ClickHouse/contrib/libpoco/Foundation/include/Poco/ClassLoader.h

366 lines
9.5 KiB
C++

//
// ClassLoader.h
//
// $Id: //poco/1.4/Foundation/include/Poco/ClassLoader.h#1 $
//
// Library: Foundation
// Package: SharedLibrary
// Module: ClassLoader
//
// Definition of the ClassLoader class.
//
// Copyright (c) 2004-2006, Applied Informatics Software Engineering GmbH.
// and Contributors.
//
// SPDX-License-Identifier: BSL-1.0
//
#ifndef Foundation_ClassLoader_INCLUDED
#define Foundation_ClassLoader_INCLUDED
#include "Poco/Foundation.h"
#include "Poco/MetaObject.h"
#include "Poco/Manifest.h"
#include "Poco/SharedLibrary.h"
#include "Poco/Mutex.h"
#include "Poco/Exception.h"
#include <map>
namespace Poco {
template <class Base>
class ClassLoader
/// The ClassLoader loads C++ classes from shared libraries
/// at runtime. It must be instantiated with a root class
/// of the loadable classes.
/// For a class to be loadable from a library, the library
/// must provide a Manifest of all the classes it contains.
/// The Manifest for a shared library can be easily built
/// with the help of the macros in the header file
/// "Foundation/ClassLibrary.h".
///
/// Starting with POCO release 1.3, a class library can
/// export multiple manifests. In addition to the default
/// (unnamed) manifest, multiple named manifests can
/// be exported, each having a different base class.
///
/// There is one important restriction: one instance of
/// ClassLoader can only load one manifest from a class
/// library.
{
public:
typedef AbstractMetaObject<Base> Meta;
typedef Manifest<Base> Manif;
typedef void (*InitializeLibraryFunc)();
typedef void (*UninitializeLibraryFunc)();
typedef bool (*BuildManifestFunc)(ManifestBase*);
struct LibraryInfo
{
SharedLibrary* pLibrary;
const Manif* pManifest;
int refCount;
};
typedef std::map<std::string, LibraryInfo> LibraryMap;
class Iterator
/// The ClassLoader's very own iterator class.
{
public:
typedef std::pair<std::string, const Manif*> Pair;
Iterator(const typename LibraryMap::const_iterator& it)
{
_it = it;
}
Iterator(const Iterator& it)
{
_it = it._it;
}
~Iterator()
{
}
Iterator& operator = (const Iterator& it)
{
_it = it._it;
return *this;
}
inline bool operator == (const Iterator& it) const
{
return _it == it._it;
}
inline bool operator != (const Iterator& it) const
{
return _it != it._it;
}
Iterator& operator ++ () // prefix
{
++_it;
return *this;
}
Iterator operator ++ (int) // postfix
{
Iterator result(_it);
++_it;
return result;
}
inline const Pair* operator * () const
{
_pair.first = _it->first;
_pair.second = _it->second.pManifest;
return &_pair;
}
inline const Pair* operator -> () const
{
_pair.first = _it->first;
_pair.second = _it->second.pManifest;
return &_pair;
}
private:
typename LibraryMap::const_iterator _it;
mutable Pair _pair;
};
ClassLoader()
/// Creates the ClassLoader.
{
}
virtual ~ClassLoader()
/// Destroys the ClassLoader.
{
for (typename LibraryMap::const_iterator it = _map.begin(); it != _map.end(); ++it)
{
delete it->second.pLibrary;
delete it->second.pManifest;
}
}
void loadLibrary(const std::string& path, const std::string& manifest)
/// Loads a library from the given path, using the given manifest.
/// Does nothing if the library is already loaded.
/// Throws a LibraryLoadException if the library
/// cannot be loaded or does not have a Manifest.
/// If the library exports a function named "pocoInitializeLibrary",
/// this function is executed.
/// If called multiple times for the same library,
/// the number of calls to unloadLibrary() must be the same
/// for the library to become unloaded.
{
FastMutex::ScopedLock lock(_mutex);
typename LibraryMap::iterator it = _map.find(path);
if (it == _map.end())
{
LibraryInfo li;
li.pLibrary = new SharedLibrary(path);
li.pManifest = new Manif();
li.refCount = 1;
try
{
std::string pocoBuildManifestSymbol("pocoBuildManifest");
pocoBuildManifestSymbol.append(manifest);
if (li.pLibrary->hasSymbol("pocoInitializeLibrary"))
{
InitializeLibraryFunc initializeLibrary = (InitializeLibraryFunc) li.pLibrary->getSymbol("pocoInitializeLibrary");
initializeLibrary();
}
if (li.pLibrary->hasSymbol(pocoBuildManifestSymbol))
{
BuildManifestFunc buildManifest = (BuildManifestFunc) li.pLibrary->getSymbol(pocoBuildManifestSymbol);
if (buildManifest(const_cast<Manif*>(li.pManifest)))
_map[path] = li;
else
throw LibraryLoadException(std::string("Manifest class mismatch in ") + path, manifest);
}
else throw LibraryLoadException(std::string("No manifest in ") + path, manifest);
}
catch (...)
{
delete li.pLibrary;
delete li.pManifest;
throw;
}
}
else
{
++it->second.refCount;
}
}
void loadLibrary(const std::string& path)
/// Loads a library from the given path. Does nothing
/// if the library is already loaded.
/// Throws a LibraryLoadException if the library
/// cannot be loaded or does not have a Manifest.
/// If the library exports a function named "pocoInitializeLibrary",
/// this function is executed.
/// If called multiple times for the same library,
/// the number of calls to unloadLibrary() must be the same
/// for the library to become unloaded.
///
/// Equivalent to loadLibrary(path, "").
{
loadLibrary(path, "");
}
void unloadLibrary(const std::string& path)
/// Unloads the given library.
/// Be extremely cautious when unloading shared libraries.
/// If objects from the library are still referenced somewhere,
/// a total crash is very likely.
/// If the library exports a function named "pocoUninitializeLibrary",
/// this function is executed before it is unloaded.
/// If loadLibrary() has been called multiple times for the same
/// library, the number of calls to unloadLibrary() must be the same
/// for the library to become unloaded.
{
FastMutex::ScopedLock lock(_mutex);
typename LibraryMap::iterator it = _map.find(path);
if (it != _map.end())
{
if (--it->second.refCount == 0)
{
if (it->second.pLibrary->hasSymbol("pocoUninitializeLibrary"))
{
UninitializeLibraryFunc uninitializeLibrary = (UninitializeLibraryFunc) it->second.pLibrary->getSymbol("pocoUninitializeLibrary");
uninitializeLibrary();
}
delete it->second.pManifest;
it->second.pLibrary->unload();
delete it->second.pLibrary;
_map.erase(it);
}
}
else throw NotFoundException(path);
}
const Meta* findClass(const std::string& className) const
/// Returns a pointer to the MetaObject for the given
/// class, or a null pointer if the class is not known.
{
FastMutex::ScopedLock lock(_mutex);
for (typename LibraryMap::const_iterator it = _map.begin(); it != _map.end(); ++it)
{
const Manif* pManif = it->second.pManifest;
typename Manif::Iterator itm = pManif->find(className);
if (itm != pManif->end())
return *itm;
}
return 0;
}
const Meta& classFor(const std::string& className) const
/// Returns a reference to the MetaObject for the given
/// class. Throws a NotFoundException if the class
/// is not known.
{
const Meta* pMeta = findClass(className);
if (pMeta)
return *pMeta;
else
throw NotFoundException(className);
}
Base* create(const std::string& className) const
/// Creates an instance of the given class.
/// Throws a NotFoundException if the class
/// is not known.
{
return classFor(className).create();
}
Base& instance(const std::string& className) const
/// Returns a reference to the sole instance of
/// the given class. The class must be a singleton,
/// otherwise an InvalidAccessException will be thrown.
/// Throws a NotFoundException if the class
/// is not known.
{
return classFor(className).instance();
}
bool canCreate(const std::string& className) const
/// Returns true if create() can create new instances
/// of the class.
{
return classFor(className).canCreate();
}
void destroy(const std::string& className, Base* pObject) const
/// Destroys the object pObject points to.
/// Does nothing if object is not found.
{
classFor(className).destroy(pObject);
}
bool isAutoDelete(const std::string& className, Base* pObject) const
/// Returns true if the object is automatically
/// deleted by its meta object.
{
return classFor(className).isAutoDelete(pObject);
}
const Manif* findManifest(const std::string& path) const
/// Returns a pointer to the Manifest for the given
/// library, or a null pointer if the library has not been loaded.
{
FastMutex::ScopedLock lock(_mutex);
typename LibraryMap::const_iterator it = _map.find(path);
if (it != _map.end())
return it->second.pManifest;
else
return 0;
}
const Manif& manifestFor(const std::string& path) const
/// Returns a reference to the Manifest for the given library
/// Throws a NotFoundException if the library has not been loaded.
{
const Manif* pManif = findManifest(path);
if (pManif)
return *pManif;
else
throw NotFoundException(path);
}
bool isLibraryLoaded(const std::string& path) const
/// Returns true if the library with the given name
/// has already been loaded.
{
return findManifest(path) != 0;
}
Iterator begin() const
{
FastMutex::ScopedLock lock(_mutex);
return Iterator(_map.begin());
}
Iterator end() const
{
FastMutex::ScopedLock lock(_mutex);
return Iterator(_map.end());
}
private:
LibraryMap _map;
mutable FastMutex _mutex;
};
} // namespace Poco
#endif // Foundation_ClassLoader_INCLUDED