_STANDBY",
Value: c.OpConfig.ReplicationUsername,
},
{
Name: "PGPASSWORD_STANDBY",
ValueFrom: &v1.EnvVarSource{
SecretKeyRef: &v1.SecretKeySelector{
LocalObjectReference: v1.LocalObjectReference{
Name: c.credentialSecretName(c.OpConfig.ReplicationUsername),
},
Key: "password",
},
},
},
{
Name: "PAM_OAUTH2",
Value: c.OpConfig.PamConfiguration,
},
{
Name: "HUMAN_ROLE",
Value: c.OpConfig.PamRoleName,
},
}
if c.OpConfig.EnablePgVersionEnvVar {
envVars = append(envVars, v1.EnvVar{Name: "PGVERSION", Value: c.GetDesiredMajorVersion()})
}
// Spilo expects cluster labels as JSON
if clusterLabels, err := json.Marshal(labels.Set(c.OpConfig.ClusterLabels)); err != nil {
envVars = append(envVars, v1.EnvVar{Name: "KUBERNETES_LABELS", Value: labels.Set(c.OpConfig.ClusterLabels).String()})
} else {
envVars = append(envVars, v1.EnvVar{Name: "KUBERNETES_LABELS", Value: string(clusterLabels)})
}
if spiloConfiguration != "" {
envVars = append(envVars, v1.EnvVar{Name: "SPILO_CONFIGURATION", Value: spiloConfiguration})
}
if c.patroniUsesKubernetes() {
envVars = append(envVars, v1.EnvVar{Name: "DCS_ENABLE_KUBERNETES_API", Value: "true"})
} else {
envVars = append(envVars, v1.EnvVar{Name: "ETCD_HOST", Value: c.OpConfig.EtcdHost})
}
if c.patroniKubernetesUseConfigMaps() {
envVars = append(envVars, v1.EnvVar{Name: "KUBERNETES_USE_CONFIGMAPS", Value: "true"})
}
if cloneDescription != nil && cloneDescription.ClusterName != "" {
envVars = append(envVars, c.generateCloneEnvironment(cloneDescription)...)
}
if c.Spec.StandbyCluster != nil {
envVars = append(envVars, c.generateStandbyEnvironment(standbyDescription)...)
}
// add vars taken from pod_environment_configmap and pod_environment_secret first
// (to allow them to override the globals set in the operator config)
if len(customPodEnvVarsList) > 0 {
envVars = append(envVars, customPodEnvVarsList...)
}
if c.OpConfig.WALES3Bucket != "" {
envVars = append(envVars, v1.EnvVar{Name: "WAL_S3_BUCKET", Value: c.OpConfig.WALES3Bucket})
envVars = append(envVars, v1.EnvVar{Name: "WAL_BUCKET_SCOPE_SUFFIX", Value: getBucketScopeSuffix(string(uid))})
envVars = append(envVars, v1.EnvVar{Name: "WAL_BUCKET_SCOPE_PREFIX", Value: ""})
}
if c.OpConfig.WALGSBucket != "" {
envVars = append(envVars, v1.EnvVar{Name: "WAL_GS_BUCKET", Value: c.OpConfig.WALGSBucket})
envVars = append(envVars, v1.EnvVar{Name: "WAL_BUCKET_SCOPE_SUFFIX", Value: getBucketScopeSuffix(string(uid))})
envVars = append(envVars, v1.EnvVar{Name: "WAL_BUCKET_SCOPE_PREFIX", Value: ""})
}
if c.OpConfig.GCPCredentials != "" {
envVars = append(envVars, v1.EnvVar{Name: "GOOGLE_APPLICATION_CREDENTIALS", Value: c.OpConfig.GCPCredentials})
}
if c.OpConfig.LogS3Bucket != "" {
envVars = append(envVars, v1.EnvVar{Name: "LOG_S3_BUCKET", Value: c.OpConfig.LogS3Bucket})
envVars = append(envVars, v1.EnvVar{Name: "LOG_BUCKET_SCOPE_SUFFIX", Value: getBucketScopeSuffix(string(uid))})
envVars = append(envVars, v1.EnvVar{Name: "LOG_BUCKET_SCOPE_PREFIX", Value: ""})
}
return envVars
}
// deduplicateEnvVars makes sure there are no duplicate in the target envVar array. While Kubernetes already
// deduplicates variables defined in a container, it leaves the last definition in the list and this behavior is not
// well-documented, which means that the behavior can be reversed at some point (it may also start producing an error).
// Therefore, the merge is done by the operator, the entries that are ahead in the passed list take priority over those
// that are behind, and only the name is considered in order to eliminate duplicates.
func deduplicateEnvVars(input []v1.EnvVar, containerName string, logger *logrus.Entry) []v1.EnvVar {
result := make([]v1.EnvVar, 0)
names := make(map[string]int)
for i, va := range input {
if names[va.Name] == 0 {
names[va.Name]++
result = append(result, input[i])
} else if names[va.Name] == 1 {
names[va.Name]++
// Some variables (those to configure the WAL_ and LOG_ shipping) may be overwritten, only log as info
if strings.HasPrefix(va.Name, "WAL_") || strings.HasPrefix(va.Name, "LOG_") {
logger.Infof("global variable %q has been overwritten by configmap/secret for container %q",
va.Name, containerName)
} else {
logger.Warningf("variable %q is defined in %q more than once, the subsequent definitions are ignored",
va.Name, containerName)
}
}
}
return result
}
// Return list of variables the pod recieved from the configured ConfigMap
func (c *Cluster) getPodEnvironmentConfigMapVariables() ([]v1.EnvVar, error) {
configMapPodEnvVarsList := make([]v1.EnvVar, 0)
if c.OpConfig.PodEnvironmentConfigMap.Name == "" {
return configMapPodEnvVarsList, nil
}
cm, err := c.KubeClient.ConfigMaps(c.OpConfig.PodEnvironmentConfigMap.Namespace).Get(
context.TODO(),
c.OpConfig.PodEnvironmentConfigMap.Name,
metav1.GetOptions{})
if err != nil {
// if not found, try again using the cluster's namespace if it's different (old behavior)
if k8sutil.ResourceNotFound(err) && c.Namespace != c.OpConfig.PodEnvironmentConfigMap.Namespace {
cm, err = c.KubeClient.ConfigMaps(c.Namespace).Get(
context.TODO(),
c.OpConfig.PodEnvironmentConfigMap.Name,
metav1.GetOptions{})
}
if err != nil {
return nil, fmt.Errorf("could not read PodEnvironmentConfigMap: %v", err)
}
}
for k, v := range cm.Data {
configMapPodEnvVarsList = append(configMapPodEnvVarsList, v1.EnvVar{Name: k, Value: v})
}
return configMapPodEnvVarsList, nil
}
// Return list of variables the pod received from the configured Secret
func (c *Cluster) getPodEnvironmentSecretVariables() ([]v1.EnvVar, error) {
secretPodEnvVarsList := make([]v1.EnvVar, 0)
if c.OpConfig.PodEnvironmentSecret == "" {
return secretPodEnvVarsList, nil
}
secret, err := c.KubeClient.Secrets(c.Namespace).Get(
context.TODO(),
c.OpConfig.PodEnvironmentSecret,
metav1.GetOptions{})
if err != nil {
return nil, fmt.Errorf("could not read Secret PodEnvironmentSecretName: %v", err)
}
for k := range secret.Data {
secretPodEnvVarsList = append(secretPodEnvVarsList,
v1.EnvVar{Name: k, ValueFrom: &v1.EnvVarSource{
SecretKeyRef: &v1.SecretKeySelector{
LocalObjectReference: v1.LocalObjectReference{
Name: c.OpConfig.PodEnvironmentSecret,
},
Key: k,
},
}})
}
return secretPodEnvVarsList, nil
}
func getSidecarContainer(sidecar acidv1.Sidecar, index int, resources *v1.ResourceRequirements) *v1.Container {
name := sidecar.Name
if name == "" {
name = fmt.Sprintf("sidecar-%d", index)
}
return &v1.Container{
Name: name,
Image: sidecar.DockerImage,
ImagePullPolicy: v1.PullIfNotPresent,
Resources: *resources,
Env: sidecar.Env,
Ports: sidecar.Ports,
}
}
func getBucketScopeSuffix(uid string) string {
if uid != "" {
return fmt.Sprintf("/%s", uid)
}
return ""
}
func makeResources(cpuRequest, memoryRequest, cpuLimit, memoryLimit string) acidv1.Resources {
return acidv1.Resources{
ResourceRequests: acidv1.ResourceDescription{
CPU: cpuRequest,
Memory: memoryRequest,
},
ResourceLimits: acidv1.ResourceDescription{
CPU: cpuLimit,
Memory: memoryLimit,
},
}
}
func extractPgVersionFromBinPath(binPath string, template string) (string, error) {
var pgVersion float32
_, err := fmt.Sscanf(binPath, template, &pgVersion)
if err != nil {
return "", err
}
return fmt.Sprintf("%v", pgVersion), nil
}
func (c *Cluster) generateStatefulSet(spec *acidv1.PostgresSpec) (*appsv1.StatefulSet, error) {
var (
err error
initContainers []v1.Container
sidecarContainers []v1.Container
podTemplate *v1.PodTemplateSpec
volumeClaimTemplate *v1.PersistentVolumeClaim
additionalVolumes = spec.AdditionalVolumes
)
// Improve me. Please.
if c.OpConfig.SetMemoryRequestToLimit {
// controller adjusts the default memory request at operator startup
request := spec.Resources.ResourceRequests.Memory
if request == "" {
request = c.OpConfig.Resources.DefaultMemoryRequest
}
limit := spec.Resources.ResourceLimits.Memory
if limit == "" {
limit = c.OpConfig.Resources.DefaultMemoryLimit
}
isSmaller, err := util.IsSmallerQuantity(request, limit)
if err != nil {
return nil, err
}
if isSmaller {
c.logger.Warningf("The memory request of %v for the Postgres container is increased to match the memory limit of %v.", request, limit)
spec.Resources.ResourceRequests.Memory = limit
}
// controller adjusts the Scalyr sidecar request at operator startup
// as this sidecar is managed separately
// adjust sidecar containers defined for that particular cluster
for _, sidecar := range spec.Sidecars {
// TODO #413
sidecarRequest := sidecar.Resources.ResourceRequests.Memory
if request == "" {
request = c.OpConfig.Resources.DefaultMemoryRequest
}
sidecarLimit := sidecar.Resources.ResourceLimits.Memory
if limit == "" {
limit = c.OpConfig.Resources.DefaultMemoryLimit
}
isSmaller, err := util.IsSmallerQuantity(sidecarRequest, sidecarLimit)
if err != nil {
return nil, err
}
if isSmaller {
c.logger.Warningf("The memory request of %v for the %v sidecar container is increased to match the memory limit of %v.", sidecar.Resources.ResourceRequests.Memory, sidecar.Name, sidecar.Resources.ResourceLimits.Memory)
sidecar.Resources.ResourceRequests.Memory = sidecar.Resources.ResourceLimits.Memory
}
}
}
defaultResources := c.makeDefaultResources()
resourceRequirements, err := generateResourceRequirements(spec.Resources, defaultResources)
if err != nil {
return nil, fmt.Errorf("could not generate resource requirements: %v", err)
}
if spec.InitContainers != nil && len(spec.InitContainers) > 0 {
if c.OpConfig.EnableInitContainers != nil && !(*c.OpConfig.EnableInitContainers) {
c.logger.Warningf("initContainers specified but disabled in configuration - next statefulset creation would fail")
}
initContainers = spec.InitContainers
}
spiloCompathWalPathList := make([]v1.EnvVar, 0)
if c.OpConfig.EnableSpiloWalPathCompat {
spiloCompathWalPathList = append(spiloCompathWalPathList,
v1.EnvVar{
Name: "ENABLE_WAL_PATH_COMPAT",
Value: "true",
},
)
}
// fetch env vars from custom ConfigMap
configMapEnvVarsList, err := c.getPodEnvironmentConfigMapVariables()
if err != nil {
return nil, err
}
// fetch env vars from custom ConfigMap
secretEnvVarsList, err := c.getPodEnvironmentSecretVariables()
if err != nil {
return nil, err
}
// concat all custom pod env vars and sort them
customPodEnvVarsList := append(spiloCompathWalPathList, configMapEnvVarsList...)
customPodEnvVarsList = append(customPodEnvVarsList, secretEnvVarsList...)
sort.Slice(customPodEnvVarsList,
func(i, j int) bool { return customPodEnvVarsList[i].Name < customPodEnvVarsList[j].Name })
if spec.StandbyCluster != nil && spec.StandbyCluster.S3WalPath == "" {
return nil, fmt.Errorf("s3_wal_path is empty for standby cluster")
}
// backward compatible check for InitContainers
if spec.InitContainersOld != nil {
msg := "Manifest parameter init_containers is deprecated."
if spec.InitContainers == nil {
c.logger.Warningf("%s Consider using initContainers instead.", msg)
spec.InitContainers = spec.InitContainersOld
} else {
c.logger.Warningf("%s Only value from initContainers is used", msg)
}
}
// backward compatible check for PodPriorityClassName
if spec.PodPriorityClassNameOld != "" {
msg := "Manifest parameter pod_priority_class_name is deprecated."
if spec.PodPriorityClassName == "" {
c.logger.Warningf("%s Consider using podPriorityClassName instead.", msg)
spec.PodPriorityClassName = spec.PodPriorityClassNameOld
} else {
c.logger.Warningf("%s Only value from podPriorityClassName is used", msg)
}
}
spiloConfiguration, err := generateSpiloJSONConfiguration(&spec.PostgresqlParam, &spec.Patroni, c.OpConfig.PamRoleName, c.OpConfig.EnablePgVersionEnvVar, c.logger)
if err != nil {
return nil, fmt.Errorf("could not generate Spilo JSON configuration: %v", err)
}
// generate environment variables for the spilo container
spiloEnvVars := c.generateSpiloPodEnvVars(
c.Postgresql.GetUID(),
spiloConfiguration,
spec.Clone,
spec.StandbyCluster,
customPodEnvVarsList,
)
// pickup the docker image for the spilo container
effectiveDockerImage := util.Coalesce(spec.DockerImage, c.OpConfig.DockerImage)
// determine the User, Group and FSGroup for the spilo pod
effectiveRunAsUser := c.OpConfig.Resources.SpiloRunAsUser
if spec.SpiloRunAsUser != nil {
effectiveRunAsUser = spec.SpiloRunAsUser
}
effectiveRunAsGroup := c.OpConfig.Resources.SpiloRunAsGroup
if spec.SpiloRunAsGroup != nil {
effectiveRunAsGroup = spec.SpiloRunAsGroup
}
effectiveFSGroup := c.OpConfig.Resources.SpiloFSGroup
if spec.SpiloFSGroup != nil {
effectiveFSGroup = spec.SpiloFSGroup
}
volumeMounts := generateVolumeMounts(spec.Volume)
// configure TLS with a custom secret volume
if spec.TLS != nil && spec.TLS.SecretName != "" {
// this is combined with the FSGroup in the section above
// to give read access to the postgres user
defaultMode := int32(0640)
mountPath := "/tls"
additionalVolumes = append(additionalVolumes, acidv1.AdditionalVolume{
Name: spec.TLS.SecretName,
MountPath: mountPath,
VolumeSource: v1.VolumeSource{
Secret: &v1.SecretVolumeSource{
SecretName: spec.TLS.SecretName,
DefaultMode: &defaultMode,
},
},
})
// use the same filenames as Secret resources by default
certFile := ensurePath(spec.TLS.CertificateFile, mountPath, "tls.crt")
privateKeyFile := ensurePath(spec.TLS.PrivateKeyFile, mountPath, "tls.key")
spiloEnvVars = append(
spiloEnvVars,
v1.EnvVar{Name: "SSL_CERTIFICATE_FILE", Value: certFile},
v1.EnvVar{Name: "SSL_PRIVATE_KEY_FILE", Value: privateKeyFile},
)
if spec.TLS.CAFile != "" {
// support scenario when the ca.crt resides in a different secret, diff path
mountPathCA := mountPath
if spec.TLS.CASecretName != "" {
mountPathCA = mountPath + "ca"
}
caFile := ensurePath(spec.TLS.CAFile, mountPathCA, "")
spiloEnvVars = append(
spiloEnvVars,
v1.EnvVar{Name: "SSL_CA_FILE", Value: caFile},
)
// the ca file from CASecretName secret takes priority
if spec.TLS.CASecretName != "" {
additionalVolumes = append(additionalVolumes, acidv1.AdditionalVolume{
Name: spec.TLS.CASecretName,
MountPath: mountPathCA,
VolumeSource: v1.VolumeSource{
Secret: &v1.SecretVolumeSource{
SecretName: spec.TLS.CASecretName,
DefaultMode: &defaultMode,
},
},
})
}
}
}
// generate the spilo container
c.logger.Debugf("Generating Spilo container, environment variables")
c.logger.Debugf("%v", spiloEnvVars)
spiloContainer := generateContainer(c.containerName(),
&effectiveDockerImage,
resourceRequirements,
deduplicateEnvVars(spiloEnvVars, c.containerName(), c.logger),
volumeMounts,
c.OpConfig.Resources.SpiloPrivileged,
c.OpConfig.Resources.SpiloAllowPrivilegeEscalation,
generateCapabilities(c.OpConfig.AdditionalPodCapabilities),
)
// generate container specs for sidecars specified in the cluster manifest
clusterSpecificSidecars := []v1.Container{}
if spec.Sidecars != nil && len(spec.Sidecars) > 0 {
// warn if sidecars are defined, but globally disabled (does not apply to globally defined sidecars)
if c.OpConfig.EnableSidecars != nil && !(*c.OpConfig.EnableSidecars) {
c.logger.Warningf("sidecars specified but disabled in configuration - next statefulset creation would fail")
}
if clusterSpecificSidecars, err = generateSidecarContainers(spec.Sidecars, defaultResources, 0, c.logger); err != nil {
return nil, fmt.Errorf("could not generate sidecar containers: %v", err)
}
}
// decrapted way of providing global sidecars
var globalSidecarContainersByDockerImage []v1.Container
var globalSidecarsByDockerImage []acidv1.Sidecar
for name, dockerImage := range c.OpConfig.SidecarImages {
globalSidecarsByDockerImage = append(globalSidecarsByDockerImage, acidv1.Sidecar{Name: name, DockerImage: dockerImage})
}
if globalSidecarContainersByDockerImage, err = generateSidecarContainers(globalSidecarsByDockerImage, defaultResources, len(clusterSpecificSidecars), c.logger); err != nil {
return nil, fmt.Errorf("could not generate sidecar containers: %v", err)
}
// make the resulting list reproducible
// c.OpConfig.SidecarImages is unsorted by Golang definition
// .Name is unique
sort.Slice(globalSidecarContainersByDockerImage, func(i, j int) bool {
return globalSidecarContainersByDockerImage[i].Name < globalSidecarContainersByDockerImage[j].Name
})
// generate scalyr sidecar container
var scalyrSidecars []v1.Container
if scalyrSidecar, err :=
generateScalyrSidecarSpec(c.Name,
c.OpConfig.ScalyrAPIKey,
c.OpConfig.ScalyrServerURL,
c.OpConfig.ScalyrImage,
c.OpConfig.ScalyrCPURequest,
c.OpConfig.ScalyrMemoryRequest,
c.OpConfig.ScalyrCPULimit,
c.OpConfig.ScalyrMemoryLimit,
defaultResources,
c.logger); err != nil {
return nil, fmt.Errorf("could not generate Scalyr sidecar: %v", err)
} else {
if scalyrSidecar != nil {
scalyrSidecars = append(scalyrSidecars, *scalyrSidecar)
}
}
sidecarContainers, conflicts := mergeContainers(clusterSpecificSidecars, c.Config.OpConfig.SidecarContainers, globalSidecarContainersByDockerImage, scalyrSidecars)
for containerName := range conflicts {
c.logger.Warningf("a sidecar is specified twice. Ignoring sidecar %q in favor of %q with high a precendence",
containerName, containerName)
}
sidecarContainers = patchSidecarContainers(sidecarContainers, volumeMounts, c.OpConfig.SuperUsername, c.credentialSecretName(c.OpConfig.SuperUsername), c.logger)
tolerationSpec := tolerations(&spec.Tolerations, c.OpConfig.PodToleration)
effectivePodPriorityClassName := util.Coalesce(spec.PodPriorityClassName, c.OpConfig.PodPriorityClassName)
podAnnotations := c.generatePodAnnotations(spec)
// generate pod template for the statefulset, based on the spilo container and sidecars
podTemplate, err = c.generatePodTemplate(
c.Namespace,
c.labelsSet(true),
c.annotationsSet(podAnnotations),
spiloContainer,
initContainers,
sidecarContainers,
&tolerationSpec,
effectiveRunAsUser,
effectiveRunAsGroup,
effectiveFSGroup,
nodeAffinity(c.OpConfig.NodeReadinessLabel, spec.NodeAffinity),
spec.SchedulerName,
int64(c.OpConfig.PodTerminateGracePeriod.Seconds()),
c.OpConfig.PodServiceAccountName,
c.OpConfig.KubeIAMRole,
effectivePodPriorityClassName,
mountShmVolumeNeeded(c.OpConfig, spec),
c.OpConfig.EnablePodAntiAffinity,
c.OpConfig.PodAntiAffinityTopologyKey,
c.OpConfig.AdditionalSecretMount,
c.OpConfig.AdditionalSecretMountPath,
additionalVolumes)
if err != nil {
return nil, fmt.Errorf("could not generate pod template: %v", err)
}
if volumeClaimTemplate, err = generatePersistentVolumeClaimTemplate(spec.Volume.Size,
spec.Volume.StorageClass); err != nil {
return nil, fmt.Errorf("could not generate volume claim template: %v", err)
}
numberOfInstances := c.getNumberOfInstances(spec)
// the operator has domain-specific logic on how to do rolling updates of PG clusters
// so we do not use default rolling updates implemented by stateful sets
// that leaves the legacy "OnDelete" update strategy as the only option
updateStrategy := appsv1.StatefulSetUpdateStrategy{Type: appsv1.OnDeleteStatefulSetStrategyType}
var podManagementPolicy appsv1.PodManagementPolicyType
if c.OpConfig.PodManagementPolicy == "ordered_ready" {
podManagementPolicy = appsv1.OrderedReadyPodManagement
} else if c.OpConfig.PodManagementPolicy == "parallel" {
podManagementPolicy = appsv1.ParallelPodManagement
} else {
return nil, fmt.Errorf("could not set the pod management policy to the unknown value: %v", c.OpConfig.PodManagementPolicy)
}
stsAnnotations := make(map[string]string)
stsAnnotations = c.AnnotationsToPropagate(c.annotationsSet(nil))
statefulSet := &appsv1.StatefulSet{
ObjectMeta: metav1.ObjectMeta{
Name: c.statefulSetName(),
Namespace: c.Namespace,
Labels: c.labelsSet(true),
Annotations: stsAnnotations,
},
Spec: appsv1.StatefulSetSpec{
Replicas: &numberOfInstances,
Selector: c.labelsSelector(),
ServiceName: c.serviceName(Master),
Template: *podTemplate,
VolumeClaimTemplates: []v1.PersistentVolumeClaim{*volumeClaimTemplate},
UpdateStrategy: updateStrategy,
PodManagementPolicy: podManagementPolicy,
},
}
return statefulSet, nil
}
func (c *Cluster) generatePodAnnotations(spec *acidv1.PostgresSpec) map[string]string {
annotations := make(map[string]string)
for k, v := range c.OpConfig.CustomPodAnnotations {
annotations[k] = v
}
if spec != nil || spec.PodAnnotations != nil {
for k, v := range spec.PodAnnotations {
annotations[k] = v
}
}
if len(annotations) == 0 {
return nil
}
return annotations
}
func generateScalyrSidecarSpec(clusterName, APIKey, serverURL, dockerImage string,
scalyrCPURequest string, scalyrMemoryRequest string, scalyrCPULimit string, scalyrMemoryLimit string,
defaultResources acidv1.Resources, logger *logrus.Entry) (*v1.Container, error) {
if APIKey == "" || dockerImage == "" {
if APIKey == "" && dockerImage != "" {
logger.Warning("Not running Scalyr sidecar: SCALYR_API_KEY must be defined")
}
return nil, nil
}
resourcesScalyrSidecar := makeResources(
scalyrCPURequest,
scalyrMemoryRequest,
scalyrCPULimit,
scalyrMemoryLimit,
)
resourceRequirementsScalyrSidecar, err := generateResourceRequirements(resourcesScalyrSidecar, defaultResources)
if err != nil {
return nil, fmt.Errorf("invalid resources for Scalyr sidecar: %v", err)
}
env := []v1.EnvVar{
{
Name: "SCALYR_API_KEY",
Value: APIKey,
},
{
Name: "SCALYR_SERVER_HOST",
Value: clusterName,
},
}
if serverURL != "" {
env = append(env, v1.EnvVar{Name: "SCALYR_SERVER_URL", Value: serverURL})
}
return &v1.Container{
Name: "scalyr-sidecar",
Image: dockerImage,
Env: env,
ImagePullPolicy: v1.PullIfNotPresent,
Resources: *resourceRequirementsScalyrSidecar,
}, nil
}
func (c *Cluster) getNumberOfInstances(spec *acidv1.PostgresSpec) int32 {
min := c.OpConfig.MinInstances
max := c.OpConfig.MaxInstances
cur := spec.NumberOfInstances
newcur := cur
if spec.StandbyCluster != nil {
if newcur == 1 {
min = newcur
max = newcur
} else {
c.logger.Warningf("operator only supports standby clusters with 1 pod")
}
}
if max >= 0 && newcur > max {
newcur = max
}
if min >= 0 && newcur < min {
newcur = min
}
if newcur != cur {
c.logger.Infof("adjusted number of instances from %d to %d (min: %d, max: %d)", cur, newcur, min, max)
}
return newcur
}
// To avoid issues with limited /dev/shm inside docker environment, when
// PostgreSQL can't allocate enough of dsa segments from it, we can
// mount an extra memory volume
//
// see https://docs.okd.io/latest/dev_guide/shared_memory.html
func addShmVolume(podSpec *v1.PodSpec) {
volumes := append(podSpec.Volumes, v1.Volume{
Name: constants.ShmVolumeName,
VolumeSource: v1.VolumeSource{
EmptyDir: &v1.EmptyDirVolumeSource{
Medium: "Memory",
},
},
})
pgIdx := constants.PostgresContainerIdx
mounts := append(podSpec.Containers[pgIdx].VolumeMounts,
v1.VolumeMount{
Name: constants.ShmVolumeName,
MountPath: constants.ShmVolumePath,
})
podSpec.Containers[0].VolumeMounts = mounts
podSpec.Volumes = volumes
}
func addSecretVolume(podSpec *v1.PodSpec, additionalSecretMount string, additionalSecretMountPath string) {
volumes := append(podSpec.Volumes, v1.Volume{
Name: additionalSecretMount,
VolumeSource: v1.VolumeSource{
Secret: &v1.SecretVolumeSource{
SecretName: additionalSecretMount,
},
},
})
for i := range podSpec.Containers {
mounts := append(podSpec.Containers[i].VolumeMounts,
v1.VolumeMount{
Name: additionalSecretMount,
MountPath: additionalSecretMountPath,
})
podSpec.Containers[i].VolumeMounts = mounts
}
podSpec.Volumes = volumes
}
func (c *Cluster) addAdditionalVolumes(podSpec *v1.PodSpec,
additionalVolumes []acidv1.AdditionalVolume) {
volumes := podSpec.Volumes
mountPaths := map[string]acidv1.AdditionalVolume{}
for i, v := range additionalVolumes {
if previousVolume, exist := mountPaths[v.MountPath]; exist {
msg := "Volume %+v cannot be mounted to the same path as %+v"
c.logger.Warningf(msg, v, previousVolume)
continue
}
if v.MountPath == constants.PostgresDataMount {
msg := "Cannot mount volume on postgresql data directory, %+v"
c.logger.Warningf(msg, v)
continue
}
if v.TargetContainers == nil {
spiloContainer := podSpec.Containers[0]
additionalVolumes[i].TargetContainers = []string{spiloContainer.Name}
}
for _, target := range v.TargetContainers {
if target == "all" && len(v.TargetContainers) != 1 {
msg := `Target containers could be either "all" or a list
of containers, mixing those is not allowed, %+v`
c.logger.Warningf(msg, v)
continue
}
}
volumes = append(volumes,
v1.Volume{
Name: v.Name,
VolumeSource: v.VolumeSource,
},
)
mountPaths[v.MountPath] = v
}
c.logger.Infof("Mount additional volumes: %+v", additionalVolumes)
for i := range podSpec.Containers {
mounts := podSpec.Containers[i].VolumeMounts
for _, v := range additionalVolumes {
for _, target := range v.TargetContainers {
if podSpec.Containers[i].Name == target || target == "all" {
mounts = append(mounts, v1.VolumeMount{
Name: v.Name,
MountPath: v.MountPath,
SubPath: v.SubPath,
})
}
}
}
podSpec.Containers[i].VolumeMounts = mounts
}
podSpec.Volumes = volumes
}
func generatePersistentVolumeClaimTemplate(volumeSize, volumeStorageClass string) (*v1.PersistentVolumeClaim, error) {
var storageClassName *string
metadata := metav1.ObjectMeta{
Name: constants.DataVolumeName,
}
if volumeStorageClass != "" {
// TODO: remove the old annotation, switching completely to the StorageClassName field.
metadata.Annotations = map[string]string{"volume.beta.kubernetes.io/storage-class": volumeStorageClass}
storageClassName = &volumeStorageClass
} else {
metadata.Annotations = map[string]string{"volume.alpha.kubernetes.io/storage-class": "default"}
storageClassName = nil
}
quantity, err := resource.ParseQuantity(volumeSize)
if err != nil {
return nil, fmt.Errorf("could not parse volume size: %v", err)
}
volumeMode := v1.PersistentVolumeFilesystem
volumeClaim := &v1.PersistentVolumeClaim{
ObjectMeta: metadata,
Spec: v1.PersistentVolumeClaimSpec{
AccessModes: []v1.PersistentVolumeAccessMode{v1.ReadWriteOnce},
Resources: v1.ResourceRequirements{
Requests: v1.ResourceList{
v1.ResourceStorage: quantity,
},
},
StorageClassName: storageClassName,
VolumeMode: &volumeMode,
},
}
return volumeClaim, nil
}
func (c *Cluster) generateUserSecrets() map[string]*v1.Secret {
secrets := make(map[string]*v1.Secret, len(c.pgUsers))
namespace := c.Namespace
for username, pgUser := range c.pgUsers {
//Skip users with no password i.e. human users (they'll be authenticated using pam)
secret := c.generateSingleUserSecret(namespace, pgUser)
if secret != nil {
secrets[username] = secret
}
}
/* special case for the system user */
for _, systemUser := range c.systemUsers {
secret := c.generateSingleUserSecret(namespace, systemUser)
if secret != nil {
secrets[systemUser.Name] = secret
}
}
return secrets
}
func (c *Cluster) generateSingleUserSecret(namespace string, pgUser spec.PgUser) *v1.Secret {
//Skip users with no password i.e. human users (they'll be authenticated using pam)
if pgUser.Password == "" {
if pgUser.Origin != spec.RoleOriginTeamsAPI {
c.logger.Warningf("could not generate secret for a non-teamsAPI role %q: role has no password",
pgUser.Name)
}
return nil
}
//skip NOLOGIN users
for _, flag := range pgUser.Flags {
if flag == constants.RoleFlagNoLogin {
return nil
}
}
username := pgUser.Name
lbls := c.labelsSet(true)
if username == constants.ConnectionPoolerUserName {
lbls = c.connectionPoolerLabels("", false).MatchLabels
}
secret := v1.Secret{
ObjectMeta: metav1.ObjectMeta{
Name: c.credentialSecretName(username),
Namespace: namespace,
Labels: lbls,
Annotations: c.annotationsSet(nil),
},
Type: v1.SecretTypeOpaque,
Data: map[string][]byte{
"username": []byte(pgUser.Name),
"password": []byte(pgUser.Password),
},
}
return &secret
}
func (c *Cluster) shouldCreateLoadBalancerForService(role PostgresRole, spec *acidv1.PostgresSpec) bool {
switch role {
case Replica:
// if the value is explicitly set in a Postgresql manifest, follow this setting
if spec.EnableReplicaLoadBalancer != nil {
return *spec.EnableReplicaLoadBalancer
}
// otherwise, follow the operator configuration
return c.OpConfig.EnableReplicaLoadBalancer
case Master:
if spec.EnableMasterLoadBalancer != nil {
return *spec.EnableMasterLoadBalancer
}
return c.OpConfig.EnableMasterLoadBalancer
default:
panic(fmt.Sprintf("Unknown role %v", role))
}
}
func (c *Cluster) generateService(role PostgresRole, spec *acidv1.PostgresSpec) *v1.Service {
serviceSpec := v1.ServiceSpec{
Ports: []v1.ServicePort{{Name: "postgresql", Port: 5432, TargetPort: intstr.IntOrString{IntVal: 5432}}},
Type: v1.ServiceTypeClusterIP,
}
if role == Replica || c.patroniKubernetesUseConfigMaps() {
serviceSpec.Selector = c.roleLabelsSet(false, role)
}
if c.shouldCreateLoadBalancerForService(role, spec) {
// spec.AllowedSourceRanges evaluates to the empty slice of zero length
// when omitted or set to 'null'/empty sequence in the PG manifest
if len(spec.AllowedSourceRanges) > 0 {
serviceSpec.LoadBalancerSourceRanges = spec.AllowedSourceRanges
} else {
// safe default value: lock a load balancer only to the local address unless overridden explicitly
serviceSpec.LoadBalancerSourceRanges = []string{localHost}
}
c.logger.Debugf("final load balancer source ranges as seen in a service spec (not necessarily applied): %q", serviceSpec.LoadBalancerSourceRanges)
serviceSpec.ExternalTrafficPolicy = v1.ServiceExternalTrafficPolicyType(c.OpConfig.ExternalTrafficPolicy)
serviceSpec.Type = v1.ServiceTypeLoadBalancer
} else if role == Replica {
// before PR #258, the replica service was only created if allocated a LB
// now we always create the service but warn if the LB is absent
c.logger.Debugf("No load balancer created for the replica service")
}
service := &v1.Service{
ObjectMeta: metav1.ObjectMeta{
Name: c.serviceName(role),
Namespace: c.Namespace,
Labels: c.roleLabelsSet(true, role),
Annotations: c.annotationsSet(c.generateServiceAnnotations(role, spec)),
},
Spec: serviceSpec,
}
return service
}
func (c *Cluster) generateServiceAnnotations(role PostgresRole, spec *acidv1.PostgresSpec) map[string]string {
annotations := make(map[string]string)
for k, v := range c.OpConfig.CustomServiceAnnotations {
annotations[k] = v
}
if spec != nil || spec.ServiceAnnotations != nil {
for k, v := range spec.ServiceAnnotations {
annotations[k] = v
}
}
if c.shouldCreateLoadBalancerForService(role, spec) {
var dnsName string
if role == Master {
dnsName = c.masterDNSName()
} else {
dnsName = c.replicaDNSName()
}
// Just set ELB Timeout annotation with default value, if it does not
// have a cutom value
if _, ok := annotations[constants.ElbTimeoutAnnotationName]; !ok {
annotations[constants.ElbTimeoutAnnotationName] = constants.ElbTimeoutAnnotationValue
}
// External DNS name annotation is not customizable
annotations[constants.ZalandoDNSNameAnnotation] = dnsName
}
if len(annotations) == 0 {
return nil
}
return annotations
}
func (c *Cluster) generateEndpoint(role PostgresRole, subsets []v1.EndpointSubset) *v1.Endpoints {
endpoints := &v1.Endpoints{
ObjectMeta: metav1.ObjectMeta{
Name: c.endpointName(role),
Namespace: c.Namespace,
Labels: c.roleLabelsSet(true, role),
},
}
if len(subsets) > 0 {
endpoints.Subsets = subsets
}
return endpoints
}
func (c *Cluster) generateCloneEnvironment(description *acidv1.CloneDescription) []v1.EnvVar {
result := make([]v1.EnvVar, 0)
if description.ClusterName == "" {
return result
}
cluster := description.ClusterName
result = append(result, v1.EnvVar{Name: "CLONE_SCOPE", Value: cluster})
if description.EndTimestamp == "" {
// cloning with basebackup, make a connection string to the cluster to clone from
host, port := c.getClusterServiceConnectionParameters(cluster)
// TODO: make some/all of those constants
result = append(result, v1.EnvVar{Name: "CLONE_METHOD", Value: "CLONE_WITH_BASEBACKUP"})
result = append(result, v1.EnvVar{Name: "CLONE_HOST", Value: host})
result = append(result, v1.EnvVar{Name: "CLONE_PORT", Value: port})
// TODO: assume replication user name is the same for all clusters, fetch it from secrets otherwise
result = append(result, v1.EnvVar{Name: "CLONE_USER", Value: c.OpConfig.ReplicationUsername})
result = append(result,
v1.EnvVar{Name: "CLONE_PASSWORD",
ValueFrom: &v1.EnvVarSource{
SecretKeyRef: &v1.SecretKeySelector{
LocalObjectReference: v1.LocalObjectReference{
Name: c.credentialSecretNameForCluster(c.OpConfig.ReplicationUsername,
description.ClusterName),
},
Key: "password",
},
},
})
} else {
// cloning with S3, find out the bucket to clone
msg := "Clone from S3 bucket"
c.logger.Info(msg, description.S3WalPath)
if description.S3WalPath == "" {
msg := "Figure out which S3 bucket to use from env"
c.logger.Info(msg, description.S3WalPath)
if c.OpConfig.WALES3Bucket != "" {
envs := []v1.EnvVar{
{
Name: "CLONE_WAL_S3_BUCKET",
Value: c.OpConfig.WALES3Bucket,
},
}
result = append(result, envs...)
} else if c.OpConfig.WALGSBucket != "" {
envs := []v1.EnvVar{
{
Name: "CLONE_WAL_GS_BUCKET",
Value: c.OpConfig.WALGSBucket,
},
{
Name: "CLONE_GOOGLE_APPLICATION_CREDENTIALS",
Value: c.OpConfig.GCPCredentials,
},
}
result = append(result, envs...)
} else {
c.logger.Error("Cannot figure out S3 or GS bucket. Both are empty.")
}
envs := []v1.EnvVar{
{
Name: "CLONE_WAL_BUCKET_SCOPE_SUFFIX",
Value: getBucketScopeSuffix(description.UID),
},
}
result = append(result, envs...)
} else {
msg := "Use custom parsed S3WalPath %s from the manifest"
c.logger.Warningf(msg, description.S3WalPath)
result = append(result, v1.EnvVar{
Name: "CLONE_WALE_S3_PREFIX",
Value: description.S3WalPath,
})
}
result = append(result, v1.EnvVar{Name: "CLONE_METHOD", Value: "CLONE_WITH_WALE"})
result = append(result, v1.EnvVar{Name: "CLONE_TARGET_TIME", Value: description.EndTimestamp})
result = append(result, v1.EnvVar{Name: "CLONE_WAL_BUCKET_SCOPE_PREFIX", Value: ""})
if description.S3Endpoint != "" {
result = append(result, v1.EnvVar{Name: "CLONE_AWS_ENDPOINT", Value: description.S3Endpoint})
result = append(result, v1.EnvVar{Name: "CLONE_WALE_S3_ENDPOINT", Value: description.S3Endpoint})
}
if description.S3AccessKeyId != "" {
result = append(result, v1.EnvVar{Name: "CLONE_AWS_ACCESS_KEY_ID", Value: description.S3AccessKeyId})
}
if description.S3SecretAccessKey != "" {
result = append(result, v1.EnvVar{Name: "CLONE_AWS_SECRET_ACCESS_KEY", Value: description.S3SecretAccessKey})
}
if description.S3ForcePathStyle != nil {
s3ForcePathStyle := "0"
if *description.S3ForcePathStyle {
s3ForcePathStyle = "1"
}
result = append(result, v1.EnvVar{Name: "CLONE_AWS_S3_FORCE_PATH_STYLE", Value: s3ForcePathStyle})
}
}
return result
}
func (c *Cluster) generateStandbyEnvironment(description *acidv1.StandbyDescription) []v1.EnvVar {
result := make([]v1.EnvVar, 0)
if description.S3WalPath == "" {
return nil
}
// standby with S3, find out the bucket to setup standby
msg := "Standby from S3 bucket using custom parsed S3WalPath from the manifest %s "
c.logger.Infof(msg, description.S3WalPath)
result = append(result, v1.EnvVar{
Name: "STANDBY_WALE_S3_PREFIX",
Value: description.S3WalPath,
})
result = append(result, v1.EnvVar{Name: "STANDBY_METHOD", Value: "STANDBY_WITH_WALE"})
result = append(result, v1.EnvVar{Name: "STANDBY_WAL_BUCKET_SCOPE_PREFIX", Value: ""})
return result
}
func (c *Cluster) generatePodDisruptionBudget() *policybeta1.PodDisruptionBudget {
minAvailable := intstr.FromInt(1)
pdbEnabled := c.OpConfig.EnablePodDisruptionBudget
// if PodDisruptionBudget is disabled or if there are no DB pods, set the budget to 0.
if (pdbEnabled != nil && !(*pdbEnabled)) || c.Spec.NumberOfInstances <= 0 {
minAvailable = intstr.FromInt(0)
}
return &policybeta1.PodDisruptionBudget{
ObjectMeta: metav1.ObjectMeta{
Name: c.podDisruptionBudgetName(),
Namespace: c.Namespace,
Labels: c.labelsSet(true),
Annotations: c.annotationsSet(nil),
},
Spec: policybeta1.PodDisruptionBudgetSpec{
MinAvailable: &minAvailable,
Selector: &metav1.LabelSelector{
MatchLabels: c.roleLabelsSet(false, Master),
},
},
}
}
// getClusterServiceConnectionParameters fetches cluster host name and port
// TODO: perhaps we need to query the service (i.e. if non-standard port is used?)
// TODO: handle clusters in different namespaces
func (c *Cluster) getClusterServiceConnectionParameters(clusterName string) (host string, port string) {
host = clusterName
port = "5432"
return
}
func (c *Cluster) generateLogicalBackupJob() (*batchv1beta1.CronJob, error) {
var (
err error
podTemplate *v1.PodTemplateSpec
resourceRequirements *v1.ResourceRequirements
)
// NB: a cron job creates standard batch jobs according to schedule; these batch jobs manage pods and clean-up
c.logger.Debug("Generating logical backup pod template")
// allocate for the backup pod the same amount of resources as for normal DB pods
defaultResources := c.makeDefaultResources()
resourceRequirements, err = generateResourceRequirements(c.Spec.Resources, defaultResources)
if err != nil {
return nil, fmt.Errorf("could not generate resource requirements for logical backup pods: %v", err)
}
envVars := c.generateLogicalBackupPodEnvVars()
logicalBackupContainer := generateContainer(
"logical-backup",
&c.OpConfig.LogicalBackup.LogicalBackupDockerImage,
resourceRequirements,
envVars,
[]v1.VolumeMount{},
c.OpConfig.SpiloPrivileged, // use same value as for normal DB pods
c.OpConfig.SpiloAllowPrivilegeEscalation,
nil,
)
labels := map[string]string{
c.OpConfig.ClusterNameLabel: c.Name,
"application": "spilo-logical-backup",
}
podAffinityTerm := v1.PodAffinityTerm{
LabelSelector: &metav1.LabelSelector{
MatchLabels: labels,
},
TopologyKey: "kubernetes.io/hostname",
}
podAffinity := v1.Affinity{
PodAffinity: &v1.PodAffinity{
PreferredDuringSchedulingIgnoredDuringExecution: []v1.WeightedPodAffinityTerm{{
Weight: 1,
PodAffinityTerm: podAffinityTerm,
},
},
}}
annotations := c.generatePodAnnotations(&c.Spec)
// re-use the method that generates DB pod templates
if podTemplate, err = c.generatePodTemplate(
c.Namespace,
labels,
annotations,
logicalBackupContainer,
[]v1.Container{},
[]v1.Container{},
&[]v1.Toleration{},
nil,
nil,
nil,
nodeAffinity(c.OpConfig.NodeReadinessLabel, nil),
nil,
int64(c.OpConfig.PodTerminateGracePeriod.Seconds()),
c.OpConfig.PodServiceAccountName,
c.OpConfig.KubeIAMRole,
"",
util.False(),
false,
"",
c.OpConfig.AdditionalSecretMount,
c.OpConfig.AdditionalSecretMountPath,
[]acidv1.AdditionalVolume{}); err != nil {
return nil, fmt.Errorf("could not generate pod template for logical backup pod: %v", err)
}
// overwrite specific params of logical backups pods
podTemplate.Spec.Affinity = &podAffinity
podTemplate.Spec.RestartPolicy = "Never" // affects containers within a pod
// configure a batch job
jobSpec := batchv1.JobSpec{
Template: *podTemplate,
}
// configure a cron job
jobTemplateSpec := batchv1beta1.JobTemplateSpec{
Spec: jobSpec,
}
schedule := c.Postgresql.Spec.LogicalBackupSchedule
if schedule == "" {
schedule = c.OpConfig.LogicalBackupSchedule
}
cronJob := &batchv1beta1.CronJob{
ObjectMeta: metav1.ObjectMeta{
Name: c.getLogicalBackupJobName(),
Namespace: c.Namespace,
Labels: c.labelsSet(true),
Annotations: c.annotationsSet(nil),
},
Spec: batchv1beta1.CronJobSpec{
Schedule: schedule,
JobTemplate: jobTemplateSpec,
ConcurrencyPolicy: batchv1beta1.ForbidConcurrent,
},
}
return cronJob, nil
}
func (c *Cluster) generateLogicalBackupPodEnvVars() []v1.EnvVar {
envVars := []v1.EnvVar{
{
Name: "SCOPE",
Value: c.Name,
},
{
Name: "CLUSTER_NAME_LABEL",
Value: c.OpConfig.ClusterNameLabel,
},
{
Name: "POD_NAMESPACE",
ValueFrom: &v1.EnvVarSource{
FieldRef: &v1.ObjectFieldSelector{
APIVersion: "v1",
FieldPath: "metadata.namespace",
},
},
},
// Bucket env vars
{
Name: "LOGICAL_BACKUP_PROVIDER",
Value: c.OpConfig.LogicalBackup.LogicalBackupProvider,
},
{
Name: "LOGICAL_BACKUP_S3_BUCKET",
Value: c.OpConfig.LogicalBackup.LogicalBackupS3Bucket,
},
{
Name: "LOGICAL_BACKUP_S3_REGION",
Value: c.OpConfig.LogicalBackup.LogicalBackupS3Region,
},
{
Name: "LOGICAL_BACKUP_S3_ENDPOINT",
Value: c.OpConfig.LogicalBackup.LogicalBackupS3Endpoint,
},
{
Name: "LOGICAL_BACKUP_S3_SSE",
Value: c.OpConfig.LogicalBackup.LogicalBackupS3SSE,
},
{
Name: "LOGICAL_BACKUP_S3_BUCKET_SCOPE_SUFFIX",
Value: getBucketScopeSuffix(string(c.Postgresql.GetUID())),
},
{
Name: "LOGICAL_BACKUP_GOOGLE_APPLICATION_CREDENTIALS",
Value: c.OpConfig.LogicalBackup.LogicalBackupGoogleApplicationCredentials,
},
// Postgres env vars
{
Name: "PG_VERSION",
Value: c.Spec.PostgresqlParam.PgVersion,
},
{
Name: "PGPORT",
Value: "5432",
},
{
Name: "PGUSER",
Value: c.OpConfig.SuperUsername,
},
{
Name: "PGDATABASE",
Value: c.OpConfig.SuperUsername,
},
{
Name: "PGSSLMODE",
Value: "require",
},
{
Name: "PGPASSWORD",
ValueFrom: &v1.EnvVarSource{
SecretKeyRef: &v1.SecretKeySelector{
LocalObjectReference: v1.LocalObjectReference{
Name: c.credentialSecretName(c.OpConfig.SuperUsername),
},
Key: "password",
},
},
},
}
if c.OpConfig.LogicalBackup.LogicalBackupS3AccessKeyID != "" {
envVars = append(envVars, v1.EnvVar{Name: "AWS_ACCESS_KEY_ID", Value: c.OpConfig.LogicalBackup.LogicalBackupS3AccessKeyID})
}
if c.OpConfig.LogicalBackup.LogicalBackupS3SecretAccessKey != "" {
envVars = append(envVars, v1.EnvVar{Name: "AWS_SECRET_ACCESS_KEY", Value: c.OpConfig.LogicalBackup.LogicalBackupS3SecretAccessKey})
}
c.logger.Debugf("Generated logical backup env vars")
c.logger.Debugf("%v", envVars)
return envVars
}
// getLogicalBackupJobName returns the name; the job itself may not exists
func (c *Cluster) getLogicalBackupJobName() (jobName string) {
return trimCronjobName(c.OpConfig.LogicalBackupJobPrefix + c.clusterName().Name)
}
// Return an array of ownerReferences to make an arbitraty object dependent on
// the StatefulSet. Dependency is made on StatefulSet instead of PostgreSQL CRD
// while the former is represent the actual state, and only it's deletion means
// we delete the cluster (e.g. if CRD was deleted, StatefulSet somehow
// survived, we can't delete an object because it will affect the functioning
// cluster).
func (c *Cluster) ownerReferences() []metav1.OwnerReference {
controller := true
if c.Statefulset == nil {
c.logger.Warning("Cannot get owner reference, no statefulset")
return []metav1.OwnerReference{}
}
return []metav1.OwnerReference{
{
UID: c.Statefulset.ObjectMeta.UID,
APIVersion: "apps/v1",
Kind: "StatefulSet",
Name: c.Statefulset.ObjectMeta.Name,
Controller: &controller,
},
}
}
func ensurePath(file string, defaultDir string, defaultFile string) string {
if file == "" {
return path.Join(defaultDir, defaultFile)
}
if !path.IsAbs(file) {
return path.Join(defaultDir, file)
}
return file
}
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