Merge pull request #1659 from piepacker/jake/multitap_8x_devices_in_state

pad: improve messaging when UI config doesn't match savestate config, and document some edge cases
This commit is contained in:
Connor McLaughlin 2021-03-27 12:49:31 +10:00 committed by GitHub
commit 781e8f1867
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2 changed files with 166 additions and 121 deletions

View File

@ -52,114 +52,114 @@ void Pad::Reset()
m_multitaps[i].Reset();
}
bool Pad::DoState(StateWrapper& sw)
bool Pad::DoStateController(StateWrapper& sw, u32 i)
{
for (u32 i = 0; i < NUM_CONTROLLER_AND_CARD_PORTS; i++)
ControllerType controller_type = m_controllers[i] ? m_controllers[i]->GetType() : ControllerType::None;
ControllerType state_controller_type = controller_type;
sw.Do(&state_controller_type);
if (controller_type != state_controller_type)
{
if (i > 1 && sw.GetVersion() < 50)
continue;
ControllerType controller_type = m_controllers[i] ? m_controllers[i]->GetType() : ControllerType::None;
ControllerType state_controller_type = controller_type;
sw.Do(&state_controller_type);
Assert(sw.GetMode() == StateWrapper::Mode::Read);
// UI notification portion is separated from emulation portion (intentional condition check redundancy)
if (g_settings.load_devices_from_save_states)
{
if (controller_type != state_controller_type)
{
if (g_settings.load_devices_from_save_states)
{
g_host_interface->AddFormattedOSDMessage(
10.0f,
g_host_interface->TranslateString(
"OSDMessage", "Save state contains controller type %s in port %u, but %s is used. Switching."),
Settings::GetControllerTypeName(state_controller_type), i + 1u,
Settings::GetControllerTypeName(controller_type));
m_controllers[i].reset();
if (state_controller_type != ControllerType::None)
{
m_controllers[i] = Controller::Create(state_controller_type, i);
if (!sw.DoMarker("Controller") || !m_controllers[i]->DoState(sw, false))
return false;
}
}
else
{
g_host_interface->AddFormattedOSDMessage(
10.0f,
g_host_interface->TranslateString("OSDMessage", "Ignoring mismatched controller type %s in port %u."),
Settings::GetControllerTypeName(state_controller_type), i + 1u);
// we still need to read the save state controller state
if (state_controller_type != ControllerType::None)
{
std::unique_ptr<Controller> dummy_controller = Controller::Create(state_controller_type, i);
if (dummy_controller)
{
if (!sw.DoMarker("Controller") || !dummy_controller->DoState(sw, true))
return false;
}
}
}
}
else
{
if (m_controllers[i])
{
if (!sw.DoMarker("Controller") || !m_controllers[i]->DoState(sw, true))
return false;
}
}
g_host_interface->AddFormattedOSDMessage(
10.0f,
g_host_interface->TranslateString(
"OSDMessage", "Save state contains controller type %s in port %u, but %s is used. Switching."),
Settings::GetControllerTypeName(state_controller_type), i + 1u,
Settings::GetControllerTypeName(controller_type)
);
}
else
{
if (state_controller_type != ControllerType::None)
{
if (controller_type != state_controller_type)
{
g_host_interface->AddFormattedOSDMessage(
10.0f,
g_host_interface->TranslateString("OSDMessage", "Ignoring mismatched controller type %s in port %u."),
Settings::GetControllerTypeName(state_controller_type), i + 1u);
// we still need to read the save state controller state
std::unique_ptr<Controller> dummy_controller = Controller::Create(state_controller_type, i);
if (dummy_controller)
{
if (!sw.DoMarker("Controller") || !dummy_controller->DoState(sw, true))
return false;
}
}
else
{
// we still need to load some things from the state, e.g. configuration mode, analog mode
if (m_controllers[i])
{
if (!sw.DoMarker("Controller") || !m_controllers[i]->DoState(sw, false))
return false;
}
}
}
g_host_interface->AddFormattedOSDMessage(
10.0f,
g_host_interface->TranslateString("OSDMessage", "Ignoring mismatched controller type %s in port %u."),
Settings::GetControllerTypeName(state_controller_type), i + 1u
);
}
bool card_present = static_cast<bool>(m_memory_cards[i]);
sw.Do(&card_present);
// dev-friendly untranslated console log.
Log_DevPrintf("Controller type mismatch in slot %u: state=%s(%u) ui=%s(%u) load_from_state=%s",
i + 1u,
Settings::GetControllerTypeName(state_controller_type), state_controller_type,
Settings::GetControllerTypeName(controller_type), controller_type,
g_settings.load_devices_from_save_states ? "yes" : "no"
);
if (sw.IsReading() && card_present && !g_settings.load_devices_from_save_states)
if (g_settings.load_devices_from_save_states)
{
Log_WarningPrintf("Skipping loading memory card %u from save state.", i + 1u);
m_controllers[i].reset();
if (state_controller_type != ControllerType::None)
m_controllers[i] = Controller::Create(state_controller_type, i);
}
else
{
// mismatched controller states prevents us from loading the state into the user's preferred controller.
// just doing a reset here is a little dodgy. If there's an active xfer on the state-saved controller
// then who knows what might happen as the rest of the packet streams in. (possibly the SIO xfer will
// timeout and the controller will just correct itself on the next frame's read attempt -- after all on
// physical HW removing a controller is allowed and could happen in the middle of SIO comms)
std::unique_ptr<MemoryCard> card_from_state = std::make_unique<MemoryCard>();
if (!sw.DoMarker("MemoryCard") || !card_from_state->DoState(sw))
if (m_controllers[i])
m_controllers[i]->Reset();
}
}
// we still need to read/write the save state controller state even if the controller does not exist.
// the marker is only expected for valid controller types.
if (state_controller_type == ControllerType::None)
return true;
if (!sw.DoMarker("Controller"))
return false;
if (auto& controller = m_controllers[i]; controller && controller->GetType() == state_controller_type)
return controller->DoState(sw, true);
else if (auto dummy = Controller::Create(state_controller_type, i); dummy)
return dummy->DoState(sw, true);
return true;
}
bool Pad::DoStateMemcard(StateWrapper& sw, u32 i)
{
bool card_present_in_state = static_cast<bool>(m_memory_cards[i]);
sw.Do(&card_present_in_state);
MemoryCard* card_ptr = m_memory_cards[i].get();
std::unique_ptr<MemoryCard> card_from_state;
if (card_present_in_state)
{
if (sw.IsReading() && !g_settings.load_devices_from_save_states)
{
// load memcard into a temporary: If the card datas match, take the one from the savestate
// since it has other useful non-data state information. Otherwise take the user's card
// and perform a re-plugging.
card_from_state = std::make_unique<MemoryCard>();
card_ptr = card_from_state.get();
}
if (!sw.DoMarker("MemoryCard") || !card_ptr->DoState(sw))
return false;
}
// does the content of the memory card match?
if (sw.IsWriting())
return true; // all done as far as writes concerned.
if (card_from_state)
{
if (m_memory_cards[i])
{
if (m_memory_cards[i]->GetData() == card_from_state->GetData())
{
Log_DevPrintf("Using memory card %u state from save state", i);
card_from_state->SetFilename(m_memory_cards[i]->GetFilename());
m_memory_cards[i] = std::move(card_from_state);
}
@ -169,8 +169,16 @@ bool Pad::DoState(StateWrapper& sw)
20.0f,
g_host_interface->TranslateString(
"OSDMessage", "Memory card %u from save state does match current card data. Simulating replugging."),
i + 1u);
i + 1u
);
// this is a potentially serious issue - some games cache info from memcards and jumping around
// with savestates can lead to card corruption on the next save attempts (and may not be obvious
// until much later). One workaround is to forcibly eject the card for 30+ frames, long enough
// for the game to decide it was removed and purge its cache. Once implemented, this could be
// described as deferred re-plugging in the log.
Log_WarningPrintf("Memory card %u data mismatch. Using current data via instant-replugging.", i + 1u);
m_memory_cards[i]->Reset();
}
}
@ -178,41 +186,75 @@ bool Pad::DoState(StateWrapper& sw)
{
g_host_interface->AddFormattedOSDMessage(
20.0f,
g_host_interface->TranslateString("OSDMessage",
"Memory card %u present in save state but not in system. Ignoring card."),
i + 1u);
g_host_interface->TranslateString(
"OSDMessage", "Memory card %u present in save state but not in system. Ignoring card."),
i + 1u
);
}
continue;
return true;
}
if (card_present && !m_memory_cards[i])
if (card_present_in_state && !m_memory_cards[i])
{
g_host_interface->AddFormattedOSDMessage(
20.0f,
g_host_interface->TranslateString(
"OSDMessage", "Memory card %u present in save state but not in system. Creating temporary card."),
i + 1u);
i + 1u
);
m_memory_cards[i] = MemoryCard::Create();
}
else if (!card_present && m_memory_cards[i])
else if (!card_present_in_state && m_memory_cards[i])
{
g_host_interface->AddFormattedOSDMessage(
20.0f,
g_host_interface->TranslateString("OSDMessage",
"Memory card %u present in system but not in save state. Removing card."),
i + 1u);
g_host_interface->TranslateString(
"OSDMessage", "Memory card %u present in system but not in save state. Removing card."),
i + 1u
);
m_memory_cards[i].reset();
}
if (m_memory_cards[i])
return true;
}
bool Pad::DoState(StateWrapper& sw)
{
for (u32 i = 0; i < NUM_CONTROLLER_AND_CARD_PORTS; i++)
{
if ((sw.GetVersion() < 50) && (i >= 2))
{
if (!sw.DoMarker("MemoryCard") || !m_memory_cards[i]->DoState(sw))
return false;
// loading from old savestate which only had max 2 controllers.
// honoring load_devices_from_save_states in this case seems debatable, but might as well...
if (m_controllers[i])
{
if (g_settings.load_devices_from_save_states)
m_controllers[i].reset();
else
m_controllers[i]->Reset();
}
if (m_memory_cards[i])
{
if (g_settings.load_devices_from_save_states)
m_memory_cards[i].reset();
else
m_memory_cards[i]->Reset();
}
// ... and make sure to skip trying to read controller_type / card_present flags which don't exist in old states.
continue;
}
if (!DoStateController(sw, i))
return false;
if (!DoStateMemcard(sw, i))
return false;
}
if (sw.GetVersion() > 49)
if (sw.GetVersion() >= 50)
{
for (u32 i = 0; i < NUM_MULTITAPS; i++)
{
@ -452,27 +494,27 @@ void Pad::DoTransfer(TickCount ticks_late)
}
else
{
if (!controller || (ack = controller->Transfer(data_out, &data_in)) == false)
if (!controller || (ack = controller->Transfer(data_out, &data_in)) == false)
{
if (!memory_card || (ack = memory_card->Transfer(data_out, &data_in)) == false)
{
if (!memory_card || (ack = memory_card->Transfer(data_out, &data_in)) == false)
{
// nothing connected to this port
Log_TracePrintf("Nothing connected or ACK'ed");
}
else
{
// memory card responded, make it the active device until non-ack
Log_TracePrintf("Transfer to memory card, data_out=0x%02X, data_in=0x%02X", data_out, data_in);
m_active_device = ActiveDevice::MemoryCard;
}
// nothing connected to this port
Log_TracePrintf("Nothing connected or ACK'ed");
}
else
{
// controller responded, make it the active device until non-ack
Log_TracePrintf("Transfer to controller, data_out=0x%02X, data_in=0x%02X", data_out, data_in);
m_active_device = ActiveDevice::Controller;
// memory card responded, make it the active device until non-ack
Log_TracePrintf("Transfer to memory card, data_out=0x%02X, data_in=0x%02X", data_out, data_in);
m_active_device = ActiveDevice::MemoryCard;
}
}
else
{
// controller responded, make it the active device until non-ack
Log_TracePrintf("Transfer to controller, data_out=0x%02X, data_in=0x%02X", data_out, data_in);
m_active_device = ActiveDevice::Controller;
}
}
}
break;
@ -503,7 +545,7 @@ void Pad::DoTransfer(TickCount ticks_late)
ack = m_multitaps[m_JOY_CTRL.SLOT].Transfer(data_out, &data_in);
Log_TracePrintf("Transfer tap %d, sent 0x%02X, received 0x%02X, acked: %s", static_cast<int>(m_JOY_CTRL.SLOT),
data_out, data_in, ack ? "true" : "false");
}
}
}
break;
}

View File

@ -112,6 +112,9 @@ private:
void EndTransfer();
void ResetDeviceTransferState();
bool DoStateController(StateWrapper& sw, u32 i);
bool DoStateMemcard(StateWrapper& sw, u32 i);
std::array<std::unique_ptr<Controller>, NUM_CONTROLLER_AND_CARD_PORTS> m_controllers;
std::array<std::unique_ptr<MemoryCard>, NUM_CONTROLLER_AND_CARD_PORTS> m_memory_cards;