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office-gobmx/binaryurp/source/bridge.cxx
Stephan Bergmann 6974647815 cid#1504543 Silence unhelpful, aggressive UNINIT_CTOR 
Change-Id: Ida0c1bfd34ee68968b22579492bce4b137fa8a93
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/134749
Tested-by: Jenkins
Reviewed-by: Stephan Bergmann <sbergman@redhat.com>
2022-05-23 10:55:45 +02:00

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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>
#include <algorithm>
#include <cassert>
#include <cstddef>
#include <limits>
#include <memory>
#include <utility>
#include <vector>
#include <com/sun/star/bridge/InvalidProtocolChangeException.hpp>
#include <com/sun/star/bridge/XBridge.hpp>
#include <com/sun/star/bridge/XInstanceProvider.hpp>
#include <com/sun/star/bridge/XProtocolProperties.hpp>
#include <com/sun/star/connection/XConnection.hpp>
#include <com/sun/star/io/IOException.hpp>
#include <com/sun/star/lang/DisposedException.hpp>
#include <com/sun/star/lang/EventObject.hpp>
#include <com/sun/star/lang/XEventListener.hpp>
#include <com/sun/star/uno/Reference.hxx>
#include <com/sun/star/uno/RuntimeException.hpp>
#include <com/sun/star/uno/Sequence.hxx>
#include <com/sun/star/uno/XInterface.hpp>
#include <cppuhelper/exc_hlp.hxx>
#include <cppuhelper/weak.hxx>
#include <osl/mutex.hxx>
#include <osl/thread.hxx>
#include <rtl/byteseq.hxx>
#include <rtl/random.h>
#include <rtl/ref.hxx>
#include <rtl/string.h>
#include <rtl/ustring.hxx>
#include <sal/log.hxx>
#include <sal/types.h>
#include <typelib/typeclass.h>
#include <typelib/typedescription.h>
#include <typelib/typedescription.hxx>
#include <uno/dispatcher.hxx>
#include <uno/environment.hxx>
#include <uno/lbnames.h>
#include "binaryany.hxx"
#include "bridge.hxx"
#include "bridgefactory.hxx"
#include "incomingreply.hxx"
#include "lessoperators.hxx"
#include "outgoingrequest.hxx"
#include "outgoingrequests.hxx"
#include "proxy.hxx"
#include "reader.hxx"
namespace binaryurp {
namespace {
sal_Int32 random() {
sal_Int32 n;
rtlRandomPool pool = rtl_random_createPool();
rtl_random_getBytes(pool, &n, sizeof n);
rtl_random_destroyPool(pool);
return n;
}
OUString toString(css::uno::TypeDescription const & type) {
typelib_TypeDescription * d = type.get();
assert(d != nullptr && d->pTypeName != nullptr);
return OUString(d->pTypeName);
}
extern "C" void freeProxyCallback(
SAL_UNUSED_PARAMETER uno_ExtEnvironment *, void * pProxy)
{
assert(pProxy != nullptr);
static_cast< Proxy * >(pProxy)->do_free();
}
bool isThread(salhelper::Thread * thread) {
assert(thread != nullptr);
return osl::Thread::getCurrentIdentifier() == thread->getIdentifier();
}
class AttachThread {
public:
explicit AttachThread(uno_ThreadPool threadPool);
~AttachThread();
const rtl::ByteSequence& getTid() const noexcept { return tid_;}
private:
AttachThread(const AttachThread&) = delete;
AttachThread& operator=(const AttachThread&) = delete;
uno_ThreadPool threadPool_;
rtl::ByteSequence tid_;
};
AttachThread::AttachThread(uno_ThreadPool threadPool): threadPool_(threadPool) {
sal_Sequence * s = nullptr;
uno_getIdOfCurrentThread(&s);
tid_ = rtl::ByteSequence(s, rtl::BYTESEQ_NOACQUIRE);
uno_threadpool_attach(threadPool_);
}
AttachThread::~AttachThread() {
uno_threadpool_detach(threadPool_);
uno_releaseIdFromCurrentThread();
}
class PopOutgoingRequest {
public:
PopOutgoingRequest(
OutgoingRequests & requests, rtl::ByteSequence tid,
OutgoingRequest const & request);
~PopOutgoingRequest();
void clear();
private:
PopOutgoingRequest(const PopOutgoingRequest&) = delete;
PopOutgoingRequest& operator=(const PopOutgoingRequest&) = delete;
OutgoingRequests & requests_;
rtl::ByteSequence tid_;
bool cleared_;
};
PopOutgoingRequest::PopOutgoingRequest(
OutgoingRequests & requests, rtl::ByteSequence tid,
OutgoingRequest const & request):
requests_(requests), tid_(std::move(tid)), cleared_(false)
{
requests_.push(tid_, request);
}
PopOutgoingRequest::~PopOutgoingRequest() {
if (!cleared_) {
requests_.pop(tid_);
}
}
void PopOutgoingRequest::clear() {
cleared_ = true;
}
}
struct Bridge::SubStub {
com::sun::star::uno::UnoInterfaceReference object;
sal_uInt32 references;
};
Bridge::Bridge(
rtl::Reference< BridgeFactory > const & factory, OUString name,
css::uno::Reference< css::connection::XConnection > const & connection,
css::uno::Reference< css::bridge::XInstanceProvider > provider):
factory_(factory), name_(std::move(name)), connection_(connection),
provider_(std::move(provider)),
binaryUno_(UNO_LB_UNO),
cppToBinaryMapping_(CPPU_CURRENT_LANGUAGE_BINDING_NAME, UNO_LB_UNO),
binaryToCppMapping_(UNO_LB_UNO, CPPU_CURRENT_LANGUAGE_BINDING_NAME),
protPropTid_(
reinterpret_cast< sal_Int8 const * >(".UrpProtocolPropertiesTid"),
RTL_CONSTASCII_LENGTH(".UrpProtocolPropertiesTid")),
protPropOid_("UrpProtocolProperties"),
protPropType_(
cppu::UnoType<
css::uno::Reference< css::bridge::XProtocolProperties > >::get()),
protPropRequest_("com.sun.star.bridge.XProtocolProperties::requestChange"),
protPropCommit_("com.sun.star.bridge.XProtocolProperties::commitChange"),
state_(STATE_INITIAL), threadPool_(nullptr), currentContextMode_(false),
proxies_(0), calls_(0), normalCall_(false), activeCalls_(0),
mode_(MODE_REQUESTED)
{
assert(factory.is() && connection.is());
if (!binaryUno_.is()) {
throw css::uno::RuntimeException("URP: no binary UNO environment");
}
if (!(cppToBinaryMapping_.is() && binaryToCppMapping_.is())) {
throw css::uno::RuntimeException("URP: no C++ UNO mapping");
}
passive_.set();
// coverity[uninit_member] - random_ is set in due course by the reader_ thread's state machine
}
void Bridge::start() {
rtl::Reference r(new Reader(this));
rtl::Reference w(new Writer(this));
{
std::lock_guard g(mutex_);
assert(
state_ == STATE_INITIAL && threadPool_ == nullptr && !writer_.is() &&
!reader_.is());
threadPool_ = uno_threadpool_create();
assert(threadPool_ != nullptr);
reader_ = r;
writer_ = w;
state_ = STATE_STARTED;
}
// It is important to call reader_->launch() last here; both
// Writer::execute and Reader::execute can call Bridge::terminate, but
// Writer::execute is initially blocked in unblocked_.wait() until
// Reader::execute has called bridge_->sendRequestChangeRequest(), so
// effectively only reader_->launch() can lead to an early call to
// Bridge::terminate
w->launch();
r->launch();
}
void Bridge::terminate(bool final) {
uno_ThreadPool tp;
// Make sure function-local variables (Stubs s, etc.) are destroyed before
// the final uno_threadpool_destroy/threadPool_ = 0:
{
rtl::Reference< Reader > r;
rtl::Reference< Writer > w;
bool joinW;
Listeners ls;
{
std::unique_lock g(mutex_);
switch (state_) {
case STATE_INITIAL: // via ~Bridge -> dispose -> terminate
case STATE_FINAL:
return;
case STATE_STARTED:
break;
case STATE_TERMINATED:
if (final) {
g.unlock();
terminated_.wait();
{
std::lock_guard g2(mutex_);
tp = threadPool_;
threadPool_ = nullptr;
if (reader_.is()) {
if (!isThread(reader_.get())) {
r = reader_;
}
reader_.clear();
}
if (writer_.is()) {
if (!isThread(writer_.get())) {
w = writer_;
}
writer_.clear();
}
state_ = STATE_FINAL;
}
assert(!(r.is() && w.is()));
if (r.is()) {
r->join();
} else if (w.is()) {
w->join();
}
if (tp != nullptr) {
uno_threadpool_destroy(tp);
}
}
return;
}
tp = threadPool_;
assert(!(final && isThread(reader_.get())));
if (!isThread(reader_.get())) {
std::swap(reader_, r);
}
w = writer_;
joinW = !isThread(writer_.get());
assert(!final || joinW);
if (joinW) {
writer_.clear();
}
ls.swap(listeners_);
state_ = final ? STATE_FINAL : STATE_TERMINATED;
}
try {
connection_->close();
} catch (const css::io::IOException & e) {
SAL_INFO("binaryurp", "caught IO exception '" << e << '\'');
}
assert(w.is());
w->stop();
if (r.is()) {
r->join();
}
if (joinW) {
w->join();
}
assert(tp != nullptr);
uno_threadpool_dispose(tp);
Stubs s;
{
std::lock_guard g(mutex_);
s.swap(stubs_);
}
for (auto & stub : s)
{
for (auto & item : stub.second)
{
SAL_INFO(
"binaryurp",
"stub '" << stub.first << "', '" << toString(item.first)
<< "' still mapped at Bridge::terminate");
binaryUno_.get()->pExtEnv->revokeInterface(
binaryUno_.get()->pExtEnv, item.second.object.get());
}
}
factory_->removeBridge(this);
for (auto const& listener : ls)
{
try {
listener->disposing(
css::lang::EventObject(
static_cast< cppu::OWeakObject * >(this)));
} catch (const css::uno::RuntimeException & e) {
SAL_WARN("binaryurp", "caught " << e);
}
}
}
if (final) {
uno_threadpool_destroy(tp);
}
{
std::lock_guard g(mutex_);
if (final) {
threadPool_ = nullptr;
}
}
terminated_.set();
}
BinaryAny Bridge::mapCppToBinaryAny(css::uno::Any const & cppAny) {
css::uno::Any in(cppAny);
BinaryAny out;
out.~BinaryAny();
uno_copyAndConvertData(
&out.get(), &in,
css::uno::TypeDescription(cppu::UnoType< css::uno::Any >::get()).get(),
cppToBinaryMapping_.get());
return out;
}
uno_ThreadPool Bridge::getThreadPool() {
std::lock_guard g(mutex_);
checkDisposed();
assert(threadPool_ != nullptr);
return threadPool_;
}
rtl::Reference< Writer > Bridge::getWriter() {
std::lock_guard g(mutex_);
checkDisposed();
assert(writer_.is());
return writer_;
}
css::uno::UnoInterfaceReference Bridge::registerIncomingInterface(
OUString const & oid, css::uno::TypeDescription const & type)
{
assert(type.is());
if (oid.isEmpty()) {
return css::uno::UnoInterfaceReference();
}
css::uno::UnoInterfaceReference obj(findStub(oid, type));
if (!obj.is()) {
binaryUno_.get()->pExtEnv->getRegisteredInterface(
binaryUno_.get()->pExtEnv,
reinterpret_cast< void ** >(&obj.m_pUnoI), oid.pData,
reinterpret_cast< typelib_InterfaceTypeDescription * >(type.get()));
if (obj.is()) {
makeReleaseCall(oid, type);
} else {
obj.set(new Proxy(this, oid, type), SAL_NO_ACQUIRE);
{
std::lock_guard g(mutex_);
assert(proxies_ < std::numeric_limits< std::size_t >::max());
++proxies_;
}
binaryUno_.get()->pExtEnv->registerProxyInterface(
binaryUno_.get()->pExtEnv,
reinterpret_cast< void ** >(&obj.m_pUnoI), &freeProxyCallback,
oid.pData,
reinterpret_cast< typelib_InterfaceTypeDescription * >(
type.get()));
}
}
return obj;
}
OUString Bridge::registerOutgoingInterface(
css::uno::UnoInterfaceReference const & object,
css::uno::TypeDescription const & type)
{
assert(type.is());
if (!object.is()) {
return OUString();
}
OUString oid;
if (!Proxy::isProxy(this, object, &oid)) {
binaryUno_.get()->pExtEnv->getObjectIdentifier(
binaryUno_.get()->pExtEnv, &oid.pData, object.get());
std::lock_guard g(mutex_);
Stubs::iterator i(stubs_.find(oid));
Stub newStub;
Stub * stub = i == stubs_.end() ? &newStub : &i->second;
Stub::iterator j(stub->find(type));
//TODO: Release sub-stub if it is not successfully sent to remote side
// (otherwise, stub will leak until terminate()):
if (j == stub->end()) {
j = stub->emplace(type, SubStub()).first;
if (stub == &newStub) {
i = stubs_.emplace(oid, Stub()).first;
std::swap(i->second, newStub);
j = i->second.find(type);
assert(j != i->second.end());
}
j->second.object = object;
j->second.references = 1;
binaryUno_.get()->pExtEnv->registerInterface(
binaryUno_.get()->pExtEnv,
reinterpret_cast< void ** >(&j->second.object.m_pUnoI),
oid.pData,
reinterpret_cast< typelib_InterfaceTypeDescription * >(
type.get()));
} else {
assert(stub != &newStub);
if (j->second.references == SAL_MAX_UINT32) {
throw css::uno::RuntimeException(
"URP: stub reference count overflow");
}
++j->second.references;
}
}
return oid;
}
css::uno::UnoInterfaceReference Bridge::findStub(
OUString const & oid, css::uno::TypeDescription const & type)
{
assert(!oid.isEmpty() && type.is());
std::lock_guard g(mutex_);
Stubs::iterator i(stubs_.find(oid));
if (i != stubs_.end()) {
Stub::iterator j(i->second.find(type));
if (j != i->second.end()) {
return j->second.object;
}
for (auto const& item : i->second)
{
if (typelib_typedescription_isAssignableFrom(
type.get(), item.first.get()))
{
return item.second.object;
}
}
}
return css::uno::UnoInterfaceReference();
}
void Bridge::releaseStub(
OUString const & oid, css::uno::TypeDescription const & type)
{
assert(!oid.isEmpty() && type.is());
css::uno::UnoInterfaceReference obj;
bool unused;
{
std::lock_guard g(mutex_);
Stubs::iterator i(stubs_.find(oid));
if (i == stubs_.end()) {
throw css::uno::RuntimeException("URP: release unknown stub");
}
Stub::iterator j(i->second.find(type));
if (j == i->second.end()) {
throw css::uno::RuntimeException("URP: release unknown stub");
}
assert(j->second.references > 0);
--j->second.references;
if (j->second.references == 0) {
obj = j->second.object;
i->second.erase(j);
if (i->second.empty()) {
stubs_.erase(i);
}
}
unused = becameUnused();
}
if (obj.is()) {
binaryUno_.get()->pExtEnv->revokeInterface(
binaryUno_.get()->pExtEnv, obj.get());
}
terminateWhenUnused(unused);
}
void Bridge::resurrectProxy(Proxy & proxy) {
uno_Interface * p = &proxy;
binaryUno_.get()->pExtEnv->registerProxyInterface(
binaryUno_.get()->pExtEnv,
reinterpret_cast< void ** >(&p), &freeProxyCallback,
proxy.getOid().pData,
reinterpret_cast< typelib_InterfaceTypeDescription * >(
proxy.getType().get()));
assert(p == &proxy);
}
void Bridge::revokeProxy(Proxy & proxy) {
binaryUno_.get()->pExtEnv->revokeInterface(
binaryUno_.get()->pExtEnv, &proxy);
}
void Bridge::freeProxy(Proxy & proxy) {
try {
makeReleaseCall(proxy.getOid(), proxy.getType());
} catch (const css::uno::RuntimeException & e) {
SAL_INFO(
"binaryurp", "caught runtime exception '" << e << '\'');
} catch (const std::exception & e) {
SAL_WARN("binaryurp", "caught C++ exception '" << e.what() << '\'');
}
bool unused;
{
std::lock_guard g(mutex_);
assert(proxies_ > 0);
--proxies_;
unused = becameUnused();
}
terminateWhenUnused(unused);
}
void Bridge::incrementCalls(bool normalCall) noexcept {
std::lock_guard g(mutex_);
assert(calls_ < std::numeric_limits< std::size_t >::max());
++calls_;
normalCall_ |= normalCall;
}
void Bridge::decrementCalls() {
bool unused;
{
std::lock_guard g(mutex_);
assert(calls_ > 0);
--calls_;
unused = becameUnused();
}
terminateWhenUnused(unused);
}
void Bridge::incrementActiveCalls() noexcept {
std::lock_guard g(mutex_);
assert(
activeCalls_ <= calls_ &&
activeCalls_ < std::numeric_limits< std::size_t >::max());
++activeCalls_;
passive_.reset();
}
void Bridge::decrementActiveCalls() noexcept {
std::lock_guard g(mutex_);
assert(activeCalls_ <= calls_ && activeCalls_ > 0);
--activeCalls_;
if (activeCalls_ == 0) {
passive_.set();
}
}
bool Bridge::makeCall(
OUString const & oid, css::uno::TypeDescription const & member,
bool setter, std::vector< BinaryAny >&& inArguments,
BinaryAny * returnValue, std::vector< BinaryAny > * outArguments)
{
std::unique_ptr< IncomingReply > resp;
{
uno_ThreadPool tp = getThreadPool();
AttachThread att(tp);
PopOutgoingRequest pop(
outgoingRequests_, att.getTid(),
OutgoingRequest(OutgoingRequest::KIND_NORMAL, member, setter));
sendRequest(
att.getTid(), oid, css::uno::TypeDescription(), member,
std::move(inArguments));
pop.clear();
incrementCalls(true);
incrementActiveCalls();
void * job;
uno_threadpool_enter(tp, &job);
resp.reset(static_cast< IncomingReply * >(job));
decrementActiveCalls();
decrementCalls();
}
if (resp == nullptr)
{
throw css::lang::DisposedException(
"Binary URP bridge disposed during call",
static_cast< cppu::OWeakObject * >(this));
}
*returnValue = resp->returnValue;
if (!resp->exception) {
*outArguments = resp->outArguments;
}
return resp->exception;
}
void Bridge::sendRequestChangeRequest() {
assert(mode_ == MODE_REQUESTED);
random_ = random();
std::vector< BinaryAny > a;
a.emplace_back(
css::uno::TypeDescription(cppu::UnoType< sal_Int32 >::get()),
&random_);
sendProtPropRequest(OutgoingRequest::KIND_REQUEST_CHANGE, a);
}
void Bridge::handleRequestChangeReply(
bool exception, BinaryAny const & returnValue)
{
try {
throwException(exception, returnValue);
} catch (css::uno::RuntimeException & e) {
// Before OOo 2.2, Java URP would throw a RuntimeException when
// receiving a requestChange message (see i#35277 "Java URP: Support
// Manipulation of Protocol Properties"):
if (mode_ != MODE_REQUESTED) {
throw;
}
SAL_WARN(
"binaryurp",
"requestChange caught " << e << " in state 'requested'");
mode_ = MODE_NORMAL;
getWriter()->unblock();
decrementCalls();
return;
}
sal_Int32 n = *static_cast< sal_Int32 * >(
returnValue.getValue(
css::uno::TypeDescription(cppu::UnoType< sal_Int32 >::get())));
sal_Int32 exp = 0;
switch (mode_) {
case MODE_REQUESTED:
case MODE_REPLY_1:
exp = 1;
break;
case MODE_REPLY_MINUS1:
exp = -1;
mode_ = MODE_REQUESTED;
break;
case MODE_REPLY_0:
exp = 0;
mode_ = MODE_WAIT;
break;
default:
assert(false); // this cannot happen
break;
}
if (n != exp) {
throw css::uno::RuntimeException(
"URP: requestChange reply with unexpected return value received",
static_cast< cppu::OWeakObject * >(this));
}
decrementCalls();
switch (exp) {
case -1:
sendRequestChangeRequest();
break;
case 0:
break;
case 1:
sendCommitChangeRequest();
break;
default:
assert(false); // this cannot happen
break;
}
}
void Bridge::handleCommitChangeReply(
bool exception, BinaryAny const & returnValue)
{
bool bCcMode = true;
try {
throwException(exception, returnValue);
} catch (const css::bridge::InvalidProtocolChangeException &) {
bCcMode = false;
}
if (bCcMode) {
setCurrentContextMode();
}
assert(mode_ == MODE_REQUESTED || mode_ == MODE_REPLY_1);
mode_ = MODE_NORMAL;
getWriter()->unblock();
decrementCalls();
}
void Bridge::handleRequestChangeRequest(
rtl::ByteSequence const & tid, std::vector< BinaryAny > const & inArguments)
{
assert(inArguments.size() == 1);
switch (mode_) {
case MODE_REQUESTED:
{
sal_Int32 n2 = *static_cast< sal_Int32 * >(
inArguments[0].getValue(
css::uno::TypeDescription(
cppu::UnoType< sal_Int32 >::get())));
sal_Int32 ret;
if (n2 > random_) {
ret = 1;
mode_ = MODE_REPLY_0;
} else if (n2 == random_) {
ret = -1;
mode_ = MODE_REPLY_MINUS1;
} else {
ret = 0;
mode_ = MODE_REPLY_1;
}
getWriter()->sendDirectReply(
tid, protPropRequest_, false,
BinaryAny(
css::uno::TypeDescription(
cppu::UnoType< sal_Int32 >::get()),
&ret),
std::vector< BinaryAny >());
break;
}
case MODE_NORMAL:
{
mode_ = MODE_NORMAL_WAIT;
sal_Int32 ret = 1;
getWriter()->queueReply(
tid, protPropRequest_, false, false,
BinaryAny(
css::uno::TypeDescription(
cppu::UnoType< sal_Int32 >::get()),
&ret),
std::vector< BinaryAny >(), false);
break;
}
default:
throw css::uno::RuntimeException(
"URP: unexpected requestChange request received",
static_cast< cppu::OWeakObject * >(this));
}
}
void Bridge::handleCommitChangeRequest(
rtl::ByteSequence const & tid, std::vector< BinaryAny > const & inArguments)
{
bool bCcMode = false;
bool bExc = false;
BinaryAny ret;
assert(inArguments.size() == 1);
css::uno::Sequence< css::bridge::ProtocolProperty > s;
[[maybe_unused]] bool ok = (mapBinaryToCppAny(inArguments[0]) >>= s);
assert(ok);
for (const auto & pp : std::as_const(s)) {
if (pp.Name == "CurrentContext") {
bCcMode = true;
} else {
bCcMode = false;
bExc = true;
ret = mapCppToBinaryAny(
css::uno::Any(
css::bridge::InvalidProtocolChangeException(
"InvalidProtocolChangeException",
css::uno::Reference< css::uno::XInterface >(), pp,
1)));
break;
}
}
switch (mode_) {
case MODE_WAIT:
getWriter()->sendDirectReply(
tid, protPropCommit_, bExc, ret, std::vector< BinaryAny >());
if (bCcMode) {
setCurrentContextMode();
mode_ = MODE_NORMAL;
getWriter()->unblock();
} else {
mode_ = MODE_REQUESTED;
sendRequestChangeRequest();
}
break;
case MODE_NORMAL_WAIT:
getWriter()->queueReply(
tid, protPropCommit_, false, false, ret, std::vector< BinaryAny >(),
bCcMode);
mode_ = MODE_NORMAL;
break;
default:
throw css::uno::RuntimeException(
"URP: unexpected commitChange request received",
static_cast< cppu::OWeakObject * >(this));
}
}
OutgoingRequest Bridge::lastOutgoingRequest(rtl::ByteSequence const & tid) {
OutgoingRequest req(outgoingRequests_.top(tid));
outgoingRequests_.pop(tid);
return req;
}
bool Bridge::isProtocolPropertiesRequest(
std::u16string_view oid, css::uno::TypeDescription const & type) const
{
return oid == protPropOid_ && type.equals(protPropType_);
}
void Bridge::setCurrentContextMode() {
std::lock_guard g(mutex_);
currentContextMode_ = true;
}
bool Bridge::isCurrentContextMode() {
std::lock_guard g(mutex_);
return currentContextMode_;
}
Bridge::~Bridge() {
#if OSL_DEBUG_LEVEL > 0
{
std::lock_guard g(mutex_);
SAL_WARN_IF(
state_ == STATE_STARTED || state_ == STATE_TERMINATED, "binaryurp",
"undisposed bridge \"" << name_ <<"\" in state " << state_
<< ", potential deadlock ahead");
}
#endif
dispose();
}
css::uno::Reference< css::uno::XInterface > Bridge::getInstance(
OUString const & sInstanceName)
{
if (sInstanceName.isEmpty()) {
throw css::uno::RuntimeException(
"XBridge::getInstance sInstanceName must be non-empty",
static_cast< cppu::OWeakObject * >(this));
}
for (sal_Int32 i = 0; i != sInstanceName.getLength(); ++i) {
if (sInstanceName[i] > 0x7F) {
throw css::uno::RuntimeException(
"XBridge::getInstance sInstanceName contains non-ASCII"
" character");
}
}
css::uno::TypeDescription ifc(cppu::UnoType<css::uno::XInterface>::get());
typelib_TypeDescription * p = ifc.get();
std::vector< BinaryAny > inArgs;
inArgs.emplace_back(
css::uno::TypeDescription(cppu::UnoType< css::uno::Type >::get()),
&p);
BinaryAny ret;
std::vector< BinaryAny> outArgs;
bool bExc = makeCall(
sInstanceName,
css::uno::TypeDescription(
"com.sun.star.uno.XInterface::queryInterface"),
false, std::move(inArgs), &ret, &outArgs);
throwException(bExc, ret);
auto const t = ret.getType();
if (t.get()->eTypeClass == typelib_TypeClass_VOID) {
return {};
}
if (!t.equals(ifc)) {
throw css::uno::RuntimeException(
"initial object queryInterface for OID \"" + sInstanceName + "\" returned ANY of type "
+ OUString::unacquired(&t.get()->pTypeName));
}
auto const val = *static_cast< uno_Interface ** >(ret.getValue(ifc));
if (val == nullptr) {
throw css::uno::RuntimeException(
"initial object queryInterface for OID \"" + sInstanceName
+ "\" returned null css.uno.XInterface ANY");
}
return css::uno::Reference< css::uno::XInterface >(
static_cast< css::uno::XInterface * >(
binaryToCppMapping_.mapInterface(
val,
ifc.get())),
SAL_NO_ACQUIRE);
}
OUString Bridge::getName() {
return name_;
}
OUString Bridge::getDescription() {
OUString b = name_ + ":" + connection_->getDescription();
return b;
}
void Bridge::dispose() {
// For terminate(true) not to deadlock, an external protocol must ensure
// that dispose is not called from a thread pool worker thread (that dispose
// is never called from the reader or writer thread is already ensured
// internally):
terminate(true);
// OOo expects dispose to not return while there are still remote calls in
// progress; an external protocol must ensure that dispose is not called
// from within an incoming or outgoing remote call, as passive_.wait() would
// otherwise deadlock:
passive_.wait();
}
void Bridge::addEventListener(
css::uno::Reference< css::lang::XEventListener > const & xListener)
{
assert(xListener.is());
{
std::lock_guard g(mutex_);
assert(state_ != STATE_INITIAL);
if (state_ == STATE_STARTED) {
listeners_.push_back(xListener);
return;
}
}
xListener->disposing(
css::lang::EventObject(static_cast< cppu::OWeakObject * >(this)));
}
void Bridge::removeEventListener(
css::uno::Reference< css::lang::XEventListener > const & aListener)
{
std::lock_guard g(mutex_);
Listeners::iterator i(
std::find(listeners_.begin(), listeners_.end(), aListener));
if (i != listeners_.end()) {
listeners_.erase(i);
}
}
void Bridge::sendCommitChangeRequest() {
assert(mode_ == MODE_REQUESTED || mode_ == MODE_REPLY_1);
css::uno::Sequence< css::bridge::ProtocolProperty > s(1);
s.getArray()[0].Name = "CurrentContext";
std::vector< BinaryAny > a { mapCppToBinaryAny(css::uno::Any(s)) };
sendProtPropRequest(OutgoingRequest::KIND_COMMIT_CHANGE, a);
}
void Bridge::sendProtPropRequest(
OutgoingRequest::Kind kind, std::vector< BinaryAny > const & inArguments)
{
assert(
kind == OutgoingRequest::KIND_REQUEST_CHANGE ||
kind == OutgoingRequest::KIND_COMMIT_CHANGE);
incrementCalls(false);
css::uno::TypeDescription member(
kind == OutgoingRequest::KIND_REQUEST_CHANGE
? protPropRequest_ : protPropCommit_);
PopOutgoingRequest pop(
outgoingRequests_, protPropTid_, OutgoingRequest(kind, member, false));
getWriter()->sendDirectRequest(
protPropTid_, protPropOid_, protPropType_, member, inArguments);
pop.clear();
}
void Bridge::makeReleaseCall(
OUString const & oid, css::uno::TypeDescription const & type)
{
//HACK to decouple the processing of release calls from all other threads. Normally, sending
// the release request should use the current thread's TID (via AttachThread), which would cause
// that asynchronous request to be processed by a physical thread that is paired with the
// physical thread processing the normal synchronous call stack (see ThreadIdHashMap in
// cppu/source/threadpool/threadpool.hxx). However, that can lead to deadlock when a thread
// illegally makes a synchronous UNO call with the SolarMutex locked (e.g.,
// SfxBaseModel::postEvent_Impl in sfx2/source/doc/sfxbasemodel.cxx doing documentEventOccurred
// and notifyEvent calls), and while that call is on the stack the remote side sends back some
// release request on the same logical UNO thread for an object that wants to acquire the
// SolarMutex in its destructor (e.g., SwXTextDocument in sw/inc/unotxdoc.hxx holding its
// m_pImpl via an sw::UnoImplPtr). While the correct approach would be to not make UNO calls
// with the SolarMutex (or any other mutex) locked, fixing that would probably be a heroic
// effort. So for now live with this hack, hoping that it does not introduce any new issues of
// its own:
static auto const tid = [] {
static sal_Int8 const id[] = {'r', 'e', 'l', 'e', 'a', 's', 'e', 'h', 'a', 'c', 'k'};
return rtl::ByteSequence(id, std::size(id));
}();
sendRequest(
tid, oid, type,
css::uno::TypeDescription("com.sun.star.uno.XInterface::release"),
std::vector< BinaryAny >());
}
void Bridge::sendRequest(
rtl::ByteSequence const & tid, OUString const & oid,
css::uno::TypeDescription const & type,
css::uno::TypeDescription const & member,
std::vector< BinaryAny >&& inArguments)
{
getWriter()->queueRequest(tid, oid, type, member, std::move(inArguments));
}
void Bridge::throwException(bool exception, BinaryAny const & value) {
if (exception) {
cppu::throwException(mapBinaryToCppAny(value));
}
}
css::uno::Any Bridge::mapBinaryToCppAny(BinaryAny const & binaryAny) {
BinaryAny in(binaryAny);
css::uno::Any out;
out.~Any();
uno_copyAndConvertData(
&out, &in.get(),
css::uno::TypeDescription(cppu::UnoType< css::uno::Any >::get()).get(),
binaryToCppMapping_.get());
return out;
}
bool Bridge::becameUnused() const {
return stubs_.empty() && proxies_ == 0 && calls_ == 0 && normalCall_;
}
void Bridge::terminateWhenUnused(bool unused) {
if (unused) {
// That the current thread considers the bridge unused implies that it
// is not within an incoming or outgoing remote call (so calling
// terminate cannot lead to deadlock):
terminate(false);
}
}
void Bridge::checkDisposed() {
assert(state_ != STATE_INITIAL);
if (state_ != STATE_STARTED) {
throw css::lang::DisposedException(
"Binary URP bridge already disposed",
static_cast< cppu::OWeakObject * >(this));
}
}
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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