constellation/terraform-provider-constellation/internal/provider/cluster_resource.go

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/*
Copyright (c) Edgeless Systems GmbH
SPDX-License-Identifier: AGPL-3.0-only
*/
package provider
import (
"bytes"
"context"
"encoding/base64"
"encoding/hex"
"encoding/json"
"errors"
"fmt"
"io"
"net"
"net/url"
"regexp"
"strings"
"time"
"github.com/edgelesssys/constellation/v2/internal/atls"
"github.com/edgelesssys/constellation/v2/internal/attestation/choose"
"github.com/edgelesssys/constellation/v2/internal/attestation/variant"
"github.com/edgelesssys/constellation/v2/internal/cloud/azureshared"
"github.com/edgelesssys/constellation/v2/internal/cloud/cloudprovider"
"github.com/edgelesssys/constellation/v2/internal/compatibility"
"github.com/edgelesssys/constellation/v2/internal/config"
"github.com/edgelesssys/constellation/v2/internal/constants"
"github.com/edgelesssys/constellation/v2/internal/constellation"
"github.com/edgelesssys/constellation/v2/internal/constellation/helm"
"github.com/edgelesssys/constellation/v2/internal/constellation/kubecmd"
"github.com/edgelesssys/constellation/v2/internal/constellation/state"
"github.com/edgelesssys/constellation/v2/internal/grpc/dialer"
"github.com/edgelesssys/constellation/v2/internal/kms/uri"
"github.com/edgelesssys/constellation/v2/internal/license"
"github.com/edgelesssys/constellation/v2/internal/semver"
"github.com/edgelesssys/constellation/v2/internal/versions"
datastruct "github.com/edgelesssys/constellation/v2/terraform-provider-constellation/internal/data"
"github.com/hashicorp/terraform-plugin-framework-validators/stringvalidator"
"github.com/hashicorp/terraform-plugin-framework/diag"
"github.com/hashicorp/terraform-plugin-framework/path"
"github.com/hashicorp/terraform-plugin-framework/resource"
"github.com/hashicorp/terraform-plugin-framework/resource/schema"
"github.com/hashicorp/terraform-plugin-framework/resource/schema/planmodifier"
"github.com/hashicorp/terraform-plugin-framework/resource/schema/stringplanmodifier"
"github.com/hashicorp/terraform-plugin-framework/schema/validator"
"github.com/hashicorp/terraform-plugin-framework/types"
"github.com/hashicorp/terraform-plugin-framework/types/basetypes"
"github.com/hashicorp/terraform-plugin-log/tflog"
)
var (
// Ensure provider defined types fully satisfy framework interfaces.
_ resource.Resource = &ClusterResource{}
_ resource.ResourceWithImportState = &ClusterResource{}
_ resource.ResourceWithModifyPlan = &ClusterResource{}
_ resource.ResourceWithValidateConfig = &ClusterResource{}
cidrRegex = regexp.MustCompile(`^(\d{1,3}\.){3}\d{1,3}\/\d{1,2}$`)
hexRegex = regexp.MustCompile(`^[0-9a-fA-F]+$`)
base64Regex = regexp.MustCompile(`^[-A-Za-z0-9+/]*={0,3}$`)
)
// NewClusterResource creates a new cluster resource.
func NewClusterResource() resource.Resource {
return &ClusterResource{}
}
// ClusterResource defines the resource implementation.
type ClusterResource struct {
providerData datastruct.ProviderData
newApplier func(ctx context.Context, validator atls.Validator) *constellation.Applier
}
// ClusterResourceModel describes the resource data model.
type ClusterResourceModel struct {
terraform: align infrastructure module attributes (#2703) * all vars have snail_case * make iam schema consistent * infrastructure schema * terraform: update AWS infrastructure module * fix ci * terraform: update AWS infrastructure module * terraform: update AWS IAM module * terraform: update Azure Infrastructure module inputs Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update Azure IAM module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update GCP infrastructure module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update GCP IAM module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update OpenStack Infrastructure module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update QEMU Infrastructure module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform-module: fix input name Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: tidy * cli: ignore whitespace in Terraform variable tests * terraform-module: fix AWS output names * terraform-module: fix output references Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: rename `api_server_cert_sans` * Update terraform/infrastructure/aws/modules/public_private_subnet/variables.tf Co-authored-by: Daniel Weiße <66256922+daniel-weisse@users.noreply.github.com> * fix self-managed * terraform: revert AWS modules output file renaming * terraform: remove duplicate varable declaration * terraform: rename Azure location field * ci: adjust output name in self-managed e2e test * e2e: continuously print output in upgrade test * e2e: write to output variables * cli: migrate IAM variable names * cli: make `location` field optional --------- Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> Co-authored-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> Co-authored-by: Daniel Weiße <66256922+daniel-weisse@users.noreply.github.com>
2023-12-15 04:36:58 -05:00
Name types.String `tfsdk:"name"`
CSP types.String `tfsdk:"csp"`
UID types.String `tfsdk:"uid"`
Image types.Object `tfsdk:"image"`
terraform: align infrastructure module attributes (#2703) * all vars have snail_case * make iam schema consistent * infrastructure schema * terraform: update AWS infrastructure module * fix ci * terraform: update AWS infrastructure module * terraform: update AWS IAM module * terraform: update Azure Infrastructure module inputs Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update Azure IAM module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update GCP infrastructure module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update GCP IAM module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update OpenStack Infrastructure module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update QEMU Infrastructure module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform-module: fix input name Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: tidy * cli: ignore whitespace in Terraform variable tests * terraform-module: fix AWS output names * terraform-module: fix output references Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: rename `api_server_cert_sans` * Update terraform/infrastructure/aws/modules/public_private_subnet/variables.tf Co-authored-by: Daniel Weiße <66256922+daniel-weisse@users.noreply.github.com> * fix self-managed * terraform: revert AWS modules output file renaming * terraform: remove duplicate varable declaration * terraform: rename Azure location field * ci: adjust output name in self-managed e2e test * e2e: continuously print output in upgrade test * e2e: write to output variables * cli: migrate IAM variable names * cli: make `location` field optional --------- Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> Co-authored-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> Co-authored-by: Daniel Weiße <66256922+daniel-weisse@users.noreply.github.com>
2023-12-15 04:36:58 -05:00
KubernetesVersion types.String `tfsdk:"kubernetes_version"`
MicroserviceVersion types.String `tfsdk:"constellation_microservice_version"`
OutOfClusterEndpoint types.String `tfsdk:"out_of_cluster_endpoint"`
InClusterEndpoint types.String `tfsdk:"in_cluster_endpoint"`
ExtraMicroservices types.Object `tfsdk:"extra_microservices"`
APIServerCertSANs types.List `tfsdk:"api_server_cert_sans"`
NetworkConfig types.Object `tfsdk:"network_config"`
MasterSecret types.String `tfsdk:"master_secret"`
MasterSecretSalt types.String `tfsdk:"master_secret_salt"`
MeasurementSalt types.String `tfsdk:"measurement_salt"`
InitSecret types.String `tfsdk:"init_secret"`
LicenseID types.String `tfsdk:"license_id"`
terraform: align infrastructure module attributes (#2703) * all vars have snail_case * make iam schema consistent * infrastructure schema * terraform: update AWS infrastructure module * fix ci * terraform: update AWS infrastructure module * terraform: update AWS IAM module * terraform: update Azure Infrastructure module inputs Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update Azure IAM module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update GCP infrastructure module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update GCP IAM module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update OpenStack Infrastructure module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update QEMU Infrastructure module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform-module: fix input name Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: tidy * cli: ignore whitespace in Terraform variable tests * terraform-module: fix AWS output names * terraform-module: fix output references Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: rename `api_server_cert_sans` * Update terraform/infrastructure/aws/modules/public_private_subnet/variables.tf Co-authored-by: Daniel Weiße <66256922+daniel-weisse@users.noreply.github.com> * fix self-managed * terraform: revert AWS modules output file renaming * terraform: remove duplicate varable declaration * terraform: rename Azure location field * ci: adjust output name in self-managed e2e test * e2e: continuously print output in upgrade test * e2e: write to output variables * cli: migrate IAM variable names * cli: make `location` field optional --------- Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> Co-authored-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> Co-authored-by: Daniel Weiße <66256922+daniel-weisse@users.noreply.github.com>
2023-12-15 04:36:58 -05:00
Attestation types.Object `tfsdk:"attestation"`
GCP types.Object `tfsdk:"gcp"`
Azure types.Object `tfsdk:"azure"`
OwnerID types.String `tfsdk:"owner_id"`
ClusterID types.String `tfsdk:"cluster_id"`
KubeConfig types.String `tfsdk:"kubeconfig"`
}
// networkConfigAttribute is the network config attribute's data model.
// needs basetypes because the struct might be used in ValidateConfig where these values might still be unknown. A go string type cannot handle unknown values.
type networkConfigAttribute struct {
IPCidrNode basetypes.StringValue `tfsdk:"ip_cidr_node"`
IPCidrPod basetypes.StringValue `tfsdk:"ip_cidr_pod"`
IPCidrService basetypes.StringValue `tfsdk:"ip_cidr_service"`
}
// gcpAttribute is the gcp attribute's data model.
type gcpAttribute struct {
// ServiceAccountKey is the private key of the service account used within the cluster.
ServiceAccountKey string `tfsdk:"service_account_key"`
ProjectID string `tfsdk:"project_id"`
}
// azureAttribute is the azure attribute's data model.
type azureAttribute struct {
TenantID string `tfsdk:"tenant_id"`
Location string `tfsdk:"location"`
UamiClientID string `tfsdk:"uami_client_id"`
UamiResourceID string `tfsdk:"uami_resource_id"`
ResourceGroup string `tfsdk:"resource_group"`
SubscriptionID string `tfsdk:"subscription_id"`
NetworkSecurityGroupName string `tfsdk:"network_security_group_name"`
LoadBalancerName string `tfsdk:"load_balancer_name"`
}
// extraMicroservicesAttribute is the extra microservices attribute's data model.
type extraMicroservicesAttribute struct {
CSIDriver bool `tfsdk:"csi_driver"`
}
// Metadata returns the metadata of the resource.
func (r *ClusterResource) Metadata(_ context.Context, req resource.MetadataRequest, resp *resource.MetadataResponse) {
resp.TypeName = req.ProviderTypeName + "_cluster"
}
// Schema returns the schema of the resource.
func (r *ClusterResource) Schema(_ context.Context, _ resource.SchemaRequest, resp *resource.SchemaResponse) {
resp.Schema = schema.Schema{
MarkdownDescription: "Resource for a Constellation cluster.",
Description: "Resource for a Constellation cluster.",
Attributes: map[string]schema.Attribute{
// Input attributes
"name": schema.StringAttribute{
MarkdownDescription: "Name used in the cluster's named resources / cluster name.",
Description: "Name used in the cluster's named resources / cluster name.",
Required: true, // TODO: Make optional and default to Constell.
},
"csp": newCSPAttributeSchema(),
"uid": schema.StringAttribute{
MarkdownDescription: "The UID of the cluster.",
Description: "The UID of the cluster.",
Required: true,
},
"image": newImageAttributeSchema(attributeInput),
"kubernetes_version": schema.StringAttribute{
MarkdownDescription: fmt.Sprintf("The Kubernetes version to use for the cluster. The supported versions are %s.", versions.SupportedK8sVersions()),
Description: fmt.Sprintf("The Kubernetes version to use for the cluster. The supported versions are %s.", versions.SupportedK8sVersions()),
Required: true,
},
"constellation_microservice_version": schema.StringAttribute{
MarkdownDescription: "The version of Constellation's microservices used within the cluster.",
Description: "The version of Constellation's microservices used within the cluster.",
Required: true,
},
"out_of_cluster_endpoint": schema.StringAttribute{
MarkdownDescription: "The endpoint of the cluster. Typically, this is the public IP of a loadbalancer.",
Description: "The endpoint of the cluster. Typically, this is the public IP of a loadbalancer.",
Required: true,
},
"in_cluster_endpoint": schema.StringAttribute{
MarkdownDescription: "The endpoint of the cluster. When not set, the out-of-cluster endpoint is used.",
Description: "The endpoint of the cluster. When not set, the out-of-cluster endpoint is used.",
Optional: true,
},
"extra_microservices": schema.SingleNestedAttribute{
MarkdownDescription: "Extra microservice settings.",
Description: "Extra microservice settings.",
Optional: true,
Attributes: map[string]schema.Attribute{
"csi_driver": schema.BoolAttribute{
MarkdownDescription: "Enable Constellation's [encrypted CSI driver](https://docs.edgeless.systems/constellation/workflows/storage).",
Description: "Enable Constellation's encrypted CSI driver.",
Required: true,
},
},
},
terraform: align infrastructure module attributes (#2703) * all vars have snail_case * make iam schema consistent * infrastructure schema * terraform: update AWS infrastructure module * fix ci * terraform: update AWS infrastructure module * terraform: update AWS IAM module * terraform: update Azure Infrastructure module inputs Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update Azure IAM module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update GCP infrastructure module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update GCP IAM module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update OpenStack Infrastructure module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: update QEMU Infrastructure module Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform-module: fix input name Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: tidy * cli: ignore whitespace in Terraform variable tests * terraform-module: fix AWS output names * terraform-module: fix output references Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> * terraform: rename `api_server_cert_sans` * Update terraform/infrastructure/aws/modules/public_private_subnet/variables.tf Co-authored-by: Daniel Weiße <66256922+daniel-weisse@users.noreply.github.com> * fix self-managed * terraform: revert AWS modules output file renaming * terraform: remove duplicate varable declaration * terraform: rename Azure location field * ci: adjust output name in self-managed e2e test * e2e: continuously print output in upgrade test * e2e: write to output variables * cli: migrate IAM variable names * cli: make `location` field optional --------- Signed-off-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> Co-authored-by: Moritz Sanft <58110325+msanft@users.noreply.github.com> Co-authored-by: Daniel Weiße <66256922+daniel-weisse@users.noreply.github.com>
2023-12-15 04:36:58 -05:00
"api_server_cert_sans": schema.ListAttribute{
MarkdownDescription: "List of Subject Alternative Names (SANs) for the API server certificate. Usually, this will be" +
" the out-of-cluster endpoint and the in-cluster endpoint, if existing.",
Description: "List of Subject Alternative Names (SANs) for the API server certificate.",
ElementType: types.StringType,
Optional: true,
},
"network_config": schema.SingleNestedAttribute{
MarkdownDescription: "Configuration for the cluster's network.",
Description: "Configuration for the cluster's network.",
Required: true,
Attributes: map[string]schema.Attribute{
"ip_cidr_node": schema.StringAttribute{
MarkdownDescription: "CIDR range of the cluster's node network.",
Description: "CIDR range of the cluster's node network.",
Required: true,
Validators: []validator.String{
stringvalidator.RegexMatches(cidrRegex, "Node IP CIDR must be a valid CIDR range."),
},
},
"ip_cidr_pod": schema.StringAttribute{
MarkdownDescription: "CIDR range of the cluster's pod network. Only required for clusters running on GCP.",
Description: "CIDR range of the cluster's pod network. Only required for clusters running on GCP.",
Optional: true,
},
"ip_cidr_service": schema.StringAttribute{
MarkdownDescription: "CIDR range of the cluster's service network.",
Description: "CIDR range of the cluster's service network.",
Required: true,
Validators: []validator.String{
stringvalidator.RegexMatches(cidrRegex, "Service IP CIDR must be a valid CIDR range."),
},
},
},
},
"master_secret": schema.StringAttribute{
MarkdownDescription: "Hex-encoded 32-byte master secret for the cluster.",
Description: "Hex-encoded 32-byte master secret for the cluster.",
Required: true,
Validators: []validator.String{
stringvalidator.LengthBetween(64, 64),
stringvalidator.RegexMatches(hexRegex, "Master secret must be a hex-encoded 32-byte value."),
},
},
"master_secret_salt": schema.StringAttribute{
MarkdownDescription: "Hex-encoded 32-byte master secret salt for the cluster.",
Description: "Hex-encoded 32-byte master secret salt for the cluster.",
Required: true,
Validators: []validator.String{
stringvalidator.LengthBetween(64, 64),
stringvalidator.RegexMatches(hexRegex, "Master secret salt must be a hex-encoded 32-byte value."),
},
},
"measurement_salt": schema.StringAttribute{
MarkdownDescription: "Hex-encoded 32-byte measurement salt for the cluster.",
Description: "Hex-encoded 32-byte measurement salt for the cluster.",
Required: true,
Validators: []validator.String{
stringvalidator.LengthBetween(64, 64),
stringvalidator.RegexMatches(hexRegex, "Measurement salt must be a hex-encoded 32-byte value."),
},
},
"init_secret": schema.StringAttribute{
MarkdownDescription: "Secret used for initialization of the cluster.",
Description: "Secret used for initialization of the cluster.",
Required: true,
},
"license_id": schema.StringAttribute{
MarkdownDescription: "Constellation license ID. When not set, the community license is used.",
Description: "Constellation license ID. When not set, the community license is used.",
Optional: true,
},
"attestation": newAttestationConfigAttributeSchema(attributeInput),
// CSP specific inputs
"gcp": schema.SingleNestedAttribute{
MarkdownDescription: "GCP-specific configuration.",
Description: "GCP-specific configuration.",
Optional: true,
Attributes: map[string]schema.Attribute{
"service_account_key": schema.StringAttribute{
MarkdownDescription: "Base64-encoded private key JSON object of the service account used within the cluster.",
Description: "Base64-encoded private key JSON object of the service account used within the cluster.",
Required: true,
Validators: []validator.String{
stringvalidator.RegexMatches(base64Regex, "Service account key must be a base64-encoded JSON object."),
},
},
"project_id": schema.StringAttribute{
MarkdownDescription: "ID of the GCP project the cluster resides in.",
Description: "ID of the GCP project the cluster resides in.",
Required: true,
},
},
},
"azure": schema.SingleNestedAttribute{
MarkdownDescription: "Azure-specific configuration.",
Description: "Azure-specific configuration.",
Optional: true,
Attributes: map[string]schema.Attribute{
"tenant_id": schema.StringAttribute{
MarkdownDescription: "Tenant ID of the Azure account.",
Description: "Tenant ID of the Azure account.",
Required: true,
},
"location": schema.StringAttribute{
MarkdownDescription: "Azure Location of the cluster.",
Description: "Azure Location of the cluster.",
Required: true,
},
"uami_client_id": schema.StringAttribute{
MarkdownDescription: "Client ID of the User assigned managed identity (UAMI) used within the cluster.",
Description: "Client ID of the User assigned managed identity (UAMI) used within the cluster.",
Required: true,
},
"uami_resource_id": schema.StringAttribute{
MarkdownDescription: "Resource ID of the User assigned managed identity (UAMI) used within the cluster.",
Description: "Resource ID of the User assigned managed identity (UAMI) used within the cluster.",
Required: true,
},
"resource_group": schema.StringAttribute{
MarkdownDescription: "Name of the Azure resource group the cluster resides in.",
Description: "Name of the Azure resource group the cluster resides in.",
Required: true,
},
"subscription_id": schema.StringAttribute{
MarkdownDescription: "ID of the Azure subscription the cluster resides in.",
Description: "ID of the Azure subscription the cluster resides in.",
Required: true,
},
"network_security_group_name": schema.StringAttribute{
MarkdownDescription: "Name of the Azure network security group used for the cluster.",
Description: "Name of the Azure network security group used for the cluster.",
Required: true,
},
"load_balancer_name": schema.StringAttribute{
MarkdownDescription: "Name of the Azure load balancer used by the cluster.",
Description: "Name of the Azure load balancer used by the cluster.",
Required: true,
},
},
},
// Computed (output) attributes
"owner_id": schema.StringAttribute{
MarkdownDescription: "The owner ID of the cluster.",
Description: "The owner ID of the cluster.",
Computed: true,
PlanModifiers: []planmodifier.String{
// We know that this value will never change after creation, so we can use the state value for upgrades.
stringplanmodifier.UseStateForUnknown(),
},
},
"cluster_id": schema.StringAttribute{
MarkdownDescription: "The cluster ID of the cluster.",
Description: "The cluster ID of the cluster.",
Computed: true,
PlanModifiers: []planmodifier.String{
// We know that this value will never change after creation, so we can use the state value for upgrades.
stringplanmodifier.UseStateForUnknown(),
},
},
"kubeconfig": schema.StringAttribute{
MarkdownDescription: "The kubeconfig of the cluster.",
Description: "The kubeconfig of the cluster.",
Computed: true,
Sensitive: true,
PlanModifiers: []planmodifier.String{
// We know that this value will never change after creation, so we can use the state value for upgrades.
stringplanmodifier.UseStateForUnknown(),
},
},
},
}
}
// ValidateConfig validates the configuration for the resource.
func (r *ClusterResource) ValidateConfig(ctx context.Context, req resource.ValidateConfigRequest, resp *resource.ValidateConfigResponse) {
var data ClusterResourceModel
resp.Diagnostics.Append(req.Config.Get(ctx, &data)...)
if resp.Diagnostics.HasError() {
return
}
// Azure Config is required for Azure
if strings.EqualFold(data.CSP.ValueString(), cloudprovider.Azure.String()) && data.Azure.IsNull() {
resp.Diagnostics.AddAttributeError(
path.Root("azure"),
"Azure configuration missing", "When csp is set to 'azure', the 'azure' configuration must be set.",
)
}
// Azure Config should not be set for other CSPs
if !strings.EqualFold(data.CSP.ValueString(), cloudprovider.Azure.String()) && !data.Azure.IsNull() {
resp.Diagnostics.AddAttributeWarning(
path.Root("azure"),
"Azure configuration not allowed", "When csp is not set to 'azure', setting the 'azure' configuration has no effect.",
)
}
// GCP Config is required for GCP
if strings.EqualFold(data.CSP.ValueString(), cloudprovider.GCP.String()) && data.GCP.IsNull() {
resp.Diagnostics.AddAttributeError(
path.Root("gcp"),
"GCP configuration missing", "When csp is set to 'gcp', the 'gcp' configuration must be set.",
)
}
// GCP Config should not be set for other CSPs
if !strings.EqualFold(data.CSP.ValueString(), cloudprovider.GCP.String()) && !data.GCP.IsNull() {
resp.Diagnostics.AddAttributeWarning(
path.Root("gcp"),
"GCP configuration not allowed", "When csp is not set to 'gcp', setting the 'gcp' configuration has no effect.",
)
}
}
// Configure configures the resource.
func (r *ClusterResource) Configure(_ context.Context, req resource.ConfigureRequest, resp *resource.ConfigureResponse) {
// Prevent panic if the provider has not been configured.
if req.ProviderData == nil {
return
}
var ok bool
r.providerData, ok = req.ProviderData.(datastruct.ProviderData)
if !ok {
resp.Diagnostics.AddError(
"Unexpected Resource Configure Type",
fmt.Sprintf("Expected datastruct.ProviderData, got: %T. Please report this issue to the provider developers.", req.ProviderData),
)
return
}
newDialer := func(validator atls.Validator) *dialer.Dialer {
return dialer.New(nil, validator, &net.Dialer{})
}
r.newApplier = func(ctx context.Context, validator atls.Validator) *constellation.Applier {
return constellation.NewApplier(&tfContextLogger{ctx: ctx}, &nopSpinner{}, constellation.ApplyContextTerraform, newDialer)
}
}
// ModifyPlan is called when the resource is planned for creation, updates, or deletion. This allows to set pre-apply
// warnings and errors.
func (r *ClusterResource) ModifyPlan(ctx context.Context, req resource.ModifyPlanRequest, resp *resource.ModifyPlanResponse) {
if req.Plan.Raw.IsNull() {
return
}
// Read plannedState supplied by Terraform runtime into the model
var plannedState ClusterResourceModel
resp.Diagnostics.Append(req.Plan.Get(ctx, &plannedState)...)
if resp.Diagnostics.HasError() {
return
}
licenseID := plannedState.LicenseID.ValueString()
if licenseID == "" {
resp.Diagnostics.AddWarning("Constellation license ID not set.",
"Continuing with community license.")
}
if licenseID == license.CommunityLicense {
resp.Diagnostics.AddWarning("Using community license.",
"For details, see https://docs.edgeless.systems/constellation/overview/license")
}
// Validate during plan. Must be done in ModifyPlan to read provider data.
// See https://developer.hashicorp.com/terraform/plugin/framework/resources/configure#define-resource-configure-method.
_, diags := r.getMicroserviceVersion(&plannedState)
resp.Diagnostics.Append(diags...)
_, _, diags = r.getImageVersion(ctx, &plannedState)
resp.Diagnostics.Append(diags...)
if resp.Diagnostics.HasError() {
return
}
// Checks running on updates to the resource. (i.e. state and plan != nil)
if !req.State.Raw.IsNull() {
// Read currentState supplied by Terraform runtime into the model
var currentState ClusterResourceModel
resp.Diagnostics.Append(req.State.Get(ctx, &currentState)...)
if resp.Diagnostics.HasError() {
return
}
// Warn the user about possibly destructive changes in case microservice changes are to be applied.
currVer, diags := r.getMicroserviceVersion(&currentState)
resp.Diagnostics.Append(diags...)
if resp.Diagnostics.HasError() {
return
}
plannedVer, diags := r.getMicroserviceVersion(&plannedState)
resp.Diagnostics.Append(diags...)
if resp.Diagnostics.HasError() {
return
}
if currVer.Compare(plannedVer) != 0 { // if versions are not equal
resp.Diagnostics.AddWarning("Microservice version change",
"Changing the microservice version can be a destructive operation.\n"+
"Upgrading cert-manager will destroy all custom resources you have manually created that are based on the current version of cert-manager.\n"+
"It is recommended to backup the cluster's CRDs before applying this change.")
}
}
}
// Create is called when the resource is created.
func (r *ClusterResource) Create(ctx context.Context, req resource.CreateRequest, resp *resource.CreateResponse) {
// Read data supplied by Terraform runtime into the model
var data ClusterResourceModel
resp.Diagnostics.Append(req.Plan.Get(ctx, &data)...)
if resp.Diagnostics.HasError() {
return
}
// Apply changes to the cluster, including the init RPC and skipping the node upgrade.
diags := r.apply(ctx, &data, false, true)
resp.Diagnostics.Append(diags...)
if resp.Diagnostics.HasError() {
return
}
// Save data into Terraform state
resp.Diagnostics.Append(resp.State.Set(ctx, &data)...)
}
// Read is called when the resource is read or refreshed.
func (r *ClusterResource) Read(ctx context.Context, req resource.ReadRequest, resp *resource.ReadResponse) {
// Read Terraform prior state data into the model
var data ClusterResourceModel
resp.Diagnostics.Append(req.State.Get(ctx, &data)...)
if resp.Diagnostics.HasError() {
return
}
// All Calls to the Constellation API are idempotent, thus we don't need to implement reading.
// Alternatively, we could:
// Retrieve more up-to-date data from the cluster. e.g.:
// - CSI Driver enabled?
// - Kubernetes version?
// - Microservice version?
// - Attestation Config?
// Save updated data into Terraform state
resp.Diagnostics.Append(resp.State.Set(ctx, &data)...)
}
// Update is called when the resource is updated.
func (r *ClusterResource) Update(ctx context.Context, req resource.UpdateRequest, resp *resource.UpdateResponse) {
// Read Terraform plan data into the model
var data ClusterResourceModel
resp.Diagnostics.Append(req.Plan.Get(ctx, &data)...)
if resp.Diagnostics.HasError() {
return
}
// Apply changes to the cluster, skipping the init RPC.
diags := r.apply(ctx, &data, true, false)
resp.Diagnostics.Append(diags...)
if resp.Diagnostics.HasError() {
return
}
// Save updated data into Terraform state
resp.Diagnostics.Append(resp.State.Set(ctx, &data)...)
}
// Delete is called when the resource is destroyed.
func (r *ClusterResource) Delete(ctx context.Context, req resource.DeleteRequest, resp *resource.DeleteResponse) {
// Read Terraform prior state data into the model
var data ClusterResourceModel
resp.Diagnostics.Append(req.State.Get(ctx, &data)...)
if resp.Diagnostics.HasError() {
return
}
}
// ImportState imports to the resource.
func (r *ClusterResource) ImportState(ctx context.Context, req resource.ImportStateRequest, resp *resource.ImportStateResponse) {
expectedSchemaMsg := fmt.Sprintf(
"Expected URI of schema '%s://?%s=<...>&%s=<...>&%s=<...>&%s=<...>'",
constants.ConstellationClusterURIScheme, constants.KubeConfigURIKey, constants.ClusterEndpointURIKey,
constants.MasterSecretURIKey, constants.MasterSecretSaltURIKey)
uri, err := url.Parse(req.ID)
if err != nil {
resp.Diagnostics.AddError("Parsing cluster URI",
fmt.Sprintf("Parsing cluster URI: %s.\n%s", err, expectedSchemaMsg))
return
}
if uri.Scheme != constants.ConstellationClusterURIScheme {
resp.Diagnostics.AddError("Parsing cluster URI",
fmt.Sprintf("Parsing cluster URI: Invalid scheme '%s'.\n%s", uri.Scheme, expectedSchemaMsg))
return
}
// Parse query parameters
query := uri.Query()
kubeConfig := query.Get(constants.KubeConfigURIKey)
clusterEndpoint := query.Get(constants.ClusterEndpointURIKey)
masterSecret := query.Get(constants.MasterSecretURIKey)
masterSecretSalt := query.Get(constants.MasterSecretSaltURIKey)
if kubeConfig == "" {
resp.Diagnostics.AddError("Parsing cluster URI",
fmt.Sprintf("Parsing cluster URI: Missing query parameter '%s'.\n%s", constants.KubeConfigURIKey, expectedSchemaMsg))
return
}
if clusterEndpoint == "" {
resp.Diagnostics.AddError("Parsing cluster URI",
fmt.Sprintf("Parsing cluster URI: Missing query parameter '%s'.\n%s", constants.ClusterEndpointURIKey, expectedSchemaMsg))
return
}
if masterSecret == "" {
resp.Diagnostics.AddError("Parsing cluster URI",
fmt.Sprintf("Parsing cluster URI: Missing query parameter '%s'.\n%s", constants.MasterSecretURIKey, expectedSchemaMsg))
return
}
if masterSecretSalt == "" {
resp.Diagnostics.AddError("Parsing cluster URI",
fmt.Sprintf("Parsing cluster URI: Missing query parameter '%s'.\n%s", constants.MasterSecretSaltURIKey, expectedSchemaMsg))
return
}
decodedKubeConfig, err := base64.StdEncoding.DecodeString(kubeConfig)
if err != nil {
resp.Diagnostics.AddError("Parsing cluster URI",
fmt.Sprintf("Parsing cluster URI: Decoding base64-encoded kubeconfig: %s.", err))
return
}
// Sanity checks for master secret and master secret salt
if _, err := hex.DecodeString(masterSecret); err != nil {
resp.Diagnostics.AddError("Parsing cluster URI",
fmt.Sprintf("Parsing cluster URI: Decoding hex-encoded master secret: %s.", err))
return
}
if _, err := hex.DecodeString(masterSecretSalt); err != nil {
resp.Diagnostics.AddError("Parsing cluster URI",
fmt.Sprintf("Parsing cluster URI: Decoding hex-encoded master secret salt: %s.", err))
return
}
resp.Diagnostics.Append(resp.State.SetAttribute(ctx, path.Root("kubeconfig"), string(decodedKubeConfig))...)
resp.Diagnostics.Append(resp.State.SetAttribute(ctx, path.Root("out_of_cluster_endpoint"), clusterEndpoint)...)
resp.Diagnostics.Append(resp.State.SetAttribute(ctx, path.Root("master_secret"), masterSecret)...)
resp.Diagnostics.Append(resp.State.SetAttribute(ctx, path.Root("master_secret_salt"), masterSecretSalt)...)
}
func (r *ClusterResource) validateGCPNetworkConfig(ctx context.Context, data *ClusterResourceModel) diag.Diagnostics {
networkCfg, diags := r.getNetworkConfig(ctx, data)
if diags.HasError() {
return diags
}
// Pod IP CIDR is required for GCP
if strings.EqualFold(data.CSP.ValueString(), cloudprovider.GCP.String()) && networkCfg.IPCidrPod.ValueString() == "" {
diags.AddAttributeError(
path.Root("network_config").AtName("ip_cidr_pod"),
"Pod IP CIDR missing", "When csp is set to 'gcp', 'ip_cidr_pod' must be set.",
)
}
// Pod IP CIDR should not be set for other CSPs
if !strings.EqualFold(data.CSP.ValueString(), cloudprovider.GCP.String()) && networkCfg.IPCidrPod.ValueString() != "" {
diags.AddAttributeWarning(
path.Root("network_config").AtName("ip_cidr_pod"),
"Pod IP CIDR not allowed", "When csp is not set to 'gcp', setting 'ip_cidr_pod' has no effect.",
)
}
// Pod IP CIDR should be a valid CIDR on GCP
if strings.EqualFold(data.CSP.ValueString(), cloudprovider.GCP.String()) &&
!cidrRegex.MatchString(networkCfg.IPCidrPod.ValueString()) {
diags.AddAttributeError(
path.Root("network_config").AtName("ip_pod_cidr"),
"Invalid CIDR range", "Pod IP CIDR must be a valid CIDR range.",
)
}
return diags
}
// apply applies changes to a cluster. It can be used for both creating and updating a cluster.
// This implements the core part of the Create and Update methods.
func (r *ClusterResource) apply(ctx context.Context, data *ClusterResourceModel, skipInitRPC, skipNodeUpgrade bool) diag.Diagnostics {
diags := diag.Diagnostics{}
// Parse and convert values from the Terraform state
// to formats the Constellation library can work with.
convertDiags := r.validateGCPNetworkConfig(ctx, data)
diags.Append(convertDiags...)
if diags.HasError() {
return diags
}
csp := cloudprovider.FromString(data.CSP.ValueString())
// parse attestation config
att, convertDiags := r.convertAttestationConfig(ctx, *data)
diags.Append(convertDiags...)
if diags.HasError() {
return diags
}
// parse secrets (i.e. measurement salt, master secret, etc.)
secrets, convertDiags := r.convertSecrets(*data)
diags.Append(convertDiags...)
if diags.HasError() {
return diags
}
// parse API server certificate SANs
apiServerCertSANs, convertDiags := r.getAPIServerCertSANs(ctx, data)
diags.Append(convertDiags...)
if diags.HasError() {
return diags
}
// parse network config
networkCfg, getDiags := r.getNetworkConfig(ctx, data)
diags.Append(getDiags...)
if diags.HasError() {
return diags
}
// parse Constellation microservice config
var microserviceCfg extraMicroservicesAttribute
convertDiags = data.ExtraMicroservices.As(ctx, &microserviceCfg, basetypes.ObjectAsOptions{
UnhandledNullAsEmpty: true, // we want to allow null values, as the CSIDriver field is optional
})
diags.Append(convertDiags...)
if diags.HasError() {
return diags
}
// parse Constellation microservice version
microserviceVersion, convertDiags := r.getMicroserviceVersion(data)
diags.Append(convertDiags...)
if diags.HasError() {
return diags
}
// parse Kubernetes version
k8sVersion, getDiags := r.getK8sVersion(data)
diags.Append(getDiags...)
if diags.HasError() {
return diags
}
// parse OS image version
image, imageSemver, convertDiags := r.getImageVersion(ctx, data)
diags.Append(convertDiags...)
if diags.HasError() {
return diags
}
// parse license ID
licenseID := data.LicenseID.ValueString()
if licenseID == "" {
licenseID = license.CommunityLicense
}
// license ID can be base64-encoded
licenseIDFromB64, err := base64.StdEncoding.DecodeString(licenseID)
if err == nil {
licenseID = string(licenseIDFromB64)
}
// Parse in-cluster service account info.
serviceAccPayload := constellation.ServiceAccountPayload{}
var gcpConfig gcpAttribute
var azureConfig azureAttribute
switch csp {
case cloudprovider.GCP:
convertDiags = data.GCP.As(ctx, &gcpConfig, basetypes.ObjectAsOptions{})
diags.Append(convertDiags...)
if diags.HasError() {
return diags
}
decodedSaKey, err := base64.StdEncoding.DecodeString(gcpConfig.ServiceAccountKey)
if err != nil {
diags.AddAttributeError(
path.Root("gcp").AtName("service_account_key"),
"Decoding service account key",
fmt.Sprintf("Decoding base64-encoded service account key: %s", err))
return diags
}
if err := json.Unmarshal(decodedSaKey, &serviceAccPayload.GCP); err != nil {
diags.AddAttributeError(
path.Root("gcp").AtName("service_account_key"),
"Unmarshalling service account key",
fmt.Sprintf("Unmarshalling service account key: %s", err))
return diags
}
case cloudprovider.Azure:
convertDiags = data.Azure.As(ctx, &azureConfig, basetypes.ObjectAsOptions{})
diags.Append(convertDiags...)
if diags.HasError() {
return diags
}
serviceAccPayload.Azure = azureshared.ApplicationCredentials{
TenantID: azureConfig.TenantID,
Location: azureConfig.Location,
PreferredAuthMethod: azureshared.AuthMethodUserAssignedIdentity,
UamiResourceID: azureConfig.UamiResourceID,
}
}
serviceAccURI, err := constellation.MarshalServiceAccountURI(csp, serviceAccPayload)
if err != nil {
diags.AddError("Marshalling service account URI", err.Error())
return diags
}
// we want to fall back to outOfClusterEndpoint if inClusterEndpoint is not set.
inClusterEndpoint := data.InClusterEndpoint.ValueString()
if inClusterEndpoint == "" {
inClusterEndpoint = data.OutOfClusterEndpoint.ValueString()
}
// setup clients
validator, err := choose.Validator(att.config, &tfContextLogger{ctx: ctx})
if err != nil {
diags.AddError("Choosing validator", err.Error())
return diags
}
applier := r.newApplier(ctx, validator)
// Construct in-memory state file
stateFile := state.New().SetInfrastructure(state.Infrastructure{
UID: data.UID.ValueString(),
ClusterEndpoint: data.OutOfClusterEndpoint.ValueString(),
InClusterEndpoint: inClusterEndpoint,
InitSecret: []byte(data.InitSecret.ValueString()),
APIServerCertSANs: apiServerCertSANs,
Name: data.Name.ValueString(),
IPCidrNode: networkCfg.IPCidrNode.ValueString(),
})
switch csp {
case cloudprovider.Azure:
stateFile.Infrastructure.Azure = &state.Azure{
ResourceGroup: azureConfig.ResourceGroup,
SubscriptionID: azureConfig.SubscriptionID,
NetworkSecurityGroupName: azureConfig.NetworkSecurityGroupName,
LoadBalancerName: azureConfig.LoadBalancerName,
UserAssignedIdentity: azureConfig.UamiClientID,
AttestationURL: att.maaURL,
}
case cloudprovider.GCP:
stateFile.Infrastructure.GCP = &state.GCP{
ProjectID: gcpConfig.ProjectID,
IPCidrPod: networkCfg.IPCidrPod.ValueString(),
}
}
// Check license
quota, err := applier.CheckLicense(ctx, csp, !skipInitRPC, licenseID)
if err != nil {
diags.AddWarning("Unable to contact license server.", "Please keep your vCPU quota in mind.")
} else if licenseID == license.CommunityLicense {
diags.AddWarning("Using community license.", "For details, see https://docs.edgeless.systems/constellation/overview/license")
} else {
tflog.Info(ctx, fmt.Sprintf("Please keep your vCPU quota (%d) in mind.", quota))
}
// Now, we perform the actual applying.
// Run init RPC
var initDiags diag.Diagnostics
if !skipInitRPC {
// run the init RPC and retrieve the post-init state
initRPCPayload := initRPCPayload{
csp: csp,
masterSecret: secrets.masterSecret,
measurementSalt: secrets.measurementSalt,
apiServerCertSANs: apiServerCertSANs,
azureCfg: azureConfig,
gcpCfg: gcpConfig,
networkCfg: networkCfg,
maaURL: att.maaURL,
k8sVersion: k8sVersion,
inClusterEndpoint: inClusterEndpoint,
}
initDiags = r.runInitRPC(ctx, applier, initRPCPayload, data, validator, stateFile)
diags.Append(initDiags...)
if diags.HasError() {
return diags
}
}
// Here, we either have the post-init values from the actual init RPC
// or, if performing an upgrade and skipping the init RPC, we have the
// values from the Terraform state.
stateFile.SetClusterValues(state.ClusterValues{
ClusterID: data.ClusterID.ValueString(),
OwnerID: data.OwnerID.ValueString(),
MeasurementSalt: secrets.measurementSalt,
})
// Kubeconfig is in the state by now. Either through the init RPC or through
// already being in the state.
if err := applier.SetKubeConfig([]byte(data.KubeConfig.ValueString())); err != nil {
diags.AddError("Setting kubeconfig", err.Error())
return diags
}
// Apply attestation config
if err := applier.ApplyJoinConfig(ctx, att.config, secrets.measurementSalt); err != nil {
diags.AddError("Applying attestation config", err.Error())
return diags
}
// Extend API Server Certificate SANs
if err := applier.ExtendClusterConfigCertSANs(ctx, data.OutOfClusterEndpoint.ValueString(),
"", apiServerCertSANs); err != nil {
diags.AddError("Extending API server certificate SANs", err.Error())
return diags
}
// Apply Helm Charts
payload := applyHelmChartsPayload{
csp: cloudprovider.FromString(data.CSP.ValueString()),
attestationVariant: att.variant,
k8sVersion: k8sVersion,
microserviceVersion: microserviceVersion,
DeployCSIDriver: microserviceCfg.CSIDriver,
masterSecret: secrets.masterSecret,
serviceAccURI: serviceAccURI,
}
helmDiags := r.applyHelmCharts(ctx, applier, payload, stateFile)
diags.Append(helmDiags...)
if diags.HasError() {
return diags
}
if !skipNodeUpgrade {
// Upgrade node image
err = applier.UpgradeNodeImage(ctx,
imageSemver,
image.Reference,
false)
var upgradeImageErr *compatibility.InvalidUpgradeError
switch {
case errors.Is(err, kubecmd.ErrInProgress):
diags.AddWarning("Skipping OS image upgrade", "Another upgrade is already in progress.")
case errors.As(err, &upgradeImageErr):
diags.AddWarning("Ignoring invalid OS image upgrade", err.Error())
case err != nil:
diags.AddError("Upgrading OS image", err.Error())
return diags
}
// Upgrade Kubernetes components
err = applier.UpgradeKubernetesVersion(ctx, k8sVersion, false)
var upgradeK8sErr *compatibility.InvalidUpgradeError
switch {
case errors.As(err, &upgradeK8sErr):
diags.AddWarning("Ignoring invalid Kubernetes components upgrade", err.Error())
case err != nil:
diags.AddError("Upgrading Kubernetes components", err.Error())
return diags
}
}
return diags
}
func (r *ClusterResource) getImageVersion(ctx context.Context, data *ClusterResourceModel) (imageAttribute, semver.Semver, diag.Diagnostics) {
var image imageAttribute
diags := data.Image.As(ctx, &image, basetypes.ObjectAsOptions{})
if diags.HasError() {
return imageAttribute{}, semver.Semver{}, diags
}
imageSemver, err := semver.New(image.Version)
if err != nil {
diags.AddAttributeError(
path.Root("image").AtName("version"),
"Invalid image version",
fmt.Sprintf("Parsing image version (%s): %s", image.Version, err))
return imageAttribute{}, semver.Semver{}, diags
}
if err := compatibility.BinaryWith(r.providerData.Version.String(), imageSemver.String()); err != nil {
diags.AddAttributeError(
path.Root("image").AtName("version"),
"Invalid image version",
fmt.Sprintf("Image version (%s) incompatible with provider version (%s): %s", image.Version, r.providerData.Version.String(), err))
}
return image, imageSemver, diags
}
// initRPCPayload groups the data required to run the init RPC.
type initRPCPayload struct {
csp cloudprovider.Provider // cloud service provider the cluster runs on.
masterSecret uri.MasterSecret // master secret of the cluster.
measurementSalt []byte // measurement salt of the cluster.
apiServerCertSANs []string // additional SANs to add to the API server certificate.
azureCfg azureAttribute // Azure-specific configuration.
gcpCfg gcpAttribute // GCP-specific configuration.
networkCfg networkConfigAttribute // network configuration of the cluster.
maaURL string // URL of the MAA service. Only used for Azure clusters.
k8sVersion versions.ValidK8sVersion // Kubernetes version of the cluster.
// Internal Endpoint of the cluster.
// If no internal LB is used, this should be the same as the out-of-cluster endpoint.
inClusterEndpoint string
}
// runInitRPC runs the init RPC on the cluster.
func (r *ClusterResource) runInitRPC(ctx context.Context, applier *constellation.Applier, payload initRPCPayload,
data *ClusterResourceModel, validator atls.Validator, stateFile *state.State,
) diag.Diagnostics {
diags := diag.Diagnostics{}
clusterLogs := &bytes.Buffer{}
initOutput, err := applier.Init(
ctx, validator, stateFile, clusterLogs,
constellation.InitPayload{
MasterSecret: payload.masterSecret,
MeasurementSalt: payload.measurementSalt,
K8sVersion: payload.k8sVersion,
ConformanceMode: false, // Conformance mode does't need to be configurable through the TF provider for now.
ServiceCIDR: payload.networkCfg.IPCidrService.ValueString(),
})
if err != nil {
var nonRetriable *constellation.NonRetriableInitError
if errors.As(err, &nonRetriable) {
diags.AddError("Cluster initialization failed.",
fmt.Sprintf("This error is not recoverable. Clean up the cluster's infrastructure resources and try again.\nError: %s", err))
if nonRetriable.LogCollectionErr != nil {
diags.AddError("Bootstrapper log collection failed.",
fmt.Sprintf("Failed to collect logs from bootstrapper: %s\n", nonRetriable.LogCollectionErr))
} else {
diags.AddWarning("Cluster log collection succeeded.", clusterLogs.String())
}
} else {
diags.AddError("Cluster initialization failed.", fmt.Sprintf("You might try to apply the resource again.\nError: %s", err))
}
return diags
}
// Save data from init response into the Terraform state
data.KubeConfig = types.StringValue(string(initOutput.Kubeconfig))
data.ClusterID = types.StringValue(initOutput.ClusterID)
data.OwnerID = types.StringValue(initOutput.OwnerID)
return diags
}
// applyHelmChartsPayload groups the data required to apply the Helm charts.
type applyHelmChartsPayload struct {
csp cloudprovider.Provider // cloud service provider the cluster runs on.
attestationVariant variant.Variant // attestation variant used on the cluster's nodes.
k8sVersion versions.ValidK8sVersion // Kubernetes version of the cluster.
microserviceVersion semver.Semver // version of the Constellation microservices used on the cluster.
DeployCSIDriver bool // Whether to deploy the CSI driver.
masterSecret uri.MasterSecret // master secret of the cluster.
serviceAccURI string // URI of the service account used within the cluster.
}
// applyHelmCharts applies the Helm charts to the cluster.
func (r *ClusterResource) applyHelmCharts(ctx context.Context, applier *constellation.Applier,
payload applyHelmChartsPayload, state *state.State,
) diag.Diagnostics {
diags := diag.Diagnostics{}
options := helm.Options{
CSP: payload.csp,
AttestationVariant: payload.attestationVariant,
K8sVersion: payload.k8sVersion,
MicroserviceVersion: payload.microserviceVersion,
DeployCSIDriver: payload.DeployCSIDriver,
Force: false,
Conformance: false, // Conformance mode does't need to be configurable through the TF provider for now.
HelmWaitMode: helm.WaitModeAtomic,
ApplyTimeout: 10 * time.Minute,
// Allow destructive changes to the cluster.
// The user has previously been warned about this when planning a microservice version change.
AllowDestructive: helm.AllowDestructive,
}
executor, _, err := applier.PrepareHelmCharts(options, state,
payload.serviceAccURI, payload.masterSecret, nil)
var upgradeErr *compatibility.InvalidUpgradeError
if err != nil {
if !errors.As(err, &upgradeErr) {
diags.AddError("Upgrading microservices", err.Error())
return diags
}
diags.AddWarning("Ignoring invalid microservice upgrade(s)", err.Error())
}
if err := executor.Apply(ctx); err != nil {
diags.AddError("Applying Helm charts", err.Error())
return diags
}
return diags
}
// attestationInput groups the attestation values in a state consumable by the Constellation library.
type attestationInput struct {
variant variant.Variant
maaURL string
config config.AttestationCfg
}
// convertAttestationConfig converts the attestation config from the Terraform state to the format
// used by the Constellation library.
func (r *ClusterResource) convertAttestationConfig(ctx context.Context, data ClusterResourceModel) (attestationInput, diag.Diagnostics) {
diags := diag.Diagnostics{}
var tfAttestation attestationAttribute
castDiags := data.Attestation.As(ctx, &tfAttestation, basetypes.ObjectAsOptions{})
diags.Append(castDiags...)
if diags.HasError() {
return attestationInput{}, diags
}
attestationVariant, err := variant.FromString(tfAttestation.Variant)
if err != nil {
diags.AddAttributeError(
path.Root("attestation_variant"),
"Invalid Attestation Variant",
fmt.Sprintf("Invalid attestation variant: %s", tfAttestation.Variant))
return attestationInput{}, diags
}
attestationCfg, err := convertFromTfAttestationCfg(tfAttestation, attestationVariant)
if err != nil {
diags.AddAttributeError(
path.Root("attestation"),
"Invalid Attestation Config",
fmt.Sprintf("Parsing attestation config: %s", err))
return attestationInput{}, diags
}
return attestationInput{attestationVariant, tfAttestation.AzureSNPFirmwareSignerConfig.MAAURL, attestationCfg}, diags
}
// secretInput groups the secrets and salts in a state consumable by the Constellation library.
type secretInput struct {
masterSecret uri.MasterSecret
initSecret []byte
measurementSalt []byte
}
// convertFromTfAttestationCfg converts the secrets and salts from the Terraform state to the format
// used by the Constellation library.
func (r *ClusterResource) convertSecrets(data ClusterResourceModel) (secretInput, diag.Diagnostics) {
diags := diag.Diagnostics{}
masterSecret, err := hex.DecodeString(data.MasterSecret.ValueString())
if err != nil {
diags.AddAttributeError(
path.Root("master_secret"),
"Unmarshalling master secret",
fmt.Sprintf("Unmarshalling hex-encoded master secret: %s", err))
return secretInput{}, diags
}
masterSecretSalt, err := hex.DecodeString(data.MasterSecretSalt.ValueString())
if err != nil {
diags.AddAttributeError(
path.Root("master_secret_salt"),
"Unmarshalling master secret salt",
fmt.Sprintf("Unmarshalling hex-encoded master secret salt: %s", err))
return secretInput{}, diags
}
measurementSalt, err := hex.DecodeString(data.MeasurementSalt.ValueString())
if err != nil {
diags.AddAttributeError(
path.Root("measurement_salt"),
"Unmarshalling measurement salt",
fmt.Sprintf("Unmarshalling hex-encoded measurement salt: %s", err))
return secretInput{}, diags
}
return secretInput{
masterSecret: uri.MasterSecret{Key: masterSecret, Salt: masterSecretSalt},
initSecret: []byte(data.InitSecret.ValueString()),
measurementSalt: measurementSalt,
}, diags
}
// getK8sVersion returns the Kubernetes version from the Terraform state if set, and the default
// version otherwise.
func (r *ClusterResource) getK8sVersion(data *ClusterResourceModel) (versions.ValidK8sVersion, diag.Diagnostics) {
diags := diag.Diagnostics{}
k8sVersion, err := versions.NewValidK8sVersion(data.KubernetesVersion.ValueString(), true)
if err != nil {
diags.AddAttributeError(
path.Root("kubernetes_version"),
"Invalid Kubernetes version",
fmt.Sprintf("Parsing Kubernetes version: %s", err))
return "", diags
}
return k8sVersion, diags
}
// getK8sVersion returns the Microservice version from the Terraform state if set, and the default
// version otherwise.
func (r *ClusterResource) getMicroserviceVersion(data *ClusterResourceModel) (semver.Semver, diag.Diagnostics) {
diags := diag.Diagnostics{}
ver, err := semver.New(data.MicroserviceVersion.ValueString())
if err != nil {
diags.AddAttributeError(
path.Root("constellation_microservice_version"),
"Invalid microservice version",
fmt.Sprintf("Parsing microservice version: %s", err))
return semver.Semver{}, diags
}
if err := config.ValidateMicroserviceVersion(r.providerData.Version, ver); err != nil {
diags.AddAttributeError(
path.Root("constellation_microservice_version"),
"Invalid microservice version",
fmt.Sprintf("Microservice version (%s) incompatible with provider version (%s): %s", ver, r.providerData.Version, err))
}
return ver, diags
}
// getNetworkConfig returns the network config from the Terraform state.
func (r *ClusterResource) getNetworkConfig(ctx context.Context, data *ClusterResourceModel) (networkConfigAttribute, diag.Diagnostics) {
var networkCfg networkConfigAttribute
diags := data.NetworkConfig.As(ctx, &networkCfg, basetypes.ObjectAsOptions{
UnhandledNullAsEmpty: true, // we want to allow null values, as some of the field's subfields are optional.
})
return networkCfg, diags
}
func (r *ClusterResource) getAPIServerCertSANs(ctx context.Context, data *ClusterResourceModel) ([]string, diag.Diagnostics) {
if data.APIServerCertSANs.IsNull() {
return nil, nil
}
apiServerCertSANs := make([]string, 0, len(data.APIServerCertSANs.Elements()))
diags := data.APIServerCertSANs.ElementsAs(ctx, &apiServerCertSANs, false)
return apiServerCertSANs, diags
}
// tfContextLogger is a logging adapter between the tflog package and
// Constellation's logger.
type tfContextLogger struct {
ctx context.Context // bind context to struct to satisfy interface
}
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// Debug takes a format string and arguments as an input and logs
// them using tflog.Debug.
func (l *tfContextLogger) Debug(format string, args ...any) {
tflog.Debug(l.ctx, fmt.Sprintf(format, args...))
}
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// Info takes a format string and arguments as an input and logs
// them using tflog.Info.
func (l *tfContextLogger) Info(format string, args ...any) {
tflog.Info(l.ctx, fmt.Sprintf(format, args...))
}
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// Warn takes a format string and arguments as an input and logs
// them using tflog.Warn.
func (l *tfContextLogger) Warn(format string, args ...any) {
tflog.Warn(l.ctx, fmt.Sprintf(format, args...))
}
type nopSpinner struct{ io.Writer }
func (s *nopSpinner) Start(string, bool) {}
func (s *nopSpinner) Stop() {}
func (s *nopSpinner) Write([]byte) (n int, err error) { return 1, nil }