/
terraform.go
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/
terraform.go
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// Copyright (c) 2019 SAP SE or an SAP affiliate company. All rights reserved. This file is licensed under the Apache Software License, v. 2 except as noted otherwise in the LICENSE file
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package infrastructure
import (
"path/filepath"
api "github.com/gardener/gardener-extension-provider-azure/pkg/apis/azure"
"github.com/gardener/gardener-extension-provider-azure/pkg/apis/azure/helper"
apiv1alpha1 "github.com/gardener/gardener-extension-provider-azure/pkg/apis/azure/v1alpha1"
"github.com/gardener/gardener-extension-provider-azure/pkg/azure"
"github.com/gardener/gardener-extension-provider-azure/pkg/internal"
"github.com/gardener/gardener/extensions/pkg/controller"
"github.com/gardener/gardener/extensions/pkg/terraformer"
extensionsv1alpha1 "github.com/gardener/gardener/pkg/apis/extensions/v1alpha1"
"github.com/gardener/gardener/pkg/chartrenderer"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
)
const (
// TerraformerPurpose is the terraformer infrastructure purpose.
TerraformerPurpose = "infra"
// TerraformerOutputKeyResourceGroupName is the key for the resourceGroupName output
TerraformerOutputKeyResourceGroupName = "resourceGroupName"
// TerraformerOutputKeyVNetName is the key for the vnetName output
TerraformerOutputKeyVNetName = "vnetName"
// TerraformerOutputKeyVNetResourceGroup is the key for the vnetResourceGroup output
TerraformerOutputKeyVNetResourceGroup = "vnetResourceGroup"
// TerraformerOutputKeySubnetName is the key for the subnetName output
TerraformerOutputKeySubnetName = "subnetName"
// TerraformerOutputKeyAvailabilitySetID is the key for the availabilitySetID output
TerraformerOutputKeyAvailabilitySetID = "availabilitySetID"
// TerraformerOutputKeyAvailabilitySetName is the key for the availabilitySetName output
TerraformerOutputKeyAvailabilitySetName = "availabilitySetName"
// TerraformerOutputKeyRouteTableName is the key for the routeTableName output
TerraformerOutputKeyRouteTableName = "routeTableName"
// TerraformerOutputKeySecurityGroupName is the key for the securityGroupName output
TerraformerOutputKeySecurityGroupName = "securityGroupName"
// TerraformerOutputKeyIdentityID is the key for the identityID output
TerraformerOutputKeyIdentityID = "identityID"
// TerraformerOutputKeyIdentityClientID is the key for the identityClientID output
TerraformerOutputKeyIdentityClientID = "identityClientID"
)
// StatusTypeMeta is the TypeMeta of the Azure InfrastructureStatus
var StatusTypeMeta = metav1.TypeMeta{
APIVersion: apiv1alpha1.SchemeGroupVersion.String(),
Kind: "InfrastructureStatus",
}
// ComputeTerraformerChartValues computes the values for the Azure Terraformer chart.
func ComputeTerraformerChartValues(infra *extensionsv1alpha1.Infrastructure, clientAuth *internal.ClientAuth,
config *api.InfrastructureConfig, cluster *controller.Cluster) (map[string]interface{}, error) {
var (
createResourceGroup = true
createVNet = true
createAvailabilitySet = false
createNatGateway = false
resourceGroupName = infra.Namespace
identityConfig map[string]interface{}
azure = map[string]interface{}{
"subscriptionID": clientAuth.SubscriptionID,
"tenantID": clientAuth.TenantID,
"region": infra.Spec.Region,
}
vnetConfig = map[string]interface{}{
"name": infra.Namespace,
}
outputKeys = map[string]interface{}{
"resourceGroupName": TerraformerOutputKeyResourceGroupName,
"vnetName": TerraformerOutputKeyVNetName,
"subnetName": TerraformerOutputKeySubnetName,
"routeTableName": TerraformerOutputKeyRouteTableName,
"securityGroupName": TerraformerOutputKeySecurityGroupName,
}
)
// check if we should use an existing ResourceGroup or create a new one
if config.ResourceGroup != nil {
createResourceGroup = false
resourceGroupName = config.ResourceGroup.Name
}
// VNet settings.
if config.Networks.VNet.Name != nil && config.Networks.VNet.ResourceGroup != nil {
// Deploy in existing vNet.
createVNet = false
vnetConfig["name"] = *config.Networks.VNet.Name
vnetConfig["resourceGroup"] = *config.Networks.VNet.ResourceGroup
outputKeys["vnetResourceGroup"] = TerraformerOutputKeyVNetResourceGroup
} else if config.Networks.VNet.CIDR != nil {
// Apply a custom cidr for the vNet.
vnetConfig["cidr"] = *config.Networks.VNet.CIDR
} else {
// Use worker cidr as default for the vNet.
vnetConfig["cidr"] = config.Networks.Workers
}
// If the cluster is zoned, then we don't need to create an AvailabilitySet.
if !config.Zoned {
createAvailabilitySet = true
outputKeys["availabilitySetID"] = TerraformerOutputKeyAvailabilitySetID
outputKeys["availabilitySetName"] = TerraformerOutputKeyAvailabilitySetName
cloudProfileConfig, err := helper.CloudProfileConfigFromCluster(cluster)
if err != nil {
return nil, err
}
updateDomainCount, err := helper.FindDomainCountByRegion(cloudProfileConfig.CountUpdateDomains, infra.Spec.Region)
if err != nil {
return nil, err
}
azure["countUpdateDomains"] = updateDomainCount
countFaultDomains, err := helper.FindDomainCountByRegion(cloudProfileConfig.CountFaultDomains, infra.Spec.Region)
if err != nil {
return nil, err
}
azure["countFaultDomains"] = countFaultDomains
}
if config.Networks.NatGateway != nil && config.Networks.NatGateway.Enabled {
createNatGateway = true
}
if config.Identity != nil && config.Identity.Name != "" && config.Identity.ResourceGroup != "" {
identityConfig = map[string]interface{}{
"name": config.Identity.Name,
"resourceGroup": config.Identity.ResourceGroup,
}
outputKeys["identityID"] = TerraformerOutputKeyIdentityID
outputKeys["identityClientID"] = TerraformerOutputKeyIdentityClientID
}
return map[string]interface{}{
"azure": azure,
"create": map[string]interface{}{
"resourceGroup": createResourceGroup,
"vnet": createVNet,
"availabilitySet": createAvailabilitySet,
"natGateway": createNatGateway,
},
"resourceGroup": map[string]interface{}{
"name": resourceGroupName,
"vnet": vnetConfig,
"subnet": map[string]interface{}{
"serviceEndpoints": config.Networks.ServiceEndpoints,
},
},
"clusterName": infra.Namespace,
"networks": map[string]interface{}{
"worker": config.Networks.Workers,
},
"identity": identityConfig,
"outputKeys": outputKeys,
}, nil
}
// RenderTerraformerChart renders the azure-infra chart with the given values.
func RenderTerraformerChart(renderer chartrenderer.Interface, infra *extensionsv1alpha1.Infrastructure, clientAuth *internal.ClientAuth,
config *api.InfrastructureConfig, cluster *controller.Cluster) (*TerraformFiles, error) {
values, err := ComputeTerraformerChartValues(infra, clientAuth, config, cluster)
if err != nil {
return nil, err
}
release, err := renderer.Render(filepath.Join(azure.InternalChartsPath, "azure-infra"), "azure-infra", infra.Namespace, values)
if err != nil {
return nil, err
}
return &TerraformFiles{
Main: release.FileContent("main.tf"),
Variables: release.FileContent("variables.tf"),
TFVars: []byte(release.FileContent("terraform.tfvars")),
}, nil
}
// TerraformFiles are the files that have been rendered from the infrastructure chart.
type TerraformFiles struct {
Main string
Variables string
TFVars []byte
}
// TerraformState is the Terraform state for an infrastructure.
type TerraformState struct {
// VPCName is the name of the VNet created for an infrastructure.
VNetName string
// VNetResourceGroupName is the name of the resource group where the vnet is deployed to.
VNetResourceGroupName string
// ResourceGroupName is the name of the resource group.
ResourceGroupName string
// AvailabilitySetID is the ID for the created availability set.
AvailabilitySetID string
// AvailabilitySetName the ID for the created availability set .
AvailabilitySetName string
// SubnetName is the name of the created subnet.
SubnetName string
// RouteTableName is the name of the route table.
RouteTableName string
// SecurityGroupName is the name of the security group.
SecurityGroupName string
// IdentityID is the id of the identity.
IdentityID string
// IdentityClientID is the client id of the identity.
IdentityClientID string
}
// ExtractTerraformState extracts the TerraformState from the given Terraformer.
func ExtractTerraformState(tf terraformer.Terraformer, config *api.InfrastructureConfig) (*TerraformState, error) {
var outputKeys = []string{
TerraformerOutputKeyResourceGroupName,
TerraformerOutputKeyRouteTableName,
TerraformerOutputKeySecurityGroupName,
TerraformerOutputKeySubnetName,
TerraformerOutputKeyVNetName,
}
if config.Networks.VNet.Name != nil && config.Networks.VNet.ResourceGroup != nil {
outputKeys = append(outputKeys, TerraformerOutputKeyVNetResourceGroup)
}
if !config.Zoned {
outputKeys = append(outputKeys, TerraformerOutputKeyAvailabilitySetID, TerraformerOutputKeyAvailabilitySetName)
}
if config.Identity != nil && config.Identity.Name != "" && config.Identity.ResourceGroup != "" {
outputKeys = append(outputKeys, TerraformerOutputKeyIdentityID, TerraformerOutputKeyIdentityClientID)
}
vars, err := tf.GetStateOutputVariables(outputKeys...)
if err != nil {
return nil, err
}
var tfState = TerraformState{
VNetName: vars[TerraformerOutputKeyVNetName],
ResourceGroupName: vars[TerraformerOutputKeyResourceGroupName],
RouteTableName: vars[TerraformerOutputKeyRouteTableName],
SecurityGroupName: vars[TerraformerOutputKeySecurityGroupName],
SubnetName: vars[TerraformerOutputKeySubnetName],
}
if config.Networks.VNet.Name != nil && config.Networks.VNet.ResourceGroup != nil {
tfState.VNetResourceGroupName = vars[TerraformerOutputKeyVNetResourceGroup]
}
if !config.Zoned {
tfState.AvailabilitySetID = vars[TerraformerOutputKeyAvailabilitySetID]
tfState.AvailabilitySetName = vars[TerraformerOutputKeyAvailabilitySetName]
}
if config.Identity != nil && config.Identity.Name != "" && config.Identity.ResourceGroup != "" {
tfState.IdentityID = vars[TerraformerOutputKeyIdentityID]
tfState.IdentityClientID = vars[TerraformerOutputKeyIdentityClientID]
}
return &tfState, nil
}
// StatusFromTerraformState computes an InfrastructureStatus from the given
// Terraform variables.
func StatusFromTerraformState(state *TerraformState) *apiv1alpha1.InfrastructureStatus {
var tfState = apiv1alpha1.InfrastructureStatus{
TypeMeta: StatusTypeMeta,
ResourceGroup: apiv1alpha1.ResourceGroup{
Name: state.ResourceGroupName,
},
Networks: apiv1alpha1.NetworkStatus{
VNet: apiv1alpha1.VNetStatus{
Name: state.VNetName,
},
Subnets: []apiv1alpha1.Subnet{
{
Purpose: apiv1alpha1.PurposeNodes,
Name: state.SubnetName,
},
},
},
AvailabilitySets: []apiv1alpha1.AvailabilitySet{},
RouteTables: []apiv1alpha1.RouteTable{
{Purpose: apiv1alpha1.PurposeNodes, Name: state.RouteTableName},
},
SecurityGroups: []apiv1alpha1.SecurityGroup{
{Name: state.SecurityGroupName, Purpose: apiv1alpha1.PurposeNodes},
},
}
if state.VNetResourceGroupName != "" {
tfState.Networks.VNet.ResourceGroup = &state.VNetResourceGroupName
}
if state.IdentityID != "" && state.IdentityClientID != "" {
tfState.Identity = &apiv1alpha1.IdentityStatus{
ID: state.IdentityID,
ClientID: state.IdentityClientID,
}
}
// If no AvailabilitySet was created then the Shoot uses zones.
if state.AvailabilitySetID == "" && state.AvailabilitySetName == "" {
tfState.Zoned = true
} else {
tfState.AvailabilitySets = append(tfState.AvailabilitySets, apiv1alpha1.AvailabilitySet{
Name: state.AvailabilitySetName,
ID: state.AvailabilitySetID,
Purpose: apiv1alpha1.PurposeNodes,
})
}
return &tfState
}
// ComputeStatus computes the status based on the Terraformer and the given InfrastructureConfig.
func ComputeStatus(tf terraformer.Terraformer, config *api.InfrastructureConfig) (*apiv1alpha1.InfrastructureStatus, error) {
state, err := ExtractTerraformState(tf, config)
if err != nil {
return nil, err
}
status := StatusFromTerraformState(state)
// Check if ACR access should be configured.
if config.Identity != nil && config.Identity.ACRAccess != nil && *config.Identity.ACRAccess && status.Identity != nil {
status.Identity.ACRAccess = true
}
return status, nil
}