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/*
*
* Copyright 2016 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 "test/cpp/util/grpc_tool.h"
#include <grpc/grpc.h>
#include <grpc/support/alloc.h>
#include <grpcpp/channel.h>
#include <grpcpp/client_context.h>
#include <grpcpp/create_channel.h>
#include <grpcpp/ext/proto_server_reflection_plugin.h>
#include <grpcpp/server.h>
#include <grpcpp/server_builder.h>
#include <grpcpp/server_context.h>
#include <gtest/gtest.h>
#include <chrono>
#include <sstream>
#include "absl/flags/declare.h"
#include "absl/flags/flag.h"
#include "src/core/lib/gpr/env.h"
#include "src/core/lib/iomgr/load_file.h"
#include "src/proto/grpc/testing/echo.grpc.pb.h"
#include "src/proto/grpc/testing/echo.pb.h"
#include "test/core/util/port.h"
#include "test/core/util/test_config.h"
#include "test/cpp/util/cli_credentials.h"
#include "test/cpp/util/string_ref_helper.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"
using grpc::testing::EchoRequest;
using grpc::testing::EchoResponse;
#define USAGE_REGEX "( grpc_cli .+\n){2,10}"
#define ECHO_TEST_SERVICE_SUMMARY \
"Echo\n" \
"Echo1\n" \
"Echo2\n" \
"CheckDeadlineUpperBound\n" \
"CheckDeadlineSet\n" \
"CheckClientInitialMetadata\n" \
"RequestStream\n" \
"ResponseStream\n" \
"BidiStream\n" \
"Unimplemented\n"
#define ECHO_TEST_SERVICE_DESCRIPTION \
"filename: src/proto/grpc/testing/echo.proto\n" \
"package: grpc.testing;\n" \
"service EchoTestService {\n" \
" rpc Echo(grpc.testing.EchoRequest) returns (grpc.testing.EchoResponse) " \
"{}\n" \
" rpc Echo1(grpc.testing.EchoRequest) returns (grpc.testing.EchoResponse) " \
"{}\n" \
" rpc Echo2(grpc.testing.EchoRequest) returns (grpc.testing.EchoResponse) " \
"{}\n" \
" rpc CheckDeadlineUpperBound(grpc.testing.SimpleRequest) returns " \
"(grpc.testing.StringValue) {}\n" \
" rpc CheckDeadlineSet(grpc.testing.SimpleRequest) returns " \
"(grpc.testing.StringValue) {}\n" \
" rpc CheckClientInitialMetadata(grpc.testing.SimpleRequest) returns " \
"(grpc.testing.SimpleResponse) {}\n" \
" rpc RequestStream(stream grpc.testing.EchoRequest) returns " \
"(grpc.testing.EchoResponse) {}\n" \
" rpc ResponseStream(grpc.testing.EchoRequest) returns (stream " \
"grpc.testing.EchoResponse) {}\n" \
" rpc BidiStream(stream grpc.testing.EchoRequest) returns (stream " \
"grpc.testing.EchoResponse) {}\n" \
" rpc Unimplemented(grpc.testing.EchoRequest) returns " \
"(grpc.testing.EchoResponse) {}\n" \
"}\n" \
"\n"
#define ECHO_METHOD_DESCRIPTION \
" rpc Echo(grpc.testing.EchoRequest) returns (grpc.testing.EchoResponse) " \
"{}\n"
#define ECHO_RESPONSE_MESSAGE_TEXT_FORMAT \
"message: \"echo\"\n" \
"param {\n" \
" host: \"localhost\"\n" \
" peer: \"peer\"\n" \
"}\n\n"
#define ECHO_RESPONSE_MESSAGE_JSON_FORMAT \
"{\n" \
" \"message\": \"echo\",\n" \
" \"param\": {\n" \
" \"host\": \"localhost\",\n" \
" \"peer\": \"peer\"\n" \
" }\n" \
"}\n\n"
ABSL_DECLARE_FLAG(std::string, channel_creds_type);
ABSL_DECLARE_FLAG(std::string, ssl_target);
ABSL_DECLARE_FLAG(bool, binary_input);
ABSL_DECLARE_FLAG(bool, binary_output);
ABSL_DECLARE_FLAG(bool, json_input);
ABSL_DECLARE_FLAG(bool, json_output);
ABSL_DECLARE_FLAG(bool, l);
ABSL_DECLARE_FLAG(bool, batch);
ABSL_DECLARE_FLAG(std::string, metadata);
ABSL_DECLARE_FLAG(std::string, protofiles);
ABSL_DECLARE_FLAG(std::string, proto_path);
ABSL_DECLARE_FLAG(std::string, default_service_config);
ABSL_DECLARE_FLAG(double, timeout);
namespace grpc {
namespace testing {
namespace {
const int kServerDefaultResponseStreamsToSend = 3;
class TestCliCredentials final : public grpc::testing::CliCredentials {
public:
explicit TestCliCredentials(bool secure = false) : secure_(secure) {}
std::shared_ptr<grpc::ChannelCredentials> GetChannelCredentials()
const override {
if (!secure_) {
return InsecureChannelCredentials();
}
grpc_slice ca_slice;
GPR_ASSERT(GRPC_LOG_IF_ERROR("load_file",
grpc_load_file(CA_CERT_PATH, 1, &ca_slice)));
const char* test_root_cert =
reinterpret_cast<const char*> GRPC_SLICE_START_PTR(ca_slice);
SslCredentialsOptions ssl_opts = {test_root_cert, "", ""};
std::shared_ptr<grpc::ChannelCredentials> credential_ptr =
grpc::SslCredentials(grpc::SslCredentialsOptions(ssl_opts));
grpc_slice_unref(ca_slice);
return credential_ptr;
}
const std::string GetCredentialUsage() const override { return ""; }
private:
const bool secure_;
};
bool PrintStream(std::stringstream* ss, const std::string& output) {
(*ss) << output;
return true;
}
template <typename T>
size_t ArraySize(T& a) {
return ((sizeof(a) / sizeof(*(a))) /
static_cast<size_t>(!(sizeof(a) % sizeof(*(a)))));
}
class TestServiceImpl : public ::grpc::testing::EchoTestService::Service {
public:
Status Echo(ServerContext* context, const EchoRequest* request,
EchoResponse* response) override {
if (!context->client_metadata().empty()) {
for (std::multimap<grpc::string_ref, grpc::string_ref>::const_iterator
iter = context->client_metadata().begin();
iter != context->client_metadata().end(); ++iter) {
context->AddInitialMetadata(ToString(iter->first),
ToString(iter->second));
}
}
context->AddTrailingMetadata("trailing_key", "trailing_value");
response->set_message(request->message());
return Status::OK;
}
Status CheckDeadlineSet(ServerContext* context,
const SimpleRequest* /*request*/,
StringValue* response) override {
response->set_message(context->deadline() !=
std::chrono::system_clock::time_point::max()
? "true"
: "false");
return Status::OK;
}
// Check if deadline - current time <= timeout
// If deadline set, timeout + current time should be an upper bound for it
Status CheckDeadlineUpperBound(ServerContext* context,
const SimpleRequest* /*request*/,
StringValue* response) override {
auto seconds = std::chrono::duration_cast<std::chrono::seconds>(
context->deadline() - std::chrono::system_clock::now());
// Returning string instead of bool to avoid using embedded messages in
// proto3
response->set_message(
seconds.count() <= absl::GetFlag(FLAGS_timeout) ? "true" : "false");
return Status::OK;
}
Status RequestStream(ServerContext* context,
ServerReader<EchoRequest>* reader,
EchoResponse* response) override {
EchoRequest request;
response->set_message("");
if (!context->client_metadata().empty()) {
for (std::multimap<grpc::string_ref, grpc::string_ref>::const_iterator
iter = context->client_metadata().begin();
iter != context->client_metadata().end(); ++iter) {
context->AddInitialMetadata(ToString(iter->first),
ToString(iter->second));
}
}
context->AddTrailingMetadata("trailing_key", "trailing_value");
while (reader->Read(&request)) {
response->mutable_message()->append(request.message());
}
return Status::OK;
}
Status ResponseStream(ServerContext* context, const EchoRequest* request,
ServerWriter<EchoResponse>* writer) override {
if (!context->client_metadata().empty()) {
for (std::multimap<grpc::string_ref, grpc::string_ref>::const_iterator
iter = context->client_metadata().begin();
iter != context->client_metadata().end(); ++iter) {
context->AddInitialMetadata(ToString(iter->first),
ToString(iter->second));
}
}
context->AddTrailingMetadata("trailing_key", "trailing_value");
EchoResponse response;
for (int i = 0; i < kServerDefaultResponseStreamsToSend; i++) {
response.set_message(request->message() + std::to_string(i));
writer->Write(response);
}
return Status::OK;
}
Status BidiStream(
ServerContext* context,
ServerReaderWriter<EchoResponse, EchoRequest>* stream) override {
EchoRequest request;
EchoResponse response;
if (!context->client_metadata().empty()) {
for (std::multimap<grpc::string_ref, grpc::string_ref>::const_iterator
iter = context->client_metadata().begin();
iter != context->client_metadata().end(); ++iter) {
context->AddInitialMetadata(ToString(iter->first),
ToString(iter->second));
}
}
context->AddTrailingMetadata("trailing_key", "trailing_value");
while (stream->Read(&request)) {
response.set_message(request.message());
stream->Write(response);
}
return Status::OK;
}
};
} // namespace
class GrpcToolTest : public ::testing::Test {
protected:
GrpcToolTest() {}
// SetUpServer cannot be used with EXPECT_EXIT. grpc_pick_unused_port_or_die()
// uses atexit() to free chosen ports, and it will spawn a new thread in
// resolve_address_posix.c:192 at exit time.
const std::string SetUpServer(bool secure = false) {
std::ostringstream server_address;
int port = grpc_pick_unused_port_or_die();
server_address << "localhost:" << port;
// Setup server
ServerBuilder builder;
std::shared_ptr<grpc::ServerCredentials> creds;
grpc_slice cert_slice, key_slice;
GPR_ASSERT(GRPC_LOG_IF_ERROR(
"load_file", grpc_load_file(SERVER_CERT_PATH, 1, &cert_slice)));
GPR_ASSERT(GRPC_LOG_IF_ERROR(
"load_file", grpc_load_file(SERVER_KEY_PATH, 1, &key_slice)));
const char* server_cert =
reinterpret_cast<const char*> GRPC_SLICE_START_PTR(cert_slice);
const char* server_key =
reinterpret_cast<const char*> GRPC_SLICE_START_PTR(key_slice);
SslServerCredentialsOptions::PemKeyCertPair pkcp = {server_key,
server_cert};
if (secure) {
SslServerCredentialsOptions ssl_opts;
ssl_opts.pem_root_certs = "";
ssl_opts.pem_key_cert_pairs.push_back(pkcp);
creds = SslServerCredentials(ssl_opts);
} else {
creds = InsecureServerCredentials();
}
builder.AddListeningPort(server_address.str(), creds);
builder.RegisterService(&service_);
server_ = builder.BuildAndStart();
grpc_slice_unref(cert_slice);
grpc_slice_unref(key_slice);
return server_address.str();
}
void ShutdownServer() { server_->Shutdown(); }
std::unique_ptr<Server> server_;
TestServiceImpl service_;
reflection::ProtoServerReflectionPlugin plugin_;
};
TEST_F(GrpcToolTest, NoCommand) {
// Test input "grpc_cli"
std::stringstream output_stream;
const char* argv[] = {"grpc_cli"};
// Exit with 1, print usage instruction in stderr
EXPECT_EXIT(
GrpcToolMainLib(
ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream, std::placeholders::_1)),
::testing::ExitedWithCode(1), "No command specified\n" USAGE_REGEX);
// No output
EXPECT_TRUE(0 == output_stream.tellp());
}
TEST_F(GrpcToolTest, InvalidCommand) {
// Test input "grpc_cli"
std::stringstream output_stream;
const char* argv[] = {"grpc_cli", "abc"};
// Exit with 1, print usage instruction in stderr
EXPECT_EXIT(
GrpcToolMainLib(
ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream, std::placeholders::_1)),
::testing::ExitedWithCode(1), "Invalid command 'abc'\n" USAGE_REGEX);
// No output
EXPECT_TRUE(0 == output_stream.tellp());
}
TEST_F(GrpcToolTest, HelpCommand) {
// Test input "grpc_cli help"
std::stringstream output_stream;
const char* argv[] = {"grpc_cli", "help"};
// Exit with 1, print usage instruction in stderr
EXPECT_EXIT(GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)),
::testing::ExitedWithCode(1), USAGE_REGEX);
// No output
EXPECT_TRUE(0 == output_stream.tellp());
}
TEST_F(GrpcToolTest, ListCommand) {
// Test input "grpc_cli list localhost:<port>"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "ls", server_address.c_str()};
absl::SetFlag(&FLAGS_l, false);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
EXPECT_TRUE(0 == strcmp(output_stream.str().c_str(),
"grpc.testing.EchoTestService\n"
"grpc.reflection.v1alpha.ServerReflection\n"));
ShutdownServer();
}
TEST_F(GrpcToolTest, ListOneService) {
// Test input "grpc_cli list localhost:<port> grpc.testing.EchoTestService"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "ls", server_address.c_str(),
"grpc.testing.EchoTestService"};
// without -l flag
absl::SetFlag(&FLAGS_l, false);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: ECHO_TEST_SERVICE_SUMMARY
EXPECT_TRUE(0 ==
strcmp(output_stream.str().c_str(), ECHO_TEST_SERVICE_SUMMARY));
// with -l flag
output_stream.str(std::string());
output_stream.clear();
absl::SetFlag(&FLAGS_l, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: ECHO_TEST_SERVICE_DESCRIPTION
EXPECT_TRUE(
0 == strcmp(output_stream.str().c_str(), ECHO_TEST_SERVICE_DESCRIPTION));
ShutdownServer();
}
TEST_F(GrpcToolTest, TypeCommand) {
// Test input "grpc_cli type localhost:<port> grpc.testing.EchoRequest"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "type", server_address.c_str(),
"grpc.testing.EchoRequest"};
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
const grpc::protobuf::Descriptor* desc =
grpc::protobuf::DescriptorPool::generated_pool()->FindMessageTypeByName(
"grpc.testing.EchoRequest");
// Expected output: the DebugString of grpc.testing.EchoRequest
EXPECT_TRUE(0 ==
strcmp(output_stream.str().c_str(), desc->DebugString().c_str()));
ShutdownServer();
}
TEST_F(GrpcToolTest, ListOneMethod) {
// Test input "grpc_cli list localhost:<port> grpc.testing.EchoTestService"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "ls", server_address.c_str(),
"grpc.testing.EchoTestService.Echo"};
// without -l flag
absl::SetFlag(&FLAGS_l, false);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: "Echo"
EXPECT_TRUE(0 == strcmp(output_stream.str().c_str(), "Echo\n"));
// with -l flag
output_stream.str(std::string());
output_stream.clear();
absl::SetFlag(&FLAGS_l, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: ECHO_METHOD_DESCRIPTION
EXPECT_TRUE(0 ==
strcmp(output_stream.str().c_str(), ECHO_METHOD_DESCRIPTION));
ShutdownServer();
}
TEST_F(GrpcToolTest, TypeNotFound) {
// Test input "grpc_cli type localhost:<port> grpc.testing.PhonyRequest"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "type", server_address.c_str(),
"grpc.testing.PhonyRequest"};
EXPECT_TRUE(1 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
ShutdownServer();
}
TEST_F(GrpcToolTest, CallCommand) {
// Test input "grpc_cli call localhost:<port> Echo "message: 'Hello'"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "call", server_address.c_str(), "Echo",
"message: 'Hello'"};
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: "message: \"Hello\""
EXPECT_TRUE(nullptr !=
strstr(output_stream.str().c_str(), "message: \"Hello\""));
// with json_output
output_stream.str(std::string());
output_stream.clear();
// TODO(Capstan): Consider using absl::FlagSaver
absl::SetFlag(&FLAGS_json_output, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
absl::SetFlag(&FLAGS_json_output, false);
// Expected output:
// {
// "message": "Hello"
// }
EXPECT_TRUE(nullptr != strstr(output_stream.str().c_str(),
"{\n \"message\": \"Hello\"\n}"));
ShutdownServer();
}
TEST_F(GrpcToolTest, CallCommandJsonInput) {
// Test input "grpc_cli call localhost:<port> Echo "{ \"message\": \"Hello\"}"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "call", server_address.c_str(), "Echo",
"{ \"message\": \"Hello\"}"};
absl::SetFlag(&FLAGS_json_input, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: "message: \"Hello\""
EXPECT_TRUE(nullptr !=
strstr(output_stream.str().c_str(), "message: \"Hello\""));
// with json_output
output_stream.str(std::string());
output_stream.clear();
absl::SetFlag(&FLAGS_json_output, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
absl::SetFlag(&FLAGS_json_output, false);
absl::SetFlag(&FLAGS_json_input, false);
// Expected output:
// {
// "message": "Hello"
// }
EXPECT_TRUE(nullptr != strstr(output_stream.str().c_str(),
"{\n \"message\": \"Hello\"\n}"));
ShutdownServer();
}
TEST_F(GrpcToolTest, CallCommandBatch) {
// Test input "grpc_cli call Echo"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "call", server_address.c_str(), "Echo",
"message: 'Hello0'"};
// Mock std::cin input "message: 'Hello1'\n\n message: 'Hello2'\n\n"
std::streambuf* orig = std::cin.rdbuf();
std::istringstream ss("message: 'Hello1'\n\n message: 'Hello2'\n\n");
std::cin.rdbuf(ss.rdbuf());
absl::SetFlag(&FLAGS_batch, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
absl::SetFlag(&FLAGS_batch, false);
// Expected output: "message: "Hello0"\nmessage: "Hello1"\nmessage:
// "Hello2"\n"
EXPECT_TRUE(nullptr != strstr(output_stream.str().c_str(),
"message: \"Hello0\"\nmessage: "
"\"Hello1\"\nmessage: \"Hello2\"\n"));
// with json_output
output_stream.str(std::string());
output_stream.clear();
ss.clear();
ss.seekg(0);
std::cin.rdbuf(ss.rdbuf());
absl::SetFlag(&FLAGS_batch, true);
absl::SetFlag(&FLAGS_json_output, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
absl::SetFlag(&FLAGS_json_output, false);
absl::SetFlag(&FLAGS_batch, false);
// Expected output:
// {
// "message": "Hello0"
// }
// {
// "message": "Hello1"
// }
// {
// "message": "Hello2"
// }
// Expected output: "message: "Hello0"\nmessage: "Hello1"\nmessage:
// "Hello2"\n"
EXPECT_TRUE(nullptr != strstr(output_stream.str().c_str(),
"{\n \"message\": \"Hello0\"\n}\n"
"{\n \"message\": \"Hello1\"\n}\n"
"{\n \"message\": \"Hello2\"\n}\n"));
std::cin.rdbuf(orig);
ShutdownServer();
}
TEST_F(GrpcToolTest, CallCommandBatchJsonInput) {
// Test input "grpc_cli call Echo"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "call", server_address.c_str(), "Echo",
"{\"message\": \"Hello0\"}"};
// Mock std::cin input "message: 'Hello1'\n\n message: 'Hello2'\n\n"
std::streambuf* orig = std::cin.rdbuf();
std::istringstream ss(
"{\"message\": \"Hello1\"}\n\n{\"message\": \"Hello2\" }\n\n");
std::cin.rdbuf(ss.rdbuf());
absl::SetFlag(&FLAGS_json_input, true);
absl::SetFlag(&FLAGS_batch, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
absl::SetFlag(&FLAGS_batch, false);
// Expected output: "message: "Hello0"\nmessage: "Hello1"\nmessage:
// "Hello2"\n"
EXPECT_TRUE(nullptr != strstr(output_stream.str().c_str(),
"message: \"Hello0\"\nmessage: "
"\"Hello1\"\nmessage: \"Hello2\"\n"));
// with json_output
output_stream.str(std::string());
output_stream.clear();
ss.clear();
ss.seekg(0);
std::cin.rdbuf(ss.rdbuf());
absl::SetFlag(&FLAGS_batch, true);
absl::SetFlag(&FLAGS_json_output, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
absl::SetFlag(&FLAGS_json_output, false);
absl::SetFlag(&FLAGS_batch, false);
absl::SetFlag(&FLAGS_json_input, false);
// Expected output:
// {
// "message": "Hello0"
// }
// {
// "message": "Hello1"
// }
// {
// "message": "Hello2"
// }
// Expected output: "message: "Hello0"\nmessage: "Hello1"\nmessage:
// "Hello2"\n"
EXPECT_TRUE(nullptr != strstr(output_stream.str().c_str(),
"{\n \"message\": \"Hello0\"\n}\n"
"{\n \"message\": \"Hello1\"\n}\n"
"{\n \"message\": \"Hello2\"\n}\n"));
std::cin.rdbuf(orig);
ShutdownServer();
}
TEST_F(GrpcToolTest, CallCommandBatchWithBadRequest) {
// Test input "grpc_cli call Echo"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "call", server_address.c_str(), "Echo",
"message: 'Hello0'"};
// Mock std::cin input "message: 1\n\n message: 'Hello2'\n\n"
std::streambuf* orig = std::cin.rdbuf();
std::istringstream ss("message: 1\n\n message: 'Hello2'\n\n");
std::cin.rdbuf(ss.rdbuf());
absl::SetFlag(&FLAGS_batch, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
absl::SetFlag(&FLAGS_batch, false);
// Expected output: "message: "Hello0"\nmessage: "Hello2"\n"
EXPECT_TRUE(nullptr != strstr(output_stream.str().c_str(),
"message: \"Hello0\"\nmessage: \"Hello2\"\n"));
// with json_output
output_stream.str(std::string());
output_stream.clear();
ss.clear();
ss.seekg(0);
std::cin.rdbuf(ss.rdbuf());
absl::SetFlag(&FLAGS_batch, true);
absl::SetFlag(&FLAGS_json_output, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
absl::SetFlag(&FLAGS_json_output, false);
absl::SetFlag(&FLAGS_batch, false);
// Expected output:
// {
// "message": "Hello0"
// }
// {
// "message": "Hello2"
// }
// Expected output: "message: "Hello0"\nmessage: "Hello1"\nmessage:
// "Hello2"\n"
EXPECT_TRUE(nullptr != strstr(output_stream.str().c_str(),
"{\n \"message\": \"Hello0\"\n}\n"
"{\n \"message\": \"Hello2\"\n}\n"));
std::cin.rdbuf(orig);
ShutdownServer();
}
TEST_F(GrpcToolTest, CallCommandBatchJsonInputWithBadRequest) {
// Test input "grpc_cli call Echo"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "call", server_address.c_str(), "Echo",
"{ \"message\": \"Hello0\"}"};
// Mock std::cin input "message: 1\n\n message: 'Hello2'\n\n"
std::streambuf* orig = std::cin.rdbuf();
std::istringstream ss(
"{ \"message\": 1 }\n\n { \"message\": \"Hello2\" }\n\n");
std::cin.rdbuf(ss.rdbuf());
absl::SetFlag(&FLAGS_batch, true);
absl::SetFlag(&FLAGS_json_input, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
absl::SetFlag(&FLAGS_json_input, false);
absl::SetFlag(&FLAGS_batch, false);
// Expected output: "message: "Hello0"\nmessage: "Hello2"\n"
EXPECT_TRUE(nullptr != strstr(output_stream.str().c_str(),
"message: \"Hello0\"\nmessage: \"Hello2\"\n"));
// with json_output
output_stream.str(std::string());
output_stream.clear();
ss.clear();
ss.seekg(0);
std::cin.rdbuf(ss.rdbuf());
absl::SetFlag(&FLAGS_batch, true);
absl::SetFlag(&FLAGS_json_input, true);
absl::SetFlag(&FLAGS_json_output, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
absl::SetFlag(&FLAGS_json_output, false);
absl::SetFlag(&FLAGS_json_input, false);
absl::SetFlag(&FLAGS_batch, false);
// Expected output:
// {
// "message": "Hello0"
// }
// {
// "message": "Hello2"
// }
// Expected output: "message: "Hello0"\nmessage: "Hello1"\nmessage:
// "Hello2"\n"
EXPECT_TRUE(nullptr != strstr(output_stream.str().c_str(),
"{\n \"message\": \"Hello0\"\n}\n"
"{\n \"message\": \"Hello2\"\n}\n"));
std::cin.rdbuf(orig);
ShutdownServer();
}
TEST_F(GrpcToolTest, CallCommandRequestStream) {
// Test input: grpc_cli call localhost:<port> RequestStream "message:
// 'Hello0'"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "call", server_address.c_str(),
"RequestStream", "message: 'Hello0'"};
// Mock std::cin input "message: 'Hello1'\n\n message: 'Hello2'\n\n"
std::streambuf* orig = std::cin.rdbuf();
std::istringstream ss("message: 'Hello1'\n\n message: 'Hello2'\n\n");
std::cin.rdbuf(ss.rdbuf());
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: "message: \"Hello0Hello1Hello2\""
EXPECT_TRUE(nullptr != strstr(output_stream.str().c_str(),
"message: \"Hello0Hello1Hello2\""));
std::cin.rdbuf(orig);
ShutdownServer();
}
TEST_F(GrpcToolTest, CallCommandRequestStreamJsonInput) {
// Test input: grpc_cli call localhost:<port> RequestStream "{ \"message\":
// \"Hello0\"}"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "call", server_address.c_str(),
"RequestStream", "{ \"message\": \"Hello0\" }"};
// Mock std::cin input "message: 'Hello1'\n\n message: 'Hello2'\n\n"
std::streambuf* orig = std::cin.rdbuf();
std::istringstream ss(
"{ \"message\": \"Hello1\" }\n\n{ \"message\": \"Hello2\" }\n\n");
std::cin.rdbuf(ss.rdbuf());
absl::SetFlag(&FLAGS_json_input, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
absl::SetFlag(&FLAGS_json_input, false);
// Expected output: "message: \"Hello0Hello1Hello2\""
EXPECT_TRUE(nullptr != strstr(output_stream.str().c_str(),
"message: \"Hello0Hello1Hello2\""));
std::cin.rdbuf(orig);
ShutdownServer();
}
TEST_F(GrpcToolTest, CallCommandRequestStreamWithBadRequest) {
// Test input: grpc_cli call localhost:<port> RequestStream "message:
// 'Hello0'"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "call", server_address.c_str(),
"RequestStream", "message: 'Hello0'"};
// Mock std::cin input "bad_field: 'Hello1'\n\n message: 'Hello2'\n\n"
std::streambuf* orig = std::cin.rdbuf();
std::istringstream ss("bad_field: 'Hello1'\n\n message: 'Hello2'\n\n");
std::cin.rdbuf(ss.rdbuf());
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: "message: \"Hello0Hello2\""
EXPECT_TRUE(nullptr !=
strstr(output_stream.str().c_str(), "message: \"Hello0Hello2\""));
std::cin.rdbuf(orig);
ShutdownServer();
}
TEST_F(GrpcToolTest, CallCommandRequestStreamWithBadRequestJsonInput) {
// Test input: grpc_cli call localhost:<port> RequestStream "message:
// 'Hello0'"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "call", server_address.c_str(),
"RequestStream", "{ \"message\": \"Hello0\" }"};
// Mock std::cin input "bad_field: 'Hello1'\n\n message: 'Hello2'\n\n"
std::streambuf* orig = std::cin.rdbuf();
std::istringstream ss(
"{ \"bad_field\": \"Hello1\" }\n\n{ \"message\": \"Hello2\" }\n\n");
std::cin.rdbuf(ss.rdbuf());
absl::SetFlag(&FLAGS_json_input, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
absl::SetFlag(&FLAGS_json_input, false);
// Expected output: "message: \"Hello0Hello2\""
EXPECT_TRUE(nullptr !=
strstr(output_stream.str().c_str(), "message: \"Hello0Hello2\""));
std::cin.rdbuf(orig);
ShutdownServer();
}
TEST_F(GrpcToolTest, CallCommandWithTimeoutDeadlineSet) {
// Test input "grpc_cli call CheckDeadlineSet --timeout=5000.25"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "call", server_address.c_str(),
"CheckDeadlineSet"};
// Set timeout to 5000.25 seconds
absl::SetFlag(&FLAGS_timeout, 5000.25);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: "message: "true"", deadline set
EXPECT_TRUE(nullptr !=
strstr(output_stream.str().c_str(), "message: \"true\""));
ShutdownServer();
}
TEST_F(GrpcToolTest, CallCommandWithTimeoutDeadlineUpperBound) {
// Test input "grpc_cli call CheckDeadlineUpperBound --timeout=900"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "call", server_address.c_str(),
"CheckDeadlineUpperBound"};
// Set timeout to 900 seconds
absl::SetFlag(&FLAGS_timeout, 900);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: "message: "true""
// deadline not greater than timeout + current time
EXPECT_TRUE(nullptr !=
strstr(output_stream.str().c_str(), "message: \"true\""));
ShutdownServer();
}
TEST_F(GrpcToolTest, CallCommandWithNegativeTimeoutValue) {
// Test input "grpc_cli call CheckDeadlineSet --timeout=-5"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "call", server_address.c_str(),
"CheckDeadlineSet"};
// Set timeout to -5 (deadline not set)
absl::SetFlag(&FLAGS_timeout, -5);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: "message: "false"", deadline not set
EXPECT_TRUE(nullptr !=
strstr(output_stream.str().c_str(), "message: \"false\""));
ShutdownServer();
}
TEST_F(GrpcToolTest, CallCommandWithDefaultTimeoutValue) {
// Test input "grpc_cli call CheckDeadlineSet --timeout=-1"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "call", server_address.c_str(),
"CheckDeadlineSet"};
// Set timeout to -1 (default value, deadline not set)
absl::SetFlag(&FLAGS_timeout, -1);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: "message: "false"", deadline not set
EXPECT_TRUE(nullptr !=
strstr(output_stream.str().c_str(), "message: \"false\""));
ShutdownServer();
}
TEST_F(GrpcToolTest, CallCommandResponseStream) {
// Test input: grpc_cli call localhost:<port> ResponseStream "message:
// 'Hello'"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "call", server_address.c_str(),
"ResponseStream", "message: 'Hello'"};
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: "message: \"Hello{n}\""
for (int i = 0; i < kServerDefaultResponseStreamsToSend; i++) {
std::string expected_response_text =
"message: \"Hello" + std::to_string(i) + "\"\n";
EXPECT_TRUE(nullptr != strstr(output_stream.str().c_str(),
expected_response_text.c_str()));
}
// with json_output
output_stream.str(std::string());
output_stream.clear();
absl::SetFlag(&FLAGS_json_output, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
absl::SetFlag(&FLAGS_json_output, false);
// Expected output: "{\n \"message\": \"Hello{n}\"\n}\n"
for (int i = 0; i < kServerDefaultResponseStreamsToSend; i++) {
std::string expected_response_text =
"{\n \"message\": \"Hello" + std::to_string(i) + "\"\n}\n";
EXPECT_TRUE(nullptr != strstr(output_stream.str().c_str(),
expected_response_text.c_str()));
}
ShutdownServer();
}
TEST_F(GrpcToolTest, CallCommandBidiStream) {
// Test input: grpc_cli call localhost:<port> BidiStream "message: 'Hello0'"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "call", server_address.c_str(),
"BidiStream", "message: 'Hello0'"};
// Mock std::cin input "message: 'Hello1'\n\n message: 'Hello2'\n\n"
std::streambuf* orig = std::cin.rdbuf();
std::istringstream ss("message: 'Hello1'\n\n message: 'Hello2'\n\n");
std::cin.rdbuf(ss.rdbuf());
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: "message: \"Hello0\"\nmessage: \"Hello1\"\nmessage:
// \"Hello2\"\n\n"
EXPECT_TRUE(nullptr != strstr(output_stream.str().c_str(),
"message: \"Hello0\"\nmessage: "
"\"Hello1\"\nmessage: \"Hello2\"\n"));
std::cin.rdbuf(orig);
ShutdownServer();
}
TEST_F(GrpcToolTest, CallCommandBidiStreamWithBadRequest) {
// Test input: grpc_cli call localhost:<port> BidiStream "message: 'Hello0'"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "call", server_address.c_str(),
"BidiStream", "message: 'Hello0'"};
// Mock std::cin input "message: 'Hello1'\n\n message: 'Hello2'\n\n"
std::streambuf* orig = std::cin.rdbuf();
std::istringstream ss("message: 1.0\n\n message: 'Hello2'\n\n");
std::cin.rdbuf(ss.rdbuf());
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: "message: \"Hello0\"\nmessage: \"Hello1\"\nmessage:
// \"Hello2\"\n\n"
EXPECT_TRUE(nullptr != strstr(output_stream.str().c_str(),
"message: \"Hello0\"\nmessage: \"Hello2\"\n"));
std::cin.rdbuf(orig);
ShutdownServer();
}
TEST_F(GrpcToolTest, ParseCommand) {
// Test input "grpc_cli parse localhost:<port> grpc.testing.EchoResponse
// ECHO_RESPONSE_MESSAGE"
std::stringstream output_stream;
std::stringstream binary_output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "parse", server_address.c_str(),
"grpc.testing.EchoResponse",
ECHO_RESPONSE_MESSAGE_TEXT_FORMAT};
absl::SetFlag(&FLAGS_binary_input, false);
absl::SetFlag(&FLAGS_binary_output, false);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: ECHO_RESPONSE_MESSAGE_TEXT_FORMAT
EXPECT_TRUE(0 == strcmp(output_stream.str().c_str(),
ECHO_RESPONSE_MESSAGE_TEXT_FORMAT));
// with json_output
output_stream.str(std::string());
output_stream.clear();
absl::SetFlag(&FLAGS_json_output, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
absl::SetFlag(&FLAGS_json_output, false);
// Expected output: ECHO_RESPONSE_MESSAGE_JSON_FORMAT
EXPECT_TRUE(0 == strcmp(output_stream.str().c_str(),
ECHO_RESPONSE_MESSAGE_JSON_FORMAT));
// Parse text message to binary message and then parse it back to text message
output_stream.str(std::string());
output_stream.clear();
absl::SetFlag(&FLAGS_binary_output, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
std::string binary_data = output_stream.str();
output_stream.str(std::string());
output_stream.clear();
argv[4] = binary_data.c_str();
absl::SetFlag(&FLAGS_binary_input, true);
absl::SetFlag(&FLAGS_binary_output, false);
EXPECT_TRUE(0 == GrpcToolMainLib(5, argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: ECHO_RESPONSE_MESSAGE
EXPECT_TRUE(0 == strcmp(output_stream.str().c_str(),
ECHO_RESPONSE_MESSAGE_TEXT_FORMAT));
absl::SetFlag(&FLAGS_binary_input, false);
absl::SetFlag(&FLAGS_binary_output, false);
ShutdownServer();
}
TEST_F(GrpcToolTest, ParseCommandJsonFormat) {
// Test input "grpc_cli parse localhost:<port> grpc.testing.EchoResponse
// ECHO_RESPONSE_MESSAGE_JSON_FORMAT"
std::stringstream output_stream;
std::stringstream binary_output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "parse", server_address.c_str(),
"grpc.testing.EchoResponse",
ECHO_RESPONSE_MESSAGE_JSON_FORMAT};
absl::SetFlag(&FLAGS_json_input, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: ECHO_RESPONSE_MESSAGE_TEXT_FORMAT
EXPECT_TRUE(0 == strcmp(output_stream.str().c_str(),
ECHO_RESPONSE_MESSAGE_TEXT_FORMAT));
// with json_output
output_stream.str(std::string());
output_stream.clear();
absl::SetFlag(&FLAGS_json_output, true);
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
absl::SetFlag(&FLAGS_json_output, false);
absl::SetFlag(&FLAGS_json_input, false);
// Expected output: ECHO_RESPONSE_MESSAGE_JSON_FORMAT
EXPECT_TRUE(0 == strcmp(output_stream.str().c_str(),
ECHO_RESPONSE_MESSAGE_JSON_FORMAT));
ShutdownServer();
}
TEST_F(GrpcToolTest, TooFewArguments) {
// Test input "grpc_cli call Echo"
std::stringstream output_stream;
const char* argv[] = {"grpc_cli", "call", "Echo"};
// Exit with 1
EXPECT_EXIT(
GrpcToolMainLib(
ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream, std::placeholders::_1)),
::testing::ExitedWithCode(1), ".*Wrong number of arguments for call.*");
// No output
EXPECT_TRUE(0 == output_stream.tellp());
}
TEST_F(GrpcToolTest, TooManyArguments) {
// Test input "grpc_cli call localhost:<port> Echo Echo "message: 'Hello'"
std::stringstream output_stream;
const char* argv[] = {"grpc_cli", "call", "localhost:10000",
"Echo", "Echo", "message: 'Hello'"};
// Exit with 1
EXPECT_EXIT(
GrpcToolMainLib(
ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream, std::placeholders::_1)),
::testing::ExitedWithCode(1), ".*Wrong number of arguments for call.*");
// No output
EXPECT_TRUE(0 == output_stream.tellp());
}
TEST_F(GrpcToolTest, CallCommandWithMetadata) {
// Test input "grpc_cli call localhost:<port> Echo "message: 'Hello'"
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "call", server_address.c_str(), "Echo",
"message: 'Hello'"};
{
std::stringstream output_stream;
absl::SetFlag(&FLAGS_metadata, "key0:val0:key1:valq:key2:val2");
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv,
TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: "message: \"Hello\""
EXPECT_TRUE(nullptr !=
strstr(output_stream.str().c_str(), "message: \"Hello\""));
}
{
std::stringstream output_stream;
absl::SetFlag(&FLAGS_metadata, "key:val\\:val");
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv,
TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: "message: \"Hello\""
EXPECT_TRUE(nullptr !=
strstr(output_stream.str().c_str(), "message: \"Hello\""));
}
{
std::stringstream output_stream;
absl::SetFlag(&FLAGS_metadata, "key:val\\\\val");
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv,
TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
// Expected output: "message: \"Hello\""
EXPECT_TRUE(nullptr !=
strstr(output_stream.str().c_str(), "message: \"Hello\""));
}
absl::SetFlag(&FLAGS_metadata, "");
ShutdownServer();
}
TEST_F(GrpcToolTest, CallCommandWithBadMetadata) {
// Test input "grpc_cli call localhost:10000 Echo "message: 'Hello'"
const char* argv[] = {"grpc_cli", "call", "localhost:10000",
"grpc.testing.EchoTestService.Echo",
"message: 'Hello'"};
absl::SetFlag(&FLAGS_protofiles, "src/proto/grpc/testing/echo.proto");
char* test_srcdir = gpr_getenv("TEST_SRCDIR");
if (test_srcdir != nullptr) {
absl::SetFlag(&FLAGS_proto_path,
test_srcdir + std::string("/com_github_grpc_grpc"));
}
{
std::stringstream output_stream;
absl::SetFlag(&FLAGS_metadata, "key0:val0:key1");
// Exit with 1
EXPECT_EXIT(
GrpcToolMainLib(
ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream, std::placeholders::_1)),
::testing::ExitedWithCode(1), ".*Failed to parse metadata flag.*");
}
{
std::stringstream output_stream;
absl::SetFlag(&FLAGS_metadata, "key:val\\val");
// Exit with 1
EXPECT_EXIT(
GrpcToolMainLib(
ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream, std::placeholders::_1)),
::testing::ExitedWithCode(1), ".*Failed to parse metadata flag.*");
}
absl::SetFlag(&FLAGS_metadata, "");
absl::SetFlag(&FLAGS_protofiles, "");
gpr_free(test_srcdir);
}
TEST_F(GrpcToolTest, ListCommand_OverrideSslHostName) {
const std::string server_address = SetUpServer(true);
// Test input "grpc_cli ls localhost:<port> --channel_creds_type=ssl
// --ssl_target=z.test.google.fr"
std::stringstream output_stream;
const char* argv[] = {"grpc_cli", "ls", server_address.c_str()};
absl::SetFlag(&FLAGS_l, false);
absl::SetFlag(&FLAGS_channel_creds_type, "ssl");
absl::SetFlag(&FLAGS_ssl_target, "z.test.google.fr");
EXPECT_TRUE(
0 == GrpcToolMainLib(
ArraySize(argv), argv, TestCliCredentials(true),
std::bind(PrintStream, &output_stream, std::placeholders::_1)));
EXPECT_TRUE(0 == strcmp(output_stream.str().c_str(),
"grpc.testing.EchoTestService\n"
"grpc.reflection.v1alpha.ServerReflection\n"));
absl::SetFlag(&FLAGS_channel_creds_type, "");
absl::SetFlag(&FLAGS_ssl_target, "");
ShutdownServer();
}
TEST_F(GrpcToolTest, ConfiguringDefaultServiceConfig) {
// Test input "grpc_cli list localhost:<port>
// --default_service_config={\"loadBalancingConfig\":[{\"pick_first\":{}}]}"
std::stringstream output_stream;
const std::string server_address = SetUpServer();
const char* argv[] = {"grpc_cli", "ls", server_address.c_str()};
// Just check that the tool is still operational when --default_service_config
// is configured. This particular service config is in reality redundant with
// the channel's default configuration.
absl::SetFlag(&FLAGS_l, false);
absl::SetFlag(&FLAGS_default_service_config,
"{\"loadBalancingConfig\":[{\"pick_first\":{}}]}");
EXPECT_TRUE(0 == GrpcToolMainLib(ArraySize(argv), argv, TestCliCredentials(),
std::bind(PrintStream, &output_stream,
std::placeholders::_1)));
absl::SetFlag(&FLAGS_default_service_config, "");
EXPECT_TRUE(0 == strcmp(output_stream.str().c_str(),
"grpc.testing.EchoTestService\n"
"grpc.reflection.v1alpha.ServerReflection\n"));
ShutdownServer();
}
} // namespace testing
} // namespace grpc
int main(int argc, char** argv) {
grpc::testing::TestEnvironment env(argc, argv);
::testing::InitGoogleTest(&argc, argv);
::testing::FLAGS_gtest_death_test_style = "threadsafe";
return RUN_ALL_TESTS();
}