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|
/* -*- 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/.
*/
#include <WPXSvInputStream.hxx>
#include <com/sun/star/packages/zip/XZipFileAccess2.hpp>
#include <comphelper/processfactory.hxx>
#include <comphelper/seekableinput.hxx>
#include <rtl/string.hxx>
#include <sal/log.hxx>
#include <sot/storage.hxx>
#include <tools/stream.hxx>
#include <unotools/streamwrap.hxx>
#include <unotools/ucbstreamhelper.hxx>
#include <climits>
#include <limits>
#include <memory>
#include <unordered_map>
#include <vector>
namespace writerperfect
{
using namespace ::com::sun::star::uno;
using namespace ::com::sun::star::io;
namespace container = com::sun::star::container;
namespace packages = com::sun::star::packages;
namespace
{
class PositionHolder
{
public:
explicit PositionHolder(const Reference<XSeekable>& rxSeekable);
~PositionHolder();
PositionHolder(const PositionHolder&) = delete;
PositionHolder& operator=(const PositionHolder&) = delete;
private:
const Reference<XSeekable> mxSeekable;
const sal_uInt64 mnPosition;
};
PositionHolder::PositionHolder(const Reference<XSeekable>& rxSeekable)
: mxSeekable(rxSeekable)
, mnPosition(rxSeekable->getPosition())
{
}
PositionHolder::~PositionHolder()
{
try
{
mxSeekable->seek(mnPosition);
}
catch (...)
{
}
}
} // anonymous namespace
typedef struct
{
tools::SvRef<SotStorage> ref;
} SotStorageRefWrapper;
typedef struct
{
tools::SvRef<SotStorageStream> ref;
} SotStorageStreamRefWrapper;
namespace
{
OUString lcl_normalizeSubStreamPath(const OUString& rPath)
{
// accept paths which begin by '/'
// TODO: maybe this should to a full normalization
if (rPath.startsWith("/") && rPath.getLength() >= 2)
return rPath.copy(1);
return rPath;
}
}
namespace
{
const OUString concatPath(const OUString& lhs, const OUString& rhs)
{
if (lhs.isEmpty())
return rhs;
return lhs + "/" + rhs;
}
struct OLEStreamData
{
OLEStreamData(const OString& rName, const OString& rvngName);
SotStorageStreamRefWrapper stream;
/** Name of the stream.
*
* This is not @c OUString, because we need to be able to
* produce const char* from it.
*/
OString const name;
/** librevenge name of the stream.
*
* This is not @c OUString, because we need to be able to
* produce const char* from it.
*/
OString const RVNGname;
};
typedef std::unordered_map<OUString, std::size_t> NameMap_t;
typedef std::unordered_map<OUString, SotStorageRefWrapper> OLEStorageMap_t;
/** Representation of an OLE2 storage.
*
* This class tries to bring a bit of sanity to use of SotStorage with
* respect to the needs of @c librevenge::RVNGInputStream API. It
* holds all nested storages for the whole lifetime (more precisely,
* since initialization, which is performed by calling @c
* initialize()), thus ensuring that no created stream is destroyed
* just because its parent storage went out of scope. It also holds a
* bidirectional map of stream names to their indexes (index of a
* stream is determined by deep-first traversal), which is also
* populated during initialization (member variables @c maStreams and
* @c maNameMap).
*
* Streams are created on demand (and saved, for the same reason as
* storages).
*/
struct OLEStorageImpl
{
OLEStorageImpl();
void initialize(std::unique_ptr<SvStream> pStream);
tools::SvRef<SotStorageStream> getStream(const OUString& rPath);
tools::SvRef<SotStorageStream> const& getStream(std::size_t nId);
private:
void traverse(const tools::SvRef<SotStorage>& rStorage, const OUString& rPath);
tools::SvRef<SotStorageStream> createStream(const OUString& rPath);
public:
SotStorageRefWrapper mxRootStorage; //< root storage of the OLE2
OLEStorageMap_t maStorageMap; //< map of all sub storages by name
::std::vector<OLEStreamData> maStreams; //< list of streams and their names
NameMap_t maNameMap; //< map of stream names to indexes (into @c maStreams)
bool mbInitialized;
};
OLEStreamData::OLEStreamData(const OString& rName, const OString& rvngName)
: stream()
, name(rName)
, RVNGname(rvngName)
{
}
OLEStorageImpl::OLEStorageImpl()
: mxRootStorage()
, maStorageMap()
, maStreams()
, maNameMap()
, mbInitialized(false)
{
}
void OLEStorageImpl::initialize(std::unique_ptr<SvStream> pStream)
{
if (!pStream)
return;
mxRootStorage.ref = new SotStorage(pStream.release(), true);
traverse(mxRootStorage.ref, "");
mbInitialized = true;
}
tools::SvRef<SotStorageStream> OLEStorageImpl::getStream(const OUString& rPath)
{
const OUString aPath(lcl_normalizeSubStreamPath(rPath));
NameMap_t::iterator aIt = maNameMap.find(aPath);
// For the while don't return stream in this situation.
// Later, given how libcdr's zip stream implementation behaves,
// return the first stream in the storage if there is one.
if (maNameMap.end() == aIt)
return tools::SvRef<SotStorageStream>();
if (!maStreams[aIt->second].stream.ref.is())
maStreams[aIt->second].stream.ref
= createStream(OStringToOUString(maStreams[aIt->second].name, RTL_TEXTENCODING_UTF8));
return maStreams[aIt->second].stream.ref;
}
tools::SvRef<SotStorageStream> const& OLEStorageImpl::getStream(const std::size_t nId)
{
if (!maStreams[nId].stream.ref.is())
maStreams[nId].stream.ref
= createStream(OStringToOUString(maStreams[nId].name, RTL_TEXTENCODING_UTF8));
return maStreams[nId].stream.ref;
}
void OLEStorageImpl::traverse(const tools::SvRef<SotStorage>& rStorage, const OUString& rPath)
{
SvStorageInfoList infos;
rStorage->FillInfoList(&infos);
for (const auto& info : infos)
{
if (info.IsStream())
{
OUString baseName = info.GetName(), rvngName = baseName;
// librevenge::RVNGOLEStream ignores the first character when is a control code, so ...
if (!rvngName.isEmpty() && rvngName.toChar() < 32)
rvngName = rvngName.copy(1);
maStreams.emplace_back(
OUStringToOString(concatPath(rPath, baseName), RTL_TEXTENCODING_UTF8),
OUStringToOString(concatPath(rPath, rvngName), RTL_TEXTENCODING_UTF8));
maNameMap[concatPath(rPath, rvngName)] = maStreams.size() - 1;
}
else if (info.IsStorage())
{
const OUString aPath = concatPath(rPath, info.GetName());
SotStorageRefWrapper aStorage;
aStorage.ref = rStorage->OpenSotStorage(info.GetName(), StreamMode::STD_READ);
maStorageMap[aPath] = aStorage;
// deep-first traversal
traverse(aStorage.ref, aPath);
}
else
{
SAL_WARN("writerperfect",
"OLEStorageImpl::traverse: invalid storage entry, neither stream nor file");
}
}
}
tools::SvRef<SotStorageStream> OLEStorageImpl::createStream(const OUString& rPath)
{
const sal_Int32 nDelim = rPath.lastIndexOf(u'/');
if (-1 == nDelim)
return mxRootStorage.ref->OpenSotStream(rPath, StreamMode::STD_READ);
const OUString aDir = rPath.copy(0, nDelim);
const OUString aName = rPath.copy(nDelim + 1);
const OLEStorageMap_t::const_iterator aIt = maStorageMap.find(aDir);
if (maStorageMap.end() == aIt)
return nullptr;
return aIt->second.ref->OpenSotStream(aName, StreamMode::STD_READ);
}
}
namespace
{
struct ZipStreamData
{
explicit ZipStreamData(const OString& rName);
Reference<XInputStream> xStream;
/** Name of the stream.
*
* This is not @c OUString, because we need to be able to
* produce const char* from it.
*/
OString const aName;
};
/** Representation of a Zip storage.
*
* This is quite similar to OLEStorageImpl, except that we do not need
* to keep all storages (folders) open.
*/
struct ZipStorageImpl
{
explicit ZipStorageImpl(const Reference<container::XNameAccess>& rxContainer);
/** Initialize for access.
*
* This creates a bidirectional map of stream names to their
* indexes (index of a stream is determined by deep-first
* traversal).
*/
void initialize();
Reference<XInputStream> getStream(const OUString& rPath);
Reference<XInputStream> const& getStream(std::size_t nId);
private:
void traverse(const Reference<container::XNameAccess>& rxEnum);
Reference<XInputStream> createStream(const OUString& rPath);
public:
Reference<container::XNameAccess> mxContainer; //< root of the Zip
::std::vector<ZipStreamData> maStreams; //< list of streams and their names
NameMap_t maNameMap; //< map of stream names to indexes (into @c maStreams)
bool mbInitialized;
};
ZipStreamData::ZipStreamData(const OString& rName)
: xStream()
, aName(rName)
{
}
ZipStorageImpl::ZipStorageImpl(const Reference<container::XNameAccess>& rxContainer)
: mxContainer(rxContainer)
, maStreams()
, maNameMap()
, mbInitialized(false)
{
assert(mxContainer.is());
}
void ZipStorageImpl::initialize()
{
traverse(mxContainer);
mbInitialized = true;
}
Reference<XInputStream> ZipStorageImpl::getStream(const OUString& rPath)
{
const OUString aPath(lcl_normalizeSubStreamPath(rPath));
NameMap_t::iterator aIt = maNameMap.find(aPath);
// For the while don't return stream in this situation.
// Later, given how libcdr's zip stream implementation behaves,
// return the first stream in the storage if there is one.
if (maNameMap.end() == aIt)
return Reference<XInputStream>();
if (!maStreams[aIt->second].xStream.is())
maStreams[aIt->second].xStream = createStream(aPath);
return maStreams[aIt->second].xStream;
}
Reference<XInputStream> const& ZipStorageImpl::getStream(const std::size_t nId)
{
if (!maStreams[nId].xStream.is())
maStreams[nId].xStream
= createStream(OStringToOUString(maStreams[nId].aName, RTL_TEXTENCODING_UTF8));
return maStreams[nId].xStream;
}
void ZipStorageImpl::traverse(const Reference<container::XNameAccess>& rxContainer)
{
const Sequence<OUString> lNames = rxContainer->getElementNames();
maStreams.reserve(lNames.getLength());
for (sal_Int32 n = 0; n < lNames.getLength(); ++n)
{
if (!lNames[n].endsWith("/")) // skip dirs
{
maStreams.emplace_back(OUStringToOString(lNames[n], RTL_TEXTENCODING_UTF8));
maNameMap[lNames[n]] = maStreams.size() - 1;
}
}
}
Reference<XInputStream> ZipStorageImpl::createStream(const OUString& rPath)
{
Reference<XInputStream> xStream;
try
{
const Reference<XInputStream> xInputStream(mxContainer->getByName(rPath), UNO_QUERY_THROW);
const Reference<XSeekable> xSeekable(xInputStream, UNO_QUERY);
if (xSeekable.is())
xStream = xInputStream;
else
xStream.set(new comphelper::OSeekableInputWrapper(
xInputStream, comphelper::getProcessComponentContext()));
}
catch (const Exception&)
{
// nothing needed
}
return xStream;
}
}
class WPXSvInputStreamImpl
{
public:
explicit WPXSvInputStreamImpl(css::uno::Reference<css::io::XInputStream> const& xStream);
bool isStructured();
unsigned subStreamCount();
const char* subStreamName(unsigned id);
bool existsSubStream(const char* name);
librevenge::RVNGInputStream* getSubStreamByName(const char* name);
librevenge::RVNGInputStream* getSubStreamById(unsigned id);
const unsigned char* read(unsigned long numBytes, unsigned long& numBytesRead);
int seek(long offset);
long tell();
bool isEnd();
void invalidateReadBuffer();
private:
bool isOLE();
void ensureOLEIsInitialized();
bool isZip();
void ensureZipIsInitialized();
static librevenge::RVNGInputStream*
createWPXStream(const tools::SvRef<SotStorageStream>& rxStorage);
static librevenge::RVNGInputStream* createWPXStream(const Reference<XInputStream>& rxStream);
private:
css::uno::Reference<css::io::XInputStream> mxStream;
css::uno::Reference<css::io::XSeekable> mxSeekable;
css::uno::Sequence<sal_Int8> maData;
std::unique_ptr<OLEStorageImpl> mpOLEStorage;
std::unique_ptr<ZipStorageImpl> mpZipStorage;
bool mbCheckedOLE;
bool mbCheckedZip;
public:
sal_Int64 mnLength;
const unsigned char* mpReadBuffer;
unsigned long mnReadBufferLength;
unsigned long mnReadBufferPos;
};
WPXSvInputStreamImpl::WPXSvInputStreamImpl(Reference<XInputStream> const& xStream)
: mxStream(xStream)
, mxSeekable(xStream, UNO_QUERY)
, maData(0)
, mbCheckedOLE(false)
, mbCheckedZip(false)
, mnLength(0)
, mpReadBuffer(nullptr)
, mnReadBufferLength(0)
, mnReadBufferPos(0)
{
if (!xStream.is() || !mxStream.is())
mnLength = 0;
else
{
if (!mxSeekable.is())
mnLength = 0;
else
{
try
{
mnLength = mxSeekable->getLength();
if (0 < mxSeekable->getPosition())
mxSeekable->seek(0);
}
catch (...)
{
SAL_WARN("writerperfect", "mnLength = mxSeekable->getLength() threw exception");
mnLength = 0;
}
}
}
}
const unsigned char* WPXSvInputStreamImpl::read(unsigned long numBytes, unsigned long& numBytesRead)
{
numBytesRead = 0;
if (numBytes == 0 || isEnd())
return nullptr;
numBytesRead = mxStream->readSomeBytes(maData, numBytes);
if (numBytesRead == 0)
return nullptr;
return reinterpret_cast<const unsigned char*>(maData.getConstArray());
}
long WPXSvInputStreamImpl::tell()
{
if ((mnLength == 0) || !mxStream.is() || !mxSeekable.is())
return -1;
else
{
const sal_Int64 tmpPosition = mxSeekable->getPosition();
if ((tmpPosition < 0) || (tmpPosition > LONG_MAX))
return -1;
return static_cast<long>(tmpPosition);
}
}
int WPXSvInputStreamImpl::seek(long offset)
{
if ((mnLength == 0) || !mxStream.is() || !mxSeekable.is())
return -1;
const sal_Int64 tmpPosition = mxSeekable->getPosition();
if ((tmpPosition < 0) || (tmpPosition > LONG_MAX))
return -1;
try
{
mxSeekable->seek(offset);
return 0;
}
catch (...)
{
SAL_WARN("writerperfect", "mxSeekable->seek(offset) threw exception");
return -1;
}
}
bool WPXSvInputStreamImpl::isEnd()
{
if ((mnLength == 0) || !mxStream.is() || !mxSeekable.is())
return true;
return (mxSeekable->getPosition() >= mnLength);
}
bool WPXSvInputStreamImpl::isStructured()
{
if ((mnLength == 0) || !mxStream.is() || !mxSeekable.is())
return false;
PositionHolder pos(mxSeekable);
mxSeekable->seek(0);
if (isOLE())
return true;
mxSeekable->seek(0);
return isZip();
}
unsigned WPXSvInputStreamImpl::subStreamCount()
{
if ((mnLength == 0) || !mxStream.is() || !mxSeekable.is())
return 0;
PositionHolder pos(mxSeekable);
mxSeekable->seek(0);
if (isOLE())
{
ensureOLEIsInitialized();
return mpOLEStorage->maStreams.size();
}
mxSeekable->seek(0);
if (isZip())
{
ensureZipIsInitialized();
return mpZipStorage->maStreams.size();
}
return 0;
}
const char* WPXSvInputStreamImpl::subStreamName(const unsigned id)
{
if ((mnLength == 0) || !mxStream.is() || !mxSeekable.is())
return nullptr;
PositionHolder pos(mxSeekable);
mxSeekable->seek(0);
if (isOLE())
{
ensureOLEIsInitialized();
if (mpOLEStorage->maStreams.size() <= id)
return nullptr;
return mpOLEStorage->maStreams[id].RVNGname.getStr();
}
mxSeekable->seek(0);
if (isZip())
{
ensureZipIsInitialized();
if (mpZipStorage->maStreams.size() <= id)
return nullptr;
return mpZipStorage->maStreams[id].aName.getStr();
}
return nullptr;
}
bool WPXSvInputStreamImpl::existsSubStream(const char* const name)
{
if (!name)
return false;
if ((mnLength == 0) || !mxStream.is() || !mxSeekable.is())
return false;
PositionHolder pos(mxSeekable);
mxSeekable->seek(0);
const OUString aName(OStringToOUString(OString(name), RTL_TEXTENCODING_UTF8));
if (isOLE())
{
ensureOLEIsInitialized();
return mpOLEStorage->maNameMap.end() != mpOLEStorage->maNameMap.find(aName);
}
mxSeekable->seek(0);
if (isZip())
{
ensureZipIsInitialized();
return mpZipStorage->maNameMap.end() != mpZipStorage->maNameMap.find(aName);
}
return false;
}
librevenge::RVNGInputStream* WPXSvInputStreamImpl::getSubStreamByName(const char* const name)
{
if (!name)
return nullptr;
if ((mnLength == 0) || !mxStream.is() || !mxSeekable.is())
return nullptr;
PositionHolder pos(mxSeekable);
mxSeekable->seek(0);
const OUString aName(OStringToOUString(OString(name), RTL_TEXTENCODING_UTF8));
if (isOLE())
{
ensureOLEIsInitialized();
return createWPXStream(mpOLEStorage->getStream(aName));
}
mxSeekable->seek(0);
if (isZip())
{
ensureZipIsInitialized();
try
{
return createWPXStream(mpZipStorage->getStream(aName));
}
catch (const Exception&)
{
// nothing needed
}
}
return nullptr;
}
librevenge::RVNGInputStream* WPXSvInputStreamImpl::getSubStreamById(const unsigned id)
{
if ((mnLength == 0) || !mxStream.is() || !mxSeekable.is())
return nullptr;
PositionHolder pos(mxSeekable);
mxSeekable->seek(0);
if (isOLE())
{
ensureOLEIsInitialized();
if (mpOLEStorage->maStreams.size() <= id)
return nullptr;
return createWPXStream(mpOLEStorage->getStream(id));
}
mxSeekable->seek(0);
if (isZip())
{
ensureZipIsInitialized();
if (mpZipStorage->maStreams.size() <= id)
return nullptr;
try
{
return createWPXStream(mpZipStorage->getStream(id));
}
catch (const Exception&)
{
// nothing needed
}
}
return nullptr;
}
void WPXSvInputStreamImpl::invalidateReadBuffer()
{
if (mpReadBuffer)
{
seek(tell() + static_cast<long>(mnReadBufferPos) - static_cast<long>(mnReadBufferLength));
mpReadBuffer = nullptr;
mnReadBufferPos = 0;
mnReadBufferLength = 0;
}
}
librevenge::RVNGInputStream*
WPXSvInputStreamImpl::createWPXStream(const tools::SvRef<SotStorageStream>& rxStorage)
{
if (rxStorage.is())
{
Reference<XInputStream> xContents(new utl::OSeekableInputStreamWrapper(rxStorage.get()));
return new WPXSvInputStream(xContents);
}
return nullptr;
}
librevenge::RVNGInputStream*
WPXSvInputStreamImpl::createWPXStream(const Reference<XInputStream>& rxStream)
{
if (rxStream.is())
return new WPXSvInputStream(rxStream);
else
return nullptr;
}
bool WPXSvInputStreamImpl::isOLE()
{
if (!mbCheckedOLE)
{
assert(0 == mxSeekable->getPosition());
std::unique_ptr<SvStream> pStream(utl::UcbStreamHelper::CreateStream(mxStream));
if (pStream && SotStorage::IsOLEStorage(pStream.get()))
mpOLEStorage.reset(new OLEStorageImpl());
mbCheckedOLE = true;
}
return bool(mpOLEStorage);
}
bool WPXSvInputStreamImpl::isZip()
{
if (!mbCheckedZip)
{
assert(0 == mxSeekable->getPosition());
try
{
Sequence<Any> aArgs(1);
aArgs[0] <<= mxStream;
const Reference<XComponentContext> xContext(comphelper::getProcessComponentContext(),
UNO_QUERY_THROW);
const Reference<packages::zip::XZipFileAccess2> xZip(
xContext->getServiceManager()->createInstanceWithArgumentsAndContext(
"com.sun.star.packages.zip.ZipFileAccess", aArgs, xContext),
UNO_QUERY_THROW);
mpZipStorage.reset(new ZipStorageImpl(xZip));
}
catch (const Exception&)
{
// ignore
}
mbCheckedZip = true;
}
return bool(mpZipStorage);
}
void WPXSvInputStreamImpl::ensureOLEIsInitialized()
{
assert(mpOLEStorage);
if (!mpOLEStorage->mbInitialized)
mpOLEStorage->initialize(utl::UcbStreamHelper::CreateStream(mxStream));
}
void WPXSvInputStreamImpl::ensureZipIsInitialized()
{
assert(mpZipStorage);
if (!mpZipStorage->mbInitialized)
mpZipStorage->initialize();
}
WPXSvInputStream::WPXSvInputStream(Reference<XInputStream> const& xStream)
: mpImpl(new WPXSvInputStreamImpl(xStream))
{
}
WPXSvInputStream::~WPXSvInputStream() {}
#define BUFFER_MAX 65536
const unsigned char* WPXSvInputStream::read(unsigned long numBytes, unsigned long& numBytesRead)
{
numBytesRead = 0;
if (numBytes == 0 || numBytes > std::numeric_limits<unsigned long>::max() / 2)
return nullptr;
if (mpImpl->mpReadBuffer)
{
if ((mpImpl->mnReadBufferPos + numBytes > mpImpl->mnReadBufferPos)
&& (mpImpl->mnReadBufferPos + numBytes <= mpImpl->mnReadBufferLength))
{
const unsigned char* pTmp = mpImpl->mpReadBuffer + mpImpl->mnReadBufferPos;
mpImpl->mnReadBufferPos += numBytes;
numBytesRead = numBytes;
return pTmp;
}
mpImpl->invalidateReadBuffer();
}
unsigned long curpos = static_cast<unsigned long>(mpImpl->tell());
if (curpos == static_cast<unsigned long>(-1)) // returned ERROR
return nullptr;
if ((curpos + numBytes < curpos) /*overflow*/
|| (curpos + numBytes
>= static_cast<sal_uInt64>(mpImpl->mnLength))) /*reading more than available*/
{
numBytes = mpImpl->mnLength - curpos;
}
if (numBytes < BUFFER_MAX)
{
if (BUFFER_MAX < mpImpl->mnLength - curpos)
mpImpl->mnReadBufferLength = BUFFER_MAX;
else /* BUFFER_MAX >= mpImpl->mnLength - curpos */
mpImpl->mnReadBufferLength = mpImpl->mnLength - curpos;
}
else
mpImpl->mnReadBufferLength = numBytes;
unsigned long tmpNumBytes(0);
mpImpl->mpReadBuffer = mpImpl->read(mpImpl->mnReadBufferLength, tmpNumBytes);
if (tmpNumBytes != mpImpl->mnReadBufferLength)
mpImpl->mnReadBufferLength = tmpNumBytes;
mpImpl->mnReadBufferPos = 0;
if (!mpImpl->mnReadBufferLength)
return nullptr;
if (numBytes <= mpImpl->mnReadBufferLength)
numBytesRead = numBytes;
else
numBytesRead = mpImpl->mnReadBufferLength;
mpImpl->mnReadBufferPos += numBytesRead;
return mpImpl->mpReadBuffer;
}
long WPXSvInputStream::tell()
{
long retVal = mpImpl->tell();
return retVal - static_cast<long>(mpImpl->mnReadBufferLength)
+ static_cast<long>(mpImpl->mnReadBufferPos);
}
int WPXSvInputStream::seek(long offset, librevenge::RVNG_SEEK_TYPE seekType)
{
sal_Int64 tmpOffset = offset;
if (seekType == librevenge::RVNG_SEEK_CUR)
tmpOffset += tell();
if (seekType == librevenge::RVNG_SEEK_END)
tmpOffset += mpImpl->mnLength;
int retVal = 0;
if (tmpOffset < 0)
{
tmpOffset = 0;
retVal = -1;
}
if (tmpOffset > mpImpl->mnLength)
{
tmpOffset = mpImpl->mnLength;
retVal = -1;
}
if (tmpOffset < mpImpl->tell()
&& static_cast<unsigned long>(tmpOffset)
>= static_cast<unsigned long>(mpImpl->tell()) - mpImpl->mnReadBufferLength)
{
mpImpl->mnReadBufferPos = static_cast<unsigned long>(
tmpOffset + static_cast<long>(mpImpl->mnReadBufferLength) - mpImpl->tell());
return retVal;
}
mpImpl->invalidateReadBuffer();
if (mpImpl->seek(tmpOffset))
return -1;
return retVal;
}
bool WPXSvInputStream::isEnd()
{
return mpImpl->isEnd() && mpImpl->mnReadBufferPos == mpImpl->mnReadBufferLength;
}
bool WPXSvInputStream::isStructured()
{
mpImpl->invalidateReadBuffer();
return mpImpl->isStructured();
}
unsigned WPXSvInputStream::subStreamCount()
{
mpImpl->invalidateReadBuffer();
return mpImpl->subStreamCount();
}
const char* WPXSvInputStream::subStreamName(const unsigned id)
{
mpImpl->invalidateReadBuffer();
return mpImpl->subStreamName(id);
}
bool WPXSvInputStream::existsSubStream(const char* const name)
{
mpImpl->invalidateReadBuffer();
return mpImpl->existsSubStream(name);
}
librevenge::RVNGInputStream* WPXSvInputStream::getSubStreamByName(const char* name)
{
mpImpl->invalidateReadBuffer();
return mpImpl->getSubStreamByName(name);
}
librevenge::RVNGInputStream* WPXSvInputStream::getSubStreamById(const unsigned id)
{
mpImpl->invalidateReadBuffer();
return mpImpl->getSubStreamById(id);
}
}
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