source/misc/inethist.cxx

/**************************************************************
 *
 * 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
 *
 * 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.
 *
 *************************************************************/


// MARKER(update_precomp.py): autogen include statement, do not remove
#include "precompiled_svl.hxx"
#include <svl/inethist.hxx>

#ifndef INCLUDED_ALGORITHM
#include <algorithm>
#define INCLUDED_ALGORITHM
#endif
#include "rtl/instance.hxx"
#include "rtl/crc.h"
#include "rtl/memory.h"
#include <tools/solar.h>
#include <tools/debug.hxx>
#include <tools/string.hxx>
#include <tools/urlobj.hxx>

/*========================================================================
 *
 * INetURLHistory internals.
 *
 *======================================================================*/
#define INETHIST_DEF_FTP_PORT    21
#define INETHIST_DEF_HTTP_PORT   80
#define INETHIST_DEF_HTTPS_PORT 443

#define INETHIST_SIZE_LIMIT   1024
#define INETHIST_MAGIC_HEAD   0x484D4849UL

/*
 * INetURLHistoryHint implementation.
 */
IMPL_PTRHINT (INetURLHistoryHint, const INetURLObject);

/*========================================================================
 *
 * INetURLHistory_Impl interface.
 *
 *======================================================================*/
class INetURLHistory_Impl
{
	/** head_entry.
	*/
	struct head_entry
	{
		/** Representation.
		*/
		sal_uInt32 m_nMagic;
		sal_uInt16 m_nNext;
		sal_uInt16 m_nMBZ;

		/** Initialization.
		*/
		void initialize (void)
		{
			m_nMagic = INETHIST_MAGIC_HEAD;
			m_nNext  = 0;
			m_nMBZ   = 0;
		}
	};

	/** hash_entry.
	*/
	struct hash_entry
	{
		/** Representation.
		*/
		sal_uInt32 m_nHash;
		sal_uInt16 m_nLru;
		sal_uInt16 m_nMBZ;

		/** Initialization.
		*/
		void initialize (sal_uInt16 nLru, sal_uInt32 nHash = 0)
		{
			m_nHash = nHash;
			m_nLru  = nLru;
			m_nMBZ  = 0;
		}

		/** Comparison.
		*/
		sal_Bool operator== (const hash_entry &rOther) const
		{
			return (m_nHash == rOther.m_nHash);
		}
		sal_Bool operator< (const hash_entry &rOther) const
		{
			return (m_nHash < rOther.m_nHash);
		}

		sal_Bool operator== (sal_uInt32 nHash) const
		{
			return (m_nHash == nHash);
		}
		sal_Bool operator< (sal_uInt32 nHash) const
		{
			return (m_nHash < nHash);
		}
	};

	/** lru_entry.
	*/
	struct lru_entry
	{
		/** Representation.
		*/
		sal_uInt32 m_nHash;
		sal_uInt16 m_nNext;
		sal_uInt16 m_nPrev;

		/** Initialization.
		*/
		void initialize (sal_uInt16 nThis, sal_uInt32 nHash = 0)
		{
			m_nHash = nHash;
			m_nNext = nThis;
			m_nPrev = nThis;
		}
	};

	/** Representation.
	*/
	head_entry m_aHead;
	hash_entry m_pHash[INETHIST_SIZE_LIMIT];
	lru_entry  m_pList[INETHIST_SIZE_LIMIT];

	/** Initialization.
	*/
	void initialize (void);

	void downheap (hash_entry a[], sal_uInt16 n, sal_uInt16 k);
	void heapsort (hash_entry a[], sal_uInt16 n);

	/** capacity.
	*/
	sal_uInt16 capacity (void) const
	{
		return (sal_uInt16)(INETHIST_SIZE_LIMIT);
	}

	/** crc32.
	*/
	sal_uInt32 crc32 (UniString const & rData) const
	{
		return rtl_crc32 (0, rData.GetBuffer(), rData.Len() * sizeof(sal_Unicode));
	}

	/** find.
	*/
	sal_uInt16 find (sal_uInt32 nHash) const;

	/** move.
	*/
	void move (sal_uInt16 nSI, sal_uInt16 nDI);

	/** backlink.
	*/
	void backlink (sal_uInt16 nThis, sal_uInt16 nTail)
	{
		register lru_entry &rThis = m_pList[nThis];
		register lru_entry &rTail = m_pList[nTail];

		rTail.m_nNext = nThis;
		rTail.m_nPrev = rThis.m_nPrev;
		rThis.m_nPrev = nTail;
		m_pList[rTail.m_nPrev].m_nNext = nTail;
	}

	/** unlink.
	*/
	void unlink (sal_uInt16 nThis)
	{
		register lru_entry &rThis = m_pList[nThis];

		m_pList[rThis.m_nPrev].m_nNext = rThis.m_nNext;
		m_pList[rThis.m_nNext].m_nPrev = rThis.m_nPrev;
		rThis.m_nNext = nThis;
		rThis.m_nPrev = nThis;
	}

	/** Not implemented.
	*/
	INetURLHistory_Impl (const INetURLHistory_Impl&);
	INetURLHistory_Impl& operator= (const INetURLHistory_Impl&);

public:
	INetURLHistory_Impl (void);
	~INetURLHistory_Impl (void);

	/** putUrl/queryUrl.
	*/
	void putUrl   (const String &rUrl);
	sal_Bool queryUrl (const String &rUrl);
};

/*========================================================================
 *
 * INetURLHistory_Impl implementation.
 *
 *======================================================================*/
/*
 * INetURLHistory_Impl.
 */
INetURLHistory_Impl::INetURLHistory_Impl (void)
{
	initialize();
}

/*
 * ~INetURLHistory_Impl.
 */
INetURLHistory_Impl::~INetURLHistory_Impl (void)
{
}

/*
 * initialize.
 */
void INetURLHistory_Impl::initialize (void)
{
	m_aHead.initialize();

	sal_uInt16 i, n = capacity();
	for (i = 0; i < n; i++)
		m_pHash[i].initialize(i);
	for (i = 0; i < n; i++)
		m_pList[i].initialize(i);
	for (i = 1; i < n; i++)
		backlink (m_aHead.m_nNext, i);
}

/*
 * downheap.
 */
void INetURLHistory_Impl::downheap (hash_entry a[], sal_uInt16 n, sal_uInt16 k)
{
	hash_entry h = a[k];
	while (k < n / 2)
	{
		sal_uInt16 i = k + k + 1;
		if (((i + 1) < n) && (a[i] < a[i + 1])) i++;
		if (!(h < a[i])) break;
		a[k] = a[i];
		k = i;
	}
	a[k] = h;
}

/*
 * heapsort.
 */
void INetURLHistory_Impl::heapsort (hash_entry a[], sal_uInt16 n)
{
	hash_entry h;

	for (sal_uInt16 k = (n - 1) / 2 + 1; k > 0; k--)
		downheap (a, n, k - 1);

	while (n > 0)
	{
		h        = a[0    ];
		a[0    ] = a[n - 1];
		a[n - 1] = h;
		downheap (a, --n, 0);
	}
}

/*
 * find.
 */
sal_uInt16 INetURLHistory_Impl::find (sal_uInt32 nHash) const
{
	sal_uInt16 l = 0;
	sal_uInt16 r = capacity() - 1;
	sal_uInt16 c = capacity();

	while ((l < r) && (r < c))
	{
		sal_uInt16 m = (l + r) / 2;
		if (m_pHash[m] == nHash)
			return m;

		if (m_pHash[m] < nHash)
			l = m + 1;
		else
			r = m - 1;
	}
	return l;
}

/*
 * move.
 */
void INetURLHistory_Impl::move (sal_uInt16 nSI, sal_uInt16 nDI)
{
	hash_entry e = m_pHash[nSI];
	if (nSI < nDI)
	{
		// shift left.
		rtl_moveMemory (
			&m_pHash[nSI    ],
			&m_pHash[nSI + 1],
			(nDI - nSI) * sizeof(hash_entry));
	}
	if (nSI > nDI)
	{
		// shift right.
		rtl_moveMemory (
			&m_pHash[nDI + 1],
			&m_pHash[nDI    ],
			(nSI - nDI) * sizeof(hash_entry));
	}
	m_pHash[nDI] = e;
}

/*
 * putUrl.
 */
void INetURLHistory_Impl::putUrl (const String &rUrl)
{
	sal_uInt32 h = crc32 (rUrl);
	sal_uInt16 k = find (h);
	if ((k < capacity()) && (m_pHash[k] == h))
	{
		// Cache hit.
		sal_uInt16 nMRU = m_pHash[k].m_nLru;
		if (nMRU != m_aHead.m_nNext)
		{
			// Update LRU chain.
			unlink (nMRU);
			backlink (m_aHead.m_nNext, nMRU);

			// Rotate LRU chain.
			m_aHead.m_nNext = m_pList[m_aHead.m_nNext].m_nPrev;
		}
	}
	else
	{
		// Cache miss. Obtain least recently used.
		sal_uInt16 nLRU = m_pList[m_aHead.m_nNext].m_nPrev;

		sal_uInt16 nSI = find (m_pList[nLRU].m_nHash);
		if (!(nLRU == m_pHash[nSI].m_nLru))
		{
			// Update LRU chain.
			nLRU = m_pHash[nSI].m_nLru;
			unlink (nLRU);
			backlink (m_aHead.m_nNext, nLRU);
		}

		// Rotate LRU chain.
		m_aHead.m_nNext = m_pList[m_aHead.m_nNext].m_nPrev;

		// Check source and destination.
		sal_uInt16 nDI = std::min (k, sal_uInt16(capacity() - 1));
		if (nSI < nDI)
		{
			if (!(m_pHash[nDI] < h))
				nDI -= 1;
		}
		if (nDI < nSI)
		{
			if (m_pHash[nDI] < h)
				nDI += 1;
		}

		// Assign data.
		m_pList[m_aHead.m_nNext].m_nHash = m_pHash[nSI].m_nHash = h;
		move (nSI, nDI);
	}
}

/*
 * queryUrl.
 */
sal_Bool INetURLHistory_Impl::queryUrl (const String &rUrl)
{
	sal_uInt32 h = crc32 (rUrl);
	sal_uInt16 k = find (h);
	if ((k < capacity()) && (m_pHash[k] == h))
	{
		// Cache hit.
		return sal_True;
	}
	else
	{
		// Cache miss.
		return sal_False;
	}
}

/*========================================================================
 *
 * INetURLHistory::StaticInstance implementation.
 *
 *======================================================================*/
INetURLHistory * INetURLHistory::StaticInstance::operator ()()
{
	static INetURLHistory g_aInstance;
	return &g_aInstance;
}

/*========================================================================
 *
 * INetURLHistory implementation.
 *
 *======================================================================*/
/*
 * INetURLHistory.
 */
INetURLHistory::INetURLHistory() : m_pImpl (new INetURLHistory_Impl())
{
}

/*
 * ~INetURLHistory.
 */
INetURLHistory::~INetURLHistory()
{
	DELETEZ (m_pImpl);
}

/*
 * GetOrCreate.
 */
INetURLHistory* INetURLHistory::GetOrCreate()
{
	return rtl_Instance<
		INetURLHistory, StaticInstance,
		osl::MutexGuard, osl::GetGlobalMutex >::create (
			StaticInstance(), osl::GetGlobalMutex());
}

/*
 * NormalizeUrl_Impl.
 */
void INetURLHistory::NormalizeUrl_Impl (INetURLObject &rUrl)
{
	switch (rUrl.GetProtocol())
	{
		case INET_PROT_FILE:
			if (!rUrl.IsCaseSensitive())
			{
				String aPath (rUrl.GetURLPath(INetURLObject::NO_DECODE));
				aPath.ToLowerAscii();
				rUrl.SetURLPath (aPath, INetURLObject::NOT_CANONIC);
			}
			break;

		case INET_PROT_FTP:
			if (!rUrl.HasPort())
				rUrl.SetPort (INETHIST_DEF_FTP_PORT);
			break;

		case INET_PROT_HTTP:
			if (!rUrl.HasPort())
				rUrl.SetPort (INETHIST_DEF_HTTP_PORT);
			if (!rUrl.HasURLPath())
				rUrl.SetURLPath ("/");
			break;

		case INET_PROT_HTTPS:
			if (!rUrl.HasPort())
				rUrl.SetPort (INETHIST_DEF_HTTPS_PORT);
			if (!rUrl.HasURLPath())
				rUrl.SetURLPath ("/");
			break;

		default:
			break;
	}
}

/*
 * PutUrl_Impl.
 */
void INetURLHistory::PutUrl_Impl (const INetURLObject &rUrl)
{
	DBG_ASSERT (m_pImpl, "PutUrl_Impl(): no Implementation");
	if (m_pImpl)
	{
		INetURLObject aHistUrl (rUrl);
		NormalizeUrl_Impl (aHistUrl);

		m_pImpl->putUrl (aHistUrl.GetMainURL(INetURLObject::NO_DECODE));
		Broadcast (INetURLHistoryHint (&rUrl));

		if (aHistUrl.HasMark())
		{
			aHistUrl.SetURL (aHistUrl.GetURLNoMark(INetURLObject::NO_DECODE),
							 INetURLObject::NOT_CANONIC);

			m_pImpl->putUrl (aHistUrl.GetMainURL(INetURLObject::NO_DECODE));
			Broadcast (INetURLHistoryHint (&aHistUrl));
		}
	}
}

/*
 * QueryUrl_Impl.
 */
sal_Bool INetURLHistory::QueryUrl_Impl (const INetURLObject &rUrl)
{
	DBG_ASSERT (m_pImpl, "QueryUrl_Impl(): no Implementation");
	if (m_pImpl)
	{
		INetURLObject aHistUrl (rUrl);
		NormalizeUrl_Impl (aHistUrl);

		return m_pImpl->queryUrl (aHistUrl.GetMainURL(INetURLObject::NO_DECODE));
	}
	return sal_False;
}