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create.go
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package tccpazs
import (
"context"
"net"
"reflect"
"sort"
"github.com/aws/aws-sdk-go/service/ec2"
infrastructurev1alpha3 "github.com/giantswarm/apiextensions/v6/pkg/apis/infrastructure/v1alpha3"
"github.com/giantswarm/ipam"
"github.com/giantswarm/microerror"
"k8s.io/apimachinery/pkg/api/meta"
"sigs.k8s.io/controller-runtime/pkg/client"
"github.com/giantswarm/aws-operator/v15/pkg/awstags"
"github.com/giantswarm/aws-operator/v15/pkg/label"
"github.com/giantswarm/aws-operator/v15/service/controller/controllercontext"
"github.com/giantswarm/aws-operator/v15/service/controller/key"
)
// MaxAZs is the maximum number of availability zones allowed for a tenant
// cluster. The major factor causing this limitation is the current IPAM
// implementation. It restricts network sizes in a certain way. Another related
// problem is restrictions in AWS resource structure.
const MaxAZs = 4
func (r *Resource) EnsureCreated(ctx context.Context, obj interface{}) error {
cr, err := meta.Accessor(obj)
if err != nil {
return microerror.Mask(err)
}
cc, err := controllercontext.FromContext(ctx)
if err != nil {
return microerror.Mask(err)
}
var awsCluster infrastructurev1alpha3.AWSCluster
{
var list infrastructurev1alpha3.AWSClusterList
err := r.k8sClient.CtrlClient().List(
ctx,
&list,
client.InNamespace(cr.GetNamespace()),
client.MatchingLabels{label.Cluster: key.ClusterID(cr)},
)
if err != nil {
return microerror.Mask(err)
}
if len(list.Items) == 0 {
r.logger.Debugf(ctx, "awscluster cr not available yet")
r.logger.Debugf(ctx, "canceling resource")
return nil
}
if len(list.Items) > 1 {
return microerror.Mask(tooManyCRsError)
}
awsCluster = list.Items[0]
}
var cp infrastructurev1alpha3.AWSControlPlane
{
var list infrastructurev1alpha3.AWSControlPlaneList
err := r.k8sClient.CtrlClient().List(
ctx,
&list,
client.InNamespace(cr.GetNamespace()),
client.MatchingLabels{label.Cluster: key.ClusterID(cr)},
)
if err != nil {
return microerror.Mask(err)
}
if len(list.Items) == 0 {
r.logger.Debugf(ctx, "control plane cr not available yet")
r.logger.Debugf(ctx, "canceling resource")
return nil
}
if len(list.Items) > 1 {
return microerror.Mask(tooManyCRsError)
}
cp = list.Items[0]
}
var mds []infrastructurev1alpha3.AWSMachineDeployment
{
var list infrastructurev1alpha3.AWSMachineDeploymentList
err := r.k8sClient.CtrlClient().List(
ctx,
&list,
client.InNamespace(cr.GetNamespace()),
client.MatchingLabels{label.Cluster: key.ClusterID(cr)},
)
if err != nil {
return microerror.Mask(err)
}
mds = append(mds, list.Items...)
}
// We need to cancel the resource early in case the ipam resource did not
// yet allocate a subnet for the tenant cluster. Note that the Tenant
// Cluster subnet allocation is performed by the IPAM handler.
if key.StatusClusterNetworkCIDR(awsCluster) == "" {
r.logger.Debugf(ctx, "cluster subnet not yet allocated")
r.logger.Debugf(ctx, "canceling resource")
return nil
}
// As a first step we initialize the mappings for all the relevant
// availability zone information coming from the master node, the worker nodes
// and the EC2 subnets. Having all the availability zones inside the map makes
// it easier to fill their corresponding subnet and route table information
// below.
azMapping := map[string]mapping{}
{
for _, az := range key.ControlPlaneAvailabilityZones(cp) {
azMapping[az] = mapping{}
}
for _, md := range mds {
for _, az := range key.MachineDeploymentAvailabilityZones(md) {
azMapping[az] = mapping{}
}
}
for _, az := range azsFromSubnets(cc.Status.TenantCluster.TCCP.Subnets) {
azMapping[az] = mapping{}
}
}
// Map subnet information to their corresponding availability zones based on
// the AWS API results.
{
azMapping, err = mapSubnets(azMapping, cc.Status.TenantCluster.TCCP.Subnets)
if err != nil {
return microerror.Mask(err)
}
}
{
status := newAZStatus(azMapping)
for _, az := range status {
r.logger.LogCtx(ctx,
"level", "debug",
"message", "computed controller context status",
"availability-zone", az.Name,
"aws-cni-subnet-cidr", az.Subnet.AWSCNI.CIDR.String(),
"aws-cni-subnet-id", az.Subnet.AWSCNI.ID,
"private-subnet-cidr", az.Subnet.Private.CIDR.String(),
"private-subnet-id", az.Subnet.Private.ID,
"public-subnet-cidr", az.Subnet.Public.CIDR.String(),
"public-subnet-id", az.Subnet.Public.ID,
)
}
// Add the current AZ state from AWS to the cc status.
cc.Status.TenantCluster.TCCP.AvailabilityZones = status
}
{
// Allow the actual VPC subnet CIDR to be overwritten by the CR spec.
legacyAWSCniPodSubnet := r.cidrBlockAWSCNI
if key.PodsCIDRBlock(awsCluster) != "" {
legacyAWSCniPodSubnet = key.PodsCIDRBlock(awsCluster)
}
if key.LegacyAWSCniCIDRBlock(awsCluster) != "" {
legacyAWSCniPodSubnet = key.LegacyAWSCniCIDRBlock(awsCluster)
}
_, awsCNISubnet, err := net.ParseCIDR(legacyAWSCniPodSubnet)
if err != nil {
return microerror.Mask(err)
}
// Parse TCCP network CIDR.
_, tccpSubnet, err := net.ParseCIDR(key.StatusClusterNetworkCIDR(awsCluster))
if err != nil {
return microerror.Mask(err)
}
azMapping, err = r.ensureAZsAreAssignedWithSubnet(ctx, *awsCNISubnet, *tccpSubnet, azMapping)
if err != nil {
return microerror.Mask(err)
}
spec := newAZSpec(azMapping)
for _, az := range spec {
r.logger.LogCtx(ctx,
"level", "debug",
"message", "computed controller context spec",
"availability-zone", az.Name,
"aws-cni-subnet-cidr", az.Subnet.AWSCNI.CIDR.String(),
"aws-cni-subnet-id", az.Subnet.AWSCNI.ID,
"private-subnet-cidr", az.Subnet.Private.CIDR.String(),
"private-subnet-id", az.Subnet.Private.ID,
"public-subnet-cidr", az.Subnet.Public.CIDR.String(),
"public-subnet-id", az.Subnet.Public.ID,
)
}
// Add the desired AZ state to the controllercontext spec.
cc.Spec.TenantCluster.TCCP.AvailabilityZones = spec
}
return nil
}
// ensureAZsAreAssignedWithSubnet iterates over AZ-mapping map, removes
// subnets that are already in use from available subnets' list and then assigns
// one to AZs that doesn't have subnet assigned yet.
func (r *Resource) ensureAZsAreAssignedWithSubnet(ctx context.Context, awsCNISubnet net.IPNet, tccpSubnet net.IPNet, azMapping map[string]mapping) (map[string]mapping, error) {
// Split TCCP network between maximum number of AZs. This is because of
// current limitation in IPAM design and AWS TCCP infrastructure
// design.
//
// We have 1 /24 subnet here for the whole Tenant Cluster, which we split
// into 4 /26 subnets.
clusterAZSubnets, err := ipam.Split(tccpSubnet, MaxAZs)
if err != nil {
return nil, microerror.Mask(err)
}
// According to the IPAM limitations we split the AWS CNI CIDR by 4. This is
// so we assign one of its split to each availability zone.
awsCNISubnets, err := ipam.Split(awsCNISubnet, MaxAZs)
if err != nil {
return nil, microerror.Mask(err)
}
var azNames []string
{
for az := range azMapping {
azNames = append(azNames, az)
}
sort.Strings(azNames)
}
// Remove already allocated networks from clusterAZSubnets before assigning
// remaining subnets to AZs without them.
for _, az := range azNames {
mapping := azMapping[az]
// Check if mapping of given availability zone already contain value.
//
// We check the /27 subnets and compare their parent /26 subnets to
// remove them from the bucket we can draw from. This is where we lose
// the not allocated private subnets of master nodes of earlier releases.
if !mapping.PublicSubnetEmpty() {
// Calculate the parent network from public subnet (always present for
// functional AZ).
parent := ipam.CalculateParent(mapping.Public.Subnet.CIDR)
r.logger.Debugf(ctx, "availability zone %#q has parent subnet %#q already allocated", az, parent.String())
// Filter out already allocated AZ subnet from available AZ size networks.
clusterAZSubnets = ipam.Filter(clusterAZSubnets, func(n net.IPNet) bool {
return !reflect.DeepEqual(n, parent)
})
}
// Unlike the public/private subnets the AWS CNI CIDRs are not split twice.
// We only have at max 4 and not 8. This means we do not have to filter out
// the parents, but the subnets being taken already themselves.
if !mapping.AWSCNISubnetEmpty() {
r.logger.Debugf(ctx, "availability zone %#q has aws-cni subnet %#q already allocated", az, mapping.AWSCNI.Subnet.CIDR.String())
// Filter out already allocated AZ subnet from available AZ size networks.
awsCNISubnets = ipam.Filter(awsCNISubnets, func(n net.IPNet) bool {
return !reflect.DeepEqual(n, mapping.AWSCNI.Subnet.CIDR)
})
}
}
// Assign subnet to AZs that don't it yet.
for _, az := range azNames {
mapping := azMapping[az]
if mapping.PublicSubnetEmpty() && mapping.PrivateSubnetEmpty() {
if len(clusterAZSubnets) > 0 {
r.logger.Debugf(ctx, "availability zone %#q does not have public and private subnet allocated", az)
// Pick first available AZ subnet and split it to public and private.
clusterAZSubnet, err := ipam.Split(clusterAZSubnets[0], 2)
if err != nil {
return nil, microerror.Mask(err)
}
// Update available AZ mapping by removing the CIDR we are about to
// allocate.
clusterAZSubnets = clusterAZSubnets[1:]
mapping.Public.Subnet.CIDR = clusterAZSubnet[0]
mapping.Private.Subnet.CIDR = clusterAZSubnet[1]
azMapping[az] = mapping
} else {
return nil, microerror.Maskf(invalidConfigError, "no free subnets left for allocation despite additional availability zone %#q", az)
}
}
// Fix for legacy mess prior to release 11.3.3 where we only created
// private subnets for the running single master nodes.
if !mapping.PublicSubnetEmpty() && mapping.PrivateSubnetEmpty() {
r.logger.Debugf(ctx, "availability zone %#q does not have private subnet allocated", az)
// Get the parent /26 from the public /27 subnet.
parent := ipam.CalculateParent(mapping.Public.Subnet.CIDR)
// Make up the /27 subnets again based on the parent we
// partially allocated already.
clusterAZSubnet, err := ipam.Split(parent, 2)
if err != nil {
return nil, microerror.Mask(err)
}
// Set the /27 subnets to fill the gap. Note that the public
// subnet should not change as the split should be the same.
mapping.Public.Subnet.CIDR = clusterAZSubnet[0]
mapping.Private.Subnet.CIDR = clusterAZSubnet[1]
azMapping[az] = mapping
r.logger.Debugf(ctx, "recovering private subnet %#q for availability zone %#q", mapping.Private.Subnet.CIDR.String(), az)
}
if mapping.AWSCNISubnetEmpty() {
if len(awsCNISubnets) > 0 {
r.logger.Debugf(ctx, "availability zone %#q does not have aws-cni subnet allocated", az)
// The AWS CNI CIDRs are not divided into public/private per AZ. We only
// split by the IPAM limit. So here we simply take the first free CIDR
// and remove it below.
awsCNISubnet := awsCNISubnets[0]
// Update available AZ mapping by removing the CIDR we are about to
// allocate.
awsCNISubnets = awsCNISubnets[1:]
mapping.AWSCNI.Subnet.CIDR = awsCNISubnet
azMapping[az] = mapping
} else {
return nil, microerror.Maskf(invalidConfigError, "no free subnets left for allocation despite additional availability zone %#q", az)
}
}
}
return azMapping, nil
}
func azsFromSubnets(subnets []*ec2.Subnet) []string {
var azs []string
for _, s := range subnets {
azs = append(azs, *s.AvailabilityZone)
}
return azs
}
func mapSubnets(azMapping map[string]mapping, subnets []*ec2.Subnet) (map[string]mapping, error) {
for _, s := range subnets {
if !awstags.HasTags(s.Tags, key.TagSubnetType) {
// Filter out EC2 subnets that don't specify subnet type (i.e.
// public or private).
continue
}
if awstags.ValueForKey(s.Tags, key.TagStack) != key.StackTCCP {
// Filter out EC2 subnets that don't belong to tenant cluster
// control plane CF stack.
continue
}
_, cidr, err := net.ParseCIDR(*s.CidrBlock)
if err != nil {
return nil, microerror.Mask(err)
}
m := azMapping[*s.AvailabilityZone]
switch t := awstags.ValueForKey(s.Tags, key.TagSubnetType); {
case t == "aws-cni":
m.AWSCNI.Subnet.ID = *s.SubnetId
m.AWSCNI.Subnet.CIDR = *cidr
case t == "public":
m.Public.Subnet.ID = *s.SubnetId
m.Public.Subnet.CIDR = *cidr
case t == "private":
m.Private.Subnet.ID = *s.SubnetId
m.Private.Subnet.CIDR = *cidr
default:
return nil, microerror.Maskf(invalidConfigError, "invalid subnet type %#q", t)
}
azMapping[*s.AvailabilityZone] = m
}
return azMapping, nil
}
func newAZSpec(azMapping map[string]mapping) []controllercontext.ContextSpecTenantClusterTCCPAvailabilityZone {
var azNames []string
{
for az := range azMapping {
azNames = append(azNames, az)
}
sort.Strings(azNames)
}
var spec []controllercontext.ContextSpecTenantClusterTCCPAvailabilityZone
for _, name := range azNames {
sp := azMapping[name]
az := controllercontext.ContextSpecTenantClusterTCCPAvailabilityZone{
Name: name,
Subnet: controllercontext.ContextSpecTenantClusterTCCPAvailabilityZoneSubnet{
AWSCNI: controllercontext.ContextSpecTenantClusterTCCPAvailabilityZoneSubnetAWSCNI{
CIDR: sp.AWSCNI.Subnet.CIDR,
ID: sp.AWSCNI.Subnet.ID,
},
Private: controllercontext.ContextSpecTenantClusterTCCPAvailabilityZoneSubnetPrivate{
CIDR: sp.Private.Subnet.CIDR,
ID: sp.Private.Subnet.ID,
},
Public: controllercontext.ContextSpecTenantClusterTCCPAvailabilityZoneSubnetPublic{
CIDR: sp.Public.Subnet.CIDR,
ID: sp.Public.Subnet.ID,
},
},
}
spec = append(spec, az)
}
return spec
}
func newAZStatus(azMapping map[string]mapping) []controllercontext.ContextStatusTenantClusterTCCPAvailabilityZone {
var azNames []string
{
for az := range azMapping {
azNames = append(azNames, az)
}
sort.Strings(azNames)
}
var status []controllercontext.ContextStatusTenantClusterTCCPAvailabilityZone
for _, name := range azNames {
sp := azMapping[name]
// Skip empty subnets as they are not allocated in AWS and therefor not in
// the current state.
if sp.PublicSubnetEmpty() && sp.PrivateSubnetEmpty() && sp.AWSCNISubnetEmpty() {
continue
}
// Collect currently used AZ information to store it inside the cc status.
az := controllercontext.ContextStatusTenantClusterTCCPAvailabilityZone{
Name: name,
Subnet: controllercontext.ContextStatusTenantClusterTCCPAvailabilityZoneSubnet{
AWSCNI: controllercontext.ContextStatusTenantClusterTCCPAvailabilityZoneSubnetAWSCNI{
CIDR: sp.AWSCNI.Subnet.CIDR,
ID: sp.AWSCNI.Subnet.ID,
},
Private: controllercontext.ContextStatusTenantClusterTCCPAvailabilityZoneSubnetPrivate{
CIDR: sp.Private.Subnet.CIDR,
ID: sp.Private.Subnet.ID,
},
Public: controllercontext.ContextStatusTenantClusterTCCPAvailabilityZoneSubnetPublic{
CIDR: sp.Public.Subnet.CIDR,
ID: sp.Public.Subnet.ID,
},
},
}
status = append(status, az)
}
return status
}