CWE-ou-minkata/Sources/Plasma/PubUtilLib/plResMgr/plRegistryKeyList.cpp

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*==LICENSE==*/

#include <algorithm>

#include "HeadSpin.h"
#include "hsStream.h"

#include "pnKeyedObject/plKeyImp.h"
#include "plRegistryHelpers.h"
#include "plRegistryKeyList.h"

plRegistryKeyList::~plRegistryKeyList()
{
    std::for_each(fKeys.begin(), fKeys.end(),
        [] (plKeyImp* key) { if (!key->ObjectIsLoaded()) delete key; }
    );
}

plKeyImp* plRegistryKeyList::FindKey(const plString& keyName) const
{
    auto it = std::find_if(fKeys.begin(), fKeys.end(),
        [&] (plKeyImp* key) { return key->GetName().CompareI(keyName) == 0; }
    );
    if (it != fKeys.end())
        return *it;
    else
        return nullptr;
}

plKeyImp* plRegistryKeyList::FindKey(const plUoid& uoid) const
{
    uint32_t objectID = uoid.GetObjectID();

    // Key is dynamic or doesn't know its index.  Do a find by name.
    if (objectID == 0)
        return FindKey(uoid.GetObjectName());

    // Direct lookup
    if (objectID <= fKeys.size())
    {
#ifdef PLASMA_EXTERNAL_RELEASE
        return fKeys[objectID-1];
#else
        // If this is an internal release, our objectIDs might not match
        // because of local data. Verify that we have the right key by
        // name, and if it's wrong, do the slower find-by-name.
        plKeyImp *keyImp = fKeys[objectID-1];
        if (keyImp->GetName().CompareI(uoid.GetObjectName()) != 0)
            return FindKey(uoid.GetObjectName());
        else
            return keyImp;
#endif // PLASMA_EXTERNAL_RELEASE
    }

    // If we got here it probably means we just deleted all our keys of the matching type
    // because no one was using them. No worries. The resManager will catch this and 
    // reload our keys, then try again.

    return nullptr;
}

bool plRegistryKeyList::IterateKeys(plRegistryKeyIterator* iterator)
{
    ILock();

    for (auto it = fKeys.begin(); it != fKeys.end(); ++it)
    {
        plKeyImp* keyImp = *it;
        if (keyImp)
        {
            if (!iterator->EatKey(plKey::Make(keyImp)))
            {
                IUnlock();
                return false;
            }
        }
    }

    IUnlock();
    return true;
}

void plRegistryKeyList::AddKey(plKeyImp* key, LoadStatus& loadStatusChange)
{
    loadStatusChange = kNoChange;

    hsAssert(fLocked == 0, "Don't currently support adding keys while locked");
    if (fLocked == 0 && key)
    {
        hsAssert(std::find(fKeys.begin(), fKeys.end(), key) == fKeys.end(), "Key already added");

        // first key to be added?
        if (fKeys.empty())
            loadStatusChange = kTypeLoaded;

        // Objects that already have an object ID will be respected.
        // Totally new keys will not have one, but keys from other sources (patches) will.
        if (key->GetUoid().GetObjectID() == 0)
        {
            fKeys.push_back(key);
            key->SetObjectID(fKeys.size());
        }
        else
        {
            uint32_t id = key->GetUoid().GetObjectID();
            if (fKeys.size() < id)
                fKeys.resize(id);
            fKeys[id - 1] = key;
        }
        ++fReffedKeys;
    }
}

bool plRegistryKeyList::SetKeyUnused(plKeyImp* key, LoadStatus& loadStatusChange)
{
    loadStatusChange = kNoChange;

    // Clones never officially get added to the key list (they're maintained by
    // the original key), so just ignore them
    if (key->GetUoid().IsClone())
    {
        delete key;
        return true;
    }

    uint32_t id = key->GetUoid().GetObjectID();
    plKeyImp* foundKey = nullptr;

    // Fixed Keys use ID == 0
    if (id == 0)
        hsAssert(key->GetUoid().GetLocation() == plLocation::kGlobalFixedLoc, "key id == 0 but not fixed?");
    else if (id < fKeys.size()) {
        if (fKeys[id]->GetUoid().GetObjectID() == id)
            foundKey = fKeys[id];
    }

    // Last chance: do a slow name search for that key.
    if (!foundKey)
        foundKey = FindKey(key->GetUoid().GetObjectName());

    // Got that key, decrement the key counter
    if (foundKey) {
        --fReffedKeys;
        if (fReffedKeys == 0)
            loadStatusChange = kTypeUnloaded;
    }
    return foundKey != nullptr;
}

void plRegistryKeyList::Read(hsStream* s)
{
    uint32_t keyListLen = s->ReadLE32();
    if (!fKeys.empty())
    {
        s->Skip(keyListLen);
        return;
    }

    // deprecated flags. used to indicate alphabetically sorted keys for some "optimization"
    // that really appeared to do nothing. no loss.
    s->ReadByte();

    uint32_t numKeys = s->ReadLE32();
    fKeys.reserve(numKeys);

    for (uint32_t i = 0; i < numKeys; ++i)
    {
        plKeyImp* newKey = new plKeyImp;
        newKey->Read(s);
        fKeys.push_back(newKey);
    }
}

void plRegistryKeyList::Write(hsStream* s)
{
    // Save space for the length of our data
    uint32_t beginPos = s->GetPosition();
    s->WriteLE32(0);
    s->WriteByte(0); // Deprecated flags

    // We only write out keys with data. Fill this value in later...
    uint32_t countPos = s->GetPosition();
    s->WriteLE32(0);

    // Write out all our keys with data
    uint32_t keyCount = 0;
    for (auto it = fKeys.begin(); it != fKeys.end(); ++it)
    {
        plKeyImp* key = *it;
        if (key->ObjectIsLoaded())
        {
            ++keyCount;
            key->Write(s);
        }
    }

    // Rewind and write out data size and key count
    uint32_t endPos = s->GetPosition();
    s->SetPosition(beginPos);
    s->WriteLE32(endPos-beginPos-sizeof(uint32_t));
    s->SetPosition(countPos);
    s->WriteLE32(keyCount);
    s->SetPosition(endPos);
}