/* -*- 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 .
*/
#ifdef DISABLE_DYNLOADING
#include <config_java.h>
#endif
#include "IdentityMapping.hxx"
#include <cassert>
#include <mutex>
#include <set>
#include <unordered_map>
#include <utility>
#include <rtl/ustring.hxx>
#include <rtl/ustrbuf.hxx>
#include <osl/module.hxx>
#include <osl/diagnose.h>
#include <osl/mutex.hxx>
#include <osl/interlck.h>
#include <sal/log.hxx>
#include <uno/dispatcher.h>
#include <uno/mapping.h>
#include <uno/lbnames.h>
#include <uno/environment.hxx>
#include <typelib/typedescription.h>
#include <cppu/EnvDcp.hxx>
#include "cascade_mapping.hxx"
#include "loadmodule.hxx"
using namespace osl;
using namespace com::sun::star::uno;
namespace cppu
{
namespace {
class Mapping
{
uno_Mapping * _pMapping;
public:
inline explicit Mapping( uno_Mapping * pMapping = nullptr );
inline Mapping( const Mapping & rMapping );
Mapping(Mapping && other) noexcept : _pMapping(other._pMapping)
{ other._pMapping = nullptr; }
inline ~Mapping();
inline Mapping & operator = ( uno_Mapping * pMapping );
// move variant is sufficient
Mapping & operator = ( const Mapping & rMapping ) = delete;
Mapping & operator =(Mapping && other) noexcept {
if (_pMapping != nullptr) {
(*_pMapping->release)(_pMapping);
}
_pMapping = other._pMapping;
other._pMapping = nullptr;
return *this;
}
uno_Mapping * get() const
{ return _pMapping; }
bool is() const
{ return (_pMapping != nullptr); }
};
}
inline Mapping::Mapping( uno_Mapping * pMapping )
: _pMapping( pMapping )
{
if (_pMapping)
(*_pMapping->acquire)( _pMapping );
}
inline Mapping::Mapping( const Mapping & rMapping )
: _pMapping( rMapping._pMapping )
{
if (_pMapping)
(*_pMapping->acquire)( _pMapping );
}
inline Mapping::~Mapping()
{
if (_pMapping)
(*_pMapping->release)( _pMapping );
}
inline Mapping & Mapping::operator = ( uno_Mapping * pMapping )
{
if (pMapping)
(*pMapping->acquire)( pMapping );
if (_pMapping)
(*_pMapping->release)( _pMapping );
_pMapping = pMapping;
return *this;
}
namespace {
struct MappingEntry
{
sal_Int32 nRef;
uno_Mapping * pMapping;
uno_freeMappingFunc freeMapping;
OUString aMappingName;
MappingEntry(
uno_Mapping * pMapping_, uno_freeMappingFunc freeMapping_,
OUString aMappingName_ )
: nRef( 1 )
, pMapping( pMapping_ )
, freeMapping( freeMapping_ )
, aMappingName(std::move( aMappingName_ ))
{}
};
struct FctPtrHash
{
size_t operator()( uno_Mapping * pKey ) const
{ return reinterpret_cast<size_t>(pKey); }
};
}
typedef std::unordered_map<
OUString, MappingEntry * > t_OUString2Entry;
typedef std::unordered_map<
uno_Mapping *, MappingEntry *, FctPtrHash > t_Mapping2Entry;
namespace {
struct MappingsData
{
Mutex aMappingsMutex;
t_OUString2Entry aName2Entry;
t_Mapping2Entry aMapping2Entry;
std::mutex aCallbacksMutex;
std::set< uno_getMappingFunc >
aCallbacks;
std::mutex aNegativeLibsMutex;
std::set<OUString> aNegativeLibs;
};
}
static MappingsData & getMappingsData()
{
//TODO This memory is leaked; see #i63473# for when this should be
// changed again:
static MappingsData * s_p(new MappingsData);
return *s_p;
}
namespace {
/**
* This class mediates two different mapping via uno, e.g. form any language to uno,
* then from uno to any other language.
*/
struct uno_Mediate_Mapping : public uno_Mapping
{
sal_Int32 nRef;
Environment aFrom;
Environment aTo;
Mapping aFrom2Uno;
Mapping aUno2To;
OUString aAddPurpose;
uno_Mediate_Mapping(
Environment aFrom_, Environment aTo_,
Mapping aFrom2Uno_, Mapping aUno2To_,
OUString aAddPurpose );
};
}
extern "C"
{
static void mediate_free( uno_Mapping * pMapping )
{
delete static_cast< uno_Mediate_Mapping * >( pMapping );
}
static void mediate_acquire( uno_Mapping * pMapping )
{
if (1 == osl_atomic_increment(
& static_cast< uno_Mediate_Mapping * >( pMapping )->nRef ))
{
uno_registerMapping(
&pMapping, mediate_free,
static_cast< uno_Mediate_Mapping * >( pMapping )->aFrom.get(),
static_cast< uno_Mediate_Mapping * >( pMapping )->aTo.get(),
static_cast< uno_Mediate_Mapping * >( pMapping )->aAddPurpose.pData );
}
}
static void mediate_release( uno_Mapping * pMapping )
{
if (! osl_atomic_decrement(
& static_cast< uno_Mediate_Mapping * >( pMapping )->nRef ))
{
uno_revokeMapping( pMapping );
}
}
static void mediate_mapInterface(
uno_Mapping * pMapping,
void ** ppOut, void * pInterface,
typelib_InterfaceTypeDescription * pInterfaceTypeDescr )
{
OSL_ENSURE( pMapping && ppOut, "### null ptr!" );
if (!(pMapping && ppOut))
return;
uno_Mediate_Mapping * that = static_cast< uno_Mediate_Mapping * >( pMapping );
uno_Mapping * pFrom2Uno = that->aFrom2Uno.get();
uno_Interface * pUnoI = nullptr;
(*pFrom2Uno->mapInterface)( pFrom2Uno, reinterpret_cast<void **>(&pUnoI), pInterface, pInterfaceTypeDescr );
if (nullptr == pUnoI)
{
void * pOut = *ppOut;
if (nullptr != pOut)
{
uno_ExtEnvironment * pTo = that->aTo.get()->pExtEnv;
OSL_ENSURE( nullptr != pTo, "### cannot release out interface: leaking!" );
if (nullptr != pTo)
(*pTo->releaseInterface)( pTo, pOut );
*ppOut = nullptr; // set to 0 anyway, because mapping was not successful!
}
}
else
{
uno_Mapping * pUno2To = that->aUno2To.get();
(*pUno2To->mapInterface)( pUno2To, ppOut, pUnoI, pInterfaceTypeDescr );
(*pUnoI->release)( pUnoI );
}
}
}
uno_Mediate_Mapping::uno_Mediate_Mapping(
Environment aFrom_, Environment aTo_,
Mapping aFrom2Uno_, Mapping aUno2To_,
OUString aAddPurpose_ )
: nRef( 1 )
, aFrom(std::move( aFrom_ ))
, aTo(std::move( aTo_ ))
, aFrom2Uno(std::move( aFrom2Uno_ ))
, aUno2To(std::move( aUno2To_ ))
, aAddPurpose(std::move( aAddPurpose_ ))
{
uno_Mapping::acquire = mediate_acquire;
uno_Mapping::release = mediate_release;
uno_Mapping::mapInterface = mediate_mapInterface;
}
static OUString getMappingName(
const Environment & rFrom, const Environment & rTo, std::u16string_view rAddPurpose )
{
return
OUString::Concat(rAddPurpose)
+ ";"
+ rFrom.getTypeName()
+ "["
+ OUString::number( reinterpret_cast< sal_IntPtr >(rFrom.get()), 16 )
+ "];"
+ rTo.getTypeName()
+ "["
+ OUString::number( reinterpret_cast< sal_IntPtr >(rTo.get()), 16 )
+ "]";
}
static OUString getBridgeName(
const Environment & rFrom, const Environment & rTo, std::u16string_view rAddPurpose )
{
OUStringBuffer aBridgeName( 16 );
if (!rAddPurpose.empty())
{
aBridgeName.append( OUString::Concat(rAddPurpose) + "_" );
}
aBridgeName.append(
EnvDcp::getTypeName(rFrom.getTypeName())
+ "_"
+ EnvDcp::getTypeName(rTo.getTypeName()) );
return aBridgeName.makeStringAndClear();
}
#ifndef DISABLE_DYNLOADING
static void setNegativeBridge( const OUString & rBridgeName )
{
MappingsData & rData = getMappingsData();
std::scoped_lock aGuard( rData.aNegativeLibsMutex );
rData.aNegativeLibs.insert( rBridgeName );
}
#endif
#ifdef DISABLE_DYNLOADING
static uno_ext_getMappingFunc selectMapFunc( const OUString & rBridgeName )
{
if (rBridgeName.equalsAscii( CPPU_CURRENT_LANGUAGE_BINDING_NAME "_uno" ))
return CPPU_ENV_uno_ext_getMapping;
#if HAVE_FEATURE_JAVA
if (rBridgeName.equalsAscii( "java" "_uno" ))
return java_uno_ext_getMapping;
#endif
#if 0
// I don't think the affine or log bridges will be needed on any
// DISABLE_DYNLOADING platform (iOS at least, possibly Android), but if
// somebody wants to experiment, need to find out then whether these are
// needed.
if (rBridgeName.equalsAscii( "affine_uno_uno" ))
return affine_uno_uno_ext_getMapping;
if (rBridgeName.equalsAscii( "log_uno_uno" ))
return log_uno_uno_ext_getMapping;
#endif
return 0;
}
#else
static bool loadModule(osl::Module & rModule, const OUString & rBridgeName)
{
bool bNeg;
{
MappingsData & rData = getMappingsData();
std::scoped_lock aGuard( rData.aNegativeLibsMutex );
const auto iFind( rData.aNegativeLibs.find( rBridgeName ) );
bNeg = (iFind != rData.aNegativeLibs.end());
}
if (!bNeg)
{
bool bModule;
try {
bModule = cppu::detail::loadModule(rModule, rBridgeName);
}
catch(...) {
// convert throw to return false
bModule = false;
}
if (bModule)
return true;
setNegativeBridge( rBridgeName ); // no load again
}
return false;
}
#endif
static Mapping loadExternalMapping(
const Environment & rFrom, const Environment & rTo, const OUString & rAddPurpose )
{
OSL_ASSERT( rFrom.is() && rTo.is() );
if (rFrom.is() && rTo.is())
{
#ifdef DISABLE_DYNLOADING
OUString aName;
uno_ext_getMappingFunc fpGetMapFunc = 0;
if (EnvDcp::getTypeName(rFrom.getTypeName()) == UNO_LB_UNO)
{
aName = getBridgeName( rTo, rFrom, rAddPurpose );
fpGetMapFunc = selectMapFunc( aName );
}
if (! fpGetMapFunc)
{
aName = getBridgeName( rFrom, rTo, rAddPurpose );
fpGetMapFunc = selectMapFunc( aName );
}
if (! fpGetMapFunc)
{
aName = getBridgeName( rTo, rFrom, rAddPurpose );
fpGetMapFunc = selectMapFunc( aName );
}
if (! fpGetMapFunc)
{
SAL_INFO("cppu", "Could not find mapfunc for " << aName);
return Mapping();
}
if (fpGetMapFunc)
{
Mapping aExt;
(*fpGetMapFunc)( (uno_Mapping **)&aExt, rFrom.get(), rTo.get() );
OSL_ASSERT( aExt.is() );
if (aExt.is())
return aExt;
SAL_INFO("cppu", "Could not load external mapping for " << aName);
}
#else
// find proper lib
osl::Module aModule;
bool bModule(false);
OUString aName;
if ( EnvDcp::getTypeName(rFrom.getTypeName()) == UNO_LB_UNO )
{
aName = getBridgeName( rTo, rFrom, rAddPurpose );
bModule = loadModule( aModule, aName );
}
if (!bModule)
{
aName = getBridgeName( rFrom, rTo, rAddPurpose );
bModule = loadModule( aModule, aName );
}
if (!bModule)
{
aName = getBridgeName( rTo, rFrom, rAddPurpose );
bModule = loadModule( aModule, aName );
}
if (bModule)
{
uno_ext_getMappingFunc fpGetMapFunc =
reinterpret_cast<uno_ext_getMappingFunc>(aModule.getSymbol( u"" UNO_EXT_GETMAPPING ""_ustr ));
if (fpGetMapFunc)
{
Mapping aExt;
(*fpGetMapFunc)( reinterpret_cast<uno_Mapping **>(&aExt), rFrom.get(), rTo.get() );
OSL_ASSERT( aExt.is() );
if (aExt.is())
{
aModule.release();
return aExt;
}
}
aModule.unload();
setNegativeBridge( aName );
}
#endif
}
return Mapping();
}
static Mapping getDirectMapping(
const Environment & rFrom, const Environment & rTo, const OUString & rAddPurpose = OUString() )
{
OSL_ASSERT( rFrom.is() && rTo.is() );
if (rFrom.is() && rTo.is())
{
MappingsData & rData = getMappingsData();
ClearableMutexGuard aGuard( rData.aMappingsMutex );
// try to find registered mapping
const t_OUString2Entry::const_iterator iFind( rData.aName2Entry.find(
getMappingName( rFrom, rTo, rAddPurpose ) ) );
if (iFind == rData.aName2Entry.end())
{
aGuard.clear();
return loadExternalMapping( rFrom, rTo, rAddPurpose );
}
return Mapping( (*iFind).second->pMapping );
}
return Mapping();
}
static Mapping createMediateMapping(
const Environment & rFrom, const Environment & rTo,
const Mapping & rFrom2Uno, const Mapping & rUno2To,
const OUString & rAddPurpose )
{
uno_Mapping * pRet = new uno_Mediate_Mapping(
rFrom, rTo, rFrom2Uno, rUno2To, rAddPurpose ); // ref count initially 1
uno_registerMapping(
&pRet, mediate_free, rFrom.get(), rTo.get(), rAddPurpose.pData );
Mapping aRet( pRet );
(*pRet->release)( pRet );
return aRet;
}
static Mapping getMediateMapping(
const Environment & rFrom, const Environment & rTo, const OUString & rAddPurpose )
{
Environment aUno;
Mapping aUno2To;
// backwards: from dest to source of mapping chain
// connect to uno
OUString aUnoEnvTypeName( u"" UNO_LB_UNO ""_ustr );
if (rTo.getTypeName() == aUnoEnvTypeName) // to is uno
{
aUno = rTo;
// no Uno2To mapping necessary
}
else
{
// get registered uno env
::uno_getEnvironment( reinterpret_cast<uno_Environment **>(&aUno), aUnoEnvTypeName.pData, nullptr );
aUno2To = getDirectMapping( aUno, rTo );
// : uno <-> to
if (! aUno2To.is())
return Mapping();
}
// connect to uno
if (!rAddPurpose.isEmpty()) // insert purpose mapping between new ano_uno <-> uno
{
// create anonymous uno env
Environment aAnUno;
::uno_createEnvironment( reinterpret_cast<uno_Environment **>(&aAnUno), aUnoEnvTypeName.pData, nullptr );
Mapping aAnUno2Uno( getDirectMapping( aAnUno, aUno, rAddPurpose ) );
if (! aAnUno2Uno.is())
return Mapping();
if (aUno2To.is()) // to is not uno
{
// create another purposed mediate mapping
aUno2To = createMediateMapping( aAnUno, rTo, aAnUno2Uno, aUno2To, rAddPurpose );
// : ano_uno <-> uno <-> to
}
else
{
aUno2To = std::move(aAnUno2Uno);
// : ano_uno <-> to (i.e., uno)
}
aUno = std::move(aAnUno);
}
Mapping aFrom2Uno( getDirectMapping( rFrom, aUno ) );
if (aFrom2Uno.is() && aUno2To.is())
{
return createMediateMapping( rFrom, rTo, aFrom2Uno, aUno2To, rAddPurpose );
// : from <-> some uno ...
}
return Mapping();
}
}
using namespace ::cppu;
extern "C"
{
void SAL_CALL uno_getMapping(
uno_Mapping ** ppMapping, uno_Environment * pFrom, uno_Environment * pTo,
rtl_uString * pAddPurpose ) noexcept
{
assert(ppMapping != nullptr);
assert(pFrom != nullptr);
assert(pTo != nullptr);
if (*ppMapping)
{
(*(*ppMapping)->release)( *ppMapping );
*ppMapping = nullptr;
}
Mapping aRet;
Environment aFrom( pFrom ), aTo( pTo );
OUString aAddPurpose;
if (pAddPurpose)
aAddPurpose = pAddPurpose;
MappingsData & rData = getMappingsData();
// try registered mapping
{
MutexGuard aGuard( rData.aMappingsMutex );
const t_OUString2Entry::const_iterator iFind( rData.aName2Entry.find(
getMappingName( aFrom, aTo, aAddPurpose ) ) );
if (iFind != rData.aName2Entry.end())
aRet = (*iFind).second->pMapping;
}
// See if an identity mapping does fit.
if (!aRet.is() && pFrom == pTo && aAddPurpose.isEmpty())
aRet = createIdentityMapping(pFrom);
if (!aRet.is())
{
getCascadeMapping(ppMapping, pFrom, pTo, pAddPurpose);
if (*ppMapping)
return;
// try callback chain
{
std::unique_lock aGuard(rData.aCallbacksMutex);
for (const auto& rCallback : rData.aCallbacks)
{
(*rCallback)(ppMapping, pFrom, pTo, aAddPurpose.pData);
if (*ppMapping)
return;
}
}
aRet = loadExternalMapping( aFrom, aTo, aAddPurpose ); // direct try
if (! aRet.is())
aRet = getMediateMapping( aFrom, aTo, aAddPurpose ); // try via uno
}
if (aRet.is())
{
(*aRet.get()->acquire)( aRet.get() );
*ppMapping = aRet.get();
}
}
void SAL_CALL uno_getMappingByName(
uno_Mapping ** ppMapping, rtl_uString * pFrom, rtl_uString * pTo,
rtl_uString * pAddPurpose ) noexcept
{
assert(ppMapping && pFrom && pTo && "### null ptr!");
if (*ppMapping)
{
(*(*ppMapping)->release)( *ppMapping );
*ppMapping = nullptr;
}
uno_Environment * pEFrom = nullptr;
uno_getEnvironment( &pEFrom, pFrom, nullptr );
OSL_ENSURE( pEFrom, "### cannot get source environment!" );
if (pEFrom)
{
uno_Environment * pETo = nullptr;
uno_getEnvironment( &pETo, pTo, nullptr );
OSL_ENSURE( pETo, "### cannot get target environment!" );
if (pETo)
{
::uno_getMapping( ppMapping, pEFrom, pETo, pAddPurpose );
(*pETo->release)( pETo );
}
(*pEFrom->release)( pEFrom );
}
}
void SAL_CALL uno_registerMapping(
uno_Mapping ** ppMapping, uno_freeMappingFunc freeMapping,
uno_Environment * pFrom, uno_Environment * pTo, rtl_uString * pAddPurpose ) noexcept
{
MappingsData & rData = getMappingsData();
ClearableMutexGuard aGuard( rData.aMappingsMutex );
const t_Mapping2Entry::const_iterator iFind( rData.aMapping2Entry.find( *ppMapping ) );
if (iFind == rData.aMapping2Entry.end())
{
OUString aMappingName(
getMappingName( pFrom, pTo, pAddPurpose ? OUString(pAddPurpose) : OUString() ) );
SAL_INFO("cppu", "> inserting new mapping: " << aMappingName);
// count initially 1
MappingEntry * pEntry = new MappingEntry( *ppMapping, freeMapping, aMappingName );
rData.aName2Entry[ aMappingName ] = pEntry;
rData.aMapping2Entry[ *ppMapping ] = pEntry;
}
else
{
MappingEntry * pEntry = (*iFind).second;
++pEntry->nRef;
if (pEntry->pMapping != *ppMapping) // exchange mapping to be registered
{
(*pEntry->pMapping->acquire)( pEntry->pMapping );
--pEntry->nRef; // correct count; kill mapping to be registered
aGuard.clear();
(*freeMapping)( *ppMapping );
*ppMapping = pEntry->pMapping;
}
}
}
void SAL_CALL uno_revokeMapping(
uno_Mapping * pMapping ) noexcept
{
MappingsData & rData = getMappingsData();
ClearableMutexGuard aGuard( rData.aMappingsMutex );
const t_Mapping2Entry::const_iterator iFind( rData.aMapping2Entry.find( pMapping ) );
assert(iFind != rData.aMapping2Entry.end() && "pMapping must be registered to be removed");
MappingEntry * pEntry = (*iFind).second;
if (! --pEntry->nRef)
{
rData.aMapping2Entry.erase( pEntry->pMapping );
rData.aName2Entry.erase( pEntry->aMappingName );
aGuard.clear();
SAL_INFO("cppu", "> revoking mapping " << pEntry->aMappingName);
(*pEntry->freeMapping)( pEntry->pMapping );
delete pEntry;
}
}
void SAL_CALL uno_registerMappingCallback(
uno_getMappingFunc pCallback ) noexcept
{
OSL_ENSURE( pCallback, "### null ptr!" );
MappingsData & rData = getMappingsData();
std::unique_lock aGuard( rData.aCallbacksMutex );
rData.aCallbacks.insert( pCallback );
}
void SAL_CALL uno_revokeMappingCallback(
uno_getMappingFunc pCallback ) noexcept
{
OSL_ENSURE( pCallback, "### null ptr!" );
MappingsData & rData = getMappingsData();
std::unique_lock aGuard( rData.aCallbacksMutex );
rData.aCallbacks.erase( pCallback );
}
} // extern "C"
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
↑ V509 The 'new' operator is used in the noexcept 'uno_registerMapping' function. It should be located inside the try..catch block, as it could potentially generate an exception.
↑ V764 Possible incorrect order of arguments passed to 'getBridgeName' function: 'rTo' and 'rFrom'.
↑ V764 Possible incorrect order of arguments passed to 'getBridgeName' function: 'rTo' and 'rFrom'.