ccls/ipc.h
2017-03-12 13:28:30 -07:00

177 lines
4.0 KiB
C++

#pragma once
#include <iostream>
#include <chrono>
#include <string>
#include <thread>
#include <unordered_map>
#include <rapidjson/document.h>
#include <rapidjson/prettywriter.h>
#include "platform.h"
#include "serializer.h"
// TODO: We need to add support for payloads larger than the maximum shared memory buffer size.
using IpcMessageId = std::string;
struct BaseIpcMessageElided {
virtual IpcMessageId runtime_id() const = 0;
virtual int hashed_runtime_id() const = 0;
virtual void Serialize(Writer& writer);
virtual void Deserialize(Reader& reader);
};
// Usage:
//
// class IpcMessage_Foo : public BaseIpcMessage<IpcMessage_Foo> {
// static IpcMessageId kId;
//
// // BaseIpcMessage:
// ...
// }
// IpcMessageId IpcMessage_Foo::kId = "Foo";
//
//
// main() {
// IpcRegistry::instance()->Register<IpcMessage_Foo>();
// }
//
// Note: This is a template so that the statics are stored separately
// per type.
template<typename T>
struct BaseIpcMessage : BaseIpcMessageElided {
BaseIpcMessage();
virtual ~BaseIpcMessage();
// Populated by IpcRegistry::RegisterAllocator.
static IpcMessageId runtime_id_;
static int hashed_runtime_id_;
// BaseIpcMessageElided:
IpcMessageId runtime_id() const override {
return runtime_id_;
}
int hashed_runtime_id() const override {
return hashed_runtime_id_;
}
};
struct IpcRegistry {
using Allocator = std::function<BaseIpcMessageElided*()>;
// Use unique_ptrs so we can initialize on first use
// (static init order might not be right).
std::unique_ptr<std::unordered_map<int, Allocator>> allocators;
std::unique_ptr<std::unordered_map<int, std::string>> hash_to_id;
template<typename T>
void Register();
std::unique_ptr<BaseIpcMessageElided> Allocate(int id);
static IpcRegistry* instance() {
if (!instance_)
instance_ = new IpcRegistry();
return instance_;
}
static IpcRegistry* instance_;
};
template<typename T>
void IpcRegistry::Register() {
if (!allocators) {
allocators = MakeUnique<std::unordered_map<int, Allocator>>();
hash_to_id = MakeUnique<std::unordered_map<int, std::string>>();
}
IpcMessageId id = T::kId;
int hash = std::hash<IpcMessageId>()(id);
auto it = allocators->find(hash);
assert(allocators->find(hash) == allocators->end() && "There is already an IPC message with the given id");
(*hash_to_id)[hash] = id;
(*allocators)[hash] = []() {
return new T();
};
T::runtime_id_ = id;
T::hashed_runtime_id_ = hash;
}
struct IpcDirectionalChannel {
// NOTE: We keep all pointers in terms of char* so pointer arithmetic is
// always relative to bytes.
explicit IpcDirectionalChannel(const std::string& name);
~IpcDirectionalChannel();
void PushMessage(BaseIpcMessageElided* message);
std::vector<std::unique_ptr<BaseIpcMessageElided>> TakeMessages();
// Pointer to process shared memory and process shared mutex.
std::unique_ptr<PlatformSharedMemory> shared;
std::unique_ptr<PlatformMutex> mutex;
// Pointer to process-local memory.
char* local_block;
};
struct IpcServer {
IpcServer(const std::string& name);
void SendToClient(int client_id, BaseIpcMessageElided* message);
std::vector<std::unique_ptr<BaseIpcMessageElided>> TakeMessages();
private:
std::string name_;
IpcDirectionalChannel server_;
std::unordered_map<int, std::unique_ptr<IpcDirectionalChannel>> clients_;
};
struct IpcClient {
IpcClient(const std::string& name, int client_id);
void SendToServer(BaseIpcMessageElided* message);
std::vector<std::unique_ptr<BaseIpcMessageElided>> TakeMessages();
IpcDirectionalChannel* client() { return &client_; }
private:
IpcDirectionalChannel server_;
IpcDirectionalChannel client_;
};
template<typename T>
BaseIpcMessage<T>::BaseIpcMessage() {
assert(!runtime_id_.empty() && "Message is not registered using IpcRegistry::RegisterAllocator");
}
template<typename T>
BaseIpcMessage<T>::~BaseIpcMessage() {}
template<typename T>
IpcMessageId BaseIpcMessage<T>::runtime_id_;
template<typename T>
int BaseIpcMessage<T>::hashed_runtime_id_ = -1;