The C based gRPC (C++, Python, Ruby, Objective-C, PHP, C#) https://grpc.io/
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

547 lines
22 KiB

//
//
// Copyright 2015 gRPC authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
//
#include <memory>
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include "absl/log/check.h"
#include <grpc/grpc.h>
#include <grpc/grpc_crl_provider.h>
#include <grpc/grpc_security.h>
#include <grpcpp/security/credentials.h>
5 years ago
#include <grpcpp/security/server_credentials.h>
#include <grpcpp/security/tls_credentials_options.h>
#include <grpcpp/server_builder.h>
#include "src/core/lib/gpr/tmpfile.h"
#include "src/core/lib/gprpp/env.h"
#include "src/cpp/client/secure_credentials.h"
#include "test/cpp/util/tls_test_utils.h"
#define CA_CERT_PATH "src/core/tsi/test_creds/ca.pem"
#define SERVER_CERT_PATH "src/core/tsi/test_creds/server1.pem"
#define SERVER_KEY_PATH "src/core/tsi/test_creds/server1.key"
TlsCreds: Support revocation of intermediate in chain. (#32544) This PR is a small code change with a lot of new test data. [In OpenSSL, there are two flags that configure CRL checks. Coping relevant section:](https://www.openssl.org/docs/man1.0.2/man3/X509_VERIFY_PARAM_get_depth.html) > - X509_V_FLAG_CRL_CHECK enables CRL checking for the certificate chain leaf certificate. An error occurs if a suitable CRL cannot be found. > - X509_V_FLAG_CRL_CHECK_ALL enables CRL checking for the entire certificate chain. We currently only set `X509_V_FLAG_CRL_CHECK`, so we will only ever check if the leaf certificate is revoked. We should check the whole chain. I am open to making this a user configuration if we want to do it that way, but we certainly need to be able to check the whole chain. So, this PR contains the small code change in `ssl_transport_security.cc` to use the `X509_V_FLAG_CRL_CHECK_ALL` flag. Then the rest of the changes are in tests. I've added all the necessary files to have a chain built that looks as follows `Root CA -> Revoked Intermediate CA -> Leaf Certificate`, and added a test for this case as well. You can verify that on master this new test will fail (i.e. the handshake will succeed even though the intermediate CA is revoked) by checking out this branch, running `git checkout master -- ./src/core/tsi/ssl_transport_security.cc`, then running the test. I also slightly reorganized test/core/tsi/test_creds/ so that the CRLs are in their own directory, which is the way our API intends to accept CRLs.
2 years ago
#define CRL_DIR_PATH "test/core/tsi/test_creds/crl_data/crls"
namespace {
constexpr const char* kRootCertName = "root_cert_name";
constexpr const char* kRootCertContents = "root_cert_contents";
constexpr const char* kIdentityCertName = "identity_cert_name";
constexpr const char* kIdentityCertPrivateKey = "identity_private_key";
constexpr const char* kIdentityCertContents = "identity_cert_contents";
using ::grpc::experimental::CreateStaticCrlProvider;
using ::grpc::experimental::ExternalCertificateVerifier;
using ::grpc::experimental::FileWatcherCertificateProvider;
using ::grpc::experimental::HostNameCertificateVerifier;
using ::grpc::experimental::NoOpCertificateVerifier;
using ::grpc::experimental::StaticDataCertificateProvider;
using ::grpc::experimental::TlsChannelCredentialsOptions;
using ::grpc::experimental::TlsCredentialsOptions;
} // namespace
namespace grpc {
namespace testing {
namespace {
TEST(CredentialsTest, InvalidGoogleRefreshToken) {
std::shared_ptr<CallCredentials> bad1 = GoogleRefreshTokenCredentials("");
EXPECT_EQ(static_cast<CallCredentials*>(nullptr), bad1.get());
}
TEST(CredentialsTest, DefaultCredentials) {
auto creds = GoogleDefaultCredentials();
}
TEST(CredentialsTest, ExternalAccountCredentials) {
// url credentials
std::string url_options_string(
"{\"type\":\"external_account\",\"audience\":\"audience\",\"subject_"
"token_type\":\"subject_token_type\",\"service_account_impersonation_"
"url\":\"service_account_impersonation_url\",\"token_url\":\"https://"
"foo.com:5555/token\",\"token_info_url\":\"https://foo.com:5555/"
"token_info\",\"credential_source\":{\"url\":\"https://foo.com:5555/"
"generate_subject_token_format_json\",\"headers\":{\"Metadata-Flavor\":"
"\"Google\"},\"format\":{\"type\":\"json\",\"subject_token_field_name\":"
"\"access_token\"}},\"quota_project_id\":\"quota_"
"project_id\",\"client_id\":\"client_id\",\"client_secret\":\"client_"
"secret\"}");
auto url_creds = grpc::ExternalAccountCredentials(url_options_string,
{"scope1", "scope2"});
EXPECT_TRUE(url_creds != nullptr);
// file credentials
std::string file_options_string(
"{\"type\":\"external_account\",\"audience\":\"audience\",\"subject_"
"token_type\":\"subject_token_type\",\"service_account_impersonation_"
"url\":\"service_account_impersonation_url\",\"token_url\":\"https://"
"foo.com:5555/token\",\"token_info_url\":\"https://foo.com:5555/"
"token_info\",\"credential_source\":{\"file\":\"credentials_file_path\"},"
"\"quota_project_id\":\"quota_"
"project_id\",\"client_id\":\"client_id\",\"client_secret\":\"client_"
"secret\"}");
auto file_creds = grpc::ExternalAccountCredentials(file_options_string,
{"scope1", "scope2"});
EXPECT_TRUE(file_creds != nullptr);
// aws credentials
std::string aws_options_string(
"{\"type\":\"external_account\",\"audience\":\"audience\",\"subject_"
"token_type\":\"subject_token_type\",\"service_account_impersonation_"
"url\":\"service_account_impersonation_url\",\"token_url\":\"https://"
"foo.com:5555/token\",\"token_info_url\":\"https://foo.com:5555/"
"token_info\",\"credential_source\":{\"environment_id\":\"aws1\","
"\"region_url\":\"https://169.254.169.254:5555/"
"region_url\",\"url\":\"https://"
"169.254.169.254:5555/url\",\"regional_cred_verification_url\":\"https://"
"foo.com:5555/regional_cred_verification_url_{region}\"},"
"\"quota_project_id\":\"quota_"
"project_id\",\"client_id\":\"client_id\",\"client_secret\":\"client_"
"secret\"}");
auto aws_creds = grpc::ExternalAccountCredentials(aws_options_string,
{"scope1", "scope2"});
EXPECT_TRUE(aws_creds != nullptr);
}
TEST(CredentialsTest, StsCredentialsOptionsCppToCore) {
grpc::experimental::StsCredentialsOptions options;
options.token_exchange_service_uri = "https://foo.com/exchange";
options.resource = "resource";
options.audience = "audience";
options.scope = "scope";
// options.requested_token_type explicitly not set.
options.subject_token_path = "/foo/bar";
options.subject_token_type = "nice_token_type";
options.actor_token_path = "/foo/baz";
options.actor_token_type = "even_nicer_token_type";
grpc_sts_credentials_options core_opts =
grpc::experimental::StsCredentialsCppToCoreOptions(options);
EXPECT_EQ(options.token_exchange_service_uri,
core_opts.token_exchange_service_uri);
EXPECT_EQ(options.resource, core_opts.resource);
EXPECT_EQ(options.audience, core_opts.audience);
EXPECT_EQ(options.scope, core_opts.scope);
EXPECT_EQ(options.requested_token_type, core_opts.requested_token_type);
EXPECT_EQ(options.subject_token_path, core_opts.subject_token_path);
EXPECT_EQ(options.subject_token_type, core_opts.subject_token_type);
EXPECT_EQ(options.actor_token_path, core_opts.actor_token_path);
EXPECT_EQ(options.actor_token_type, core_opts.actor_token_type);
}
TEST(CredentialsTest, StsCredentialsOptionsJson) {
const char valid_json[] = R"(
{
"token_exchange_service_uri": "https://foo/exchange",
"resource": "resource",
"audience": "audience",
"scope": "scope",
"requested_token_type": "requested_token_type",
"subject_token_path": "subject_token_path",
"subject_token_type": "subject_token_type",
"actor_token_path": "actor_token_path",
"actor_token_type": "actor_token_type"
})";
grpc::experimental::StsCredentialsOptions options;
EXPECT_TRUE(
grpc::experimental::StsCredentialsOptionsFromJson(valid_json, &options)
.ok());
EXPECT_EQ(options.token_exchange_service_uri, "https://foo/exchange");
EXPECT_EQ(options.resource, "resource");
EXPECT_EQ(options.audience, "audience");
EXPECT_EQ(options.scope, "scope");
EXPECT_EQ(options.requested_token_type, "requested_token_type");
EXPECT_EQ(options.subject_token_path, "subject_token_path");
EXPECT_EQ(options.subject_token_type, "subject_token_type");
EXPECT_EQ(options.actor_token_path, "actor_token_path");
EXPECT_EQ(options.actor_token_type, "actor_token_type");
const char minimum_valid_json[] = R"(
{
"token_exchange_service_uri": "https://foo/exchange",
"subject_token_path": "subject_token_path",
"subject_token_type": "subject_token_type"
})";
EXPECT_TRUE(grpc::experimental::StsCredentialsOptionsFromJson(
minimum_valid_json, &options)
.ok());
EXPECT_EQ(options.token_exchange_service_uri, "https://foo/exchange");
EXPECT_EQ(options.resource, "");
EXPECT_EQ(options.audience, "");
EXPECT_EQ(options.scope, "");
EXPECT_EQ(options.requested_token_type, "");
EXPECT_EQ(options.subject_token_path, "subject_token_path");
EXPECT_EQ(options.subject_token_type, "subject_token_type");
EXPECT_EQ(options.actor_token_path, "");
EXPECT_EQ(options.actor_token_type, "");
const char invalid_json[] = R"(
I'm not a valid JSON.
)";
EXPECT_EQ(
grpc::StatusCode::INVALID_ARGUMENT,
grpc::experimental::StsCredentialsOptionsFromJson(invalid_json, &options)
.error_code());
const char invalid_json_missing_subject_token_type[] = R"(
{
"token_exchange_service_uri": "https://foo/exchange",
"subject_token_path": "subject_token_path"
})";
auto status = grpc::experimental::StsCredentialsOptionsFromJson(
invalid_json_missing_subject_token_type, &options);
EXPECT_EQ(grpc::StatusCode::INVALID_ARGUMENT, status.error_code());
EXPECT_THAT(status.error_message(),
::testing::HasSubstr("subject_token_type"));
const char invalid_json_missing_subject_token_path[] = R"(
{
"token_exchange_service_uri": "https://foo/exchange",
"subject_token_type": "subject_token_type"
})";
status = grpc::experimental::StsCredentialsOptionsFromJson(
invalid_json_missing_subject_token_path, &options);
EXPECT_EQ(grpc::StatusCode::INVALID_ARGUMENT, status.error_code());
EXPECT_THAT(status.error_message(),
::testing::HasSubstr("subject_token_path"));
const char invalid_json_missing_token_exchange_uri[] = R"(
{
"subject_token_path": "subject_token_path",
"subject_token_type": "subject_token_type"
})";
status = grpc::experimental::StsCredentialsOptionsFromJson(
invalid_json_missing_token_exchange_uri, &options);
EXPECT_EQ(grpc::StatusCode::INVALID_ARGUMENT, status.error_code());
EXPECT_THAT(status.error_message(),
::testing::HasSubstr("token_exchange_service_uri"));
}
TEST(CredentialsTest, StsCredentialsOptionsFromEnv) {
// Unset env and check expected failure.
grpc_core::UnsetEnv("STS_CREDENTIALS");
grpc::experimental::StsCredentialsOptions options;
auto status = grpc::experimental::StsCredentialsOptionsFromEnv(&options);
EXPECT_EQ(grpc::StatusCode::NOT_FOUND, status.error_code());
// Set env and check for success.
const char valid_json[] = R"(
{
"token_exchange_service_uri": "https://foo/exchange",
"subject_token_path": "subject_token_path",
"subject_token_type": "subject_token_type"
})";
char* creds_file_name;
FILE* creds_file = gpr_tmpfile("sts_creds_options", &creds_file_name);
ASSERT_NE(creds_file_name, nullptr);
ASSERT_NE(creds_file, nullptr);
ASSERT_EQ(sizeof(valid_json),
fwrite(valid_json, 1, sizeof(valid_json), creds_file));
fclose(creds_file);
grpc_core::SetEnv("STS_CREDENTIALS", creds_file_name);
gpr_free(creds_file_name);
status = grpc::experimental::StsCredentialsOptionsFromEnv(&options);
EXPECT_TRUE(status.ok());
EXPECT_EQ(options.token_exchange_service_uri, "https://foo/exchange");
EXPECT_EQ(options.resource, "");
EXPECT_EQ(options.audience, "");
EXPECT_EQ(options.scope, "");
EXPECT_EQ(options.requested_token_type, "");
EXPECT_EQ(options.subject_token_path, "subject_token_path");
EXPECT_EQ(options.subject_token_type, "subject_token_type");
EXPECT_EQ(options.actor_token_path, "");
EXPECT_EQ(options.actor_token_type, "");
// Cleanup.
grpc_core::UnsetEnv("STS_CREDENTIALS");
}
TEST(CredentialsTest, TlsChannelCredentialsWithDefaultRootsAndDefaultVerifier) {
grpc::experimental::TlsChannelCredentialsOptions options;
options.set_verify_server_certs(true);
auto channel_credentials = grpc::experimental::TlsCredentials(options);
CHECK_NE(channel_credentials.get(), nullptr);
}
TEST(
CredentialsTest,
TlsChannelCredentialsWithStaticDataCertificateProviderLoadingRootAndIdentity) {
experimental::IdentityKeyCertPair key_cert_pair;
key_cert_pair.private_key = kIdentityCertPrivateKey;
key_cert_pair.certificate_chain = kIdentityCertContents;
std::vector<experimental::IdentityKeyCertPair> identity_key_cert_pairs;
identity_key_cert_pairs.emplace_back(key_cert_pair);
auto certificate_provider = std::make_shared<StaticDataCertificateProvider>(
kRootCertContents, identity_key_cert_pairs);
grpc::experimental::TlsChannelCredentialsOptions options;
options.set_certificate_provider(certificate_provider);
options.watch_root_certs();
options.set_root_cert_name(kRootCertName);
options.watch_identity_key_cert_pairs();
options.set_identity_cert_name(kIdentityCertName);
auto channel_credentials = grpc::experimental::TlsCredentials(options);
CHECK_NE(channel_credentials.get(), nullptr);
}
TEST(CredentialsTest,
TlsChannelCredentialsWithStaticDataCertificateProviderLoadingRootOnly) {
auto certificate_provider =
std::make_shared<StaticDataCertificateProvider>(kRootCertContents);
CHECK_NE(certificate_provider, nullptr);
CHECK_NE(certificate_provider->c_provider(), nullptr);
grpc::experimental::TlsChannelCredentialsOptions options;
options.set_certificate_provider(certificate_provider);
options.watch_root_certs();
options.set_root_cert_name(kRootCertName);
auto channel_credentials = grpc::experimental::TlsCredentials(options);
CHECK_NE(channel_credentials.get(), nullptr);
}
TEST(
CredentialsTest,
TlsChannelCredentialsWithDefaultRootsAndStaticDataCertificateProviderLoadingIdentityOnly) {
experimental::IdentityKeyCertPair key_cert_pair;
key_cert_pair.private_key = kIdentityCertPrivateKey;
key_cert_pair.certificate_chain = kIdentityCertContents;
std::vector<experimental::IdentityKeyCertPair> identity_key_cert_pairs;
identity_key_cert_pairs.emplace_back(key_cert_pair);
auto certificate_provider =
std::make_shared<StaticDataCertificateProvider>(identity_key_cert_pairs);
grpc::experimental::TlsChannelCredentialsOptions options;
options.set_certificate_provider(certificate_provider);
options.watch_identity_key_cert_pairs();
options.set_identity_cert_name(kIdentityCertName);
auto channel_credentials = grpc::experimental::TlsCredentials(options);
CHECK_NE(channel_credentials.get(), nullptr);
}
TEST(
CredentialsTest,
TlsChannelCredentialsWithFileWatcherCertificateProviderLoadingRootAndIdentity) {
auto certificate_provider = std::make_shared<FileWatcherCertificateProvider>(
SERVER_KEY_PATH, SERVER_CERT_PATH, CA_CERT_PATH, 1);
grpc::experimental::TlsChannelCredentialsOptions options;
options.set_certificate_provider(certificate_provider);
options.watch_root_certs();
options.set_root_cert_name(kRootCertName);
options.watch_identity_key_cert_pairs();
options.set_identity_cert_name(kIdentityCertName);
auto channel_credentials = grpc::experimental::TlsCredentials(options);
CHECK_NE(channel_credentials.get(), nullptr);
}
TEST(CredentialsTest,
TlsChannelCredentialsWithFileWatcherCertificateProviderLoadingRootOnly) {
auto certificate_provider =
std::make_shared<FileWatcherCertificateProvider>(CA_CERT_PATH, 1);
grpc::experimental::TlsChannelCredentialsOptions options;
options.set_certificate_provider(certificate_provider);
options.watch_root_certs();
options.set_root_cert_name(kRootCertName);
auto channel_credentials = grpc::experimental::TlsCredentials(options);
CHECK_NE(channel_credentials.get(), nullptr);
}
TEST(CredentialsTest, TlsChannelCredentialsWithHostNameVerifier) {
auto verifier = std::make_shared<HostNameCertificateVerifier>();
grpc::experimental::TlsChannelCredentialsOptions options;
options.set_verify_server_certs(true);
options.set_certificate_verifier(verifier);
auto channel_credentials = grpc::experimental::TlsCredentials(options);
CHECK_NE(channel_credentials.get(), nullptr);
}
TEST(CredentialsTest, TlsChannelCredentialsWithSyncExternalVerifier) {
auto verifier =
ExternalCertificateVerifier::Create<SyncCertificateVerifier>(true);
grpc::experimental::TlsChannelCredentialsOptions options;
options.set_verify_server_certs(true);
options.set_certificate_verifier(verifier);
options.set_check_call_host(false);
auto channel_credentials = grpc::experimental::TlsCredentials(options);
CHECK_NE(channel_credentials.get(), nullptr);
}
TEST(CredentialsTest, TlsChannelCredentialsWithAsyncExternalVerifier) {
auto verifier =
ExternalCertificateVerifier::Create<AsyncCertificateVerifier>(true);
grpc::experimental::TlsChannelCredentialsOptions options;
options.set_verify_server_certs(true);
options.set_certificate_verifier(verifier);
options.set_check_call_host(false);
auto channel_credentials = grpc::experimental::TlsCredentials(options);
CHECK_NE(channel_credentials.get(), nullptr);
}
TEST(CredentialsTest, TlsChannelCredentialsWithCrlDirectory) {
auto certificate_provider = std::make_shared<FileWatcherCertificateProvider>(
SERVER_KEY_PATH, SERVER_CERT_PATH, CA_CERT_PATH, 1);
grpc::experimental::TlsChannelCredentialsOptions options;
options.set_certificate_provider(certificate_provider);
options.watch_root_certs();
options.set_root_cert_name(kRootCertName);
options.watch_identity_key_cert_pairs();
options.set_identity_cert_name(kIdentityCertName);
options.set_crl_directory(CRL_DIR_PATH);
auto channel_credentials = grpc::experimental::TlsCredentials(options);
CHECK_NE(channel_credentials.get(), nullptr);
}
TEST(CredentialsTest, TlsChannelCredentialsWithCrlProvider) {
auto provider = experimental::CreateStaticCrlProvider({});
ASSERT_TRUE(provider.ok());
grpc::experimental::TlsChannelCredentialsOptions options;
options.set_crl_provider(*provider);
auto channel_credentials = grpc::experimental::TlsCredentials(options);
CHECK_NE(channel_credentials.get(), nullptr);
}
TEST(CredentialsTest, TlsChannelCredentialsWithCrlProviderAndDirectory) {
auto provider = experimental::CreateStaticCrlProvider({});
ASSERT_TRUE(provider.ok());
grpc::experimental::TlsChannelCredentialsOptions options;
options.set_crl_directory(CRL_DIR_PATH);
options.set_crl_provider(*provider);
auto channel_credentials = grpc::experimental::TlsCredentials(options);
// TODO(gtcooke94) - behavior might change to make this return nullptr in the
// future
CHECK_NE(channel_credentials.get(), nullptr);
}
TEST(CredentialsTest, TlsCredentialsOptionsCopyConstructor) {
// define a class that grants access to the internal
// grpc_tls_credentials_options pointer
class TlsTestCredentialsOptions
: public grpc::experimental::TlsCredentialsOptions {
public:
grpc_tls_credentials_options* internal_cred_opts() {
return mutable_c_credentials_options();
}
};
TlsTestCredentialsOptions options;
TlsTestCredentialsOptions copied_options = options;
// Make sure the copy constructor cloned the internal pointer
CHECK(options.internal_cred_opts() != copied_options.internal_cred_opts());
}
TEST(CredentialsTest, TlsCredentialsOptionsDoesNotLeak) {
TlsCredentialsOptions options;
(void)options;
}
TEST(CredentialsTest, MultipleOptionsOneCertificateProviderDoesNotLeak) {
auto provider = std::make_shared<StaticDataCertificateProvider>("root-pem");
TlsCredentialsOptions options_1;
options_1.set_certificate_provider(provider);
TlsCredentialsOptions options_2;
options_2.set_certificate_provider(provider);
}
TEST(CredentialsTest, MultipleOptionsOneCertificateVerifierDoesNotLeak) {
auto verifier = std::make_shared<NoOpCertificateVerifier>();
TlsCredentialsOptions options_1;
options_1.set_certificate_verifier(verifier);
TlsCredentialsOptions options_2;
options_2.set_certificate_verifier(verifier);
}
TEST(CredentialsTest, MultipleOptionsOneCrlProviderDoesNotLeak) {
auto crl_provider = CreateStaticCrlProvider(/*crls=*/{});
EXPECT_TRUE(crl_provider.ok());
TlsCredentialsOptions options_1;
options_1.set_crl_provider(*crl_provider);
TlsCredentialsOptions options_2;
options_2.set_crl_provider(*crl_provider);
}
TEST(CredentialsTest, TlsChannelCredentialsDoesNotLeak) {
TlsChannelCredentialsOptions options;
auto channel_creds = TlsCredentials(options);
EXPECT_NE(channel_creds, nullptr);
}
TEST(CredentialsTest, MultipleChannelCredentialsSameOptionsDoesNotLeak) {
TlsChannelCredentialsOptions options;
auto channel_creds_1 = TlsCredentials(options);
EXPECT_NE(channel_creds_1, nullptr);
auto channel_creds_2 = TlsCredentials(options);
EXPECT_NE(channel_creds_2, nullptr);
}
TEST(CredentialsTest,
MultipleChannelCredentialsOneCertificateProviderDoesNotLeak) {
TlsChannelCredentialsOptions options;
auto provider = std::make_shared<StaticDataCertificateProvider>("root-pem");
options.set_certificate_provider(provider);
auto channel_creds_1 = TlsCredentials(options);
EXPECT_NE(channel_creds_1, nullptr);
auto channel_creds_2 = TlsCredentials(options);
EXPECT_NE(channel_creds_2, nullptr);
}
TEST(CredentialsTest,
MultipleChannelCredentialsOneCertificateVerifierDoesNotLeak) {
TlsChannelCredentialsOptions options;
auto verifier = std::make_shared<NoOpCertificateVerifier>();
options.set_certificate_verifier(verifier);
auto channel_creds_1 = TlsCredentials(options);
EXPECT_NE(channel_creds_1, nullptr);
auto channel_creds_2 = TlsCredentials(options);
EXPECT_NE(channel_creds_2, nullptr);
}
TEST(CredentialsTest, MultipleChannelCredentialsOneCrlProviderDoesNotLeak) {
TlsChannelCredentialsOptions options;
auto provider = CreateStaticCrlProvider(/*crls=*/{});
EXPECT_TRUE(provider.ok());
options.set_crl_provider(*provider);
auto channel_creds_1 = TlsCredentials(options);
EXPECT_NE(channel_creds_1, nullptr);
auto channel_creds_2 = TlsCredentials(options);
EXPECT_NE(channel_creds_2, nullptr);
}
TEST(CredentialsTest, TlsChannelCredentialsWithGoodMinAndMaxTlsVersions) {
grpc::experimental::TlsChannelCredentialsOptions options;
options.set_min_tls_version(grpc_tls_version::TLS1_2);
options.set_max_tls_version(grpc_tls_version::TLS1_3);
auto channel_credentials = grpc::experimental::TlsCredentials(options);
EXPECT_NE(channel_credentials, nullptr);
}
TEST(CredentialsTest, TlsChannelCredentialsWithBadMinAndMaxTlsVersions) {
grpc::experimental::TlsChannelCredentialsOptions options;
options.set_min_tls_version(grpc_tls_version::TLS1_3);
options.set_max_tls_version(grpc_tls_version::TLS1_2);
auto channel_credentials = grpc::experimental::TlsCredentials(options);
EXPECT_EQ(channel_credentials, nullptr);
}
} // namespace
} // namespace testing
} // namespace grpc
int main(int argc, char** argv) {
::testing::InitGoogleTest(&argc, argv);
int ret = RUN_ALL_TESTS();
return ret;
}