constellation/cli/internal/terraform/terraform.go

614 lines
21 KiB
Go

/*
Copyright (c) Edgeless Systems GmbH
SPDX-License-Identifier: AGPL-3.0-only
*/
/*
Package terraform handles creation/destruction of cloud and IAM resources required by Constellation using Terraform.
Since Terraform does not provide a stable Go API, we use the `terraform-exec` package to interact with Terraform.
The Terraform templates are located in the constants.TerraformEmbeddedDir subdirectory. The templates are embedded into the CLI binary using `go:embed`.
On use the relevant template is extracted to the working directory and the user customized variables are written to a `terraform.tfvars` file.
Functions in this package should be kept CSP agnostic (there should be no "CreateAzureCluster" function),
as loading the correct values and calling the correct functions for a given CSP is handled by the `cloudcmd` package.
*/
package terraform
import (
"context"
"errors"
"fmt"
"io"
"path/filepath"
"github.com/edgelesssys/constellation/v2/internal/cloud/cloudprovider"
"github.com/edgelesssys/constellation/v2/internal/constants"
"github.com/edgelesssys/constellation/v2/internal/constellation/state"
"github.com/edgelesssys/constellation/v2/internal/file"
"github.com/hashicorp/go-version"
install "github.com/hashicorp/hc-install"
"github.com/hashicorp/hc-install/fs"
"github.com/hashicorp/hc-install/product"
"github.com/hashicorp/hc-install/releases"
"github.com/hashicorp/hc-install/src"
"github.com/hashicorp/terraform-exec/tfexec"
tfjson "github.com/hashicorp/terraform-json"
"github.com/spf13/afero"
)
const (
// Enforce "<1.6.0" to ensure that only MPL licensed Terraform versions are used.
tfVersion = ">= 1.4.6, < 1.6.0"
terraformVarsFile = "terraform.tfvars"
// terraformUpgradePlanFile is the file name of the zipfile created by Terraform plan for Constellation upgrades.
terraformUpgradePlanFile = "plan.zip"
)
// Client manages interaction with Terraform.
type Client struct {
tf tfInterface
manualStateMigrations []StateMigration
file file.Handler
workingDir string
remove func()
}
// New sets up a new Client for Terraform.
func New(ctx context.Context, workingDir string) (*Client, error) {
file := file.NewHandler(afero.NewOsFs())
if err := file.MkdirAll(workingDir); err != nil {
return nil, err
}
tf, remove, err := getExecutable(ctx, workingDir)
if err != nil {
return nil, err
}
return &Client{
tf: tf,
remove: remove,
file: file,
workingDir: workingDir,
}, nil
}
// WithManualStateMigration adds a manual state migration to the Client.
func (c *Client) WithManualStateMigration(migration StateMigration) *Client {
c.manualStateMigrations = append(c.manualStateMigrations, migration)
return c
}
// ShowIAM reads the state of Constellation IAM resources from Terraform.
func (c *Client) ShowIAM(ctx context.Context, provider cloudprovider.Provider) (IAMOutput, error) {
tfState, err := c.tf.Show(ctx)
if err != nil {
return IAMOutput{}, err
}
if tfState == nil || tfState.Values == nil {
return IAMOutput{}, errors.New("terraform show: no values returned")
}
switch provider {
case cloudprovider.GCP:
saKeyOutputRaw, ok := tfState.Values.Outputs["service_account_key"]
if !ok {
return IAMOutput{}, errors.New("no service_account_key output found")
}
saKeyOutput, ok := saKeyOutputRaw.Value.(string)
if !ok {
return IAMOutput{}, errors.New("invalid type in service_account_key output: not a string")
}
return IAMOutput{
GCP: GCPIAMOutput{
SaKey: saKeyOutput,
},
}, nil
case cloudprovider.Azure:
subscriptionIDRaw, ok := tfState.Values.Outputs["subscription_id"]
if !ok {
return IAMOutput{}, errors.New("no subscription_id output found")
}
subscriptionIDOutput, ok := subscriptionIDRaw.Value.(string)
if !ok {
return IAMOutput{}, errors.New("invalid type in subscription_id output: not a string")
}
tenantIDRaw, ok := tfState.Values.Outputs["tenant_id"]
if !ok {
return IAMOutput{}, errors.New("no tenant_id output found")
}
tenantIDOutput, ok := tenantIDRaw.Value.(string)
if !ok {
return IAMOutput{}, errors.New("invalid type in tenant_id output: not a string")
}
uamiIDRaw, ok := tfState.Values.Outputs["uami_id"]
if !ok {
return IAMOutput{}, errors.New("no uami_id output found")
}
uamiIDOutput, ok := uamiIDRaw.Value.(string)
if !ok {
return IAMOutput{}, errors.New("invalid type in uami_id output: not a string")
}
return IAMOutput{
Azure: AzureIAMOutput{
SubscriptionID: subscriptionIDOutput,
TenantID: tenantIDOutput,
UAMIID: uamiIDOutput,
},
}, nil
case cloudprovider.AWS:
controlPlaneProfileRaw, ok := tfState.Values.Outputs["iam_instance_profile_name_control_plane"]
if !ok {
return IAMOutput{}, errors.New("no iam_instance_profile_name_control_plane output found")
}
controlPlaneProfileOutput, ok := controlPlaneProfileRaw.Value.(string)
if !ok {
return IAMOutput{}, errors.New("invalid type in iam_instance_profile_name_control_plane output: not a string")
}
workerNodeProfileRaw, ok := tfState.Values.Outputs["iam_instance_profile_name_worker_nodes"]
if !ok {
return IAMOutput{}, errors.New("no iam_instance_profile_name_worker_nodes output found")
}
workerNodeProfileOutput, ok := workerNodeProfileRaw.Value.(string)
if !ok {
return IAMOutput{}, errors.New("invalid type in iam_instance_profile_name_worker_nodes output: not a string")
}
return IAMOutput{
AWS: AWSIAMOutput{
ControlPlaneInstanceProfile: controlPlaneProfileOutput,
WorkerNodeInstanceProfile: workerNodeProfileOutput,
},
}, nil
default:
return IAMOutput{}, errors.New("unsupported cloud provider")
}
}
// ShowInfrastructure reads the state of Constellation cluster resources from Terraform.
func (c *Client) ShowInfrastructure(ctx context.Context, provider cloudprovider.Provider) (state.Infrastructure, error) {
tfState, err := c.tf.Show(ctx)
if err != nil {
return state.Infrastructure{}, fmt.Errorf("terraform show: %w", err)
}
if tfState.Values == nil {
return state.Infrastructure{}, errors.New("terraform show: no values returned")
}
outOfClusterEndpointOutput, ok := tfState.Values.Outputs["out_of_cluster_endpoint"]
if !ok {
return state.Infrastructure{}, errors.New("no out_of_cluster_endpoint output found")
}
outOfClusterEndpoint, ok := outOfClusterEndpointOutput.Value.(string)
if !ok {
return state.Infrastructure{}, errors.New("invalid type in IP output: not a string")
}
inClusterEndpointOutput, ok := tfState.Values.Outputs["in_cluster_endpoint"]
if !ok {
return state.Infrastructure{}, errors.New("no in_cluster_endpoint output found")
}
inClusterEndpoint, ok := inClusterEndpointOutput.Value.(string)
if !ok {
return state.Infrastructure{}, errors.New("invalid type in IP output: not a string")
}
apiServerCertSANsOutput, ok := tfState.Values.Outputs["api_server_cert_sans"]
if !ok {
return state.Infrastructure{}, errors.New("no api_server_cert_sans output found")
}
apiServerCertSANsUntyped, ok := apiServerCertSANsOutput.Value.([]any)
if !ok {
return state.Infrastructure{}, fmt.Errorf("invalid type in api_server_cert_sans output: %s is not a list of elements", apiServerCertSANsOutput.Type.FriendlyName())
}
apiServerCertSANs, err := toStringSlice(apiServerCertSANsUntyped)
if err != nil {
return state.Infrastructure{}, fmt.Errorf("convert api_server_cert_sans output: %w", err)
}
secretOutput, ok := tfState.Values.Outputs["init_secret"]
if !ok {
return state.Infrastructure{}, errors.New("no init_secret output found")
}
secret, ok := secretOutput.Value.(string)
if !ok {
return state.Infrastructure{}, errors.New("invalid type in init_Secret output: not a string")
}
uidOutput, ok := tfState.Values.Outputs["uid"]
if !ok {
return state.Infrastructure{}, errors.New("no uid output found")
}
uid, ok := uidOutput.Value.(string)
if !ok {
return state.Infrastructure{}, errors.New("invalid type in uid output: not a string")
}
nameOutput, ok := tfState.Values.Outputs["name"]
if !ok {
return state.Infrastructure{}, errors.New("no name output found")
}
name, ok := nameOutput.Value.(string)
if !ok {
return state.Infrastructure{}, errors.New("invalid type in name output: not a string")
}
cidrNodesOutput, ok := tfState.Values.Outputs["ip_cidr_node"]
if !ok {
return state.Infrastructure{}, errors.New("no ip_cidr_node output found")
}
cidrNodes, ok := cidrNodesOutput.Value.(string)
if !ok {
return state.Infrastructure{}, errors.New("invalid type in ip_cidr_node output: not a string")
}
res := state.Infrastructure{
ClusterEndpoint: outOfClusterEndpoint,
InClusterEndpoint: inClusterEndpoint,
APIServerCertSANs: apiServerCertSANs,
InitSecret: []byte(secret),
UID: uid,
Name: name,
IPCidrNode: cidrNodes,
}
switch provider {
case cloudprovider.GCP:
gcpProjectOutput, ok := tfState.Values.Outputs["project"]
if !ok {
return state.Infrastructure{}, errors.New("no project output found")
}
gcpProject, ok := gcpProjectOutput.Value.(string)
if !ok {
return state.Infrastructure{}, errors.New("invalid type in project output: not a string")
}
cidrPodsOutput, ok := tfState.Values.Outputs["ip_cidr_pod"]
if !ok {
return state.Infrastructure{}, errors.New("no ip_cidr_pod output found")
}
cidrPods, ok := cidrPodsOutput.Value.(string)
if !ok {
return state.Infrastructure{}, errors.New("invalid type in ip_cidr_pod output: not a string")
}
res.GCP = &state.GCP{
ProjectID: gcpProject,
IPCidrPod: cidrPods,
}
case cloudprovider.Azure:
attestationURLOutput, ok := tfState.Values.Outputs["attestation_url"]
if !ok {
return state.Infrastructure{}, errors.New("no attestation_url output found")
}
attestationURL, ok := attestationURLOutput.Value.(string)
if !ok {
return state.Infrastructure{}, errors.New("invalid type in attestation_url output: not a string")
}
azureUAMIOutput, ok := tfState.Values.Outputs["user_assigned_identity_client_id"]
if !ok {
return state.Infrastructure{}, errors.New("no user_assigned_identity_client_id output found")
}
azureUAMI, ok := azureUAMIOutput.Value.(string)
if !ok {
return state.Infrastructure{}, errors.New("invalid type in user_assigned_identity_client_id output: not a string")
}
rgOutput, ok := tfState.Values.Outputs["resource_group"]
if !ok {
return state.Infrastructure{}, errors.New("no resource_group output found")
}
rg, ok := rgOutput.Value.(string)
if !ok {
return state.Infrastructure{}, errors.New("invalid type in resource_group output: not a string")
}
subscriptionOutput, ok := tfState.Values.Outputs["subscription_id"]
if !ok {
return state.Infrastructure{}, errors.New("no subscription_id output found")
}
subscriptionID, ok := subscriptionOutput.Value.(string)
if !ok {
return state.Infrastructure{}, errors.New("invalid type in subscription_id output: not a string")
}
networkSGNameOutput, ok := tfState.Values.Outputs["network_security_group_name"]
if !ok {
return state.Infrastructure{}, errors.New("no network_security_group_name output found")
}
networkSGName, ok := networkSGNameOutput.Value.(string)
if !ok {
return state.Infrastructure{}, errors.New("invalid type in network_security_group_name output: not a string")
}
loadBalancerNameOutput, ok := tfState.Values.Outputs["loadbalancer_name"]
if !ok {
return state.Infrastructure{}, errors.New("no loadbalancer_name output found")
}
loadBalancerName, ok := loadBalancerNameOutput.Value.(string)
if !ok {
return state.Infrastructure{}, errors.New("invalid type in loadbalancer_name output: not a string")
}
res.Azure = &state.Azure{
ResourceGroup: rg,
SubscriptionID: subscriptionID,
UserAssignedIdentity: azureUAMI,
NetworkSecurityGroupName: networkSGName,
LoadBalancerName: loadBalancerName,
AttestationURL: attestationURL,
}
case cloudprovider.OpenStack:
networkIDOutput, ok := tfState.Values.Outputs["network_id"]
if !ok {
return state.Infrastructure{}, errors.New("no network_id output found")
}
networkID, ok := networkIDOutput.Value.(string)
if !ok {
return state.Infrastructure{}, errors.New("invalid type in network_id output: not a string")
}
res.OpenStack = &state.OpenStack{
NetworkID: networkID,
}
}
return res, nil
}
// PrepareWorkspace prepares a Terraform workspace for a Constellation cluster.
func (c *Client) PrepareWorkspace(path string, vars Variables) error {
if err := prepareWorkspace(path, c.file, c.workingDir); err != nil {
return fmt.Errorf("prepare workspace: %w", err)
}
return c.writeVars(vars)
}
// ApplyCluster applies the Terraform configuration of the workspace to create or upgrade a Constellation cluster.
func (c *Client) ApplyCluster(ctx context.Context, provider cloudprovider.Provider, logLevel LogLevel) (state.Infrastructure, error) {
if err := c.apply(ctx, logLevel); err != nil {
return state.Infrastructure{}, err
}
return c.ShowInfrastructure(ctx, provider)
}
// ApplyIAM applies the Terraform configuration of the workspace to create or upgrade an IAM configuration.
func (c *Client) ApplyIAM(ctx context.Context, provider cloudprovider.Provider, logLevel LogLevel) (IAMOutput, error) {
if err := c.apply(ctx, logLevel); err != nil {
return IAMOutput{}, err
}
return c.ShowIAM(ctx, provider)
}
// Plan determines the diff that will be applied by Terraform.
// The plan output is written to the Terraform working directory.
// If there is a diff, the returned bool is true. Otherwise, it is false.
func (c *Client) Plan(ctx context.Context, logLevel LogLevel) (bool, error) {
if err := c.setLogLevel(logLevel); err != nil {
return false, fmt.Errorf("set terraform log level %s: %w", logLevel.String(), err)
}
if err := c.tf.Init(ctx); err != nil {
return false, fmt.Errorf("terraform init: %w", err)
}
if err := c.applyManualStateMigrations(ctx); err != nil {
return false, fmt.Errorf("apply manual state migrations: %w", err)
}
opts := []tfexec.PlanOption{
tfexec.Out(terraformUpgradePlanFile),
}
return c.tf.Plan(ctx, opts...)
}
// ShowPlan formats the diff of a plan file in the Terraform working directory,
// and writes it to the specified output.
func (c *Client) ShowPlan(ctx context.Context, logLevel LogLevel, output io.Writer) error {
if err := c.setLogLevel(logLevel); err != nil {
return fmt.Errorf("set terraform log level %s: %w", logLevel.String(), err)
}
planResult, err := c.tf.ShowPlanFileRaw(ctx, terraformUpgradePlanFile)
if err != nil {
return fmt.Errorf("terraform show plan: %w", err)
}
_, err = output.Write([]byte(planResult))
if err != nil {
return fmt.Errorf("write plan output: %w", err)
}
return nil
}
// Destroy destroys Terraform-created cloud resources.
func (c *Client) Destroy(ctx context.Context, logLevel LogLevel) error {
if err := c.setLogLevel(logLevel); err != nil {
return fmt.Errorf("set terraform log level %s: %w", logLevel.String(), err)
}
if err := c.tf.Init(ctx); err != nil {
return fmt.Errorf("terraform init: %w", err)
}
return c.tf.Destroy(ctx)
}
// RemoveInstaller removes the Terraform installer, if it was downloaded for this command.
func (c *Client) RemoveInstaller() {
c.remove()
}
// CleanUpWorkspace removes terraform files from the current directory.
func (c *Client) CleanUpWorkspace() error {
return cleanUpWorkspace(c.file, c.workingDir)
}
func (c *Client) apply(ctx context.Context, logLevel LogLevel) error {
if err := c.setLogLevel(logLevel); err != nil {
return fmt.Errorf("set terraform log level %s: %w", logLevel.String(), err)
}
if err := c.tf.Init(ctx); err != nil {
return fmt.Errorf("terraform init: %w", err)
}
if err := c.applyManualStateMigrations(ctx); err != nil {
return fmt.Errorf("apply manual state migrations: %w", err)
}
if err := c.tf.Apply(ctx); err != nil {
return fmt.Errorf("terraform apply: %w", err)
}
return nil
}
// applyManualStateMigrations applies manual state migrations that are not handled by Terraform due to missing features.
// This functions expects to be run on an initialized Terraform workspace.
// Each migration is expected to be idempotent.
// This is a temporary solution until we can remove the need for manual state migrations.
func (c *Client) applyManualStateMigrations(ctx context.Context) error {
for _, migration := range c.manualStateMigrations {
if err := migration.Hook(ctx, c.tf); err != nil {
return fmt.Errorf("apply manual state migration %s: %w", migration.DisplayName, err)
}
}
return nil
}
// writeVars writes / overwrites the Terraform variables file.
func (c *Client) writeVars(vars Variables) error {
if vars == nil {
return errors.New("creating cluster: vars is nil")
}
pathToVarsFile := filepath.Join(c.workingDir, terraformVarsFile)
// Allow overwriting existing files.
// If we are creating a new cluster, the workspace must have been empty before,
// so there is no risk of overwriting existing files.
// If we are upgrading an existing cluster, we want to overwrite the existing files,
// and we have already created a backup of the existing workspace.
if err := c.file.Write(pathToVarsFile, []byte(vars.String()), file.OptOverwrite); err != nil {
return fmt.Errorf("write variables file: %w", err)
}
return nil
}
// setLogLevel sets the log level for Terraform.
func (c *Client) setLogLevel(logLevel LogLevel) error {
if logLevel.String() != "" {
if err := c.tf.SetLog(logLevel.String()); err != nil {
return fmt.Errorf("set log level %s: %w", logLevel.String(), err)
}
// Terraform writes its log to the working directory.
// => Set the log path to the parent directory to have it in the user's working directory.
if err := c.tf.SetLogPath(filepath.Join("..", constants.TerraformLogFile)); err != nil {
return fmt.Errorf("set log path: %w", err)
}
}
return nil
}
// StateMigration is a manual state migration that is not handled by Terraform due to missing features.
type StateMigration struct {
DisplayName string
Hook func(ctx context.Context, tfClient TFMigrator) error
}
// IAMOutput contains the output information of the Terraform IAM operations.
type IAMOutput struct {
GCP GCPIAMOutput
Azure AzureIAMOutput
AWS AWSIAMOutput
}
// GCPIAMOutput contains the output information of the Terraform IAM operation on GCP.
type GCPIAMOutput struct {
SaKey string
}
// AzureIAMOutput contains the output information of the Terraform IAM operation on Microsoft Azure.
type AzureIAMOutput struct {
SubscriptionID string
TenantID string
UAMIID string
}
// AWSIAMOutput contains the output information of the Terraform IAM operation on GCP.
type AWSIAMOutput struct {
ControlPlaneInstanceProfile string
WorkerNodeInstanceProfile string
}
// getExecutable returns a Terraform executable either from the local filesystem,
// or downloads the latest version fulfilling the version constraint.
func getExecutable(ctx context.Context, workingDir string) (terraform *tfexec.Terraform, remove func(), err error) {
inst := install.NewInstaller()
version, err := version.NewConstraint(tfVersion)
if err != nil {
return nil, nil, err
}
constrainedVersions := &releases.Versions{
Product: product.Terraform,
Constraints: version,
}
installCandidates, err := constrainedVersions.List(ctx)
if err != nil {
return nil, nil, err
}
if len(installCandidates) == 0 {
return nil, nil, fmt.Errorf("no Terraform version found for constraint %s", version)
}
downloadVersion := installCandidates[len(installCandidates)-1]
localVersion := &fs.Version{
Product: product.Terraform,
Constraints: version,
}
execPath, err := inst.Ensure(ctx, []src.Source{localVersion, downloadVersion})
if err != nil {
return nil, nil, err
}
tf, err := tfexec.NewTerraform(workingDir, execPath)
return tf, func() { _ = inst.Remove(context.Background()) }, err
}
func toStringSlice(in []any) ([]string, error) {
out := make([]string, len(in))
for i, v := range in {
s, ok := v.(string)
if !ok {
return nil, fmt.Errorf("invalid type in list: item at index %v of list is not a string", i)
}
out[i] = s
}
return out, nil
}
type tfInterface interface {
Apply(context.Context, ...tfexec.ApplyOption) error
Destroy(context.Context, ...tfexec.DestroyOption) error
Init(context.Context, ...tfexec.InitOption) error
Show(context.Context, ...tfexec.ShowOption) (*tfjson.State, error)
Plan(ctx context.Context, opts ...tfexec.PlanOption) (bool, error)
ShowPlanFileRaw(ctx context.Context, planPath string, opts ...tfexec.ShowOption) (string, error)
SetLog(level string) error
SetLogPath(path string) error
TFMigrator
}
// TFMigrator is an interface for manual terraform state migrations (terraform state mv).
type TFMigrator interface {
StateMv(ctx context.Context, src, dst string, opts ...tfexec.StateMvCmdOption) error
}