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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 <sal/config.h>
#if defined(_WIN32)
#include <prewin.h>
#include <postwin.h>
#endif
#include <algorithm>
#include <cstddef>
#include <map>
#include <vector>
#include <basic/sbx.hxx>
#include <basic/sbxvar.hxx>
#include <runtime.hxx>
#include <osl/thread.h>
#include <osl/diagnose.h>
#include <rtl/ref.hxx>
#include <rtl/string.hxx>
#include <rtl/ustring.hxx>
#include <sal/log.hxx>
#include <salhelper/simplereferenceobject.hxx>
#include <o3tl/char16_t2wchar_t.hxx>
#undef max
#include "dllmgr.hxx"
using namespace css;
/* Open issues:
Missing support for functions returning structs (see TODO in call()).
Missing support for additional data types (64 bit integers, Any, ...; would
trigger assert(false) in various switches).
It is assumed that the variables passed into SbiDllMgr::Call to represent
the arguments and return value have types that exactly match the Declare
statement; it would be better if this code had access to the function
signature from the Declare statement, so that it could convert the passed
variables accordingly.
*/
namespace {
char * address(std::vector< char > & blob) {
return blob.empty() ? nullptr : blob.data();
}
ErrCode convert(OUString const & source, OString * target) {
return
source.convertToString(
target, osl_getThreadTextEncoding(),
(RTL_UNICODETOTEXT_FLAGS_UNDEFINED_ERROR |
RTL_UNICODETOTEXT_FLAGS_INVALID_ERROR))
? ERRCODE_NONE : ERRCODE_BASIC_BAD_ARGUMENT;
//TODO: more specific errcode?
}
ErrCode convert(char const * source, sal_Int32 length, OUString * target) {
return
rtl_convertStringToUString(
&target->pData, source, length, osl_getThreadTextEncoding(),
(RTL_TEXTTOUNICODE_FLAGS_UNDEFINED_ERROR |
RTL_TEXTTOUNICODE_FLAGS_MBUNDEFINED_ERROR |
RTL_TEXTTOUNICODE_FLAGS_INVALID_ERROR))
? ERRCODE_NONE : ERRCODE_BASIC_BAD_ARGUMENT;
//TODO: more specific errcode?
}
struct UnmarshalData {
UnmarshalData(SbxVariable * theVariable, void * theBuffer):
variable(theVariable), buffer(theBuffer) {}
SbxVariable * variable;
void * buffer;
};
struct StringData: public UnmarshalData {
StringData(SbxVariable * theVariable, void * theBuffer, bool theSpecial):
UnmarshalData(theVariable, theBuffer), special(theSpecial) {}
bool special;
};
class MarshalData {
public:
MarshalData() = default;
MarshalData(const MarshalData&) = delete;
const MarshalData& operator=(const MarshalData&) = delete;
std::vector< char > * newBlob() {
blobs_.push_back(std::vector< char >());
return &blobs_.back();
}
std::vector< UnmarshalData > unmarshal;
std::vector< StringData > unmarshalStrings;
private:
std::vector< std::vector< char > > blobs_;
};
std::size_t align(std::size_t address, std::size_t alignment) {
// alignment = 2^k for some k >= 0
return (address + (alignment - 1)) & ~(alignment - 1);
}
char * align(
std::vector< char > & blob, std::size_t alignment, std::size_t offset,
std::size_t add)
{
std::vector< char >::size_type n = blob.size();
n = align(n - offset, alignment) + offset; //TODO: overflow in align()
blob.resize(n + add); //TODO: overflow
return address(blob) + n;
}
template< typename T > void add(
std::vector< char > & blob, T const & data, std::size_t alignment,
std::size_t offset)
{
*reinterpret_cast< T * >(align(blob, alignment, offset, sizeof (T))) = data;
}
std::size_t alignment(SbxVariable const * variable) {
assert(variable != nullptr);
if ((variable->GetType() & SbxARRAY) == 0) {
switch (variable->GetType()) {
case SbxINTEGER:
return 2;
case SbxLONG:
case SbxSINGLE:
case SbxSTRING:
return 4;
case SbxDOUBLE:
return 8;
case SbxOBJECT:
{
std::size_t n = 1;
SbxObject* pobj = dynamic_cast<SbxObject*>(variable->GetObject());
assert(pobj);
SbxArray* props = pobj->GetProperties();
for (sal_uInt32 i = 0; i < props->Count32(); ++i) {
n = std::max(n, alignment(props->Get32(i)));
}
return n;
}
case SbxBOOL:
case SbxBYTE:
return 1;
default:
assert(false);
return 1;
}
} else {
SbxDimArray * arr = dynamic_cast<SbxDimArray*>( variable->GetObject() );
assert(arr);
sal_Int32 dims = arr->GetDims32();
std::vector< sal_Int32 > low(dims);
for (sal_Int32 i = 0; i < dims; ++i) {
sal_Int32 up;
arr->GetDim32(i + 1, low[i], up);
}
return alignment(arr->Get32(low.data()));
}
}
ErrCode marshal(
bool outer, SbxVariable * variable, bool special,
std::vector< char > & blob, std::size_t offset, MarshalData & data);
ErrCode marshalString(
SbxVariable * variable, bool special, MarshalData & data, void ** buffer)
{
assert(variable != nullptr && buffer != nullptr);
OString str;
ErrCode e = convert(variable->GetOUString(), &str);
if (e != ERRCODE_NONE) {
return e;
}
std::vector< char > * blob = data.newBlob();
blob->insert(blob->begin(), str.getStr(), str.getStr() + str.getLength() + 1);
*buffer = address(*blob);
data.unmarshalStrings.push_back(StringData(variable, *buffer, special));
return ERRCODE_NONE;
}
ErrCode marshalStruct(
SbxVariable const * variable, std::vector< char > & blob, std::size_t offset,
MarshalData & data)
{
assert(variable != nullptr);
SbxObject* pobj = dynamic_cast<SbxObject*>(variable->GetObject());
assert(pobj);
SbxArray* props = pobj->GetProperties();
for (sal_uInt32 i = 0; i < props->Count32(); ++i) {
ErrCode e = marshal(false, props->Get32(i), false, blob, offset, data);
if (e != ERRCODE_NONE) {
return e;
}
}
return ERRCODE_NONE;
}
ErrCode marshalArray(
SbxVariable const * variable, std::vector< char > & blob, std::size_t offset,
MarshalData & data)
{
assert(variable != nullptr);
SbxDimArray * arr = dynamic_cast<SbxDimArray*>( variable->GetObject() );
assert(arr);
sal_Int32 dims = arr->GetDims32();
std::vector< sal_Int32 > low(dims);
std::vector< sal_Int32 > up(dims);
for (sal_Int32 i = 0; i < dims; ++i) {
arr->GetDim32(i + 1, low[i], up[i]);
}
for (std::vector< sal_Int32 > idx = low;;) {
ErrCode e = marshal(
false, arr->Get32(idx.data()), false, blob, offset, data);
if (e != ERRCODE_NONE) {
return e;
}
sal_Int32 i = dims - 1;
while (idx[i] == up[i]) {
idx[i] = low[i];
if (i == 0) {
return ERRCODE_NONE;
}
--i;
}
++idx[i];
}
}
// 8-aligned structs are only 4-aligned on stack, so alignment of members in
// such structs must take that into account via "offset"
ErrCode marshal(
bool outer, SbxVariable * variable, bool special,
std::vector< char > & blob, std::size_t offset, MarshalData & data)
{
assert(variable != nullptr);
SbxDataType eVarType = variable->GetType();
bool bByVal = !(variable->GetFlags() & SbxFlagBits::Reference);
if( !bByVal && !SbiRuntime::isVBAEnabled() && eVarType == SbxSTRING )
bByVal = true;
if (bByVal) {
if ((eVarType & SbxARRAY) == 0) {
switch (eVarType) {
case SbxINTEGER:
add(blob, variable->GetInteger(), outer ? 8 : 2, offset);
break;
case SbxLONG:
add(blob, variable->GetLong(), outer ? 8 : 4, offset);
break;
case SbxSINGLE:
add(blob, variable->GetSingle(), outer ? 8 : 4, offset);
break;
case SbxDOUBLE:
add(blob, variable->GetDouble(), 8, offset);
break;
case SbxSTRING:
{
void * p;
ErrCode e = marshalString(variable, special, data, &p);
if (e != ERRCODE_NONE) {
return e;
}
add(blob, p, 8, offset);
break;
}
case SbxOBJECT:
{
align(blob, outer ? 8 : alignment(variable), offset, 0);
ErrCode e = marshalStruct(variable, blob, offset, data);
if (e != ERRCODE_NONE) {
return e;
}
break;
}
case SbxBOOL:
add(blob, variable->GetBool(), outer ? 8 : 1, offset);
break;
case SbxBYTE:
add(blob, variable->GetByte(), outer ? 8 : 1, offset);
break;
default:
assert(false);
break;
}
} else {
ErrCode e = marshalArray(variable, blob, offset, data);
if (e != ERRCODE_NONE) {
return e;
}
}
} else {
if ((eVarType & SbxARRAY) == 0) {
switch (eVarType) {
case SbxINTEGER:
case SbxLONG:
case SbxSINGLE:
case SbxDOUBLE:
case SbxBOOL:
case SbxBYTE:
add(blob, variable->data(), 8, offset);
break;
case SbxSTRING:
{
void * p;
ErrCode e = marshalString(variable, special, data, &p);
if (e != ERRCODE_NONE) {
return e;
}
std::vector< char >* blob2 = data.newBlob();
add(*blob2, p, 8, 0);
add(blob, address(*blob2), 8, offset);
break;
}
case SbxOBJECT:
{
std::vector< char > * blob2 = data.newBlob();
ErrCode e = marshalStruct(variable, *blob2, 0, data);
if (e != ERRCODE_NONE) {
return e;
}
void * p = address(*blob2);
if (outer) {
data.unmarshal.push_back(UnmarshalData(variable, p));
}
add(blob, p, 8, offset);
break;
}
default:
assert(false);
break;
}
} else {
std::vector< char > * blob2 = data.newBlob();
ErrCode e = marshalArray(variable, *blob2, 0, data);
if (e != ERRCODE_NONE) {
return e;
}
void * p = address(*blob2);
if (outer) {
data.unmarshal.push_back(UnmarshalData(variable, p));
}
add(blob, p, 8, offset);
}
}
return ERRCODE_NONE;
}
template< typename T > T read(void const ** pointer) {
T const * p = static_cast< T const * >(*pointer);
*pointer = static_cast< void const * >(p + 1);
return *p;
}
void const * unmarshal(SbxVariable * variable, void const * data) {
assert(variable != nullptr);
if ((variable->GetType() & SbxARRAY) == 0) {
switch (variable->GetType()) {
case SbxINTEGER:
variable->PutInteger(read< sal_Int16 >(&data));
break;
case SbxLONG:
variable->PutLong(read< sal_Int32 >(&data));
break;
case SbxSINGLE:
variable->PutSingle(read< float >(&data));
break;
case SbxDOUBLE:
variable->PutDouble(read< double >(&data));
break;
case SbxSTRING:
read< char * >(&data); // handled by unmarshalString
break;
case SbxOBJECT:
{
data = reinterpret_cast< void const * >(
align(
reinterpret_cast< sal_uIntPtr >(data),
alignment(variable)));
SbxObject* pobj = dynamic_cast<SbxObject*>(variable->GetObject());
assert(pobj);
SbxArray* props = pobj->GetProperties();
for (sal_uInt32 i = 0; i < props->Count32(); ++i) {
data = unmarshal(props->Get32(i), data);
}
break;
}
case SbxBOOL:
variable->PutBool(read< sal_Bool >(&data));
break;
case SbxBYTE:
variable->PutByte(read< sal_uInt8 >(&data));
break;
default:
assert(false);
break;
}
} else {
SbxDimArray * arr = dynamic_cast<SbxDimArray*>( variable->GetObject() );
assert(arr);
sal_Int32 dims = arr->GetDims32();
std::vector< sal_Int32 > low(dims);
std::vector< sal_Int32 > up(dims);
for (sal_Int32 i = 0; i < dims; ++i) {
arr->GetDim32(i + 1, low[i], up[i]);
}
for (std::vector< sal_Int32 > idx = low;;) {
data = unmarshal(arr->Get32(idx.data()), data);
sal_Int32 i = dims - 1;
while (idx[i] == up[i]) {
idx[i] = low[i];
if (i == 0) {
goto done;
}
--i;
}
++idx[i];
}
done:;
}
return data;
}
ErrCode unmarshalString(StringData const & data, SbxVariable const & result) {
OUString str;
if (data.buffer != nullptr) {
char const * p = static_cast< char const * >(data.buffer);
sal_Int32 len;
if (data.special) {
len = static_cast< sal_Int32 >(result.GetULong());
if (len < 0) { // i.e., DWORD result >= 2^31
return ERRCODE_BASIC_BAD_ARGUMENT;
//TODO: more specific errcode?
}
} else {
len = rtl_str_getLength(p);
}
ErrCode e = convert(p, len, &str);
if (e != ERRCODE_NONE) {
return e;
}
}
data.variable->PutString(str);
return ERRCODE_NONE;
}
struct ProcData {
OString name;
FARPROC proc;
};
ErrCode call(
OUString const & dll, ProcData const & proc, SbxArray * arguments,
SbxVariable & result)
{
if (arguments && arguments->Count32() > 20)
return ERRCODE_BASIC_NOT_IMPLEMENTED;
std::vector< char > stack;
MarshalData data;
// For DWORD GetLogicalDriveStringsA(DWORD nBufferLength, LPSTR lpBuffer)
// from kernel32, upon return, filled lpBuffer length is result DWORD, which
// requires special handling in unmarshalString; other functions might
// require similar treatment, too:
bool special =
dll.equalsIgnoreAsciiCase("KERNEL32.DLL") &&
(proc.name == OString("GetLogicalDriveStringsA"));
for (sal_uInt32 i = 1; i < (arguments == nullptr ? 0 : arguments->Count32()); ++i) {
ErrCode e = marshal(
true, arguments->Get32(i), special && i == 2, stack, stack.size(),
data);
if (e != ERRCODE_NONE) {
return e;
}
align(stack, 8, 0, 0);
}
stack.resize(20*8);
// We fake all calls as being to a varargs function,
// as this means any floating-point argument among the first four
// ones will end up in a XMM register where the callee expects it.
sal_Int32 (*proc_i)(double d, ...) = reinterpret_cast<sal_Int32 (*)(double, ...)>(proc.proc);
double (*proc_d)(double d, ...) = reinterpret_cast<double (*)(double, ...)>(proc.proc);
sal_Int64 iRetVal = 0;
double dRetVal = 0.0;
switch (result.GetType()) {
case SbxEMPTY:
case SbxINTEGER:
case SbxLONG:
case SbxSTRING:
case SbxOBJECT:
case SbxBOOL:
case SbxBYTE:
{
auto const st = stack.data();
iRetVal =
proc_i(*reinterpret_cast<double *>(st + 0),
*reinterpret_cast<double *>(st + 1*8),
*reinterpret_cast<double *>(st + 2*8),
*reinterpret_cast<double *>(st + 3*8),
*reinterpret_cast<sal_uInt64 *>(st + 4*8),
*reinterpret_cast<sal_uInt64 *>(st + 5*8),
*reinterpret_cast<sal_uInt64 *>(st + 6*8),
*reinterpret_cast<sal_uInt64 *>(st + 7*8),
*reinterpret_cast<sal_uInt64 *>(st + 8*8),
*reinterpret_cast<sal_uInt64 *>(st + 9*8),
*reinterpret_cast<sal_uInt64 *>(st + 10*8),
*reinterpret_cast<sal_uInt64 *>(st + 11*8),
*reinterpret_cast<sal_uInt64 *>(st + 12*8),
*reinterpret_cast<sal_uInt64 *>(st + 13*8),
*reinterpret_cast<sal_uInt64 *>(st + 14*8),
*reinterpret_cast<sal_uInt64 *>(st + 15*8),
*reinterpret_cast<sal_uInt64 *>(st + 16*8),
*reinterpret_cast<sal_uInt64 *>(st + 17*8),
*reinterpret_cast<sal_uInt64 *>(st + 18*8),
*reinterpret_cast<sal_uInt64 *>(st + 19*8));
break;
}
case SbxSINGLE:
case SbxDOUBLE:
{
auto const st = stack.data();
dRetVal =
proc_d(*reinterpret_cast<double *>(st + 0),
*reinterpret_cast<double *>(st + 1*8),
*reinterpret_cast<double *>(st + 2*8),
*reinterpret_cast<double *>(st + 3*8),
*reinterpret_cast<sal_uInt64 *>(st + 4*8),
*reinterpret_cast<sal_uInt64 *>(st + 5*8),
*reinterpret_cast<sal_uInt64 *>(st + 6*8),
*reinterpret_cast<sal_uInt64 *>(st + 7*8),
*reinterpret_cast<sal_uInt64 *>(st + 8*8),
*reinterpret_cast<sal_uInt64 *>(st + 9*8),
*reinterpret_cast<sal_uInt64 *>(st + 10*8),
*reinterpret_cast<sal_uInt64 *>(st + 11*8),
*reinterpret_cast<sal_uInt64 *>(st + 12*8),
*reinterpret_cast<sal_uInt64 *>(st + 13*8),
*reinterpret_cast<sal_uInt64 *>(st + 14*8),
*reinterpret_cast<sal_uInt64 *>(st + 15*8),
*reinterpret_cast<sal_uInt64 *>(st + 16*8),
*reinterpret_cast<sal_uInt64 *>(st + 17*8),
*reinterpret_cast<sal_uInt64 *>(st + 18*8),
*reinterpret_cast<sal_uInt64 *>(st + 19*8));
break;
}
default:
break;
}
switch (result.GetType()) {
case SbxEMPTY:
break;
case SbxINTEGER:
result.PutInteger(static_cast< sal_Int16 >(iRetVal));
break;
case SbxLONG:
result.PutLong(static_cast< sal_Int32 >(iRetVal));
break;
case SbxSINGLE:
result.PutSingle(static_cast< float >(dRetVal));
break;
case SbxDOUBLE:
result.PutDouble(dRetVal);
break;
case SbxSTRING:
{
char const * s1 = reinterpret_cast< char const * >(iRetVal);
OUString s2;
ErrCode e = convert(s1, rtl_str_getLength(s1), &s2);
if (e != ERRCODE_NONE) {
return e;
}
result.PutString(s2);
break;
}
case SbxOBJECT:
//TODO
break;
case SbxBOOL:
result.PutBool(bool(iRetVal));
break;
case SbxBYTE:
result.PutByte(static_cast< sal_uInt8 >(iRetVal));
break;
default:
assert(false);
break;
}
for (sal_uInt32 i = 1; i < (arguments == nullptr ? 0 : arguments->Count32()); ++i) {
arguments->Get32(i)->ResetFlag(SbxFlagBits::Reference);
//TODO: skipped for errors?!?
}
for (auto const& elem : data.unmarshal)
{
unmarshal(elem.variable, elem.buffer);
}
for (auto const& elem : data.unmarshalStrings)
{
ErrCode e = unmarshalString(elem, result);
if (e != ERRCODE_NONE) {
return e;
}
}
return ERRCODE_NONE;
}
ErrCode getProcData(HMODULE handle, OUString const & name, ProcData * proc)
{
assert(proc != nullptr);
if (name.getLength() != 0 && name[0] == '@') { //TODO: "@" vs. "#"???
sal_Int32 n = name.copy(1).toInt32(); //TODO: handle bad input
if (n <= 0 || n > 0xFFFF) {
return ERRCODE_BASIC_BAD_ARGUMENT; //TODO: more specific errcode?
}
FARPROC p = GetProcAddress(handle, reinterpret_cast< LPCSTR >(n));
if (p != nullptr) {
proc->name = "#" + OString::number(n);
proc->proc = p;
return ERRCODE_NONE;
}
} else {
OString name8;
ErrCode e = convert(name, &name8);
if (e != ERRCODE_NONE) {
return e;
}
FARPROC p = GetProcAddress(handle, name8.getStr());
if (p != nullptr) {
proc->name = name8;
proc->proc = p;
return ERRCODE_NONE;
}
sal_Int32 i = name8.indexOf('#');
if (i != -1) {
name8 = name8.copy(0, i);
p = GetProcAddress(handle, name8.getStr());
if (p != nullptr) {
proc->name = name8;
proc->proc = p;
return ERRCODE_NONE;
}
}
OString real("_" + name8);
p = GetProcAddress(handle, real.getStr());
if (p != nullptr) {
proc->name = real;
proc->proc = p;
return ERRCODE_NONE;
}
real = name8 + "A";
p = GetProcAddress(handle, real.getStr());
if (p != nullptr) {
proc->name = real;
proc->proc = p;
return ERRCODE_NONE;
}
}
return ERRCODE_BASIC_PROC_UNDEFINED;
}
struct Dll: public salhelper::SimpleReferenceObject {
private:
typedef std::map< OUString, ProcData > Procs;
virtual ~Dll() override;
public:
Dll(): handle(nullptr) {}
ErrCode getProc(OUString const & name, ProcData * proc);
HMODULE handle;
Procs procs;
};
Dll::~Dll() {
if (handle != nullptr && !FreeLibrary(handle)) {
SAL_WARN("basic", "FreeLibrary(" << handle << ") failed with " << GetLastError());
}
}
ErrCode Dll::getProc(OUString const & name, ProcData * proc) {
Procs::iterator i(procs.find(name));
if (i != procs.end()) {
*proc = i->second;
return ERRCODE_NONE;
}
ErrCode e = getProcData(handle, name, proc);
if (e == ERRCODE_NONE) {
procs.emplace(name, *proc);
}
return e;
}
OUString fullDllName(OUString const & name) {
OUString full(name);
if (full.indexOf('.') == -1) {
full += ".DLL";
}
return full;
}
}
struct SbiDllMgr::Impl{
private:
typedef std::map< OUString, ::rtl::Reference< Dll > > Dlls;
public:
Impl() = default;
Impl(const Impl&) = delete;
const Impl& operator=(const Impl&) = delete;
Dll * getDll(OUString const & name);
Dlls dlls;
};
Dll * SbiDllMgr::Impl::getDll(OUString const & name) {
Dlls::iterator i(dlls.find(name));
if (i == dlls.end()) {
i = dlls.emplace(name, new Dll).first;
HMODULE h = LoadLibraryW(o3tl::toW(name.getStr()));
if (h == nullptr) {
dlls.erase(i);
return nullptr;
}
i->second->handle = h;
}
return i->second.get();
}
ErrCode SbiDllMgr::Call(
OUString const & function, OUString const & library,
SbxArray * arguments, SbxVariable & result, bool cdeclConvention)
{
if (cdeclConvention) {
return ERRCODE_BASIC_NOT_IMPLEMENTED;
}
OUString dllName(fullDllName(library));
Dll * dll = impl_->getDll(dllName);
if (dll == nullptr) {
return ERRCODE_BASIC_BAD_DLL_LOAD;
}
ProcData proc;
ErrCode e = dll->getProc(function, &proc);
if (e != ERRCODE_NONE) {
return e;
}
return call(dllName, proc, arguments, result);
}
void SbiDllMgr::FreeDll(OUString const & library) {
impl_->dlls.erase(library);
}
SbiDllMgr::SbiDllMgr(): impl_(new Impl) {}
SbiDllMgr::~SbiDllMgr() {}
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