//===-- Broadcaster.cpp ---------------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "lldb/Utility/Broadcaster.h" #include "lldb/Utility/Event.h" #include "lldb/Utility/LLDBLog.h" #include "lldb/Utility/Listener.h" #include "lldb/Utility/Stream.h" #include "lldb/Utility/StreamString.h" #include #include #include #include #include using namespace lldb; using namespace lldb_private; Broadcaster::Broadcaster(BroadcasterManagerSP manager_sp, std::string name) : m_broadcaster_sp(std::make_shared(*this)), m_manager_sp(std::move(manager_sp)), m_broadcaster_name(std::move(name)) { Log *log = GetLog(LLDBLog::Object); LLDB_LOG(log, "{0} Broadcaster::Broadcaster(\"{1}\")", static_cast(this), GetBroadcasterName()); } Broadcaster::BroadcasterImpl::BroadcasterImpl(Broadcaster &broadcaster) : m_broadcaster(broadcaster), m_listeners(), m_listeners_mutex(), m_hijacking_listeners(), m_hijacking_masks() {} Broadcaster::~Broadcaster() { Log *log = GetLog(LLDBLog::Object); LLDB_LOG(log, "{0} Broadcaster::~Broadcaster(\"{1}\")", static_cast(this), GetBroadcasterName()); Clear(); } void Broadcaster::CheckInWithManager() { if (m_manager_sp) { m_manager_sp->SignUpListenersForBroadcaster(*this); } } llvm::SmallVector, 4> Broadcaster::BroadcasterImpl::GetListeners(uint32_t event_mask, bool include_primary) { llvm::SmallVector, 4> listeners; size_t max_count = m_listeners.size(); if (include_primary) max_count++; listeners.reserve(max_count); for (auto it = m_listeners.begin(); it != m_listeners.end();) { lldb::ListenerSP curr_listener_sp(it->first.lock()); if (curr_listener_sp) { if (it->second & event_mask) listeners.emplace_back(std::move(curr_listener_sp), it->second); ++it; } else // If our listener_wp didn't resolve, then we should remove this entry. it = m_listeners.erase(it); } if (include_primary && m_primary_listener_sp) listeners.emplace_back(m_primary_listener_sp, m_primary_listener_mask); return listeners; } bool Broadcaster::BroadcasterImpl::HasListeners(uint32_t event_mask) { if (m_primary_listener_sp) return true; for (auto it = m_listeners.begin(); it != m_listeners.end(); it++) { // Don't return a listener if the other end of the WP is gone: lldb::ListenerSP curr_listener_sp(it->first.lock()); if (curr_listener_sp && (it->second & event_mask)) return true; } return false; } void Broadcaster::BroadcasterImpl::Clear() { std::lock_guard guard(m_listeners_mutex); // Make sure the listener forgets about this broadcaster. We do this in the // broadcaster in case the broadcaster object initiates the removal. for (auto &pair : GetListeners()) pair.first->BroadcasterWillDestruct(&m_broadcaster); m_listeners.clear(); m_primary_listener_sp.reset(); } Broadcaster *Broadcaster::BroadcasterImpl::GetBroadcaster() { return &m_broadcaster; } bool Broadcaster::BroadcasterImpl::GetEventNames( Stream &s, uint32_t event_mask, bool prefix_with_broadcaster_name) const { uint32_t num_names_added = 0; if (event_mask && !m_event_names.empty()) { event_names_map::const_iterator end = m_event_names.end(); for (uint32_t bit = 1u, mask = event_mask; mask != 0 && bit != 0; bit <<= 1, mask >>= 1) { if (mask & 1) { event_names_map::const_iterator pos = m_event_names.find(bit); if (pos != end) { if (num_names_added > 0) s.PutCString(", "); if (prefix_with_broadcaster_name) { s.PutCString(GetBroadcasterName()); s.PutChar('.'); } s.PutCString(pos->second); ++num_names_added; } } } } return num_names_added > 0; } void Broadcaster::AddInitialEventsToListener( const lldb::ListenerSP &listener_sp, uint32_t requested_events) {} uint32_t Broadcaster::BroadcasterImpl::AddListener(const lldb::ListenerSP &listener_sp, uint32_t event_mask) { if (!listener_sp) return 0; std::lock_guard guard(m_listeners_mutex); // See if we already have this listener, and if so, update its mask bool handled = false; if (listener_sp == m_primary_listener_sp) // This already handles all bits so just return the mask: return event_mask; for (auto &pair : GetListeners(UINT32_MAX, false)) { if (pair.first == listener_sp) { handled = true; pair.second |= event_mask; m_broadcaster.AddInitialEventsToListener(listener_sp, event_mask); break; } } if (!handled) { // Grant a new listener the available event bits m_listeners.push_back( std::make_pair(lldb::ListenerWP(listener_sp), event_mask)); // Individual broadcasters decide whether they have outstanding data when a // listener attaches, and insert it into the listener with this method. m_broadcaster.AddInitialEventsToListener(listener_sp, event_mask); } // Return the event bits that were granted to the listener return event_mask; } bool Broadcaster::BroadcasterImpl::EventTypeHasListeners(uint32_t event_type) { std::lock_guard guard(m_listeners_mutex); if (!m_hijacking_listeners.empty() && event_type & m_hijacking_masks.back()) return true; // The primary listener listens for all event bits: if (m_primary_listener_sp) return true; return HasListeners(event_type); } bool Broadcaster::BroadcasterImpl::RemoveListener( lldb_private::Listener *listener, uint32_t event_mask) { if (!listener) return false; if (listener == m_primary_listener_sp.get()) { // Primary listeners listen for all the event bits for their broadcaster, // so remove this altogether if asked: m_primary_listener_sp.reset(); return true; } std::lock_guard guard(m_listeners_mutex); for (auto it = m_listeners.begin(); it != m_listeners.end();) { lldb::ListenerSP curr_listener_sp(it->first.lock()); if (!curr_listener_sp) { // The weak pointer for this listener didn't resolve, lets' prune it // as we go. it = m_listeners.erase(it); continue; } if (curr_listener_sp.get() == listener) { it->second &= ~event_mask; // If we removed all the event bits from a listener, remove it from // the list as well. if (!it->second) m_listeners.erase(it); return true; } it++; } return false; } bool Broadcaster::BroadcasterImpl::RemoveListener( const lldb::ListenerSP &listener_sp, uint32_t event_mask) { return RemoveListener(listener_sp.get(), event_mask); } void Broadcaster::BroadcasterImpl::BroadcastEvent(EventSP &event_sp) { return PrivateBroadcastEvent(event_sp, false); } void Broadcaster::BroadcasterImpl::BroadcastEventIfUnique(EventSP &event_sp) { return PrivateBroadcastEvent(event_sp, true); } void Broadcaster::BroadcasterImpl::PrivateBroadcastEvent(EventSP &event_sp, bool unique) { // Can't add a nullptr event... if (!event_sp) return; // Update the broadcaster on this event event_sp->SetBroadcaster(&m_broadcaster); const uint32_t event_type = event_sp->GetType(); std::lock_guard guard(m_listeners_mutex); ListenerSP hijacking_listener_sp; if (!m_hijacking_listeners.empty()) { assert(!m_hijacking_masks.empty()); hijacking_listener_sp = m_hijacking_listeners.back(); if ((event_type & m_hijacking_masks.back()) == 0) hijacking_listener_sp.reset(); } Log *log = GetLog(LLDBLog::Events); if (!log && event_sp->GetData()) log = event_sp->GetData()->GetLogChannel(); if (log) { StreamString event_description; event_sp->Dump(&event_description); LLDB_LOG(log, "{0:x} Broadcaster(\"{1}\")::BroadcastEvent (event_sp = {2}, " "unique={3}) hijack = {4:x}", static_cast(this), GetBroadcasterName(), event_description.GetData(), unique, static_cast(hijacking_listener_sp.get())); } ListenerSP primary_listener_sp = hijacking_listener_sp ? hijacking_listener_sp : m_primary_listener_sp; if (primary_listener_sp) { if (unique && primary_listener_sp->PeekAtNextEventForBroadcasterWithType( &m_broadcaster, event_type)) return; // Add the pending listeners but not if the event is hijacked, since that // is given sole access to the event stream it is hijacking. // Make sure to do this before adding the event to the primary or it might // start handling the event before we're done adding all the pending // listeners. // Also, don't redo the check for unique here, since otherwise that could // be racy, and if we send the event to the primary listener then we SHOULD // send it to the secondary listeners or they will get out of sync with the // primary listener. if (!hijacking_listener_sp) { for (auto &pair : GetListeners(event_type, false)) event_sp->AddPendingListener(pair.first); } primary_listener_sp->AddEvent(event_sp); } else { for (auto &pair : GetListeners(event_type)) { if (unique && pair.first->PeekAtNextEventForBroadcasterWithType( &m_broadcaster, event_type)) continue; pair.first->AddEvent(event_sp); } } } void Broadcaster::BroadcasterImpl::BroadcastEvent(uint32_t event_type) { auto event_sp = std::make_shared(event_type, /*data = */ nullptr); PrivateBroadcastEvent(event_sp, false); } void Broadcaster::BroadcasterImpl::BroadcastEvent( uint32_t event_type, const lldb::EventDataSP &event_data_sp) { auto event_sp = std::make_shared(event_type, event_data_sp); PrivateBroadcastEvent(event_sp, false); } void Broadcaster::BroadcasterImpl::BroadcastEventIfUnique(uint32_t event_type) { auto event_sp = std::make_shared(event_type, /*data = */ nullptr); PrivateBroadcastEvent(event_sp, true); } void Broadcaster::BroadcasterImpl::SetPrimaryListener(lldb::ListenerSP listener_sp) { // This might have already been added as a normal listener, make sure we // don't hold two copies. RemoveListener(listener_sp.get(), UINT32_MAX); m_primary_listener_sp = listener_sp; } bool Broadcaster::BroadcasterImpl::HijackBroadcaster( const lldb::ListenerSP &listener_sp, uint32_t event_mask) { std::lock_guard guard(m_listeners_mutex); Log *log = GetLog(LLDBLog::Events); LLDB_LOG( log, "{0} Broadcaster(\"{1}\")::HijackBroadcaster (listener(\"{2}\")={3})", static_cast(this), GetBroadcasterName(), listener_sp->m_name.c_str(), static_cast(listener_sp.get())); m_hijacking_listeners.push_back(listener_sp); m_hijacking_masks.push_back(event_mask); return true; } bool Broadcaster::BroadcasterImpl::IsHijackedForEvent(uint32_t event_mask) { std::lock_guard guard(m_listeners_mutex); if (!m_hijacking_listeners.empty()) return (event_mask & m_hijacking_masks.back()) != 0; return false; } const char *Broadcaster::BroadcasterImpl::GetHijackingListenerName() { if (m_hijacking_listeners.size()) { return m_hijacking_listeners.back()->GetName(); } return nullptr; } void Broadcaster::BroadcasterImpl::RestoreBroadcaster() { std::lock_guard guard(m_listeners_mutex); if (!m_hijacking_listeners.empty()) { ListenerSP listener_sp = m_hijacking_listeners.back(); Log *log = GetLog(LLDBLog::Events); LLDB_LOG(log, "{0} Broadcaster(\"{1}\")::RestoreBroadcaster (about to pop " "listener(\"{2}\")={3})", static_cast(this), GetBroadcasterName(), listener_sp->m_name.c_str(), static_cast(listener_sp.get())); m_hijacking_listeners.pop_back(); } if (!m_hijacking_masks.empty()) m_hijacking_masks.pop_back(); } llvm::StringRef Broadcaster::GetBroadcasterClass() const { static constexpr llvm::StringLiteral class_name("lldb.anonymous"); return class_name; } bool BroadcastEventSpec::operator<(const BroadcastEventSpec &rhs) const { if (GetBroadcasterClass() == rhs.GetBroadcasterClass()) { return GetEventBits() < rhs.GetEventBits(); } return GetBroadcasterClass() < rhs.GetBroadcasterClass(); } BroadcasterManager::BroadcasterManager() : m_manager_mutex() {} lldb::BroadcasterManagerSP BroadcasterManager::MakeBroadcasterManager() { return lldb::BroadcasterManagerSP(new BroadcasterManager()); } uint32_t BroadcasterManager::RegisterListenerForEventsNoLock( const lldb::ListenerSP &listener_sp, const BroadcastEventSpec &event_spec) { collection::iterator iter = m_event_map.begin(), end_iter = m_event_map.end(); uint32_t available_bits = event_spec.GetEventBits(); auto class_matches = [&event_spec](const event_listener_key &input) -> bool { return input.first.GetBroadcasterClass() == event_spec.GetBroadcasterClass(); }; while (iter != end_iter && (iter = find_if(iter, end_iter, class_matches)) != end_iter) { available_bits &= ~((*iter).first.GetEventBits()); iter++; } if (available_bits != 0) { m_event_map.insert(event_listener_key( BroadcastEventSpec(event_spec.GetBroadcasterClass(), available_bits), listener_sp)); m_listeners.insert(listener_sp); } return available_bits; } bool BroadcasterManager::UnregisterListenerForEventsNoLock( const lldb::ListenerSP &listener_sp, const BroadcastEventSpec &event_spec) { bool removed_some = false; if (m_listeners.erase(listener_sp) == 0) return false; auto listener_matches_and_shared_bits = [&listener_sp, &event_spec](const event_listener_key &input) -> bool { return input.first.GetBroadcasterClass() == event_spec.GetBroadcasterClass() && (input.first.GetEventBits() & event_spec.GetEventBits()) != 0 && input.second == listener_sp; }; std::vector to_be_readded; uint32_t event_bits_to_remove = event_spec.GetEventBits(); // Go through the map and delete the exact matches, and build a list of // matches that weren't exact to re-add: for (auto iter = m_event_map.begin(), end = m_event_map.end();;) { iter = find_if(iter, end, listener_matches_and_shared_bits); if (iter == end) break; uint32_t iter_event_bits = (*iter).first.GetEventBits(); removed_some = true; if (event_bits_to_remove != iter_event_bits) { uint32_t new_event_bits = iter_event_bits & ~event_bits_to_remove; to_be_readded.emplace_back(event_spec.GetBroadcasterClass(), new_event_bits); } iter = m_event_map.erase(iter); } // Okay now add back the bits that weren't completely removed: for (const auto &event : to_be_readded) { m_event_map.insert(event_listener_key(event, listener_sp)); } return removed_some; } ListenerSP BroadcasterManager::GetListenerForEventSpec( const BroadcastEventSpec &event_spec) const { std::lock_guard guard(m_manager_mutex); auto event_spec_matches = [&event_spec](const event_listener_key &input) -> bool { return input.first.IsContainedIn(event_spec); }; auto iter = llvm::find_if(m_event_map, event_spec_matches); if (iter != m_event_map.end()) return (*iter).second; return nullptr; } void BroadcasterManager::RemoveListener(Listener *listener) { std::lock_guard guard(m_manager_mutex); auto listeners_predicate = [&listener](const lldb::ListenerSP &input) -> bool { return input.get() == listener; }; if (auto iter = llvm::find_if(m_listeners, listeners_predicate); iter != m_listeners.end()) m_listeners.erase(iter); auto events_predicate = [listener](const event_listener_key &input) -> bool { return input.second.get() == listener; }; // TODO: use 'std::map::erase_if' when moving to c++20. for (auto iter = m_event_map.begin(), end = m_event_map.end();;) { iter = find_if(iter, end, events_predicate); if (iter == end) break; iter = m_event_map.erase(iter); } } void BroadcasterManager::RemoveListener(const lldb::ListenerSP &listener_sp) { std::lock_guard guard(m_manager_mutex); auto listener_matches = [&listener_sp](const event_listener_key &input) -> bool { return input.second == listener_sp; }; if (m_listeners.erase(listener_sp) == 0) return; // TODO: use 'std::map::erase_if' when moving to c++20. for (auto iter = m_event_map.begin(), end_iter = m_event_map.end();;) { iter = find_if(iter, end_iter, listener_matches); if (iter == end_iter) break; iter = m_event_map.erase(iter); } } void BroadcasterManager::SignUpListenersForBroadcaster( Broadcaster &broadcaster) { std::lock_guard guard(m_manager_mutex); collection::iterator iter = m_event_map.begin(), end_iter = m_event_map.end(); auto class_matches = [&broadcaster](const event_listener_key &input) -> bool { return input.first.GetBroadcasterClass() == broadcaster.GetBroadcasterClass(); }; while (iter != end_iter && (iter = find_if(iter, end_iter, class_matches)) != end_iter) { (*iter).second->StartListeningForEvents(&broadcaster, (*iter).first.GetEventBits()); iter++; } } void BroadcasterManager::Clear() { std::lock_guard guard(m_manager_mutex); for (auto &listener : m_listeners) listener->BroadcasterManagerWillDestruct(this->shared_from_this()); m_listeners.clear(); m_event_map.clear(); }