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Atmosphere/stratosphere/libstratosphere/source/sf/hipc/sf_hipc_server_manager.cpp

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sf: implement service framework enough for ro to work. This completely re-does the whole interface for ipc servers.
2019-10-11 06:49:28 +00:00
/*
* Copyright (c) 2018-2019 Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <stratosphere.hpp>
namespace sts::sf::hipc {
ServerManagerBase::ServerBase::~ServerBase() { /* Pure virtual destructor, to prevent linker errors. */ }
void ServerManagerBase::RegisterSessionToWaitList(ServerSession *session) {
session->has_received = false;
/* Set user data tag. */
session->SetUserData(static_cast<uintptr_t>(UserDataTag::Session));
this->RegisterToWaitList(session);
}
void ServerManagerBase::RegisterToWaitList(os::WaitableHolder *holder) {
std::scoped_lock lk(this->waitlist_mutex);
this->waitlist.LinkWaitableHolder(holder);
this->notify_event.Signal();
}
void ServerManagerBase::ProcessWaitList() {
std::scoped_lock lk(this->waitlist_mutex);
this->waitable_manager.MoveAllFrom(&this->waitlist);
}
os::WaitableHolder *ServerManagerBase::WaitSignaled() {
std::scoped_lock lk(this->waitable_selection_mutex);
while (true) {
this->ProcessWaitList();
auto selected = this->waitable_manager.WaitAny();
if (selected == &this->request_stop_event_holder) {
return nullptr;
} else if (selected == &this->notify_event_holder) {
this->notify_event.Reset();
} else {
selected->UnlinkFromWaitableManager();
return selected;
}
}
}
void ServerManagerBase::ResumeProcessing() {
this->request_stop_event.Reset();
}
void ServerManagerBase::RequestStopProcessing() {
this->request_stop_event.Signal();
}
void ServerManagerBase::AddUserWaitableHolder(os::WaitableHolder *waitable) {
const auto user_data_tag = static_cast<UserDataTag>(waitable->GetUserData());
STS_ASSERT(user_data_tag != UserDataTag::Server);
STS_ASSERT(user_data_tag != UserDataTag::MitmServer);
STS_ASSERT(user_data_tag != UserDataTag::Session);
this->RegisterToWaitList(waitable);
}
Result ServerManagerBase::ProcessForServer(os::WaitableHolder *holder) {
STS_ASSERT(static_cast<UserDataTag>(holder->GetUserData()) == UserDataTag::Server);
ServerBase *server = static_cast<ServerBase *>(holder);
ON_SCOPE_EXIT { this->RegisterToWaitList(server); };
/* Create resources for new session. */
cmif::ServiceObjectHolder obj;
std::shared_ptr<::Service> fsrv;
server->CreateSessionObjectHolder(&obj, &fsrv);
/* Not a mitm server, so we must have no forward service. */
STS_ASSERT(fsrv == nullptr);
/* Try to accept. */
return this->AcceptSession(server->port_handle, std::move(obj));
}
Result ServerManagerBase::ProcessForMitmServer(os::WaitableHolder *holder) {
STS_ASSERT(static_cast<UserDataTag>(holder->GetUserData()) == UserDataTag::MitmServer);
ServerBase *server = static_cast<ServerBase *>(holder);
ON_SCOPE_EXIT { this->RegisterToWaitList(server); };
/* Create resources for new session. */
cmif::ServiceObjectHolder obj;
std::shared_ptr<::Service> fsrv;
server->CreateSessionObjectHolder(&obj, &fsrv);
/* Mitm server, so we must have forward service. */
STS_ASSERT(fsrv != nullptr);
/* Try to accept. */
return this->AcceptMitmSession(server->port_handle, std::move(obj), std::move(fsrv));
}
Result ServerManagerBase::ProcessForSession(os::WaitableHolder *holder) {
STS_ASSERT(static_cast<UserDataTag>(holder->GetUserData()) == UserDataTag::Session);
ServerSession *session = static_cast<ServerSession *>(holder);
cmif::PointerAndSize tls_message(armGetTls(), hipc::TlsMessageBufferSize);
const cmif::PointerAndSize &saved_message = session->saved_message;
STS_ASSERT(tls_message.GetSize() == saved_message.GetSize());
if (!session->has_received) {
R_TRY(this->ReceiveRequest(session, tls_message));
session->has_received = true;
std::memcpy(saved_message.GetPointer(), tls_message.GetPointer(), tls_message.GetSize());
} else {
/* We were deferred and are re-receiving, so just memcpy. */
std::memcpy(tls_message.GetPointer(), saved_message.GetPointer(), tls_message.GetSize());
}
return this->ProcessRequest(session, tls_message);
}
Result ServerManagerBase::Process(os::WaitableHolder *holder) {
switch (static_cast<UserDataTag>(holder->GetUserData())) {
case UserDataTag::Server:
return this->ProcessForServer(holder);
break;
case UserDataTag::MitmServer:
return this->ProcessForMitmServer(holder);
break;
case UserDataTag::Session:
/* TODO: Process deferred. */
return this->ProcessForSession(holder);
break;
STS_UNREACHABLE_DEFAULT_CASE();
}
}
bool ServerManagerBase::WaitAndProcessImpl() {
auto waitable = this->WaitSignaled();
if (!waitable) {
return false;
}
R_ASSERT(this->Process(waitable));
return true;
}
void ServerManagerBase::WaitAndProcess() {
this->WaitAndProcessImpl();
}
void ServerManagerBase::LoopProcess() {
while (this->WaitAndProcessImpl()) {
/* ... */
}
}
}
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