/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
 * This file is part of the LibreOffice project.
 *
 * This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/.
 *
 * This file incorporates work covered by the following license notice:
 *
 *   Licensed to the Apache Software Foundation (ASF) under one or more
 *   contributor license agreements. See the NOTICE file distributed
 *   with this work for additional information regarding copyright
 *   ownership. The ASF licenses this file to you 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 .
 */

#include "ConfigurationUpdater.hxx"
#include "ConfigurationTracer.hxx"
#include "ConfigurationClassifier.hxx"
#include "ConfigurationControllerBroadcaster.hxx"
#include "ConfigurationControllerResourceManager.hxx"
#include <framework/Configuration.hxx>
#include <framework/FrameworkHelper.hxx>

#include <com/sun/star/drawing/framework/XControllerManager.hpp>
#include <comphelper/scopeguard.hxx>
#include <tools/diagnose_ex.h>
#include <sal/log.hxx>


using namespace ::com::sun::star;
using namespace ::com::sun::star::uno;
using namespace ::com::sun::star::drawing::framework;
using ::sd::framework::FrameworkHelper;
using ::std::vector;

namespace {
const sal_Int32 snShortTimeout (100);
const sal_Int32 snNormalTimeout (1000);
const sal_Int32 snLongTimeout (10000);
const sal_Int32 snShortTimeoutCountThreshold (1);
const sal_Int32 snNormalTimeoutCountThreshold (5);
}

namespace sd::framework {

//===== ConfigurationUpdaterLock ==============================================

class ConfigurationUpdaterLock
{
public:
    explicit ConfigurationUpdaterLock (ConfigurationUpdater& rUpdater)
        : mrUpdater(rUpdater) { mrUpdater.LockUpdates(); }
    ~ConfigurationUpdaterLock() { mrUpdater.UnlockUpdates(); }
private:
    ConfigurationUpdater& mrUpdater;
};

//===== ConfigurationUpdater ==================================================

ConfigurationUpdater::ConfigurationUpdater (
    const std::shared_ptr<ConfigurationControllerBroadcaster>& rpBroadcaster,
    const std::shared_ptr<ConfigurationControllerResourceManager>& rpResourceManager,
    const Reference<XControllerManager>& rxControllerManager)
    : mpBroadcaster(rpBroadcaster),
      mxCurrentConfiguration(Reference<XConfiguration>(new Configuration(nullptr, false))),
      mbUpdatePending(false),
      mbUpdateBeingProcessed(false),
      mnLockCount(0),
      maUpdateTimer("sd::ConfigurationUpdater maUpdateTimer"),
      mnFailedUpdateCount(0),
      mpResourceManager(rpResourceManager)
{
    // Prepare the timer that is started when after an update the current
    // and the requested configuration differ.  With the timer we try
    // updates until the two configurations are the same.
    maUpdateTimer.SetTimeout(snNormalTimeout);
    maUpdateTimer.SetInvokeHandler(LINK(this,ConfigurationUpdater,TimeoutHandler));
    mxControllerManager = rxControllerManager;
}

ConfigurationUpdater::~ConfigurationUpdater()
{
    maUpdateTimer.Stop();
}

void ConfigurationUpdater::RequestUpdate (
    const Reference<XConfiguration>& rxRequestedConfiguration)
{
    mxRequestedConfiguration = rxRequestedConfiguration;

    // Find out whether we really can update the configuration.
    if (IsUpdatePossible())
    {
        SAL_INFO("sd.fwk", __func__ << ": UpdateConfiguration start");

        // Call UpdateConfiguration while that is possible and while someone
        // set mbUpdatePending to true in the middle of it.
        do
        {
            UpdateConfiguration();
        }
        while (mbUpdatePending && IsUpdatePossible());
    }
    else
    {
        mbUpdatePending = true;
        SAL_INFO("sd.fwk", __func__ << ": scheduling update for later");
    }
}

bool ConfigurationUpdater::IsUpdatePossible() const
{
    return ! mbUpdateBeingProcessed
        && mxControllerManager.is()
        && mnLockCount==0
        && mxRequestedConfiguration.is()
        && mxCurrentConfiguration.is();
}

void ConfigurationUpdater::UpdateConfiguration()
{
    SAL_INFO("sd.fwk", __func__ << ": UpdateConfiguration update");
    SetUpdateBeingProcessed(true);
    comphelper::ScopeGuard aScopeGuard (
        [this] () { return this->SetUpdateBeingProcessed(false); });

    try
    {
        mbUpdatePending = false;

        CleanRequestedConfiguration();
        ConfigurationClassifier aClassifier(mxRequestedConfiguration, mxCurrentConfiguration);
        if (aClassifier.Partition())
        {
#if DEBUG_SD_CONFIGURATION_TRACE
            SAL_INFO("sd.fwk", __func__ << ": ConfigurationUpdater::UpdateConfiguration(");
            ConfigurationTracer::TraceConfiguration(
                mxRequestedConfiguration, "requested configuration");
            ConfigurationTracer::TraceConfiguration(
                mxCurrentConfiguration, "current configuration");
#endif
            // Notify the beginning of the update.
            ConfigurationChangeEvent aEvent;
            aEvent.Type = FrameworkHelper::msConfigurationUpdateStartEvent;
            aEvent.Configuration = mxRequestedConfiguration;
            mpBroadcaster->NotifyListeners(aEvent);

            // Do the actual update.  All exceptions are caught and ignored,
            // so that the end of the update is notified always.
            try
            {
                if (mnLockCount == 0)
                    UpdateCore(aClassifier);
            }
            catch(const RuntimeException&)
            {
            }

            // Notify the end of the update.
            aEvent.Type = FrameworkHelper::msConfigurationUpdateEndEvent;
            mpBroadcaster->NotifyListeners(aEvent);

            CheckUpdateSuccess();
        }
        else
        {
            SAL_INFO("sd.fwk", __func__ << ": nothing to do");
#if DEBUG_SD_CONFIGURATION_TRACE
            ConfigurationTracer::TraceConfiguration(
                mxRequestedConfiguration, "requested configuration");
            ConfigurationTracer::TraceConfiguration(
                mxCurrentConfiguration, "current configuration");
#endif
        }
    }
    catch(const RuntimeException &)
    {
        DBG_UNHANDLED_EXCEPTION("sd");
    }

    SAL_INFO("sd.fwk", __func__ << ": ConfigurationUpdater::UpdateConfiguration)");
    SAL_INFO("sd.fwk", __func__ << ": UpdateConfiguration end");
}

void ConfigurationUpdater::CleanRequestedConfiguration()
{
    if (!mxControllerManager.is())
        return;

    // Request the deactivation of pure anchors that have no child.
    vector<Reference<XResourceId> > aResourcesToDeactivate;
    CheckPureAnchors(mxRequestedConfiguration, aResourcesToDeactivate);
    if (!aResourcesToDeactivate.empty())
    {
        Reference<XConfigurationController> xCC (
            mxControllerManager->getConfigurationController());
        for (const auto& rxId : aResourcesToDeactivate)
            if (rxId.is())
                xCC->requestResourceDeactivation(rxId);
    }
}

void ConfigurationUpdater::CheckUpdateSuccess()
{
    // When the two configurations differ then start the timer to call
    // another update later.
    if ( ! AreConfigurationsEquivalent(mxCurrentConfiguration, mxRequestedConfiguration))
    {
        if (mnFailedUpdateCount <= snShortTimeoutCountThreshold)
            maUpdateTimer.SetTimeout(snShortTimeout);
        else if (mnFailedUpdateCount < snNormalTimeoutCountThreshold)
            maUpdateTimer.SetTimeout(snNormalTimeout);
        else
            maUpdateTimer.SetTimeout(snLongTimeout);
        ++mnFailedUpdateCount;
        maUpdateTimer.Start();
    }
    else
    {
        // Update was successful.  Reset the failed update count.
        mnFailedUpdateCount = 0;
    }
}

void ConfigurationUpdater::UpdateCore (const ConfigurationClassifier& rClassifier)
{
    try
    {
#if DEBUG_SD_CONFIGURATION_TRACE
        rClassifier.TraceResourceIdVector(
            "requested but not current resources:", rClassifier.GetC1minusC2());
        rClassifier.TraceResourceIdVector(
            "current but not requested resources:", rClassifier.GetC2minusC1());
        rClassifier.TraceResourceIdVector(
            "requested and current resources:", rClassifier.GetC1andC2());
#endif

        // Updating of the sub controllers is done in two steps.  In the
        // first the sub controllers typically shut down resources that are
        // not requested anymore.  In the second the sub controllers
        // typically set up resources that have been newly requested.
        mpResourceManager->DeactivateResources(rClassifier.GetC2minusC1(), mxCurrentConfiguration);
        mpResourceManager->ActivateResources(rClassifier.GetC1minusC2(), mxCurrentConfiguration);

#if DEBUG_SD_CONFIGURATION_TRACE
        SAL_INFO("sd.fwk", __func__ << ": ConfigurationController::UpdateConfiguration)");
        ConfigurationTracer::TraceConfiguration(
            mxRequestedConfiguration, "requested configuration");
        ConfigurationTracer::TraceConfiguration(
            mxCurrentConfiguration, "current configuration");
#endif

        // Deactivate pure anchors that have no child.
        vector<Reference<XResourceId> > aResourcesToDeactivate;
        CheckPureAnchors(mxCurrentConfiguration, aResourcesToDeactivate);
        if (!aResourcesToDeactivate.empty())
            mpResourceManager->DeactivateResources(aResourcesToDeactivate, mxCurrentConfiguration);
    }
    catch(const RuntimeException&)
    {
        DBG_UNHANDLED_EXCEPTION("sd");
    }
}

void ConfigurationUpdater::CheckPureAnchors (
    const Reference<XConfiguration>& rxConfiguration,
    vector<Reference<XResourceId> >& rResourcesToDeactivate)
{
    if ( ! rxConfiguration.is())
        return;

    // Get a list of all resources in the configuration.
    Sequence<Reference<XResourceId> > aResources(
        rxConfiguration->getResources(
            nullptr, OUString(), AnchorBindingMode_INDIRECT));
    auto aResourcesRange = asNonConstRange(aResources);
    sal_Int32 nCount (aResources.getLength());

    // Prepare the list of pure anchors that have to be deactivated.
    rResourcesToDeactivate.clear();

    // Iterate over the list in reverse order because when there is a chain
    // of pure anchors with only the last one having no child then the whole
    // list has to be deactivated.
    sal_Int32 nIndex (nCount-1);
    while (nIndex >= 0)
    {
        const Reference<XResourceId> xResourceId (aResources[nIndex]);
        const Reference<XResource> xResource (
            mpResourceManager->GetResource(xResourceId).mxResource);
        bool bDeactiveCurrentResource (false);

        // Skip all resources that are no pure anchors.
        if (xResource.is() && xResource->isAnchorOnly())
        {
            // When xResource is not an anchor of the next resource in
            // the list then it is the anchor of no resource at all.
            if (nIndex == nCount-1)
            {
                // No following anchors, deactivate this one, then remove it
                // from the list.
                bDeactiveCurrentResource = true;
            }
            else
            {
                const Reference<XResourceId> xPrevResourceId (aResources[nIndex+1]);
                if ( ! xPrevResourceId.is()
                    || ! xPrevResourceId->isBoundTo(xResourceId, AnchorBindingMode_DIRECT))
                {
                    // The previous resource (id) does not exist or is not bound to
                    // the current anchor.
                    bDeactiveCurrentResource = true;
                }
            }
        }

        if (bDeactiveCurrentResource)
        {
            SAL_INFO("sd.fwk", __func__ << ": deactivating pure anchor " <<
                    FrameworkHelper::ResourceIdToString(xResourceId) <<
                    "because it has no children");
            // Erase element from current configuration.
            for (sal_Int32 nI=nIndex; nI<nCount-2; ++nI)
                aResourcesRange[nI] = aResources[nI+1];
            nCount -= 1;

            rResourcesToDeactivate.push_back(xResourceId);
        }
        nIndex -= 1;
    }
}

void ConfigurationUpdater::LockUpdates()
{
    ++mnLockCount;
}

void ConfigurationUpdater::UnlockUpdates()
{
    --mnLockCount;
    if (mnLockCount == 0 && mbUpdatePending)
    {
        RequestUpdate(mxRequestedConfiguration);
    }
}

std::shared_ptr<ConfigurationUpdaterLock> ConfigurationUpdater::GetLock()
{
    return std::make_shared<ConfigurationUpdaterLock>(*this);
}

void ConfigurationUpdater::SetUpdateBeingProcessed (bool bValue)
{
    mbUpdateBeingProcessed = bValue;
}

IMPL_LINK_NOARG(ConfigurationUpdater, TimeoutHandler, Timer *, void)
{
    if ( ! mbUpdateBeingProcessed
        && mxCurrentConfiguration.is()
        && mxRequestedConfiguration.is())
    {
        if ( ! AreConfigurationsEquivalent(mxCurrentConfiguration, mxRequestedConfiguration))
        {
            RequestUpdate(mxRequestedConfiguration);
        }
    }
}

} // end of namespace sd::framework

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