Source/WebKit/UIProcess/AuxiliaryProcessProxy.h

/*
 * Copyright (C) 2012-2019 Apple Inc. All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
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 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
 * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
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 */

#pragma once

#include "Connection.h"
#include "MessageReceiverMap.h"
#include "ProcessLauncher.h"

#include <WebCore/ProcessIdentifier.h>
#include <wtf/ProcessID.h>
#include <wtf/SystemTracing.h>
#include <wtf/ThreadSafeRefCounted.h>

namespace WebKit {

class AuxiliaryProcessProxy : ProcessLauncher::Client, public IPC::Connection::Client {
    WTF_MAKE_NONCOPYABLE(AuxiliaryProcessProxy);

protected:
    explicit AuxiliaryProcessProxy(bool alwaysRunsAtBackgroundPriority = false);

public:
    virtual ~AuxiliaryProcessProxy();

    void connect();
    void terminate();

    template<typename T> bool send(T&& message, uint64_t destinationID, OptionSet<IPC::SendOption> sendOptions = { });
    template<typename T> bool sendSync(T&& message, typename T::Reply&&, uint64_t destinationID, Seconds timeout = 1_s, OptionSet<IPC::SendSyncOption> sendSyncOptions = { });
    template<typename T, typename C> void sendWithAsyncReply(T&&, C&&, uint64_t destinationID = 0, OptionSet<IPC::SendOption> = { });
    
    template<typename T, typename U>
    bool send(T&& message, ObjectIdentifier<U> destinationID, OptionSet<IPC::SendOption> sendOptions = { })
    {
        return send<T>(WTFMove(message), destinationID.toUInt64(), sendOptions);
    }
    
    template<typename T, typename U>
    bool sendSync(T&& message, typename T::Reply&& reply, ObjectIdentifier<U> destinationID, Seconds timeout = 1_s, OptionSet<IPC::SendSyncOption> sendSyncOptions = { })
    {
        return sendSync<T>(WTFMove(message), WTFMove(reply), destinationID.toUInt64(), timeout, sendSyncOptions);
    }

    IPC::Connection* connection() const
    {
        ASSERT(m_connection);
        return m_connection.get();
    }
    
    bool hasConnection(const IPC::Connection& connection) const
    {
        return m_connection == &connection;
    }

    void addMessageReceiver(IPC::StringReference messageReceiverName, IPC::MessageReceiver&);
    void addMessageReceiver(IPC::StringReference messageReceiverName, uint64_t destinationID, IPC::MessageReceiver&);
    void removeMessageReceiver(IPC::StringReference messageReceiverName, uint64_t destinationID);
    void removeMessageReceiver(IPC::StringReference messageReceiverName);
    
    template <typename T>
    void addMessageReceiver(IPC::StringReference messageReceiverName, ObjectIdentifier<T> destinationID, IPC::MessageReceiver& receiver)
    {
        addMessageReceiver(messageReceiverName, destinationID.toUInt64(), receiver);
    }
    
    template <typename T>
    void removeMessageReceiver(IPC::StringReference messageReceiverName, ObjectIdentifier<T> destinationID)
    {
        removeMessageReceiver(messageReceiverName, destinationID.toUInt64());
    }

    enum class State {
        Launching,
        Running,
        Terminated,
    };
    State state() const;
    bool isLaunching() const { return state() == State::Launching; }
    bool wasTerminated() const;

    ProcessID processIdentifier() const { return m_processLauncher ? m_processLauncher->processIdentifier() : 0; }

    bool canSendMessage() const { return state() != State::Terminated;}
    bool sendMessage(std::unique_ptr<IPC::Encoder>, OptionSet<IPC::SendOption>, Optional<std::pair<CompletionHandler<void(IPC::Decoder*)>, uint64_t>>&& asyncReplyInfo = WTF::nullopt);

    void shutDownProcess();

    WebCore::ProcessIdentifier coreProcessIdentifier() const { return m_processIdentifier; }

    void setProcessSuppressionEnabled(bool);

protected:
    // ProcessLauncher::Client
    void didFinishLaunching(ProcessLauncher*, IPC::Connection::Identifier) override;

    bool dispatchMessage(IPC::Connection&, IPC::Decoder&);
    bool dispatchSyncMessage(IPC::Connection&, IPC::Decoder&, std::unique_ptr<IPC::Encoder>&);
    
    virtual void getLaunchOptions(ProcessLauncher::LaunchOptions&);
    virtual void platformGetLaunchOptions(ProcessLauncher::LaunchOptions&) { };

    struct PendingMessage {
        std::unique_ptr<IPC::Encoder> encoder;
        OptionSet<IPC::SendOption> sendOptions;
        Optional<std::pair<CompletionHandler<void(IPC::Decoder*)>, uint64_t>> asyncReplyInfo;
    };

    virtual bool shouldSendPendingMessage(const PendingMessage&) { return true; }

private:
    virtual void connectionWillOpen(IPC::Connection&);
    virtual void processWillShutDown(IPC::Connection&) = 0;

    Vector<PendingMessage> m_pendingMessages;
    RefPtr<ProcessLauncher> m_processLauncher;
    RefPtr<IPC::Connection> m_connection;
    IPC::MessageReceiverMap m_messageReceiverMap;
    bool m_alwaysRunsAtBackgroundPriority { false };
    WebCore::ProcessIdentifier m_processIdentifier { WebCore::ProcessIdentifier::generate() };
};

template<typename T>
bool AuxiliaryProcessProxy::send(T&& message, uint64_t destinationID, OptionSet<IPC::SendOption> sendOptions)
{
    COMPILE_ASSERT(!T::isSync, AsyncMessageExpected);

    auto encoder = makeUnique<IPC::Encoder>(T::receiverName(), T::name(), destinationID);
    encoder->encode(message.arguments());

    return sendMessage(WTFMove(encoder), sendOptions);
}

template<typename U> 
bool AuxiliaryProcessProxy::sendSync(U&& message, typename U::Reply&& reply, uint64_t destinationID, Seconds timeout, OptionSet<IPC::SendSyncOption> sendSyncOptions)
{
    COMPILE_ASSERT(U::isSync, SyncMessageExpected);

    if (!m_connection)
        return false;

    TraceScope scope(SyncMessageStart, SyncMessageEnd);

    return connection()->sendSync(std::forward<U>(message), WTFMove(reply), destinationID, timeout, sendSyncOptions);
}

template<typename T, typename C>
void AuxiliaryProcessProxy::sendWithAsyncReply(T&& message, C&& completionHandler, uint64_t destinationID, OptionSet<IPC::SendOption> sendOptions)
{
    COMPILE_ASSERT(!T::isSync, AsyncMessageExpected);

    auto encoder = makeUnique<IPC::Encoder>(T::receiverName(), T::name(), destinationID);
    uint64_t listenerID = IPC::nextAsyncReplyHandlerID();
    encoder->encode(listenerID);
    encoder->encode(message.arguments());
    sendMessage(WTFMove(encoder), sendOptions, {{ [completionHandler = WTFMove(completionHandler)] (IPC::Decoder* decoder) mutable {
        if (decoder && !decoder->isInvalid())
            T::callReply(*decoder, WTFMove(completionHandler));
        else
            T::cancelReply(WTFMove(completionHandler));
    }, listenerID }});
}
    
} // namespace WebKit