Attempt to make the monarch more thread safe. (#11189)
<!-- Enter a brief description/summary of your PR here. What does it fix/what does it change/how was it tested (even manually, if necessary)? --> ## Summary of the Pull Request <!-- Other than the issue solved, is this relevant to any other issues/existing PRs? --> ## References #11083 #11143 <!-- Please review the items on the PR checklist before submitting--> ## PR Checklist * [ ] Closes #xxx * [x] CLA signed. If not, go over [here](https://cla.opensource.microsoft.com/microsoft/Terminal) and sign the CLA * [x] Tests added/passed * [ ] Documentation updated. If checked, please file a pull request on [our docs repo](https://github.com/MicrosoftDocs/terminal) and link it here: #xxx * [ ] Schema updated. * [ ] I've discussed this with core contributors already. If not checked, I'm ready to accept this work might be rejected in favor of a different grand plan. Issue number where discussion took place: #xxx <!-- Provide a more detailed description of the PR, other things fixed or any additional comments/features here --> ## Detailed Description of the Pull Request / Additional comments While testing the save/quit features a number of issues were found that were caused by poor synchronization on the monarch, resulting in various unexpected crashes. Because this uses std collections, and I didn't see any builtin winrt multithreaded containers I went with the somewhat heavy-handed mutex approach. e.g. - https://github.com/microsoft/terminal/pull/11083#issuecomment-916218353 - https://github.com/microsoft/terminal/pull/11083#issuecomment-916220521 - https://github.com/microsoft/terminal/pull/11143/#discussion_r704738433 This also makes it so that on quit peasants don't try to become the monarch, and the monarch closes their peasant last to prevent elections from happening. <!-- Describe how you validated the behavior. Add automated tests wherever possible, but list manual validation steps taken as well --> ## Validation Steps Performed Create many windows (hold down ctrl-shift-n) then use the quit action from peasants/the monarch to make sure everything closes properly.
This commit is contained in:
parent
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591a67111e
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@ -50,6 +50,7 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
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// - Add the given peasant to the list of peasants we're tracking. This
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// Peasant may have already been assigned an ID. If it hasn't, then give
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// it an ID.
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// - NB: this takes a unique_lock on _peasantsMutex.
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// Arguments:
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// - peasant: the new Peasant to track.
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// Return Value:
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@ -71,10 +72,24 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
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{
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// Peasant already had an ID (from an older monarch). Leave that one
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// be. Make sure that the next peasant's ID is higher than it.
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_nextPeasantID = providedID >= _nextPeasantID ? providedID + 1 : _nextPeasantID;
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// If multiple peasants are added concurrently we keep trying to update
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// until we get to set the new id.
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uint64_t current;
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do
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{
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current = _nextPeasantID.load(std::memory_order_relaxed);
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} while (current <= providedID && !_nextPeasantID.compare_exchange_weak(current, providedID + 1, std::memory_order_relaxed));
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}
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auto newPeasantsId = peasant.GetID();
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// Keep track of which peasant we are
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// SAFETY: this is only true for one peasant, and each peasant
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// is only added to a monarch once, so we do not need synchronization here.
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if (peasant.GetPID() == _ourPID)
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{
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_ourPeasantId = newPeasantsId;
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}
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// Add an event listener to the peasant's WindowActivated event.
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peasant.WindowActivated({ this, &Monarch::_peasantWindowActivated });
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peasant.IdentifyWindowsRequested({ this, &Monarch::_identifyWindows });
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@ -84,7 +99,10 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
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peasant.HideNotificationIconRequested([this](auto&&, auto&&) { _HideNotificationIconRequestedHandlers(*this, nullptr); });
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peasant.QuitAllRequested({ this, &Monarch::_handleQuitAll });
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{
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std::unique_lock lock{ _peasantsMutex };
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_peasants[newPeasantsId] = peasant;
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}
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TraceLoggingWrite(g_hRemotingProvider,
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"Monarch_AddPeasant",
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@ -124,9 +142,15 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
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// closing all windows.
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_QuitAllRequestedHandlers(*this, nullptr);
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_quitting.store(true);
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// Tell all peasants to exit.
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const auto callback = [&](const auto& /*id*/, const auto& p) {
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const auto callback = [&](const auto& id, const auto& p) {
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// We want to tell our peasant to quit last, so that we don't try
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// to perform a bunch of elections on quit.
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if (id != _ourPeasantId)
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{
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p.Quit();
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}
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};
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const auto onError = [&](const auto& id) {
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TraceLoggingWrite(g_hRemotingProvider,
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@ -137,18 +161,46 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
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};
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_forEachPeasant(callback, onError);
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{
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std::shared_lock lock{ _peasantsMutex };
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const auto peasantSearch = _peasants.find(_ourPeasantId);
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if (peasantSearch != _peasants.end())
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{
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peasantSearch->second.Quit();
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}
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else
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{
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// Somehow we don't have our own peasant, this should never happen.
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// We are trying to quit anyways so just fail here.
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assert(peasantSearch != _peasants.end());
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}
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}
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}
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// Method Description:
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// - Tells the monarch that a peasant is being closed.
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// - NB: this (separately) takes unique locks on _peasantsMutex and
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// _mruPeasantsMutex.
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// Arguments:
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// - peasantId: the id of the peasant
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// Return Value:
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// - <none>
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void Monarch::SignalClose(const uint64_t peasantId)
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{
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_clearOldMruEntries(peasantId);
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// If we are quitting we don't care about maintaining our list of
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// peasants anymore, and don't need to notify the host that something
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// changed.
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if (_quitting.load(std::memory_order_acquire))
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{
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return;
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}
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_clearOldMruEntries({ peasantId });
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{
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std::unique_lock lock{ _peasantsMutex };
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_peasants.erase(peasantId);
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}
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_WindowClosedHandlers(nullptr, nullptr);
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}
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@ -160,23 +212,8 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
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// - the number of active peasants.
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uint64_t Monarch::GetNumberOfPeasants()
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{
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auto num = 0;
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auto callback = [&](const auto& /*id*/, const auto& p) {
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// Check that the peasant is alive, and if so increment the count
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p.GetID();
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num += 1;
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};
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auto onError = [](const auto& id) {
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TraceLoggingWrite(g_hRemotingProvider,
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"Monarch_GetNumberOfPeasants_Failed",
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TraceLoggingInt64(id, "peasantID", "The ID of the peasant which we could not enumerate"),
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TraceLoggingLevel(WINEVENT_LEVEL_VERBOSE),
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TraceLoggingKeyword(TIL_KEYWORD_TRACE));
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};
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_forEachPeasant(callback, onError);
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return num;
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std::shared_lock lock{ _peasantsMutex };
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return _peasants.size();
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}
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// Method Description:
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@ -197,16 +234,25 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
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// Method Description:
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// - Lookup a peasant by its ID. If the peasant has died, this will also
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// remove the peasant from our list of peasants.
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// - NB: this (separately) takes unique locks on _peasantsMutex and
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// _mruPeasantsMutex.
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// Arguments:
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// - peasantID: The ID Of the peasant to find
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// - clearMruPeasantOnFailure: When true this function will handle clearing
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// from _mruPeasants if a peasant was not found, otherwise the caller is
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// expected to handle that cleanup themselves.
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// Return Value:
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// - the peasant if it exists in our map, otherwise null
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Remoting::IPeasant Monarch::_getPeasant(uint64_t peasantID)
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Remoting::IPeasant Monarch::_getPeasant(uint64_t peasantID, bool clearMruPeasantOnFailure)
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{
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try
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{
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IPeasant maybeThePeasant = nullptr;
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{
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std::shared_lock lock{ _peasantsMutex };
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const auto peasantSearch = _peasants.find(peasantID);
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auto maybeThePeasant = peasantSearch == _peasants.end() ? nullptr : peasantSearch->second;
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maybeThePeasant = peasantSearch == _peasants.end() ? nullptr : peasantSearch->second;
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}
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// Ask the peasant for their PID. This will validate that they're
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// actually still alive.
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if (maybeThePeasant)
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catch (...)
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{
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LOG_CAUGHT_EXCEPTION();
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// Remove the peasant from the list of peasants
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_peasants.erase(peasantID);
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// Remove the peasant from the list of peasants
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{
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std::unique_lock lock{ _peasantsMutex };
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_peasants.erase(peasantID);
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}
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if (clearMruPeasantOnFailure)
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{
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// Remove the peasant from the list of MRU windows. They're dead.
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// They can't be the MRU anymore.
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_clearOldMruEntries(peasantID);
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_clearOldMruEntries({ peasantID });
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}
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return nullptr;
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}
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}
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@ -244,39 +297,27 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
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return 0;
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}
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std::vector<uint64_t> peasantsToErase{};
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uint64_t result = 0;
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for (const auto& [id, p] : _peasants)
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{
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try
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{
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const auto callback = [&](const auto& id, const auto& p) {
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auto otherName = p.WindowName();
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if (otherName == name)
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{
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result = id;
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break;
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}
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}
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catch (...)
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{
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LOG_CAUGHT_EXCEPTION();
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// Normally, we'd just erase the peasant here. However, we can't
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// erase from the map while we're iterating over it like this.
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// Instead, pull a good ole Java and collect this id for removal
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// later.
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peasantsToErase.push_back(id);
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}
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return false;
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}
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return true;
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};
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// Remove the dead peasants we came across while iterating.
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for (const auto& id : peasantsToErase)
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{
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// Remove the peasant from the list of peasants
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_peasants.erase(id);
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// Remove the peasant from the list of MRU windows. They're dead.
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// They can't be the MRU anymore.
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_clearOldMruEntries(id);
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}
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const auto onError = [&](const auto& id) {
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TraceLoggingWrite(g_hRemotingProvider,
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"Monarch_lookupPeasantIdForName_Failed",
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TraceLoggingInt64(id, "peasantID", "The ID of the peasant which we could not get the name of"),
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TraceLoggingLevel(WINEVENT_LEVEL_VERBOSE),
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TraceLoggingKeyword(TIL_KEYWORD_TRACE));
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};
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_forEachPeasant(callback, onError);
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TraceLoggingWrite(g_hRemotingProvider,
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"Monarch_lookupPeasantIdForName",
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// - Helper for removing a peasant from the list of MRU peasants. We want to
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// do this both when the peasant dies, and also when the peasant is newly
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// activated (so that we don't leave an old entry for it in the list).
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// - NB: This takes a unique lock on _mruPeasantsMutex.
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// Arguments:
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// - peasantID: The ID of the peasant to remove from the MRU list
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// - peasantIds: The list of peasant IDs to remove from the MRU list
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// Return Value:
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// - <none>
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void Monarch::_clearOldMruEntries(const uint64_t peasantID)
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void Monarch::_clearOldMruEntries(const std::unordered_set<uint64_t>& peasantIds)
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{
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auto result = std::find_if(_mruPeasants.begin(),
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_mruPeasants.end(),
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[peasantID](auto&& other) {
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return peasantID == other.PeasantID();
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});
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if (peasantIds.size() == 0)
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{
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return;
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}
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if (result != std::end(_mruPeasants))
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std::unique_lock lock{ _mruPeasantsMutex };
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auto partition = std::remove_if(_mruPeasants.begin(), _mruPeasants.end(), [&](const auto& p) {
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const auto id = p.PeasantID();
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// remove the element if it was found in the list to erase.
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if (peasantIds.count(id) == 1)
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{
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TraceLoggingWrite(g_hRemotingProvider,
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"Monarch_RemovedPeasantFromDesktop",
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TraceLoggingUInt64(peasantID, "peasantID", "The ID of the peasant"),
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TraceLoggingGuid(result->DesktopID(), "desktopGuid", "The GUID of the previous desktop the window was on"),
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TraceLoggingUInt64(id, "peasantID", "The ID of the peasant"),
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TraceLoggingGuid(p.DesktopID(), "desktopGuid", "The GUID of the previous desktop the window was on"),
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TraceLoggingLevel(WINEVENT_LEVEL_VERBOSE),
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TraceLoggingKeyword(TIL_KEYWORD_TRACE));
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_mruPeasants.erase(result);
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return true;
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}
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return false;
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});
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// Remove everything that was in the list
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_mruPeasants.erase(partition, _mruPeasants.end());
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}
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// Method Description:
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// - Actually handle inserting the WindowActivatedArgs into our list of MRU windows.
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// - NB: this takes a unique_lock on _mruPeasantsMutex.
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// Arguments:
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// - localArgs: an in-proc WindowActivatedArgs that we should add to our list of MRU windows.
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// Return Value:
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@ -365,11 +415,13 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
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// * Check all the current lists to look for this peasant.
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// remove it from any where it exists.
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_clearOldMruEntries(localArgs->PeasantID());
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_clearOldMruEntries({ localArgs->PeasantID() });
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// * If the current desktop doesn't have a vector, add one.
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const auto desktopGuid{ localArgs->DesktopID() };
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{
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std::unique_lock lock{ _mruPeasantsMutex };
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// * Add this args list. By using lower_bound with insert, we can get it
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// into exactly the right spot, without having to re-sort the whole
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// array.
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@ -378,6 +430,7 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
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*localArgs,
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[](const auto& first, const auto& second) { return first.ActivatedTime() > second.ActivatedTime(); }),
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*localArgs);
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}
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TraceLoggingWrite(g_hRemotingProvider,
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"Monarch_SetMostRecentPeasant",
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@ -391,6 +444,9 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
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// Method Description:
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// - Retrieves the ID of the MRU peasant window. If requested, will limit
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// the search to windows that are on the current desktop.
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// - NB: This method will hold a shared lock on _mruPeasantsMutex and
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// potentially a unique_lock on _peasantsMutex at the same time.
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// Separately it might hold a unique_lock on _mruPeasantsMutex.
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// Arguments:
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// - limitToCurrentDesktop: if true, only return the MRU peasant that's
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// actually on the current desktop.
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@ -403,8 +459,13 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
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// - the ID of the most recent peasant, otherwise 0 if we could not find one.
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uint64_t Monarch::_getMostRecentPeasantID(const bool limitToCurrentDesktop, const bool ignoreQuakeWindow)
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{
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std::shared_lock lock{ _mruPeasantsMutex };
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if (_mruPeasants.empty())
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{
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// unlock the mruPeasants mutex to make sure we can't deadlock here.
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lock.unlock();
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// Only need a shared lock for read
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std::shared_lock peasantsLock{ _peasantsMutex };
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// We haven't yet been told the MRU peasant. Just use the first one.
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// This is just gonna be a random one, but really shouldn't happen
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// in practice. The WindowManager should set the MRU peasant
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@ -445,15 +506,17 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
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// - If it isn't on the current desktop, we'll loop again, on the
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// following peasant.
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// * If we don't care, then we'll just return that one.
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//
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// We're not just using an iterator because the contents of the list
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// might change while we're iterating here (if the peasant is dead we'll
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// remove it from the list).
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int positionInList = 0;
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while (_mruPeasants.cbegin() + positionInList < _mruPeasants.cend())
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uint64_t result = 0;
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std::unordered_set<uint64_t> peasantsToErase{};
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for (const auto& mruWindowArgs : _mruPeasants)
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{
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const auto mruWindowArgs{ *(_mruPeasants.begin() + positionInList) };
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const auto peasant{ _getPeasant(mruWindowArgs.PeasantID()) };
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// Try to get the peasant, but do not have _getPeasant clean up old
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// _mruPeasants because we are iterating here.
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// SAFETY: _getPeasant can take a unique_lock on _peasantsMutex if
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// it detects a peasant is dead. Currently _getMostRecentPeasantId
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// is the only method that holds a lock on both _mruPeasantsMutex and
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// _peasantsMutex at the same time so there cannot be a deadlock here.
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const auto peasant{ _getPeasant(mruWindowArgs.PeasantID(), false) };
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if (!peasant)
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{
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TraceLoggingWrite(g_hRemotingProvider,
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@ -467,6 +530,7 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
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// We'll go through the loop again. We removed the current one
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// at positionInList, so the next one in positionInList will be
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// a new, different peasant.
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peasantsToErase.emplace(mruWindowArgs.PeasantID());
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continue;
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}
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@ -504,7 +568,8 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
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"true if this window was in fact on the current desktop"),
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TraceLoggingLevel(WINEVENT_LEVEL_VERBOSE),
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TraceLoggingKeyword(TIL_KEYWORD_TRACE));
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return mruWindowArgs.PeasantID();
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result = mruWindowArgs.PeasantID();
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break;
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}
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// If this window wasn't on the current desktop, another one
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// might be. We'll increment positionInList below, and try
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@ -518,11 +583,20 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
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TraceLoggingLevel(WINEVENT_LEVEL_VERBOSE),
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TraceLoggingKeyword(TIL_KEYWORD_TRACE));
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return mruWindowArgs.PeasantID();
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result = mruWindowArgs.PeasantID();
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break;
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}
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positionInList++;
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}
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lock.unlock();
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if (peasantsToErase.size() > 0)
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{
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_clearOldMruEntries(peasantsToErase);
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}
|
||||
|
||||
if (result == 0)
|
||||
{
|
||||
// Here, we've checked all the windows, and none of them was both alive
|
||||
// and the most recent (on this desktop). Just return 0 - the caller
|
||||
// will use this to create a new window.
|
||||
|
@ -530,8 +604,9 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
|
|||
"Monarch_getMostRecentPeasantID_NotFound",
|
||||
TraceLoggingLevel(WINEVENT_LEVEL_VERBOSE),
|
||||
TraceLoggingKeyword(TIL_KEYWORD_TRACE));
|
||||
}
|
||||
|
||||
return 0;
|
||||
return result;
|
||||
}
|
||||
|
||||
// Method Description:
|
||||
|
@ -855,7 +930,10 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
|
|||
Windows::Foundation::Collections::IVectorView<PeasantInfo> Monarch::GetPeasantInfos()
|
||||
{
|
||||
std::vector<PeasantInfo> names;
|
||||
{
|
||||
std::shared_lock lock{ _peasantsMutex };
|
||||
names.reserve(_peasants.size());
|
||||
}
|
||||
|
||||
const auto func = [&](const auto& id, const auto& p) -> void {
|
||||
names.push_back({ id, p.WindowName(), p.ActiveTabTitle() });
|
||||
|
|
|
@ -7,6 +7,7 @@
|
|||
#include "Peasant.h"
|
||||
#include "../cascadia/inc/cppwinrt_utils.h"
|
||||
#include "WindowActivatedArgs.h"
|
||||
#include <atomic>
|
||||
|
||||
// We sure different GUIDs here depending on whether we're running a Release,
|
||||
// Preview, or Dev build. This ensures that different installs don't
|
||||
|
@ -69,23 +70,29 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
|
|||
private:
|
||||
uint64_t _ourPID;
|
||||
|
||||
uint64_t _nextPeasantID{ 1 };
|
||||
uint64_t _thisPeasantID{ 0 };
|
||||
std::atomic<uint64_t> _nextPeasantID{ 1 };
|
||||
uint64_t _ourPeasantId{ 0 };
|
||||
|
||||
// When we're quitting we do not care as much about handling some events that we know will be triggered
|
||||
std::atomic<bool> _quitting{ false };
|
||||
|
||||
winrt::com_ptr<IVirtualDesktopManager> _desktopManager{ nullptr };
|
||||
|
||||
std::unordered_map<uint64_t, winrt::Microsoft::Terminal::Remoting::IPeasant> _peasants;
|
||||
|
||||
std::vector<Remoting::WindowActivatedArgs> _mruPeasants;
|
||||
// These should not be locked at the same time to prevent deadlocks
|
||||
// unless they are both shared_locks.
|
||||
std::shared_mutex _peasantsMutex{};
|
||||
std::shared_mutex _mruPeasantsMutex{};
|
||||
|
||||
winrt::Microsoft::Terminal::Remoting::IPeasant _getPeasant(uint64_t peasantID);
|
||||
winrt::Microsoft::Terminal::Remoting::IPeasant _getPeasant(uint64_t peasantID, bool clearMruPeasantOnFailure = true);
|
||||
uint64_t _getMostRecentPeasantID(bool limitToCurrentDesktop, const bool ignoreQuakeWindow);
|
||||
uint64_t _lookupPeasantIdForName(std::wstring_view name);
|
||||
|
||||
void _peasantWindowActivated(const winrt::Windows::Foundation::IInspectable& sender,
|
||||
const winrt::Microsoft::Terminal::Remoting::WindowActivatedArgs& args);
|
||||
void _doHandleActivatePeasant(const winrt::com_ptr<winrt::Microsoft::Terminal::Remoting::implementation::WindowActivatedArgs>& args);
|
||||
void _clearOldMruEntries(const uint64_t peasantID);
|
||||
void _clearOldMruEntries(const std::unordered_set<uint64_t>& peasantIds);
|
||||
|
||||
void _forAllPeasantsIgnoringTheDead(std::function<void(const winrt::Microsoft::Terminal::Remoting::IPeasant&, const uint64_t)> callback,
|
||||
std::function<void(const uint64_t)> errorCallback);
|
||||
|
@ -107,6 +114,8 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
|
|||
// returns false.
|
||||
// - If any single peasant is dead, then we'll call onError and then add it to a
|
||||
// list of peasants to clean up once the loop ends.
|
||||
// - NB: this (separately) takes unique locks on _peasantsMutex and
|
||||
// _mruPeasantsMutex.
|
||||
// Arguments:
|
||||
// - func: The function to call on each peasant
|
||||
// - onError: The function to call if a peasant is dead.
|
||||
|
@ -119,7 +128,9 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
|
|||
using R = std::invoke_result_t<F, Map::key_type, Map::mapped_type>;
|
||||
static constexpr auto IsVoid = std::is_void_v<R>;
|
||||
|
||||
std::vector<uint64_t> peasantsToErase;
|
||||
std::unordered_set<uint64_t> peasantsToErase;
|
||||
{
|
||||
std::shared_lock lock{ _peasantsMutex };
|
||||
|
||||
for (const auto& [id, p] : _peasants)
|
||||
{
|
||||
|
@ -143,7 +154,7 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
|
|||
|
||||
if (exception.code() == 0x800706ba) // The RPC server is unavailable.
|
||||
{
|
||||
peasantsToErase.emplace_back(id);
|
||||
peasantsToErase.emplace(id);
|
||||
}
|
||||
else
|
||||
{
|
||||
|
@ -152,11 +163,20 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
|
|||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
if (peasantsToErase.size() > 0)
|
||||
{
|
||||
// Don't hold a lock on _peasants and _mruPeasants at the same
|
||||
// time to avoid deadlocks.
|
||||
{
|
||||
std::unique_lock lock{ _peasantsMutex };
|
||||
for (const auto& id : peasantsToErase)
|
||||
{
|
||||
_peasants.erase(id);
|
||||
_clearOldMruEntries(id);
|
||||
}
|
||||
}
|
||||
_clearOldMruEntries(peasantsToErase);
|
||||
}
|
||||
}
|
||||
|
||||
|
|
|
@ -324,6 +324,14 @@ namespace winrt::Microsoft::Terminal::Remoting::implementation
|
|||
TraceLoggingLevel(WINEVENT_LEVEL_VERBOSE),
|
||||
TraceLoggingKeyword(TIL_KEYWORD_TRACE));
|
||||
|
||||
// If the peasant asks us to quit we should not try to act in future elections.
|
||||
_peasant.QuitRequested([weakThis{ get_weak() }](auto&&, auto&&) {
|
||||
if (auto wm = weakThis.get())
|
||||
{
|
||||
wm->_monarchWaitInterrupt.SetEvent();
|
||||
}
|
||||
});
|
||||
|
||||
return _peasant;
|
||||
}
|
||||
|
||||
|
|
|
@ -47,7 +47,8 @@ namespace RemotingUnitTests
|
|||
};
|
||||
|
||||
// This is a silly helper struct.
|
||||
// It will always throw an hresult_error on any of its methods.
|
||||
// It will always throw an hresult_error of "RPC server is unavailable" on any of its methods.
|
||||
// The monarch uses this particular error code to check for a dead peasant vs another exception.
|
||||
//
|
||||
// In the tests, it's hard to emulate a peasant process being totally dead
|
||||
// once the Monarch has captured a reference to it. Since everything's
|
||||
|
@ -59,24 +60,24 @@ namespace RemotingUnitTests
|
|||
struct DeadPeasant : implements<DeadPeasant, winrt::Microsoft::Terminal::Remoting::IPeasant>
|
||||
{
|
||||
DeadPeasant() = default;
|
||||
void AssignID(uint64_t /*id*/) { throw winrt::hresult_error{}; };
|
||||
uint64_t GetID() { throw winrt::hresult_error{}; };
|
||||
winrt::hstring WindowName() { throw winrt::hresult_error{}; };
|
||||
winrt::hstring ActiveTabTitle() { throw winrt::hresult_error{}; };
|
||||
void ActiveTabTitle(const winrt::hstring& /*value*/) { throw winrt::hresult_error{}; };
|
||||
uint64_t GetPID() { throw winrt::hresult_error{}; };
|
||||
bool ExecuteCommandline(const Remoting::CommandlineArgs& /*args*/) { throw winrt::hresult_error{}; }
|
||||
void ActivateWindow(const Remoting::WindowActivatedArgs& /*args*/) { throw winrt::hresult_error{}; }
|
||||
void RequestIdentifyWindows() { throw winrt::hresult_error{}; };
|
||||
void DisplayWindowId() { throw winrt::hresult_error{}; };
|
||||
Remoting::CommandlineArgs InitialArgs() { throw winrt::hresult_error{}; }
|
||||
Remoting::WindowActivatedArgs GetLastActivatedArgs() { throw winrt::hresult_error{}; }
|
||||
void RequestRename(const Remoting::RenameRequestArgs& /*args*/) { throw winrt::hresult_error{}; }
|
||||
void Summon(const Remoting::SummonWindowBehavior& /*args*/) { throw winrt::hresult_error{}; };
|
||||
void RequestShowNotificationIcon() { throw winrt::hresult_error{}; };
|
||||
void RequestHideNotificationIcon() { throw winrt::hresult_error{}; };
|
||||
void RequestQuitAll() { throw winrt::hresult_error{}; };
|
||||
void Quit() { throw winrt::hresult_error{}; };
|
||||
void AssignID(uint64_t /*id*/) { throw winrt::hresult_error(winrt::hresult{ (int32_t)0x800706ba }); };
|
||||
uint64_t GetID() { throw winrt::hresult_error(winrt::hresult{ (int32_t)0x800706ba }); };
|
||||
winrt::hstring WindowName() { throw winrt::hresult_error(winrt::hresult{ (int32_t)0x800706ba }); };
|
||||
winrt::hstring ActiveTabTitle() { throw winrt::hresult_error(winrt::hresult{ (int32_t)0x800706ba }); };
|
||||
void ActiveTabTitle(const winrt::hstring& /*value*/) { throw winrt::hresult_error(winrt::hresult{ (int32_t)0x800706ba }); };
|
||||
uint64_t GetPID() { throw winrt::hresult_error(winrt::hresult{ (int32_t)0x800706ba }); };
|
||||
bool ExecuteCommandline(const Remoting::CommandlineArgs& /*args*/) { throw winrt::hresult_error(winrt::hresult{ (int32_t)0x800706ba }); }
|
||||
void ActivateWindow(const Remoting::WindowActivatedArgs& /*args*/) { throw winrt::hresult_error(winrt::hresult{ (int32_t)0x800706ba }); }
|
||||
void RequestIdentifyWindows() { throw winrt::hresult_error(winrt::hresult{ (int32_t)0x800706ba }); };
|
||||
void DisplayWindowId() { throw winrt::hresult_error(winrt::hresult{ (int32_t)0x800706ba }); };
|
||||
Remoting::CommandlineArgs InitialArgs() { throw winrt::hresult_error(winrt::hresult{ (int32_t)0x800706ba }); }
|
||||
Remoting::WindowActivatedArgs GetLastActivatedArgs() { throw winrt::hresult_error(winrt::hresult{ (int32_t)0x800706ba }); }
|
||||
void RequestRename(const Remoting::RenameRequestArgs& /*args*/) { throw winrt::hresult_error(winrt::hresult{ (int32_t)0x800706ba }); }
|
||||
void Summon(const Remoting::SummonWindowBehavior& /*args*/) { throw winrt::hresult_error(winrt::hresult{ (int32_t)0x800706ba }); };
|
||||
void RequestShowNotificationIcon() { throw winrt::hresult_error(winrt::hresult{ (int32_t)0x800706ba }); };
|
||||
void RequestHideNotificationIcon() { throw winrt::hresult_error(winrt::hresult{ (int32_t)0x800706ba }); };
|
||||
void RequestQuitAll() { throw winrt::hresult_error(winrt::hresult{ (int32_t)0x800706ba }); };
|
||||
void Quit() { throw winrt::hresult_error(winrt::hresult{ (int32_t)0x800706ba }); };
|
||||
TYPED_EVENT(WindowActivated, winrt::Windows::Foundation::IInspectable, Remoting::WindowActivatedArgs);
|
||||
TYPED_EVENT(ExecuteCommandlineRequested, winrt::Windows::Foundation::IInspectable, Remoting::CommandlineArgs);
|
||||
TYPED_EVENT(IdentifyWindowsRequested, winrt::Windows::Foundation::IInspectable, winrt::Windows::Foundation::IInspectable);
|
||||
|
|
Loading…
Reference in a new issue