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#include <chrono>
#include <memory>
#include <mutex>
#include <sstream>
#include <string>
#include <thread>
#include <vector>
#include <grpc++/channel.h>
#include <grpc++/client_context.h>
#include <grpc++/server.h>
#include <grpc++/server_builder.h>
#include <grpc/grpc.h>
#include <grpc/support/alloc.h>
#include <grpc/support/host_port.h>
#include <grpc/support/log.h>
#include <grpc/support/time.h>
#include <gtest/gtest.h>
#include "src/core/lib/profiling/timers.h"
#include "src/proto/grpc/testing/services.grpc.pb.h"
#include "test/cpp/qps/client.h"
#include "test/cpp/qps/interarrival.h"
#include "test/cpp/qps/usage_timer.h"
namespace grpc {
namespace testing {
static std::unique_ptr<BenchmarkService::Stub> BenchmarkStubCreator(
std::shared_ptr<Channel> ch) {
return BenchmarkService::NewStub(ch);
}
class SynchronousClient
: public ClientImpl<BenchmarkService::Stub, SimpleRequest> {
public:
SynchronousClient(const ClientConfig& config)
: ClientImpl<BenchmarkService::Stub, SimpleRequest>(
config, BenchmarkStubCreator) {
num_threads_ =
config.outstanding_rpcs_per_channel() * config.client_channels();
responses_.resize(num_threads_);
SetupLoadTest(config, num_threads_);
}
virtual ~SynchronousClient(){};
protected:
void WaitToIssue(int thread_idx) {
if (!closed_loop_) {
gpr_sleep_until(NextIssueTime(thread_idx));
}
}
size_t num_threads_;
std::vector<SimpleResponse> responses_;
private:
void DestroyMultithreading() GRPC_OVERRIDE GRPC_FINAL { EndThreads(); }
};
class SynchronousUnaryClient GRPC_FINAL : public SynchronousClient {
public:
SynchronousUnaryClient(const ClientConfig& config)
: SynchronousClient(config) {
StartThreads(num_threads_);
}
~SynchronousUnaryClient() {}
bool ThreadFunc(HistogramEntry* entry, size_t thread_idx) GRPC_OVERRIDE {
WaitToIssue(thread_idx);
auto* stub = channels_[thread_idx % channels_.size()].get_stub();
double start = UsageTimer::Now();
GPR_TIMER_SCOPE("SynchronousUnaryClient::ThreadFunc", 0);
grpc::ClientContext context;
grpc::Status s =
stub->UnaryCall(&context, request_, &responses_[thread_idx]);
entry->set_value((UsageTimer::Now() - start) * 1e9);
return s.ok();
}
};
class SynchronousStreamingClient GRPC_FINAL : public SynchronousClient {
public:
SynchronousStreamingClient(const ClientConfig& config)
: SynchronousClient(config) {
context_ = new grpc::ClientContext[num_threads_];
stream_ = new std::unique_ptr<
grpc::ClientReaderWriter<SimpleRequest, SimpleResponse>>[num_threads_];
for (size_t thread_idx = 0; thread_idx < num_threads_; thread_idx++) {
auto* stub = channels_[thread_idx % channels_.size()].get_stub();
stream_[thread_idx] = stub->StreamingCall(&context_[thread_idx]);
}
StartThreads(num_threads_);
}
~SynchronousStreamingClient() {
for (size_t i = 0; i < num_threads_; i++) {
auto stream = &stream_[i];
if (*stream) {
(*stream)->WritesDone();
Status s = (*stream)->Finish();
EXPECT_TRUE(s.ok());
if (!s.ok()) {
gpr_log(GPR_ERROR, "Stream %zu received an error %s", i,
s.error_message().c_str());
}
}
}
delete[] stream_;
delete[] context_;
}
bool ThreadFunc(HistogramEntry* entry, size_t thread_idx) GRPC_OVERRIDE {
WaitToIssue(thread_idx);
GPR_TIMER_SCOPE("SynchronousStreamingClient::ThreadFunc", 0);
double start = UsageTimer::Now();
if (stream_[thread_idx]->Write(request_) &&
stream_[thread_idx]->Read(&responses_[thread_idx])) {
entry->set_value((UsageTimer::Now() - start) * 1e9);
return true;
}
return false;
}
private:
// These are both conceptually std::vector but cannot be for old compilers
// that expect contained classes to support copy constructors
grpc::ClientContext* context_;
std::unique_ptr<grpc::ClientReaderWriter<SimpleRequest, SimpleResponse>>*
stream_;
};
std::unique_ptr<Client> CreateSynchronousUnaryClient(
const ClientConfig& config) {
return std::unique_ptr<Client>(new SynchronousUnaryClient(config));
}
std::unique_ptr<Client> CreateSynchronousStreamingClient(
const ClientConfig& config) {
return std::unique_ptr<Client>(new SynchronousStreamingClient(config));
}
} // namespace testing
} // namespace grpc