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secret_naming_version_test.go
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// Copyright (c) Microsoft Corporation.
// Licensed under the MIT License.
//go:build all
// +build all
package controllers
import (
"context"
"fmt"
"strings"
"testing"
"github.com/Azure/go-autorest/autorest/to"
"github.com/stretchr/testify/assert"
v1 "k8s.io/api/core/v1"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/types"
"github.com/Azure/azure-service-operator/api/v1alpha1"
"github.com/Azure/azure-service-operator/api/v1beta1"
"github.com/Azure/azure-service-operator/pkg/helpers"
"github.com/Azure/azure-service-operator/pkg/resourcemanager/config"
"github.com/Azure/azure-service-operator/pkg/secrets"
kvsecrets "github.com/Azure/azure-service-operator/pkg/secrets/keyvault"
)
// NOTE: Tests in this file are intended to be run twice, once in the v1 secret naming mode
// and once in the v2 secret naming mode. In some instances they parallel tests
// which don't assert on secret name or shape.
// The naming of the tests is important! It's how the makefile knows to run just these tests
// in the old V1 mode.
// Not every resource is included here, only resources which for legacy reasons in the old v1
// secret naming mode had secret naming schemes which were different than the standard.
// This test intentionally mirrors TestAppInsightsController in appinsights_controller_test.go but is
// focused on ensuring the shape of the saved secret is correct
func TestAppInsights_SecretNamedCorrectly(t *testing.T) {
t.Parallel()
defer PanicRecover(t)
ctx := context.Background()
assert := assert.New(t)
rgName := tc.resourceGroupName
rgLocation := tc.resourceGroupLocation
appInsightsName := GenerateTestResourceNameWithRandom("appinsights", 6)
// Create an instance of Azure AppInsights
instance := &v1alpha1.AppInsights{
ObjectMeta: metav1.ObjectMeta{
Name: appInsightsName,
Namespace: "default",
},
Spec: v1alpha1.AppInsightsSpec{
Kind: "web",
Location: rgLocation,
ResourceGroup: rgName,
ApplicationType: "other",
},
}
EnsureInstance(ctx, t, tc, instance)
// Make sure the secret is created
var keyName string
if tc.secretClient.GetSecretNamingVersion() == secrets.SecretNamingV1 {
keyName = fmt.Sprintf("appinsights-%s-%s", instance.Spec.ResourceGroup, instance.Name)
} else {
keyName = instance.Name
}
secretKey := secrets.SecretKey{Name: keyName, Namespace: instance.Namespace, Kind: "appinsights"}
// Secret is created after reconciliation is in provisioned state
var secret map[string][]byte
assert.Eventually(func() bool {
var err error
secret, err = tc.secretClient.Get(ctx, secretKey)
return err == nil
}, tc.timeoutFast, tc.retry, "should be able to get secret")
assert.NotEmpty(string(secret["instrumentationKey"]))
EnsureDelete(ctx, t, tc, instance)
}
// This test intentionally mirrors TestStorageAccountController in storage_controller_test.go but is
// focused on ensuring the shape of the saved secret is correct
func TestStorageAccount_SecretNamedCorrectly(t *testing.T) {
t.Parallel()
defer PanicRecover(t)
ctx := context.Background()
assert := assert.New(t)
rgName := tc.resourceGroupName
rgLocation := tc.resourceGroupLocation
storageName := "storageacct" + helpers.RandomString(6)
instance := &v1alpha1.StorageAccount{
ObjectMeta: metav1.ObjectMeta{
Name: storageName,
Namespace: "default",
},
Spec: v1alpha1.StorageAccountSpec{
Kind: "BlobStorage",
Location: rgLocation,
ResourceGroup: rgName,
Sku: v1alpha1.StorageAccountSku{
Name: "Standard_LRS",
},
AccessTier: "Hot",
EnableHTTPSTrafficOnly: to.BoolPtr(true),
},
}
EnsureInstance(ctx, t, tc, instance)
// Make sure the secret is created
var keyName string
if tc.secretClient.GetSecretNamingVersion() == secrets.SecretNamingV1 {
keyName = fmt.Sprintf("storageaccount-%s-%s", instance.Spec.ResourceGroup, instance.Name)
} else {
keyName = instance.Name
}
secretKey := secrets.SecretKey{Name: keyName, Namespace: instance.Namespace, Kind: "storageaccount"}
secret, err := tc.secretClient.Get(ctx, secretKey)
assert.NoError(err)
assert.NotEmpty(string(secret["StorageAccountName"]))
assert.NotEmpty(string(secret["connectionString0"]))
assert.NotEmpty(string(secret["key0"]))
assert.NotEmpty(string(secret["connectionString1"]))
assert.NotEmpty(string(secret["key1"]))
EnsureDelete(ctx, t, tc, instance)
}
func assertSQLServerAdminSecretCreated(ctx context.Context, t *testing.T, sqlServerInstance *v1beta1.AzureSqlServer) {
if len(sqlServerInstance.Spec.KeyVaultToStoreSecrets) == 0 {
secret := &v1.Secret{}
assert.Eventually(t, func() bool {
var expectedServerSecretName string
if tc.secretClient.GetSecretNamingVersion() == secrets.SecretNamingV1 {
expectedServerSecretName = sqlServerInstance.Name
} else {
expectedServerSecretName = fmt.Sprintf("%s-%s", "azuresqlserver", sqlServerInstance.Name)
}
err := tc.k8sClient.Get(ctx, types.NamespacedName{Namespace: sqlServerInstance.Namespace, Name: expectedServerSecretName}, secret)
if err != nil {
return false
}
return secret.Name == expectedServerSecretName && secret.Namespace == sqlServerInstance.Namespace
}, tc.timeoutFast, tc.retry, "wait for server to have secret")
} else {
// Check that the user's secret is in the keyvault
keyVaultSecretClient := kvsecrets.New(
sqlServerInstance.Spec.KeyVaultToStoreSecrets,
config.GlobalCredentials(),
config.SecretNamingVersion(),
config.PurgeDeletedKeyVaultSecrets(),
config.RecoverSoftDeletedKeyVaultSecrets())
assert.Eventually(t, func() bool {
expectedSecretName := makeSQLServerKeyVaultSecretName(sqlServerInstance)
result, err := keyVaultSecretClient.KeyVaultClient.GetSecret(ctx, kvsecrets.GetVaultsURL(sqlServerInstance.Spec.KeyVaultToStoreSecrets), expectedSecretName, "")
if err != nil {
return false
}
secrets := *result.Value
return len(string(secrets)) > 0
}, tc.timeoutFast, tc.retry, "wait for keyvault to have secret for server")
}
}
func TestAzureSqlServerAndUser_SecretNamedCorrectly(t *testing.T) {
t.Parallel()
defer PanicRecover(t)
ctx := context.Background()
assert := assert.New(t)
// Add any setup steps that needs to be executed before each test
rgName := tc.resourceGroupName
sqlServerName := GenerateTestResourceNameWithRandom("sqlserver1", 10)
rgLocation := "westus3"
sqlServerNamespacedName := types.NamespacedName{Name: sqlServerName, Namespace: "default"}
sqlServerInstance := v1beta1.NewAzureSQLServer(sqlServerNamespacedName, rgName, rgLocation)
// create and wait
RequireInstance(ctx, t, tc, sqlServerInstance)
// verify secret exists in k8s for server 1
assertSQLServerAdminSecretCreated(ctx, t, sqlServerInstance)
sqlDatabaseName := GenerateTestResourceNameWithRandom("sqldatabase", 10)
// Create the SqlDatabase object and expect the Reconcile to be created
sqlDatabaseInstance := &v1beta1.AzureSqlDatabase{
ObjectMeta: metav1.ObjectMeta{
Name: sqlDatabaseName,
Namespace: "default",
},
Spec: v1beta1.AzureSqlDatabaseSpec{
Location: rgLocation,
ResourceGroup: rgName,
Server: sqlServerName,
Edition: 0,
},
}
EnsureInstance(ctx, t, tc, sqlDatabaseInstance)
// Create firewall rule
sqlFirewallRuleNamespacedName := types.NamespacedName{
Name: GenerateTestResourceNameWithRandom("sqlfwr-local1", 10),
Namespace: "default",
}
sqlFirewallRule := v1beta1.NewAzureSQLFirewallRule(
sqlFirewallRuleNamespacedName,
rgName,
sqlServerName,
"1.1.1.1",
"255.255.255.255",
)
EnsureInstance(ctx, t, tc, sqlFirewallRule)
t.Run("sub test for actions", func(t *testing.T) {
RunSQLActionHappy(t, sqlServerName)
})
var sqlUser *v1alpha1.AzureSQLUser
var kvSqlUser1 *v1alpha1.AzureSQLUser
var kvSqlUser2 *v1alpha1.AzureSQLUser
// Run user subtests
t.Run("group2", func(t *testing.T) {
t.Run("set up user in db", func(t *testing.T) {
t.Parallel()
// create a sql user and verify it provisions
username := "user1" + helpers.RandomString(10)
roles := []string{"db_owner"}
keyVaultSecretFormats := []string{"adonet"}
sqlUser = &v1alpha1.AzureSQLUser{
ObjectMeta: metav1.ObjectMeta{
Name: username,
Namespace: "default",
},
Spec: v1alpha1.AzureSQLUserSpec{
Server: sqlServerName,
DbName: sqlDatabaseName,
ResourceGroup: rgName,
Roles: roles,
KeyVaultSecretFormats: keyVaultSecretFormats,
},
}
EnsureInstance(ctx, t, tc, sqlUser)
// verify user's secret has been created
// this test suite defaults to Kube Secrets. They do not support keyvault-specific config but the spec is passed anyway
// to verify that passing them does not break the service
assert.Eventually(func() bool {
key := secrets.SecretKey{Name: sqlUser.Name, Namespace: sqlUser.Namespace, Kind: "azuresqluser"}
secrets, err := tc.secretClient.Get(ctx, key)
return err == nil && strings.Contains(string(secrets["azureSqlDatabaseName"]), sqlDatabaseName)
}, tc.timeoutFast, tc.retry, "wait for secret store to show azure sql user credentials")
t.Log(sqlUser.Status)
})
t.Run("set up user in db with custom keyvault", func(t *testing.T) {
t.Parallel()
// create a sql user and verify it provisions
username := "user2" + helpers.RandomString(10)
roles := []string{"db_owner"}
// This test will attempt to persist secrets to the KV that was instantiated as part of the test suite
kvSqlUser1 = &v1alpha1.AzureSQLUser{
ObjectMeta: metav1.ObjectMeta{
Name: username,
Namespace: "default",
},
Spec: v1alpha1.AzureSQLUserSpec{
Server: sqlServerName,
DbName: sqlDatabaseName,
ResourceGroup: rgName,
Roles: roles,
KeyVaultToStoreSecrets: tc.keyvaultName,
},
}
EnsureInstance(ctx, t, tc, kvSqlUser1)
// Check that the user's secret is in the keyvault
keyVaultSecretClient := kvsecrets.New(
tc.keyvaultName,
config.GlobalCredentials(),
config.SecretNamingVersion(),
config.PurgeDeletedKeyVaultSecrets(),
config.RecoverSoftDeletedKeyVaultSecrets())
assert.Eventually(func() bool {
key := makeSQLUserSecretKey(keyVaultSecretClient, kvSqlUser1)
secrets, _ := keyVaultSecretClient.Get(ctx, key)
return strings.Contains(string(secrets["azureSqlDatabaseName"]), sqlDatabaseName)
}, tc.timeoutFast, tc.retry, "wait for keyvault to show azure sql user credentials")
t.Log(kvSqlUser1.Status)
})
t.Run("set up user in db with custom keyvault and custom formatting", func(t *testing.T) {
t.Parallel()
// create a sql user and verify it provisions
username := "user3" + helpers.RandomString(10)
roles := []string{"db_owner"}
formats := []string{"adonet"}
// This test will attempt to persist secrets to the KV that was instantiated as part of the test suite
kvSqlUser2 = &v1alpha1.AzureSQLUser{
ObjectMeta: metav1.ObjectMeta{
Name: username,
Namespace: "default",
},
Spec: v1alpha1.AzureSQLUserSpec{
Server: sqlServerName,
DbName: sqlDatabaseName,
ResourceGroup: rgName,
Roles: roles,
KeyVaultToStoreSecrets: tc.keyvaultName,
KeyVaultSecretFormats: formats,
},
}
EnsureInstance(ctx, t, tc, kvSqlUser2)
// Check that the user's secret is in the keyvault
keyVaultSecretClient := kvsecrets.New(
tc.keyvaultName,
config.GlobalCredentials(),
config.SecretNamingVersion(),
config.PurgeDeletedKeyVaultSecrets(),
config.RecoverSoftDeletedKeyVaultSecrets())
assert.Eventually(func() bool {
key := makeSQLUserSecretKey(keyVaultSecretClient, kvSqlUser2)
key.Name = key.Name + "-adonet"
secrets, err := keyVaultSecretClient.Get(ctx, key, secrets.Flatten(true))
assert.NoError(err)
return len(string(secrets["secret"])) > 0
}, tc.timeoutFast, tc.retry, "wait for keyvault to show azure sql user credentials with custom formats")
t.Log(kvSqlUser2.Status)
})
})
t.Run("deploy sql action and roll user credentials", func(t *testing.T) {
keyVaultName := tc.keyvaultName
keyVaultSecretClient := kvsecrets.New(
keyVaultName,
config.GlobalCredentials(),
config.SecretNamingVersion(),
config.PurgeDeletedKeyVaultSecrets(),
config.RecoverSoftDeletedKeyVaultSecrets())
key := makeSQLUserSecretKey(keyVaultSecretClient, kvSqlUser1)
oldSecret, err := keyVaultSecretClient.Get(ctx, key)
assert.NoError(err)
sqlActionName := GenerateTestResourceNameWithRandom("azuresqlaction-dev", 10)
sqlActionInstance := &v1alpha1.AzureSqlAction{
ObjectMeta: metav1.ObjectMeta{
Name: sqlActionName,
Namespace: "default",
},
Spec: v1alpha1.AzureSqlActionSpec{
ResourceGroup: rgName,
ServerName: sqlServerName,
ActionName: "rollusercreds",
DbName: sqlDatabaseName,
DbUser: kvSqlUser1.ObjectMeta.Name,
UserSecretKeyVault: keyVaultName,
},
}
err = tc.k8sClient.Create(ctx, sqlActionInstance)
assert.Equal(nil, err, "create sqlaction in k8s")
sqlActionInstanceNamespacedName := types.NamespacedName{Name: sqlActionName, Namespace: "default"}
assert.Eventually(func() bool {
_ = tc.k8sClient.Get(ctx, sqlActionInstanceNamespacedName, sqlActionInstance)
return sqlActionInstance.Status.Provisioned
}, tc.timeout, tc.retry, "wait for sql action to be submitted")
newSecret, err := keyVaultSecretClient.Get(ctx, key)
assert.NoError(err)
assert.NotEqual(oldSecret["password"], newSecret["password"], "password should have been updated")
assert.Equal(oldSecret["username"], newSecret["username"], "usernames should be the same")
})
t.Run("delete db users and ensure that their secrets have been cleaned up", func(t *testing.T) {
EnsureDelete(ctx, t, tc, sqlUser)
EnsureDelete(ctx, t, tc, kvSqlUser1)
EnsureDelete(ctx, t, tc, kvSqlUser2)
// Check that the user's secret is in the keyvault
keyVaultSecretClient := kvsecrets.New(
tc.keyvaultName,
config.GlobalCredentials(),
config.SecretNamingVersion(),
config.PurgeDeletedKeyVaultSecrets(),
config.RecoverSoftDeletedKeyVaultSecrets())
assert.Eventually(func() bool {
key := secrets.SecretKey{Name: sqlUser.ObjectMeta.Name, Namespace: sqlUser.ObjectMeta.Namespace, Kind: "azuresqluser"}
_, err := tc.secretClient.Get(ctx, key)
// Once the secret is gone, the Kube secret client will return an error
return err != nil && strings.Contains(err.Error(), "not found")
}, tc.timeoutFast, tc.retry, "wait for the azuresqluser kube secret to be deleted")
assert.Eventually(func() bool {
key := makeSQLUserSecretKey(keyVaultSecretClient, kvSqlUser1)
_, err := keyVaultSecretClient.Get(ctx, key)
// Once the secret is gone, the KV secret client will return an err
return err != nil && strings.Contains(err.Error(), "could not be found")
}, tc.timeoutFast, tc.retry, "wait for the azuresqluser keyvault secret to be deleted")
assert.Eventually(func() bool {
key := makeSQLUserSecretKey(keyVaultSecretClient, kvSqlUser2)
key.Name = key.Name + "-adonet"
_, err := keyVaultSecretClient.Get(ctx, key, secrets.Flatten(true))
// Once the secret is gone, the KV secret client will return an err
return err != nil && strings.Contains(err.Error(), "could not be found")
}, tc.timeoutFast, tc.retry, "wait for the azuresqluser custom formatted keyvault secret to be deleted")
})
// Delete the SQL server
EnsureDelete(ctx, t, tc, sqlServerInstance)
}
func TestAzureSqlServerKVSecretAndUser_SecretNamedCorrectly(t *testing.T) {
t.Parallel()
defer PanicRecover(t)
ctx := context.Background()
assert := assert.New(t)
// Add any setup steps that needs to be executed before each test
rgName := tc.resourceGroupName
sqlServerName := GenerateTestResourceNameWithRandom("kvsqlserv", 10)
rgLocation := "westus3"
sqlServerNamespacedName := types.NamespacedName{Name: sqlServerName, Namespace: "default"}
sqlServerInstance := v1beta1.NewAzureSQLServer(sqlServerNamespacedName, rgName, rgLocation)
sqlServerInstance.Spec.KeyVaultToStoreSecrets = tc.keyvaultName
// create and wait
RequireInstance(ctx, t, tc, sqlServerInstance)
// verify secret exists in k8s for server 1
assertSQLServerAdminSecretCreated(ctx, t, sqlServerInstance)
sqlDatabaseName := GenerateTestResourceNameWithRandom("sqldatabase", 10)
// Create the SqlDatabase object and expect the Reconcile to be created
sqlDatabaseInstance := &v1beta1.AzureSqlDatabase{
ObjectMeta: metav1.ObjectMeta{
Name: sqlDatabaseName,
Namespace: "default",
},
Spec: v1beta1.AzureSqlDatabaseSpec{
Location: rgLocation,
ResourceGroup: rgName,
Server: sqlServerName,
Edition: 0,
},
}
EnsureInstance(ctx, t, tc, sqlDatabaseInstance)
// Create firewall rule
sqlFirewallRuleNamespacedName := types.NamespacedName{
Name: GenerateTestResourceNameWithRandom("sqlfwr-local2", 10),
Namespace: "default",
}
sqlFirewallRule := v1beta1.NewAzureSQLFirewallRule(
sqlFirewallRuleNamespacedName,
rgName,
sqlServerName,
"1.1.1.1",
"255.255.255.255",
)
EnsureInstance(ctx, t, tc, sqlFirewallRule)
var kvSqlUser1 *v1alpha1.AzureSQLUser
// Run user subtests
t.Run("group2", func(t *testing.T) {
t.Run("set up user in db, specifying adminSecretName", func(t *testing.T) {
t.Parallel()
// create a sql user and verify it provisions
username := "user4" + helpers.RandomString(10)
roles := []string{"db_owner"}
var adminSecret string
if tc.secretClient.GetSecretNamingVersion() == secrets.SecretNamingV1 {
adminSecret = fmt.Sprintf("%s-%s", sqlServerInstance.Namespace, sqlServerInstance.Name)
} else {
adminSecret = sqlServerInstance.Name
}
// This test will attempt to persist secrets to the KV that was instantiated as part of the test suite
kvSqlUser1 = &v1alpha1.AzureSQLUser{
ObjectMeta: metav1.ObjectMeta{
Name: username,
Namespace: "default",
},
Spec: v1alpha1.AzureSQLUserSpec{
Server: sqlServerName,
DbName: sqlDatabaseName,
ResourceGroup: rgName,
Roles: roles,
KeyVaultToStoreSecrets: tc.keyvaultName,
AdminSecretKeyVault: tc.keyvaultName,
AdminSecret: adminSecret,
},
}
EnsureInstance(ctx, t, tc, kvSqlUser1)
// Check that the user's secret is in the keyvault
keyVaultSecretClient := kvsecrets.New(
tc.keyvaultName,
config.GlobalCredentials(),
config.SecretNamingVersion(),
config.PurgeDeletedKeyVaultSecrets(),
config.RecoverSoftDeletedKeyVaultSecrets())
assert.Eventually(func() bool {
key := makeSQLUserSecretKey(keyVaultSecretClient, kvSqlUser1)
key.Name = key.Name
secrets, err := keyVaultSecretClient.Get(ctx, key, secrets.Flatten(true))
assert.NoError(err)
return len(string(secrets["secret"])) > 0
}, tc.timeoutFast, tc.retry, "wait for keyvault to show azure sql user credentials with custom formats")
t.Log(kvSqlUser1.Status)
})
})
// Delete the SQL server
EnsureDelete(ctx, t, tc, sqlServerInstance)
}
func makeSQLUserSecretKey(secretClient *kvsecrets.SecretClient, instance *v1alpha1.AzureSQLUser) secrets.SecretKey {
var keyNamespace string
if secretClient.GetSecretNamingVersion() == secrets.SecretNamingV1 {
keyNamespace = "azuresqluser-" + instance.Spec.Server + "-" + instance.Spec.DbName
} else {
keyNamespace = instance.Namespace
}
return secrets.SecretKey{Name: instance.Name, Namespace: keyNamespace, Kind: "azuresqluser"}
}
func makeSQLServerKeyVaultSecretName(instance *v1beta1.AzureSqlServer) string {
if tc.secretClient.GetSecretNamingVersion() == secrets.SecretNamingV1 {
return fmt.Sprintf("%s-%s", instance.Namespace, instance.Name)
} else {
return fmt.Sprintf("%s-%s-%s", "azuresqlserver", instance.Namespace, instance.Name)
}
}