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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/.
*
* 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 .
*/
#include <cstddef>
#include <stdio.h>
#include "cppu/macros.hxx"
#include "osl/mutex.hxx"
#include "sal/log.hxx"
#include "uno/data.h"
#include "constr.hxx"
#include "destr.hxx"
#include "copy.hxx"
#include "assign.hxx"
#include "eq.hxx"
using namespace ::cppu;
using namespace ::osl;
namespace cppu
{
// Sequence<>() (default ctor) relies on this being static:
uno_Sequence g_emptySeq = { 1, 0, { 0 } };
typelib_TypeDescriptionReference * g_pVoidType = nullptr;
void * binuno_queryInterface( void * pUnoI, typelib_TypeDescriptionReference * pDestType )
{
// init queryInterface() td
static typelib_TypeDescription * g_pQITD = nullptr;
if (nullptr == g_pQITD)
{
MutexGuard aGuard( Mutex::getGlobalMutex() );
if (nullptr == g_pQITD)
{
typelib_TypeDescriptionReference * type_XInterface =
* typelib_static_type_getByTypeClass( typelib_TypeClass_INTERFACE );
typelib_InterfaceTypeDescription * pTXInterfaceDescr = nullptr;
TYPELIB_DANGER_GET( reinterpret_cast<typelib_TypeDescription **>(&pTXInterfaceDescr), type_XInterface );
assert(pTXInterfaceDescr->ppAllMembers);
typelib_typedescriptionreference_getDescription(
&g_pQITD, pTXInterfaceDescr->ppAllMembers[ 0 ] );
TYPELIB_DANGER_RELEASE( &pTXInterfaceDescr->aBase );
}
}
uno_Any aRet, aExc;
uno_Any * pExc = &aExc;
void * aArgs[ 1 ];
aArgs[ 0 ] = &pDestType;
(*static_cast<uno_Interface *>(pUnoI)->pDispatcher)(
static_cast<uno_Interface *>(pUnoI), g_pQITD, &aRet, aArgs, &pExc );
uno_Interface * ret = nullptr;
if (nullptr == pExc)
{
typelib_TypeDescriptionReference * ret_type = aRet.pType;
switch (ret_type->eTypeClass)
{
case typelib_TypeClass_VOID: // common case
typelib_typedescriptionreference_release( ret_type );
break;
case typelib_TypeClass_INTERFACE:
// tweaky... avoiding acquire/ release pair
typelib_typedescriptionreference_release( ret_type );
ret = static_cast<uno_Interface *>(aRet.pReserved); // serving acquired interface
break;
default:
_destructAny( &aRet, nullptr );
break;
}
}
else
{
SAL_WARN(
"cppu",
"exception occurred querying for interface "
<< OUString(pDestType->pTypeName) << ": ["
<< OUString(pExc->pType->pTypeName) << "] "
<< *static_cast<OUString const *>(pExc->pData));
// Message is very first member
uno_any_destruct( pExc, nullptr );
}
return ret;
}
void defaultConstructStruct(
void * pMem,
typelib_CompoundTypeDescription * pCompType )
{
_defaultConstructStruct( pMem, pCompType );
}
void copyConstructStruct(
void * pDest, void * pSource,
typelib_CompoundTypeDescription * pTypeDescr,
uno_AcquireFunc acquire, uno_Mapping * mapping )
{
_copyConstructStruct( pDest, pSource, pTypeDescr, acquire, mapping );
}
void destructStruct(
void * pValue,
typelib_CompoundTypeDescription * pTypeDescr,
uno_ReleaseFunc release )
{
_destructStruct( pValue, pTypeDescr, release );
}
bool equalStruct(
void * pDest, void *pSource,
typelib_CompoundTypeDescription * pTypeDescr,
uno_QueryInterfaceFunc queryInterface, uno_ReleaseFunc release )
{
return _equalStruct( pDest, pSource, pTypeDescr, queryInterface, release );
}
bool assignStruct(
void * pDest, void * pSource,
typelib_CompoundTypeDescription * pTypeDescr,
uno_QueryInterfaceFunc queryInterface, uno_AcquireFunc acquire, uno_ReleaseFunc release )
{
return _assignStruct( pDest, pSource, pTypeDescr, queryInterface, acquire, release );
}
uno_Sequence * copyConstructSequence(
uno_Sequence * pSource,
typelib_TypeDescriptionReference * pElementType,
uno_AcquireFunc acquire, uno_Mapping * mapping )
{
return icopyConstructSequence( pSource, pElementType, acquire, mapping );
}
void destructSequence(
uno_Sequence * pSequence,
typelib_TypeDescriptionReference * pType,
typelib_TypeDescription * pTypeDescr,
uno_ReleaseFunc release )
{
idestructSequence( pSequence, pType, pTypeDescr, release );
}
bool equalSequence(
uno_Sequence * pDest, uno_Sequence * pSource,
typelib_TypeDescriptionReference * pElementType,
uno_QueryInterfaceFunc queryInterface, uno_ReleaseFunc release )
{
return _equalSequence( pDest, pSource, pElementType, queryInterface, release );
}
}
extern "C"
{
void SAL_CALL uno_type_constructData(
void * pMem, typelib_TypeDescriptionReference * pType )
SAL_THROW_EXTERN_C()
{
_defaultConstructData( pMem, pType, nullptr );
}
void SAL_CALL uno_constructData(
void * pMem, typelib_TypeDescription * pTypeDescr )
SAL_THROW_EXTERN_C()
{
_defaultConstructData( pMem, pTypeDescr->pWeakRef, pTypeDescr );
}
void SAL_CALL uno_type_destructData(
void * pValue, typelib_TypeDescriptionReference * pType,
uno_ReleaseFunc release )
SAL_THROW_EXTERN_C()
{
_destructData( pValue, pType, nullptr, release );
}
void SAL_CALL uno_destructData(
void * pValue,
typelib_TypeDescription * pTypeDescr,
uno_ReleaseFunc release )
SAL_THROW_EXTERN_C()
{
_destructData( pValue, pTypeDescr->pWeakRef, pTypeDescr, release );
}
void SAL_CALL uno_type_copyData(
void * pDest, void * pSource,
typelib_TypeDescriptionReference * pType,
uno_AcquireFunc acquire )
SAL_THROW_EXTERN_C()
{
_copyConstructData( pDest, pSource, pType, nullptr, acquire, nullptr );
}
void SAL_CALL uno_copyData(
void * pDest, void * pSource,
typelib_TypeDescription * pTypeDescr,
uno_AcquireFunc acquire )
SAL_THROW_EXTERN_C()
{
_copyConstructData( pDest, pSource, pTypeDescr->pWeakRef, pTypeDescr, acquire, nullptr );
}
void SAL_CALL uno_type_copyAndConvertData(
void * pDest, void * pSource,
typelib_TypeDescriptionReference * pType,
uno_Mapping * mapping )
SAL_THROW_EXTERN_C()
{
_copyConstructData( pDest, pSource, pType, nullptr, nullptr, mapping );
}
void SAL_CALL uno_copyAndConvertData(
void * pDest, void * pSource,
typelib_TypeDescription * pTypeDescr,
uno_Mapping * mapping )
SAL_THROW_EXTERN_C()
{
_copyConstructData( pDest, pSource, pTypeDescr->pWeakRef, pTypeDescr, nullptr, mapping );
}
sal_Bool SAL_CALL uno_type_equalData(
void * pVal1, typelib_TypeDescriptionReference * pVal1Type,
void * pVal2, typelib_TypeDescriptionReference * pVal2Type,
uno_QueryInterfaceFunc queryInterface, uno_ReleaseFunc release )
SAL_THROW_EXTERN_C()
{
return _equalData(
pVal1, pVal1Type, nullptr,
pVal2, pVal2Type,
queryInterface, release );
}
sal_Bool SAL_CALL uno_equalData(
void * pVal1, typelib_TypeDescription * pVal1TD,
void * pVal2, typelib_TypeDescription * pVal2TD,
uno_QueryInterfaceFunc queryInterface, uno_ReleaseFunc release )
SAL_THROW_EXTERN_C()
{
return _equalData(
pVal1, pVal1TD->pWeakRef, pVal1TD,
pVal2, pVal2TD->pWeakRef,
queryInterface, release );
}
sal_Bool SAL_CALL uno_type_assignData(
void * pDest, typelib_TypeDescriptionReference * pDestType,
void * pSource, typelib_TypeDescriptionReference * pSourceType,
uno_QueryInterfaceFunc queryInterface, uno_AcquireFunc acquire, uno_ReleaseFunc release )
SAL_THROW_EXTERN_C()
{
return _assignData(
pDest, pDestType, nullptr,
pSource, pSourceType, nullptr,
queryInterface, acquire, release );
}
sal_Bool SAL_CALL uno_assignData(
void * pDest, typelib_TypeDescription * pDestTD,
void * pSource, typelib_TypeDescription * pSourceTD,
uno_QueryInterfaceFunc queryInterface, uno_AcquireFunc acquire, uno_ReleaseFunc release )
SAL_THROW_EXTERN_C()
{
return _assignData(
pDest, pDestTD->pWeakRef, pDestTD,
pSource, pSourceTD->pWeakRef, pSourceTD,
queryInterface, acquire, release );
}
sal_Bool SAL_CALL uno_type_isAssignableFromData(
typelib_TypeDescriptionReference * pAssignable,
void * pFrom, typelib_TypeDescriptionReference * pFromType,
uno_QueryInterfaceFunc queryInterface, uno_ReleaseFunc release )
SAL_THROW_EXTERN_C()
{
if (::typelib_typedescriptionreference_isAssignableFrom( pAssignable, pFromType ))
return sal_True;
if (typelib_TypeClass_INTERFACE != pFromType->eTypeClass ||
typelib_TypeClass_INTERFACE != pAssignable->eTypeClass)
{
return sal_False;
}
// query
if (nullptr == pFrom)
return sal_False;
void * pInterface = *static_cast<void **>(pFrom);
if (nullptr == pInterface)
return sal_False;
if (nullptr == queryInterface)
queryInterface = binuno_queryInterface;
void * p = (*queryInterface)( pInterface, pAssignable );
_release( p, release );
return (nullptr != p);
}
}
#if OSL_DEBUG_LEVEL > 1
namespace cppu {
#if defined( SAL_W32)
#pragma pack(push, 8)
#endif
// Why hardcode like this instead of using the (generated)
// <sal/typesizes.h> ?
#if (defined(INTEL) \
&& (defined(__GNUC__) && (defined(LINUX) || defined(FREEBSD) || defined(NETBSD) || defined(OPENBSD)) \
|| defined(MACOSX) || defined(DRAGONFLY))) \
|| defined(IOS)
#define MAX_ALIGNMENT_4
#endif
#define OFFSET_OF( s, m ) reinterpret_cast< size_t >((char *)&((s *)16)->m -16)
#define BINTEST_VERIFY( c ) \
if (! (c)) \
{ \
fprintf( stderr, "### binary compatibility test failed: %s [line %d]!!!\n", #c, __LINE__ ); \
abort(); \
}
#define BINTEST_VERIFYOFFSET( s, m, n ) \
if (OFFSET_OF(s, m) != static_cast<size_t>(n)) \
{ \
fprintf(stderr, "### OFFSET_OF(" #s ", " #m ") = %" SAL_PRI_SIZET "u instead of expected %" SAL_PRI_SIZET "u!!!\n", \
OFFSET_OF(s, m), static_cast<size_t>(n)); \
abort(); \
}
#define BINTEST_VERIFYSIZE( s, n ) \
if (sizeof(s) != static_cast<size_t>(n)) \
{ \
fprintf(stderr, "### sizeof(" #s ") = %" SAL_PRI_SIZET "u instead of expected %" SAL_PRI_SIZET "u!!!\n", \
sizeof(s), static_cast<size_t>(n)); \
abort(); \
}
struct C1
{
sal_Int16 n1;
};
struct C2 : public C1
{
sal_Int32 n2 CPPU_GCC3_ALIGN( C1 );
};
struct C3 : public C2
{
double d3;
sal_Int32 n3;
};
struct C4 : public C3
{
sal_Int32 n4 CPPU_GCC3_ALIGN( C3 );
double d4;
};
struct C5 : public C4
{
sal_Int64 n5;
sal_Bool b5;
};
struct C6 : public C1
{
C5 c6 CPPU_GCC3_ALIGN( C1 );
sal_Bool b6;
};
struct D
{
sal_Int16 d;
sal_Int32 e;
};
struct E
{
sal_Bool a;
sal_Bool b;
sal_Bool c;
sal_Int16 d;
sal_Int32 e;
};
struct M
{
sal_Int32 n;
sal_Int16 o;
};
struct N : public M
{
sal_Int16 p CPPU_GCC3_ALIGN( M );
};
struct N2
{
M m;
sal_Int16 p;
};
struct O : public M
{
double p;
sal_Int16 q;
};
struct O2 : public O
{
sal_Int16 p2 CPPU_GCC3_ALIGN( O );
};
struct P : public N
{
double p2;
};
struct empty
{
};
struct second : public empty
{
int a;
};
struct AlignSize_Impl
{
sal_Int16 nInt16;
double dDouble;
};
struct Char1
{
char c1;
};
struct Char2 : public Char1
{
char c2 CPPU_GCC3_ALIGN( Char1 );
};
struct Char3 : public Char2
{
char c3 CPPU_GCC3_ALIGN( Char2 );
};
struct Char4
{
Char3 chars;
char c;
};
class Ref
{
void * p;
};
enum Enum
{
v = SAL_MAX_ENUM
};
class BinaryCompatible_Impl
{
public:
BinaryCompatible_Impl();
};
BinaryCompatible_Impl::BinaryCompatible_Impl()
{
static_assert( ((sal_Bool) true) == sal_True &&
(1 != 0) == sal_True, "must be binary compatible" );
static_assert( ((sal_Bool) false) == sal_False &&
(1 == 0) == sal_False, "must be binary compatible" );
#ifdef MAX_ALIGNMENT_4
// max alignment is 4
BINTEST_VERIFYOFFSET( AlignSize_Impl, dDouble, 4 );
BINTEST_VERIFYSIZE( AlignSize_Impl, 12 );
#else
// max alignment is 8
BINTEST_VERIFYOFFSET( AlignSize_Impl, dDouble, 8 );
BINTEST_VERIFYSIZE( AlignSize_Impl, 16 );
#endif
// sequence
BINTEST_VERIFY( (SAL_SEQUENCE_HEADER_SIZE % 8) == 0 );
// enum
BINTEST_VERIFY( sizeof( Enum ) == sizeof( sal_Int32 ) );
// any
BINTEST_VERIFY( sizeof(void *) >= sizeof(sal_Int32) );
BINTEST_VERIFY( sizeof( uno_Any ) == sizeof( void * ) * 3 );
BINTEST_VERIFYOFFSET( uno_Any, pType, 0 );
BINTEST_VERIFYOFFSET( uno_Any, pData, 1 * sizeof (void *) );
BINTEST_VERIFYOFFSET( uno_Any, pReserved, 2 * sizeof (void *) );
// interface
BINTEST_VERIFY( sizeof( Ref ) == sizeof( void * ) );
// string
BINTEST_VERIFY( sizeof( OUString ) == sizeof( rtl_uString * ) );
// struct
BINTEST_VERIFYSIZE( M, 8 );
BINTEST_VERIFYOFFSET( M, o, 4 );
BINTEST_VERIFYSIZE( N, 12 );
BINTEST_VERIFYOFFSET( N, p, 8 );
BINTEST_VERIFYSIZE( N2, 12 );
BINTEST_VERIFYOFFSET( N2, p, 8 );
#ifdef MAX_ALIGNMENT_4
BINTEST_VERIFYSIZE( O, 20 );
#else
BINTEST_VERIFYSIZE( O, 24 );
#endif
BINTEST_VERIFYSIZE( D, 8 );
BINTEST_VERIFYOFFSET( D, e, 4 );
BINTEST_VERIFYOFFSET( E, d, 4 );
BINTEST_VERIFYOFFSET( E, e, 8 );
BINTEST_VERIFYSIZE( C1, 2 );
BINTEST_VERIFYSIZE( C2, 8 );
BINTEST_VERIFYOFFSET( C2, n2, 4 );
#ifdef MAX_ALIGNMENT_4
BINTEST_VERIFYSIZE( C3, 20 );
BINTEST_VERIFYOFFSET( C3, d3, 8 );
BINTEST_VERIFYOFFSET( C3, n3, 16 );
BINTEST_VERIFYSIZE( C4, 32 );
BINTEST_VERIFYOFFSET( C4, n4, 20 );
BINTEST_VERIFYOFFSET( C4, d4, 24 );
BINTEST_VERIFYSIZE( C5, 44 );
BINTEST_VERIFYOFFSET( C5, n5, 32 );
BINTEST_VERIFYOFFSET( C5, b5, 40 );
BINTEST_VERIFYSIZE( C6, 52 );
BINTEST_VERIFYOFFSET( C6, c6, 4 );
BINTEST_VERIFYOFFSET( C6, b6, 48 );
BINTEST_VERIFYSIZE( O2, 24 );
BINTEST_VERIFYOFFSET( O2, p2, 20 );
#else
BINTEST_VERIFYSIZE( C3, 24 );
BINTEST_VERIFYOFFSET( C3, d3, 8 );
BINTEST_VERIFYOFFSET( C3, n3, 16 );
BINTEST_VERIFYSIZE( C4, 40 );
BINTEST_VERIFYOFFSET( C4, n4, 24 );
BINTEST_VERIFYOFFSET( C4, d4, 32 );
BINTEST_VERIFYSIZE( C5, 56 );
BINTEST_VERIFYOFFSET( C5, n5, 40 );
BINTEST_VERIFYOFFSET( C5, b5, 48 );
BINTEST_VERIFYSIZE( C6, 72 );
BINTEST_VERIFYOFFSET( C6, c6, 8 );
BINTEST_VERIFYOFFSET( C6, b6, 64 );
BINTEST_VERIFYSIZE( O2, 32 );
BINTEST_VERIFYOFFSET( O2, p2, 24 );
#endif
BINTEST_VERIFYSIZE( Char3, 3 );
BINTEST_VERIFYOFFSET( Char4, c, 3 );
#ifdef MAX_ALIGNMENT_4
// max alignment is 4
BINTEST_VERIFYSIZE( P, 20 );
#else
// alignment of P is 8, because of P[] ...
BINTEST_VERIFYSIZE( P, 24 );
BINTEST_VERIFYSIZE( second, sizeof( int ) );
#endif
}
#ifdef SAL_W32
# pragma pack(pop)
#endif
static BinaryCompatible_Impl aTest;
}
#endif
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
|