// Copyright (c) HashiCorp, Inc. // SPDX-License-Identifier: MPL-2.0 package ca import ( "os" "strconv" "strings" "testing" "time" "github.com/aws/aws-sdk-go/aws" "github.com/aws/aws-sdk-go/service/acmpca" "github.com/stretchr/testify/require" "github.com/hashicorp/consul/agent/connect" "github.com/hashicorp/consul/sdk/testutil" ) // skipIfAWSNotConfigured skips the test unless ENABLE_AWS_PCA_TESTS=true. // // These tests are not run in CI. If you are making changes to the AWS provider // you probably want to run these tests locally. The tests will run using any // credentials available to the AWS SDK. See // https://docs.aws.amazon.com/sdk-for-go/v1/developer-guide/configuring-sdk.html#specifying-credentials // for a list of options. func skipIfAWSNotConfigured(t *testing.T) { enabled := os.Getenv("ENABLE_AWS_PCA_TESTS") ok, err := strconv.ParseBool(enabled) if err != nil || !ok { t.Skip("Skipping because AWS tests are not enabled") } } func TestAWSBootstrapAndSignPrimary(t *testing.T) { // Note not parallel since we could easily hit AWS limits of too many CAs if // all of these tests run at once. skipIfAWSNotConfigured(t) for _, tc := range KeyTestCases { tc := tc t.Run(tc.Desc, func(t *testing.T) { cfg := map[string]interface{}{ "PrivateKeyType": tc.KeyType, "PrivateKeyBits": tc.KeyBits, "RootCertTTL": "8761h", } provider := testAWSProvider(t, testProviderConfigPrimary(t, cfg)) defer provider.Cleanup(true, nil) root, err := provider.GenerateCAChain() require.NoError(t, err) rootPEM := root.PEM // Ensure they use the right key type rootCert, err := connect.ParseCert(rootPEM) require.NoError(t, err) keyType, keyBits, err := connect.KeyInfoFromCert(rootCert) require.NoError(t, err) require.Equal(t, tc.KeyType, keyType) require.Equal(t, tc.KeyBits, keyBits) // Ensure that the root cert ttl is withing the configured value // computation is similar to how we are passing the TTL thru the aws client expectedTime := time.Now().AddDate(0, 0, int(8761*60*time.Minute/day)).UTC() require.WithinDuration(t, expectedTime, rootCert.NotAfter, 10*time.Minute, "expected parsed cert ttl to be the same as the value configured") // Sign a leaf with it testSignAndValidate(t, provider, rootPEM, nil) }) } t.Run("Test default root ttl for aws ca provider", func(t *testing.T) { provider := testAWSProvider(t, testProviderConfigPrimary(t, nil)) defer provider.Cleanup(true, nil) root, err := provider.GenerateCAChain() require.NoError(t, err) rootPEM := root.PEM // Ensure they use the right key type rootCert, err := connect.ParseCert(rootPEM) require.NoError(t, err) // Ensure that the root cert ttl is withing the configured value // computation is similar to how we are passing the TTL thru the aws client expectedTime := time.Now().AddDate(0, 0, int(87600*60*time.Minute/day)).UTC() require.WithinDuration(t, expectedTime, rootCert.NotAfter, 10*time.Minute, "expected parsed cert ttl to be the same as the value configured") }) } func testSignAndValidate(t *testing.T, p Provider, rootPEM string, intermediatePEMs []string) { csrPEM, _ := connect.TestCSR(t, connect.TestSpiffeIDService(t, "testsvc")) csr, err := connect.ParseCSR(csrPEM) require.NoError(t, err) leafPEM, err := p.Sign(csr) require.NoError(t, err) err = connect.ValidateLeaf(rootPEM, leafPEM, intermediatePEMs) require.NoError(t, err) requireTrailingNewline(t, leafPEM) } func TestAWSBootstrapAndSignSecondary(t *testing.T) { // Note not parallel since we could easily hit AWS limits of too many CAs if // all of these tests run at once. skipIfAWSNotConfigured(t) p1 := testAWSProvider(t, testProviderConfigPrimary(t, nil)) defer p1.Cleanup(true, nil) root, err := p1.GenerateCAChain() require.NoError(t, err) rootPEM := root.PEM p2 := testAWSProvider(t, testProviderConfigSecondary(t, nil)) defer p2.Cleanup(true, nil) testSignIntermediateCrossDC(t, p1, p2) // Fetch intermediate from s2 now for later comparison intPEM, err := p2.ActiveLeafSigningCert() require.NoError(t, err) // Capture the state of the providers we've setup p1State, err := p1.State() require.NoError(t, err) p2State, err := p2.State() require.NoError(t, err) // TEST LOAD FROM PREVIOUS STATE { // Now create new providers from the state of the first ones simulating // leadership change in both DCs t.Log("Restarting Providers with State") // Create new provider instances cfg1 := testProviderConfigPrimary(t, nil) cfg1.State = p1State p1 = testAWSProvider(t, cfg1) root, err := p1.GenerateCAChain() require.NoError(t, err) newRootPEM := root.PEM cfg2 := testProviderConfigPrimary(t, nil) cfg2.State = p2State p2 = testAWSProvider(t, cfg2) // Need call ActiveLeafSigningCert like leader would to trigger loading from PCA newIntPEM, err := p2.ActiveLeafSigningCert() require.NoError(t, err) // Root cert should not have changed require.Equal(t, rootPEM, newRootPEM) // Secondary intermediate cert should not have changed require.NoError(t, err) require.Equal(t, rootPEM, newRootPEM) require.Equal(t, intPEM, newIntPEM) // Should both be able to sign leafs again testSignAndValidate(t, p1, rootPEM, nil) testSignAndValidate(t, p2, rootPEM, []string{intPEM}) } // Since we have CAs created, test the use-case where User supplied CAs are // used. { t.Log("Starting up Providers with ExistingARNs") // Create new provider instances with config cfg1 := testProviderConfigPrimary(t, map[string]interface{}{ "ExistingARN": p1State[AWSStateCAARNKey], }) p1 = testAWSProvider(t, cfg1) root, err := p1.GenerateCAChain() require.NoError(t, err) newRootPEM := root.PEM cfg2 := testProviderConfigPrimary(t, map[string]interface{}{ "ExistingARN": p2State[AWSStateCAARNKey], }) cfg1.RawConfig["ExistingARN"] = p2State[AWSStateCAARNKey] p2 = testAWSProvider(t, cfg2) // Need call ActiveLeafSigningCert like leader would to trigger loading from PCA newIntPEM, err := p2.ActiveLeafSigningCert() require.NoError(t, err) // Root cert should not have changed require.Equal(t, rootPEM, newRootPEM) // Secondary intermediate cert should not have changed require.NoError(t, err) require.Equal(t, rootPEM, newRootPEM) require.Equal(t, intPEM, newIntPEM) // Should both be able to sign leafs again testSignAndValidate(t, p1, rootPEM, nil) testSignAndValidate(t, p2, rootPEM, []string{intPEM}) } // Test that SetIntermediate() gives back certs with trailing new lines { // "Set" root, intermediate certs without a trailing new line newIntPEM := strings.TrimSuffix(intPEM, "\n") newRootPEM := strings.TrimSuffix(rootPEM, "\n") cfg2 := testProviderConfigSecondary(t, map[string]interface{}{ "ExistingARN": p2State[AWSStateCAARNKey], }) p2 = testAWSProvider(t, cfg2) require.NoError(t, p2.SetIntermediate(newIntPEM, newRootPEM, "")) root, err = p1.GenerateCAChain() require.NoError(t, err) newRootPEM = root.PEM newIntPEM, err = p2.ActiveLeafSigningCert() require.NoError(t, err) require.Equal(t, rootPEM, newRootPEM) require.Equal(t, intPEM, newIntPEM) } } func TestAWSBootstrapAndSignSecondaryConsul(t *testing.T) { // Note not parallel since we could easily hit AWS limits of too many CAs if // all of these tests run at once. skipIfAWSNotConfigured(t) t.Run("pri=consul,sec=aws", func(t *testing.T) { conf := testConsulCAConfig() delegate := newMockDelegate(t, conf) p1 := TestConsulProvider(t, delegate) cfg := testProviderConfig(conf) require.NoError(t, p1.Configure(cfg)) _, err := p1.GenerateCAChain() require.NoError(t, err) p2 := testAWSProvider(t, testProviderConfigSecondary(t, nil)) defer p2.Cleanup(true, nil) testSignIntermediateCrossDC(t, p1, p2) }) t.Run("pri=aws,sec=consul", func(t *testing.T) { p1 := testAWSProvider(t, testProviderConfigPrimary(t, nil)) defer p1.Cleanup(true, nil) _, err := p1.GenerateCAChain() require.NoError(t, err) conf := testConsulCAConfig() delegate := newMockDelegate(t, conf) p2 := TestConsulProvider(t, delegate) cfg := testProviderConfig(conf) cfg.IsPrimary = false cfg.Datacenter = "dc2" require.NoError(t, p2.Configure(cfg)) testSignIntermediateCrossDC(t, p1, p2) }) } func TestAWSNoCrossSigning(t *testing.T) { skipIfAWSNotConfigured(t) p1 := testAWSProvider(t, testProviderConfigPrimary(t, nil)) defer p1.Cleanup(true, nil) // Don't bother initializing a PCA as that is slow and unnecessary for this // test ok, err := p1.SupportsCrossSigning() require.NoError(t, err) require.False(t, ok) // Attempt to cross sign a CA should fail with sensible error ca := connect.TestCA(t, nil) caCert, err := connect.ParseCert(ca.RootCert) require.NoError(t, err) _, err = p1.CrossSignCA(caCert) require.Error(t, err) require.Contains(t, err.Error(), "not implemented") } func TestAWSProvider_Cleanup(t *testing.T) { // Note not parallel since we could easily hit AWS limits of too many CAs if // all of these tests run at once. skipIfAWSNotConfigured(t) describeCA := func(t *testing.T, provider *AWSProvider) (bool, error) { t.Helper() state, err := provider.State() require.NoError(t, err) // Load from the resource. input := &acmpca.DescribeCertificateAuthorityInput{ CertificateAuthorityArn: aws.String(state[AWSStateCAARNKey]), } output, err := provider.client.DescribeCertificateAuthority(input) if err != nil { return false, err } require.NotNil(t, output) require.NotNil(t, output.CertificateAuthority) require.NotNil(t, output.CertificateAuthority.Status) return *output.CertificateAuthority.Status == acmpca.CertificateAuthorityStatusDeleted, nil } requirePCADeleted := func(t *testing.T, provider *AWSProvider) { t.Helper() deleted, err := describeCA(t, provider) require.True(t, err != nil || deleted, "The AWS PCA instance has not been deleted") } requirePCANotDeleted := func(t *testing.T, provider *AWSProvider) { t.Helper() deleted, err := describeCA(t, provider) require.NoError(t, err) require.False(t, deleted, "The AWS PCA instance should not have been deleted") } t.Run("provider-change", func(t *testing.T) { // create a provider with the default config which will create the CA p1Conf := testProviderConfigPrimary(t, nil) p1 := testAWSProvider(t, p1Conf) p1.GenerateCAChain() t.Cleanup(func() { // This is a fail safe just in case the Cleanup routine of the // second provider fails to delete the CA. In that case we want // to request that the main provider delete it during Cleanup. if deleted, err := describeCA(t, p1); err == nil && deleted { p1.Cleanup(false, p1Conf.RawConfig) } else { p1.Cleanup(true, nil) } }) // just ensure that it got created requirePCANotDeleted(t, p1) state, err := p1.State() require.NoError(t, err) p2Conf := testProviderConfigPrimary(t, map[string]interface{}{ "ExistingARN": state[AWSStateCAARNKey], }) p2 := testAWSProvider(t, p2Conf) // provider change should trigger deletion of the CA require.NoError(t, p2.Cleanup(true, nil)) requirePCADeleted(t, p1) }) t.Run("arn-change", func(t *testing.T) { // create a provider with the default config which will create the CA p1Conf := testProviderConfigPrimary(t, nil) p1 := testAWSProvider(t, p1Conf) p1.GenerateCAChain() t.Cleanup(func() { // This is a fail safe just in case the Cleanup routine of the // second provider fails to delete the CA. In that case we want // to request that the main provider delete it during Cleanup. if deleted, err := describeCA(t, p1); err == nil || deleted { p1.Cleanup(false, p1Conf.RawConfig) } else { p1.Cleanup(true, nil) } }) // just ensure that it got created requirePCANotDeleted(t, p1) state, err := p1.State() require.NoError(t, err) p2Conf := testProviderConfigPrimary(t, map[string]interface{}{ "ExistingARN": state[AWSStateCAARNKey], }) p2 := testAWSProvider(t, p2Conf) // changing the ARN should cause the other CA to be deleted p2ConfAltARN := testProviderConfigPrimary(t, map[string]interface{}{ "ExistingARN": "doesnt-need-to-be-real", }) require.NoError(t, p2.Cleanup(false, p2ConfAltARN.RawConfig)) requirePCADeleted(t, p1) }) t.Run("arn-not-changed", func(t *testing.T) { // create a provider with the default config which will create the CA p1Conf := testProviderConfigPrimary(t, nil) p1 := testAWSProvider(t, p1Conf) p1.GenerateCAChain() t.Cleanup(func() { // the p2 provider should not remove the CA but we need to ensure that // we do clean it up p1.Cleanup(true, nil) }) // just ensure that it got created requirePCANotDeleted(t, p1) state, err := p1.State() require.NoError(t, err) p2Conf := testProviderConfigPrimary(t, map[string]interface{}{ "ExistingARN": state[AWSStateCAARNKey], }) p2 := testAWSProvider(t, p2Conf) // because the ARN isn't changing we don't want to remove the CA require.NoError(t, p2.Cleanup(false, p2Conf.RawConfig)) requirePCANotDeleted(t, p1) }) } func testAWSProvider(t *testing.T, cfg ProviderConfig) *AWSProvider { p := NewAWSProvider(testutil.Logger(t)) require.NoError(t, p.Configure(cfg)) return p } func testProviderConfigPrimary(t *testing.T, cfg map[string]interface{}) ProviderConfig { rawCfg := make(map[string]interface{}) for k, v := range cfg { rawCfg[k] = v } rawCfg["DeleteOnExit"] = true return ProviderConfig{ ClusterID: connect.TestClusterID, Datacenter: "dc1", IsPrimary: true, RawConfig: rawCfg, } } func testProviderConfigSecondary(t *testing.T, cfg map[string]interface{}) ProviderConfig { c := testProviderConfigPrimary(t, cfg) c.IsPrimary = false c.Datacenter = "dc2" return c }