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/*
*
* 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 <list>
#include <memory>
#include <mutex>
#include <sstream>
#include <string>
#include <thread>
#include <utility>
#include <vector>
#include <grpc/grpc.h>
#include <grpc/support/cpu.h>
#include <grpc/support/log.h>
#include <grpcpp/alarm.h>
#include <grpcpp/channel.h>
#include <grpcpp/client_context.h>
#include "src/proto/grpc/testing/benchmark_service.grpc.pb.h"
#include "test/cpp/qps/client.h"
#include "test/cpp/qps/usage_timer.h"
namespace grpc {
namespace testing {
/**
* Maintains context info per RPC
*/
struct CallbackClientRpcContext {
CallbackClientRpcContext(BenchmarkService::Stub* stub) : stub_(stub) {}
~CallbackClientRpcContext() {}
SimpleResponse response_;
ClientContext context_;
Alarm alarm_;
BenchmarkService::Stub* stub_;
};
static std::unique_ptr<BenchmarkService::Stub> BenchmarkStubCreator(
const std::shared_ptr<Channel>& ch) {
return BenchmarkService::NewStub(ch);
}
class CallbackClient
: public ClientImpl<BenchmarkService::Stub, SimpleRequest> {
public:
CallbackClient(const ClientConfig& config)
: ClientImpl<BenchmarkService::Stub, SimpleRequest>(
config, BenchmarkStubCreator) {
num_threads_ = NumThreads(config);
rpcs_done_ = 0;
// Don't divide the fixed load among threads as the user threads
// only bootstrap the RPCs
SetupLoadTest(config, 1);
total_outstanding_rpcs_ =
config.client_channels() * config.outstanding_rpcs_per_channel();
}
virtual ~CallbackClient() {}
/**
* The main thread of the benchmark will be waiting on DestroyMultithreading.
* Increment the rpcs_done_ variable to signify that the Callback RPC
* after thread completion is done. When the last outstanding rpc increments
* the counter it should also signal the main thread's conditional variable.
*/
void NotifyMainThreadOfThreadCompletion() {
std::lock_guard<std::mutex> l(shutdown_mu_);
rpcs_done_++;
if (rpcs_done_ == total_outstanding_rpcs_) {
shutdown_cv_.notify_one();
}
}
gpr_timespec NextRPCIssueTime() {
std::lock_guard<std::mutex> l(next_issue_time_mu_);
return Client::NextIssueTime(0);
}
protected:
size_t num_threads_;
size_t total_outstanding_rpcs_;
// The below mutex and condition variable is used by main benchmark thread to
// wait on completion of all RPCs before shutdown
std::mutex shutdown_mu_;
std::condition_variable shutdown_cv_;
// Number of rpcs done after thread completion
size_t rpcs_done_;
// Vector of Context data pointers for running a RPC
std::vector<std::unique_ptr<CallbackClientRpcContext>> ctx_;
virtual void InitThreadFuncImpl(size_t thread_idx) = 0;
virtual bool ThreadFuncImpl(Thread* t, size_t thread_idx) = 0;
void ThreadFunc(size_t thread_idx, Thread* t) override {
InitThreadFuncImpl(thread_idx);
ThreadFuncImpl(t, thread_idx);
}
private:
std::mutex next_issue_time_mu_; // Used by next issue time
int NumThreads(const ClientConfig& config) {
int num_threads = config.async_client_threads();
if (num_threads <= 0) { // Use dynamic sizing
num_threads = cores_;
gpr_log(GPR_INFO, "Sizing callback client to %d threads", num_threads);
}
return num_threads;
}
/**
* Wait until all outstanding Callback RPCs are done
*/
void DestroyMultithreading() final {
std::unique_lock<std::mutex> l(shutdown_mu_);
while (rpcs_done_ != total_outstanding_rpcs_) {
shutdown_cv_.wait(l);
}
EndThreads();
}
};
class CallbackUnaryClient final : public CallbackClient {
public:
CallbackUnaryClient(const ClientConfig& config) : CallbackClient(config) {
for (int ch = 0; ch < config.client_channels(); ch++) {
for (int i = 0; i < config.outstanding_rpcs_per_channel(); i++) {
ctx_.emplace_back(
new CallbackClientRpcContext(channels_[ch].get_stub()));
}
}
StartThreads(num_threads_);
}
~CallbackUnaryClient() {}
protected:
bool ThreadFuncImpl(Thread* t, size_t thread_idx) override {
for (size_t vector_idx = thread_idx; vector_idx < total_outstanding_rpcs_;
vector_idx += num_threads_) {
ScheduleRpc(t, vector_idx);
}
return true;
}
void InitThreadFuncImpl(size_t thread_idx) override { return; }
private:
void ScheduleRpc(Thread* t, size_t vector_idx) {
if (!closed_loop_) {
gpr_timespec next_issue_time = NextRPCIssueTime();
// Start an alarm callback to run the internal callback after
// next_issue_time
ctx_[vector_idx]->alarm_.experimental().Set(
next_issue_time, [this, t, vector_idx](bool ok) {
IssueUnaryCallbackRpc(t, vector_idx);
});
} else {
IssueUnaryCallbackRpc(t, vector_idx);
}
}
void IssueUnaryCallbackRpc(Thread* t, size_t vector_idx) {
GPR_TIMER_SCOPE("CallbackUnaryClient::ThreadFunc", 0);
double start = UsageTimer::Now();
ctx_[vector_idx]->stub_->experimental_async()->UnaryCall(
(&ctx_[vector_idx]->context_), &request_, &ctx_[vector_idx]->response_,
[this, t, start, vector_idx](grpc::Status s) {
// Update Histogram with data from the callback run
HistogramEntry entry;
if (s.ok()) {
entry.set_value((UsageTimer::Now() - start) * 1e9);
}
entry.set_status(s.error_code());
t->UpdateHistogram(&entry);
if (ThreadCompleted() || !s.ok()) {
// Notify thread of completion
NotifyMainThreadOfThreadCompletion();
} else {
// Reallocate ctx for next RPC
ctx_[vector_idx].reset(
new CallbackClientRpcContext(ctx_[vector_idx]->stub_));
// Schedule a new RPC
ScheduleRpc(t, vector_idx);
}
});
}
};
class CallbackStreamingClient : public CallbackClient {
public:
CallbackStreamingClient(const ClientConfig& config)
: CallbackClient(config),
messages_per_stream_(config.messages_per_stream()) {
for (int ch = 0; ch < config.client_channels(); ch++) {
for (int i = 0; i < config.outstanding_rpcs_per_channel(); i++) {
ctx_.emplace_back(
new CallbackClientRpcContext(channels_[ch].get_stub()));
}
}
StartThreads(num_threads_);
}
~CallbackStreamingClient() {}
void AddHistogramEntry(double start, bool ok, Thread* thread_ptr) {
// Update Histogram with data from the callback run
HistogramEntry entry;
if (ok) {
entry.set_value((UsageTimer::Now() - start) * 1e9);
}
thread_ptr->UpdateHistogram(&entry);
}
int messages_per_stream() { return messages_per_stream_; }
protected:
const int messages_per_stream_;
};
class CallbackStreamingPingPongClient : public CallbackStreamingClient {
public:
CallbackStreamingPingPongClient(const ClientConfig& config)
: CallbackStreamingClient(config) {}
~CallbackStreamingPingPongClient() {}
};
class CallbackStreamingPingPongReactor final
: public grpc::experimental::ClientBidiReactor<SimpleRequest,
SimpleResponse> {
public:
CallbackStreamingPingPongReactor(
CallbackStreamingPingPongClient* client,
std::unique_ptr<CallbackClientRpcContext> ctx)
: client_(client), ctx_(std::move(ctx)), messages_issued_(0) {}
void StartNewRpc() {
ctx_->stub_->experimental_async()->StreamingCall(&(ctx_->context_), this);
write_time_ = UsageTimer::Now();
StartWrite(client_->request());
writes_done_started_.clear();
StartCall();
}
void OnWriteDone(bool ok) override {
if (!ok) {
gpr_log(GPR_ERROR, "Error writing RPC");
}
if ((!ok || client_->ThreadCompleted()) &&
!writes_done_started_.test_and_set()) {
StartWritesDone();
}
StartRead(&ctx_->response_);
}
void OnReadDone(bool ok) override {
client_->AddHistogramEntry(write_time_, ok, thread_ptr_);
if (client_->ThreadCompleted() || !ok ||
(client_->messages_per_stream() != 0 &&
++messages_issued_ >= client_->messages_per_stream())) {
if (!ok) {
gpr_log(GPR_ERROR, "Error reading RPC");
}
if (!writes_done_started_.test_and_set()) {
StartWritesDone();
}
return;
}
write_time_ = UsageTimer::Now();
StartWrite(client_->request());
}
void OnDone(const Status& s) override {
if (client_->ThreadCompleted() || !s.ok()) {
client_->NotifyMainThreadOfThreadCompletion();
return;
}
ctx_.reset(new CallbackClientRpcContext(ctx_->stub_));
ScheduleRpc();
}
void ScheduleRpc() {
if (!client_->IsClosedLoop()) {
gpr_timespec next_issue_time = client_->NextRPCIssueTime();
// Start an alarm callback to run the internal callback after
// next_issue_time
ctx_->alarm_.experimental().Set(next_issue_time,
[this](bool ok) { StartNewRpc(); });
} else {
StartNewRpc();
}
}
void set_thread_ptr(Client::Thread* ptr) { thread_ptr_ = ptr; }
CallbackStreamingPingPongClient* client_;
std::unique_ptr<CallbackClientRpcContext> ctx_;
std::atomic_flag writes_done_started_;
Client::Thread* thread_ptr_; // Needed to update histogram entries
double write_time_; // Track ping-pong round start time
int messages_issued_; // Messages issued by this stream
};
class CallbackStreamingPingPongClientImpl final
: public CallbackStreamingPingPongClient {
public:
CallbackStreamingPingPongClientImpl(const ClientConfig& config)
: CallbackStreamingPingPongClient(config) {
for (size_t i = 0; i < total_outstanding_rpcs_; i++)
reactor_.emplace_back(
new CallbackStreamingPingPongReactor(this, std::move(ctx_[i])));
}
~CallbackStreamingPingPongClientImpl() {}
bool ThreadFuncImpl(Client::Thread* t, size_t thread_idx) override {
for (size_t vector_idx = thread_idx; vector_idx < total_outstanding_rpcs_;
vector_idx += num_threads_) {
reactor_[vector_idx]->set_thread_ptr(t);
reactor_[vector_idx]->ScheduleRpc();
}
return true;
}
void InitThreadFuncImpl(size_t thread_idx) override {}
private:
std::vector<std::unique_ptr<CallbackStreamingPingPongReactor>> reactor_;
};
// TODO(mhaidry) : Implement Streaming from client, server and both ways
std::unique_ptr<Client> CreateCallbackClient(const ClientConfig& config) {
switch (config.rpc_type()) {
case UNARY:
return std::unique_ptr<Client>(new CallbackUnaryClient(config));
case STREAMING:
return std::unique_ptr<Client>(
new CallbackStreamingPingPongClientImpl(config));
case STREAMING_FROM_CLIENT:
case STREAMING_FROM_SERVER:
case STREAMING_BOTH_WAYS:
assert(false);
return nullptr;
default:
assert(false);
return nullptr;
}
}
} // namespace testing
} // namespace grpc