The C based gRPC (C++, Python, Ruby, Objective-C, PHP, C#) https://grpc.io/
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/*
*
* Copyright 2021 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 <algorithm>
#include <chrono>
#include <cmath>
#include <iostream>
#include <memory>
#include <string>
#include <thread>
#include "helper.h"
#include <grpc/grpc.h>
#include <grpcpp/security/server_credentials.h>
#include <grpcpp/server.h>
#include <grpcpp/server_builder.h>
#include <grpcpp/server_context.h>
#ifdef BAZEL_BUILD
#include "examples/protos/route_guide.grpc.pb.h"
#else
#include "route_guide.grpc.pb.h"
#endif
using grpc::CallbackServerContext;
using grpc::Server;
using grpc::ServerBuilder;
using grpc::Status;
using routeguide::Feature;
using routeguide::Point;
using routeguide::Rectangle;
using routeguide::RouteGuide;
using routeguide::RouteNote;
using routeguide::RouteSummary;
using std::chrono::system_clock;
float ConvertToRadians(float num) { return num * 3.1415926 / 180; }
// The formula is based on http://mathforum.org/library/drmath/view/51879.html
float GetDistance(const Point& start, const Point& end) {
const float kCoordFactor = 10000000.0;
float lat_1 = start.latitude() / kCoordFactor;
float lat_2 = end.latitude() / kCoordFactor;
float lon_1 = start.longitude() / kCoordFactor;
float lon_2 = end.longitude() / kCoordFactor;
float lat_rad_1 = ConvertToRadians(lat_1);
float lat_rad_2 = ConvertToRadians(lat_2);
float delta_lat_rad = ConvertToRadians(lat_2 - lat_1);
float delta_lon_rad = ConvertToRadians(lon_2 - lon_1);
float a = pow(sin(delta_lat_rad / 2), 2) +
cos(lat_rad_1) * cos(lat_rad_2) * pow(sin(delta_lon_rad / 2), 2);
float c = 2 * atan2(sqrt(a), sqrt(1 - a));
int R = 6371000; // metres
return R * c;
}
std::string GetFeatureName(const Point& point,
const std::vector<Feature>& feature_list) {
for (const Feature& f : feature_list) {
if (f.location().latitude() == point.latitude() &&
f.location().longitude() == point.longitude()) {
return f.name();
}
}
return "";
}
class RouteGuideImpl final : public RouteGuide::CallbackService {
public:
explicit RouteGuideImpl(const std::string& db) {
routeguide::ParseDb(db, &feature_list_);
}
grpc::ServerUnaryReactor* GetFeature(CallbackServerContext* context,
const Point* point,
Feature* feature) override {
feature->set_name(GetFeatureName(*point, feature_list_));
feature->mutable_location()->CopyFrom(*point);
auto* reactor = context->DefaultReactor();
reactor->Finish(Status::OK);
return reactor;
}
grpc::ServerWriteReactor<Feature>* ListFeatures(
CallbackServerContext* context,
const routeguide::Rectangle* rectangle) override {
class Lister : public grpc::ServerWriteReactor<Feature> {
public:
Lister(const routeguide::Rectangle* rectangle,
const std::vector<Feature>* feature_list)
: left_((std::min)(rectangle->lo().longitude(),
rectangle->hi().longitude())),
right_((std::max)(rectangle->lo().longitude(),
rectangle->hi().longitude())),
top_((std::max)(rectangle->lo().latitude(),
rectangle->hi().latitude())),
bottom_((std::min)(rectangle->lo().latitude(),
rectangle->hi().latitude())),
feature_list_(feature_list),
next_feature_(feature_list_->begin()) {
NextWrite();
}
void OnDone() override { delete this; }
void OnWriteDone(bool /*ok*/) override { NextWrite(); }
private:
void NextWrite() {
while (next_feature_ != feature_list_->end()) {
const Feature& f = *next_feature_;
next_feature_++;
if (f.location().longitude() >= left_ &&
f.location().longitude() <= right_ &&
f.location().latitude() >= bottom_ &&
f.location().latitude() <= top_) {
StartWrite(&f);
return;
}
}
// Didn't write anything, all is done.
Finish(Status::OK);
}
const long left_;
const long right_;
const long top_;
const long bottom_;
const std::vector<Feature>* feature_list_;
std::vector<Feature>::const_iterator next_feature_;
};
return new Lister(rectangle, &feature_list_);
}
grpc::ServerReadReactor<Point>* RecordRoute(CallbackServerContext* context,
RouteSummary* summary) override {
class Recorder : public grpc::ServerReadReactor<Point> {
public:
Recorder(RouteSummary* summary, const std::vector<Feature>* feature_list)
: start_time_(system_clock::now()),
summary_(summary),
feature_list_(feature_list) {
StartRead(&point_);
}
void OnDone() { delete this; }
void OnReadDone(bool ok) {
if (ok) {
point_count_++;
if (!GetFeatureName(point_, *feature_list_).empty()) {
feature_count_++;
}
if (point_count_ != 1) {
distance_ += GetDistance(previous_, point_);
}
previous_ = point_;
StartRead(&point_);
} else {
summary_->set_point_count(point_count_);
summary_->set_feature_count(feature_count_);
summary_->set_distance(static_cast<long>(distance_));
auto secs = std::chrono::duration_cast<std::chrono::seconds>(
system_clock::now() - start_time_);
summary_->set_elapsed_time(secs.count());
Finish(Status::OK);
}
}
private:
system_clock::time_point start_time_;
RouteSummary* summary_;
const std::vector<Feature>* feature_list_;
Point point_;
int point_count_ = 0;
int feature_count_ = 0;
float distance_ = 0.0;
Point previous_;
};
return new Recorder(summary, &feature_list_);
}
grpc::ServerBidiReactor<RouteNote, RouteNote>* RouteChat(
CallbackServerContext* context) override {
class Chatter : public grpc::ServerBidiReactor<RouteNote, RouteNote> {
public:
Chatter(absl::Mutex* mu, std::vector<RouteNote>* received_notes)
: mu_(mu), received_notes_(received_notes) {
StartRead(&note_);
}
void OnDone() override { delete this; }
void OnReadDone(bool ok) override {
if (ok) {
// Unlike the other example in this directory that's not using
// the reactor pattern, we can't grab a local lock to secure the
// access to the notes vector, because the reactor will most likely
// make us jump threads, so we'll have to use a different locking
// strategy. We'll grab the lock locally to build a copy of the
// list of nodes we're going to send, then we'll grab the lock
// again to append the received note to the existing vector.
mu_->Lock();
std::copy_if(received_notes_->begin(), received_notes_->end(),
std::back_inserter(to_send_notes_),
[this](const RouteNote& note) {
return note.location().latitude() ==
note_.location().latitude() &&
note.location().longitude() ==
note_.location().longitude();
});
mu_->Unlock();
notes_iterator_ = to_send_notes_.begin();
NextWrite();
} else {
Finish(Status::OK);
}
}
void OnWriteDone(bool /*ok*/) override { NextWrite(); }
private:
void NextWrite() {
if (notes_iterator_ != to_send_notes_.end()) {
StartWrite(&*notes_iterator_);
notes_iterator_++;
} else {
mu_->Lock();
received_notes_->push_back(note_);
mu_->Unlock();
StartRead(&note_);
}
}
RouteNote note_;
absl::Mutex* mu_;
std::vector<RouteNote>* received_notes_;
std::vector<RouteNote> to_send_notes_;
std::vector<RouteNote>::iterator notes_iterator_;
};
return new Chatter(&mu_, &received_notes_);
}
private:
std::vector<Feature> feature_list_;
absl::Mutex mu_;
std::vector<RouteNote> received_notes_ ABSL_GUARDED_BY(mu_);
};
void RunServer(const std::string& db_path) {
std::string server_address("0.0.0.0:50051");
RouteGuideImpl service(db_path);
ServerBuilder builder;
builder.AddListeningPort(server_address, grpc::InsecureServerCredentials());
builder.RegisterService(&service);
std::unique_ptr<Server> server(builder.BuildAndStart());
std::cout << "Server listening on " << server_address << std::endl;
server->Wait();
}
int main(int argc, char** argv) {
// Expect only arg: --db_path=path/to/route_guide_db.json.
std::string db = routeguide::GetDbFileContent(argc, argv);
RunServer(db);
return 0;
}