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https://github.com/ceph/ceph-csi.git
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bb60173a98
The kmsConfig type in the e2e suite has been enhanced with two functions that make it possible to validate the destruction of deleted keys. Signed-off-by: Niels de Vos <ndevos@redhat.com>
156 lines
5.0 KiB
Go
156 lines
5.0 KiB
Go
package e2e
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import (
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"fmt"
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"strings"
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metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
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"k8s.io/kubernetes/test/e2e/framework"
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)
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const (
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// defaultVaultBackendPath is the default VAULT_BACKEND_PATH for secrets.
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defaultVaultBackendPath = "secret/"
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)
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// kmsConfig is an interface that should be used when passing a configuration
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// for a KMS to validation functions. This allows the validation functions to
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// work independently from the actual KMS.
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type kmsConfig interface {
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canGetPassphrase() bool
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getPassphrase(f *framework.Framework, key string) (string, string)
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canVerifyKeyDestroyed() bool
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verifyKeyDestroyed(f *framework.Framework, key string) (bool, string)
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}
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// simpleKMS is to be used for KMS configurations that do not offer options to
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// validate the passphrase stored in the KMS.
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type simpleKMS struct {
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provider string
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}
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// vaultConfig describes the configuration of the Hashicorp Vault service that
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// is used to store the encryption passphrase in.
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type vaultConfig struct {
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*simpleKMS
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backendPath string
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// destroyKeys indicates that a Vault config needs to destroy the
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// metadata of deleted keys in addition to the data
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destroyKeys bool
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}
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// The following variables describe different KMS services as they are defined
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// in the kms-config.yaml file. These variables can be passed on to validation
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// functions when a StorageClass has a KMS enabled.
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var (
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noKMS kmsConfig
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secretsMetadataKMS = &simpleKMS{
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provider: "secrets-metadata",
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}
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vaultKMS = &vaultConfig{
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simpleKMS: &simpleKMS{
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provider: "vault",
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},
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backendPath: defaultVaultBackendPath + "ceph-csi/",
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destroyKeys: true,
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}
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vaultTokensKMS = &vaultConfig{
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simpleKMS: &simpleKMS{
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provider: "vaulttokens",
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},
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backendPath: defaultVaultBackendPath,
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destroyKeys: true,
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}
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vaultTenantSAKMS = &vaultConfig{
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simpleKMS: &simpleKMS{
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provider: "vaulttenantsa",
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},
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backendPath: "tenant/",
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destroyKeys: false,
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}
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)
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func (sk *simpleKMS) String() string {
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return sk.provider
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}
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// canGetPassphrase returns false for the basic KMS configuration as there is
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// currently no way to fetch the passphrase.
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func (sk *simpleKMS) canGetPassphrase() bool {
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return false
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}
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func (sk *simpleKMS) getPassphrase(f *framework.Framework, key string) (string, string) {
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return "", ""
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}
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func (sk *simpleKMS) canVerifyKeyDestroyed() bool {
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return false
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}
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func (sk *simpleKMS) verifyKeyDestroyed(f *framework.Framework, key string) (bool, string) {
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return false, ""
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}
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func (vc *vaultConfig) String() string {
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return fmt.Sprintf("%s (backend path %q)", vc.simpleKMS, vc.backendPath)
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}
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// canGetPassphrase returns true for the Hashicorp Vault KMS configurations as
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// the Vault CLI can be used to retrieve the passphrase.
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func (vc *vaultConfig) canGetPassphrase() bool {
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return true
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}
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// getPassphrase method will execute few commands to try read the secret for
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// specified key from inside the vault container:
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// * authenticate with vault and ignore any stdout (we do not need output)
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// * issue get request for particular key
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// resulting in stdOut (first entry in tuple) - output that contains the key
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// or stdErr (second entry in tuple) - error getting the key.
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func (vc *vaultConfig) getPassphrase(f *framework.Framework, key string) (string, string) {
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vaultAddr := fmt.Sprintf("http://vault.%s.svc.cluster.local:8200", cephCSINamespace)
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loginCmd := fmt.Sprintf("vault login -address=%s sample_root_token_id > /dev/null", vaultAddr)
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readSecret := fmt.Sprintf("vault kv get -address=%s -field=data %s%s",
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vaultAddr, vc.backendPath, key)
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cmd := fmt.Sprintf("%s && %s", loginCmd, readSecret)
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opt := metav1.ListOptions{
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LabelSelector: "app=vault",
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}
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stdOut, stdErr := execCommandInPodAndAllowFail(f, cmd, cephCSINamespace, &opt)
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return strings.TrimSpace(stdOut), strings.TrimSpace(stdErr)
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}
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// canVerifyKeyDestroyed returns true in case the Vault configuration for the
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// KMS setup destroys the keys in addition to (soft) deleting the contents.
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func (vc *vaultConfig) canVerifyKeyDestroyed() bool {
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return vc.destroyKeys
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}
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// verifyKeyDestroyed checks for the metadata of a deleted key. If the
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// deletion_time from the metadata can be read, the key has not been destroyed
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// but only (soft) deleted.
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func (vc *vaultConfig) verifyKeyDestroyed(f *framework.Framework, key string) (bool, string) {
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vaultAddr := fmt.Sprintf("http://vault.%s.svc.cluster.local:8200", cephCSINamespace)
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loginCmd := fmt.Sprintf("vault login -address=%s sample_root_token_id > /dev/null", vaultAddr)
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readDeletionTime := fmt.Sprintf("vault kv metadata get -address=%s -field=deletion_time %s%s",
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vaultAddr, vc.backendPath, key)
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cmd := fmt.Sprintf("%s && %s", loginCmd, readDeletionTime)
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opt := metav1.ListOptions{
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LabelSelector: "app=vault",
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}
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stdOut, stdErr := execCommandInPodAndAllowFail(f, cmd, cephCSINamespace, &opt)
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// in case stdOut contains something, it will be the deletion_time
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// when the deletion_time is set, the metadata is still available and not destroyed
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if strings.TrimSpace(stdOut) != "" {
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return false, stdOut
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}
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// when stdOut is empty, assume the key is completely destroyed
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return true, stdErr
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}
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