This change splits LoadGameAsync into three methods: two HashGame methods to accept either a string filepath or a volume, and a common LoadGameSync that both HashGames call to actually process the code. In the process, some minor cleanup, and the hash resolution now takes place on the work queue asynchronously.
At the end of each frame automatically update the Current Value for
visible table rows in the selected and visible CheatSearchWidget (if
any). Also update all Current Values in all CheatSearchWidgets when the
State changes to Paused.
Only updating visible table rows serves to minimize the performance cost
of this feature. If the user scrolls to an un-updated cell it will
promptly be updated by either the next VIEndFieldEvent or the State
transitioning to Paused.
In theory, our config system supports calling Set from any thread. But
because we have config callbacks that call RunAsCPUThread, it's a lot
more restricted in practice. Calling Set from any thread other than the
host thread or the CPU thread is formally thread unsafe, and calling Set
on the host thread while the CPU thread is showing a panic alert causes
a deadlock. This is especially a problem because 04072f0 made the
"Ignore for this session" button in panic alerts call Set.
Because so many of our config callbacks want their code to run on the
CPU thread, I thought it would make sense to have a centralized way to
move execution to the CPU thread for config callbacks. To solve the
deadlock problem, this new way is non-blocking. This means that threads
other than the CPU thread might continue executing before the CPU thread
is informed of the new config, but I don't think there's any problem
with that.
Intends to fix https://bugs.dolphin-emu.org/issues/13108.
By misusing Config, this netplay-related code opened up a race condition between Config::OnConfigChanged() and SerialInterface::SerialInterfaceManager::UpdateDevices() that could cause iterator invalidation.
The ExpansionInterfaceManager::PauseAndLock function does nothing but
call other functions that have no effect.
ExpansionInterfaceManager::PauseAndLock calls CEXIChannel::PauseAndLock,
which in turn calls IEXIDevice::PauseAndLock. None of the classes
deriving from IEXIDevice override PauseAndLock, and the implementation
in IEXIDevice does nothing.
ESCore implements the core functionality that can also be used outside of emulation. ESDevice implements the IOS device and is only available during emulation.
