Core/HW/MMIO: Pass System through Read() and Write().
This commit is contained in:
Admiral H. Curtiss
parent
6725c25600
commit
42d61cfc4c
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@ -15,6 +15,7 @@
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#include "Core/HW/EXI/EXI_Device.h"
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#include "Core/HW/MMIO.h"
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#include "Core/Movie.h"
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#include "Core/System.h"
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namespace ExpansionInterface
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{
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@ -15,7 +15,11 @@
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#include "Core/ConfigManager.h"
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#include "Core/HW/GPFifo.h"
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#include "Core/HW/MMIOHandlers.h"
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#include "Core/System.h"
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namespace Core
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{
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class System;
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}
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namespace MMIO
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{
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@ -131,15 +135,15 @@ public:
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// called in interpreter mode, from Dolphin's own code, or from JIT'd code
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// where the access address could not be predicted.
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template <typename Unit>
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Unit Read(u32 addr)
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Unit Read(Core::System& system, u32 addr)
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{
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return GetHandlerForRead<Unit>(addr).Read(Core::System::GetInstance(), addr);
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return GetHandlerForRead<Unit>(addr).Read(system, addr);
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}
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template <typename Unit>
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void Write(u32 addr, Unit val)
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void Write(Core::System& system, u32 addr, Unit val)
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{
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GetHandlerForWrite<Unit>(addr).Write(Core::System::GetInstance(), addr, val);
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GetHandlerForWrite<Unit>(addr).Write(system, addr, val);
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}
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// Handlers access interface.
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@ -214,14 +218,14 @@ private:
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// Dummy 64 bits variants of these functions. While 64 bits MMIO access is
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// not supported, we need these in order to make the code compile.
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template <>
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inline u64 Mapping::Read<u64>(u32 addr)
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inline u64 Mapping::Read<u64>(Core::System& system, u32 addr)
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{
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DEBUG_ASSERT(false);
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return 0;
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}
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template <>
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inline void Mapping::Write(u32 addr, u64 val)
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inline void Mapping::Write(Core::System& system, u32 addr, u64 val)
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{
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DEBUG_ASSERT(false);
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}
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@ -162,14 +162,14 @@ std::optional<DIDevice::DIResult> DIDevice::StartIOCtl(const IOCtlRequest& reque
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{
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case DIIoctl::DVDLowInquiry:
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INFO_LOG_FMT(IOS_DI, "DVDLowInquiry");
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mmio->Write<u32>(ADDRESS_DICMDBUF0, 0x12000000);
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mmio->Write<u32>(ADDRESS_DICMDBUF1, 0);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF0, 0x12000000);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF1, 0);
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return StartDMATransfer(0x20, request);
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case DIIoctl::DVDLowReadDiskID:
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INFO_LOG_FMT(IOS_DI, "DVDLowReadDiskID");
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mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xA8000040);
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mmio->Write<u32>(ADDRESS_DICMDBUF1, 0);
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mmio->Write<u32>(ADDRESS_DICMDBUF2, 0x20);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF0, 0xA8000040);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF1, 0);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF2, 0x20);
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return StartDMATransfer(0x20, request);
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// TODO: Include an additional read that happens on Wii discs, or at least
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// emulate its side effect of disabling DTK configuration
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@ -211,7 +211,7 @@ std::optional<DIDevice::DIResult> DIDevice::StartIOCtl(const IOCtlRequest& reque
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return DIResult::CoverClosed;
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case DIIoctl::DVDLowGetCoverRegister:
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{
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const u32 dicvr = mmio->Read<u32>(ADDRESS_DICVR);
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const u32 dicvr = mmio->Read<u32>(system, ADDRESS_DICVR);
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DEBUG_LOG_FMT(IOS_DI, "DVDLowGetCoverRegister {:#010x}", dicvr);
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return WriteIfFits(request, dicvr);
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}
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@ -226,27 +226,27 @@ std::optional<DIDevice::DIResult> DIDevice::StartIOCtl(const IOCtlRequest& reque
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{
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const u8 position = memory.Read_U8(request.buffer_in + 7);
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INFO_LOG_FMT(IOS_DI, "DVDLowReadDvdPhysical: position {:#04x}", position);
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mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xAD000000 | (position << 8));
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mmio->Write<u32>(ADDRESS_DICMDBUF1, 0);
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mmio->Write<u32>(ADDRESS_DICMDBUF2, 0);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF0, 0xAD000000 | (position << 8));
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mmio->Write<u32>(system, ADDRESS_DICMDBUF1, 0);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF2, 0);
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return StartDMATransfer(0x800, request);
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}
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case DIIoctl::DVDLowReadDvdCopyright:
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{
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const u8 position = memory.Read_U8(request.buffer_in + 7);
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INFO_LOG_FMT(IOS_DI, "DVDLowReadDvdCopyright: position {:#04x}", position);
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mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xAD010000 | (position << 8));
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mmio->Write<u32>(ADDRESS_DICMDBUF1, 0);
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mmio->Write<u32>(ADDRESS_DICMDBUF2, 0);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF0, 0xAD010000 | (position << 8));
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mmio->Write<u32>(system, ADDRESS_DICMDBUF1, 0);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF2, 0);
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return StartImmediateTransfer(request);
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}
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case DIIoctl::DVDLowReadDvdDiscKey:
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{
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const u8 position = memory.Read_U8(request.buffer_in + 7);
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INFO_LOG_FMT(IOS_DI, "DVDLowReadDvdDiscKey: position {:#04x}", position);
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mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xAD020000 | (position << 8));
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mmio->Write<u32>(ADDRESS_DICMDBUF1, 0);
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mmio->Write<u32>(ADDRESS_DICMDBUF2, 0);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF0, 0xAD020000 | (position << 8));
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mmio->Write<u32>(system, ADDRESS_DICMDBUF1, 0);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF2, 0);
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return StartDMATransfer(0x800, request);
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}
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case DIIoctl::DVDLowGetLength:
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@ -254,7 +254,7 @@ std::optional<DIDevice::DIResult> DIDevice::StartIOCtl(const IOCtlRequest& reque
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return WriteIfFits(request, m_last_length);
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case DIIoctl::DVDLowGetImmBuf:
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{
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const u32 diimmbuf = mmio->Read<u32>(ADDRESS_DIIMMBUF);
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const u32 diimmbuf = mmio->Read<u32>(system, ADDRESS_DIIMMBUF);
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INFO_LOG_FMT(IOS_DI, "DVDLowGetImmBuf {:#010x}", diimmbuf);
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return WriteIfFits(request, diimmbuf);
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}
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@ -289,27 +289,30 @@ std::optional<DIDevice::DIResult> DIDevice::StartIOCtl(const IOCtlRequest& reque
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const bool spinup = memory.Read_U32(request.buffer_in + 4);
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// The GPIO *disables* spinning up the drive. Normally handled via syscall 0x4e.
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const u32 old_gpio = mmio->Read<u32>(ADDRESS_HW_GPIO_OUT);
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const u32 old_gpio = mmio->Read<u32>(system, ADDRESS_HW_GPIO_OUT);
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if (spinup)
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mmio->Write<u32>(ADDRESS_HW_GPIO_OUT, old_gpio & ~static_cast<u32>(GPIO::DI_SPIN));
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mmio->Write<u32>(system, ADDRESS_HW_GPIO_OUT, old_gpio & ~static_cast<u32>(GPIO::DI_SPIN));
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else
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mmio->Write<u32>(ADDRESS_HW_GPIO_OUT, old_gpio | static_cast<u32>(GPIO::DI_SPIN));
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mmio->Write<u32>(system, ADDRESS_HW_GPIO_OUT, old_gpio | static_cast<u32>(GPIO::DI_SPIN));
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// Syscall 0x46 check_di_reset
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const bool was_resetting = (mmio->Read<u32>(ADDRESS_HW_RESETS) & (1 << 10)) == 0;
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const bool was_resetting = (mmio->Read<u32>(system, ADDRESS_HW_RESETS) & (1 << 10)) == 0;
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if (was_resetting)
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{
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// This route will not generally be taken in Dolphin but is included for completeness
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// Syscall 0x45 deassert_di_reset
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mmio->Write<u32>(ADDRESS_HW_RESETS, mmio->Read<u32>(ADDRESS_HW_RESETS) | (1 << 10));
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mmio->Write<u32>(system, ADDRESS_HW_RESETS,
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mmio->Read<u32>(system, ADDRESS_HW_RESETS) | (1 << 10));
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}
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else
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{
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// Syscall 0x44 assert_di_reset
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mmio->Write<u32>(ADDRESS_HW_RESETS, mmio->Read<u32>(ADDRESS_HW_RESETS) & ~(1 << 10));
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mmio->Write<u32>(system, ADDRESS_HW_RESETS,
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mmio->Read<u32>(system, ADDRESS_HW_RESETS) & ~(1 << 10));
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// Normally IOS sleeps for 12 microseconds here, but we can't easily emulate that
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// Syscall 0x45 deassert_di_reset
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mmio->Write<u32>(ADDRESS_HW_RESETS, mmio->Read<u32>(ADDRESS_HW_RESETS) | (1 << 10));
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mmio->Write<u32>(system, ADDRESS_HW_RESETS,
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mmio->Read<u32>(system, ADDRESS_HW_RESETS) | (1 << 10));
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}
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ResetDIRegisters();
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return DIResult::Success;
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@ -342,14 +345,14 @@ std::optional<DIDevice::DIResult> DIDevice::StartIOCtl(const IOCtlRequest& reque
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if (range.start <= position && position <= range.end && range.start <= end &&
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end <= range.end)
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{
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mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xA8000000);
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mmio->Write<u32>(ADDRESS_DICMDBUF1, position);
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mmio->Write<u32>(ADDRESS_DICMDBUF2, length);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF0, 0xA8000000);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF1, position);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF2, length);
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if (range.is_error_001_range && Config::Get(Config::SESSION_SHOULD_FAKE_ERROR_001))
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{
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mmio->Write<u32>(ADDRESS_DIMAR, request.buffer_out);
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mmio->Write<u32>(system, ADDRESS_DIMAR, request.buffer_out);
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m_last_length = length;
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mmio->Write<u32>(ADDRESS_DILENGTH, length);
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mmio->Write<u32>(system, ADDRESS_DILENGTH, length);
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system.GetDVDInterface().ForceOutOfBoundsRead(DVD::ReplyType::IOS);
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return {};
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}
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@ -389,13 +392,13 @@ std::optional<DIDevice::DIResult> DIDevice::StartIOCtl(const IOCtlRequest& reque
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return DIResult::SecurityError;
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case DIIoctl::DVDLowGetStatusRegister:
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{
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const u32 disr = mmio->Read<u32>(ADDRESS_DISR);
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const u32 disr = mmio->Read<u32>(system, ADDRESS_DISR);
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INFO_LOG_FMT(IOS_DI, "DVDLowGetStatusRegister: {:#010x}", disr);
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return WriteIfFits(request, disr);
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}
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case DIIoctl::DVDLowGetControlRegister:
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{
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const u32 dicr = mmio->Read<u32>(ADDRESS_DICR);
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const u32 dicr = mmio->Read<u32>(system, ADDRESS_DICR);
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INFO_LOG_FMT(IOS_DI, "DVDLowGetControlRegister: {:#010x}", dicr);
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return WriteIfFits(request, dicr);
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}
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@ -404,9 +407,9 @@ std::optional<DIDevice::DIResult> DIDevice::StartIOCtl(const IOCtlRequest& reque
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const u8 param1 = memory.Read_U8(request.buffer_in + 7);
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const u32 param2 = memory.Read_U32(request.buffer_in + 8);
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INFO_LOG_FMT(IOS_DI, "DVDLowReportKey: param1 {:#04x}, param2 {:#08x}", param1, param2);
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mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xA4000000 | (param1 << 16));
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mmio->Write<u32>(ADDRESS_DICMDBUF1, param2 & 0xFFFFFF);
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mmio->Write<u32>(ADDRESS_DICMDBUF2, 0);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF0, 0xA4000000 | (param1 << 16));
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mmio->Write<u32>(system, ADDRESS_DICMDBUF1, param2 & 0xFFFFFF);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF2, 0);
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return StartDMATransfer(0x20, request);
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}
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case DIIoctl::DVDLowSeek:
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@ -414,8 +417,8 @@ std::optional<DIDevice::DIResult> DIDevice::StartIOCtl(const IOCtlRequest& reque
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const u32 position = memory.Read_U32(request.buffer_in + 4); // 32-bit offset
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INFO_LOG_FMT(IOS_DI, "DVDLowSeek: position {:#010x}, translated to {:#010x}", position,
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position); // TODO: do partition translation!
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mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xAB000000);
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mmio->Write<u32>(ADDRESS_DICMDBUF1, position);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF0, 0xAB000000);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF1, position);
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return StartImmediateTransfer(request, false);
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}
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case DIIoctl::DVDLowReadDvd:
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@ -426,9 +429,10 @@ std::optional<DIDevice::DIResult> DIDevice::StartIOCtl(const IOCtlRequest& reque
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const u32 position = memory.Read_U32(request.buffer_in + 16);
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INFO_LOG_FMT(IOS_DI, "DVDLowReadDvd({}, {}): position {:#08x}, length {:#08x}", flag1, flag2,
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position, length);
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mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xD0000000 | ((flag1 & 1) << 7) | ((flag2 & 1) << 6));
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mmio->Write<u32>(ADDRESS_DICMDBUF1, position & 0xFFFFFF);
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mmio->Write<u32>(ADDRESS_DICMDBUF2, length & 0xFFFFFF);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF0,
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0xD0000000 | ((flag1 & 1) << 7) | ((flag2 & 1) << 6));
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mmio->Write<u32>(system, ADDRESS_DICMDBUF1, position & 0xFFFFFF);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF2, length & 0xFFFFFF);
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return StartDMATransfer(0x800 * length, request);
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}
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case DIIoctl::DVDLowReadDvdConfig:
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@ -437,41 +441,41 @@ std::optional<DIDevice::DIResult> DIDevice::StartIOCtl(const IOCtlRequest& reque
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const u8 param2 = memory.Read_U8(request.buffer_in + 11);
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const u32 position = memory.Read_U32(request.buffer_in + 12);
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INFO_LOG_FMT(IOS_DI, "DVDLowReadDvdConfig({}, {}): position {:#08x}", flag1, param2, position);
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mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xD1000000 | ((flag1 & 1) << 16) | param2);
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mmio->Write<u32>(ADDRESS_DICMDBUF1, position & 0xFFFFFF);
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mmio->Write<u32>(ADDRESS_DICMDBUF2, 0);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF0, 0xD1000000 | ((flag1 & 1) << 16) | param2);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF1, position & 0xFFFFFF);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF2, 0);
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return StartImmediateTransfer(request);
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}
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case DIIoctl::DVDLowStopLaser:
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INFO_LOG_FMT(IOS_DI, "DVDLowStopLaser");
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mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xD2000000);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF0, 0xD2000000);
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return StartImmediateTransfer(request);
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case DIIoctl::DVDLowOffset:
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{
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const u8 flag = memory.Read_U8(request.buffer_in + 7);
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const u32 offset = memory.Read_U32(request.buffer_in + 8);
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INFO_LOG_FMT(IOS_DI, "DVDLowOffset({}): offset {:#010x}", flag, offset);
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mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xD9000000 | ((flag & 1) << 16));
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mmio->Write<u32>(ADDRESS_DICMDBUF1, offset);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF0, 0xD9000000 | ((flag & 1) << 16));
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mmio->Write<u32>(system, ADDRESS_DICMDBUF1, offset);
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return StartImmediateTransfer(request);
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}
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case DIIoctl::DVDLowReadDiskBca:
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INFO_LOG_FMT(IOS_DI, "DVDLowReadDiskBca");
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mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xDA000000);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF0, 0xDA000000);
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return StartDMATransfer(0x40, request);
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case DIIoctl::DVDLowRequestDiscStatus:
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INFO_LOG_FMT(IOS_DI, "DVDLowRequestDiscStatus");
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mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xDB000000);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF0, 0xDB000000);
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return StartImmediateTransfer(request);
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case DIIoctl::DVDLowRequestRetryNumber:
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INFO_LOG_FMT(IOS_DI, "DVDLowRequestRetryNumber");
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mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xDC000000);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF0, 0xDC000000);
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return StartImmediateTransfer(request);
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case DIIoctl::DVDLowSetMaximumRotation:
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{
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const u8 speed = memory.Read_U8(request.buffer_in + 7);
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INFO_LOG_FMT(IOS_DI, "DVDLowSetMaximumRotation: speed {}", speed);
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mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xDD000000 | ((speed & 3) << 16));
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mmio->Write<u32>(system, ADDRESS_DICMDBUF0, 0xDD000000 | ((speed & 3) << 16));
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return StartImmediateTransfer(request, false);
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}
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case DIIoctl::DVDLowSerMeasControl:
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@ -479,12 +483,13 @@ std::optional<DIDevice::DIResult> DIDevice::StartIOCtl(const IOCtlRequest& reque
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const u8 flag1 = memory.Read_U8(request.buffer_in + 7);
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const u8 flag2 = memory.Read_U8(request.buffer_in + 11);
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INFO_LOG_FMT(IOS_DI, "DVDLowSerMeasControl({}, {})", flag1, flag2);
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mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xDF000000 | ((flag1 & 1) << 17) | ((flag2 & 1) << 16));
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mmio->Write<u32>(system, ADDRESS_DICMDBUF0,
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0xDF000000 | ((flag1 & 1) << 17) | ((flag2 & 1) << 16));
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return StartDMATransfer(0x20, request);
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}
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case DIIoctl::DVDLowRequestError:
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INFO_LOG_FMT(IOS_DI, "DVDLowRequestError");
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mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xE0000000);
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mmio->Write<u32>(system, ADDRESS_DICMDBUF0, 0xE0000000);
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return StartImmediateTransfer(request);
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case DIIoctl::DVDLowAudioStream:
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{
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@ -493,17 +498,17 @@ std::optional<DIDevice::DIResult> DIDevice::StartIOCtl(const IOCtlRequest& reque
|
|||
const u32 position = memory.Read_U32(request.buffer_in + 12);
|
||||
INFO_LOG_FMT(IOS_DI, "DVDLowAudioStream({}): offset {:#010x} (byte {:#011x}), length {:#x}",
|
||||
mode, position, static_cast<u64>(position) << 2, length);
|
||||
mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xE1000000 | ((mode & 3) << 16));
|
||||
mmio->Write<u32>(ADDRESS_DICMDBUF1, position);
|
||||
mmio->Write<u32>(ADDRESS_DICMDBUF2, length);
|
||||
mmio->Write<u32>(system, ADDRESS_DICMDBUF0, 0xE1000000 | ((mode & 3) << 16));
|
||||
mmio->Write<u32>(system, ADDRESS_DICMDBUF1, position);
|
||||
mmio->Write<u32>(system, ADDRESS_DICMDBUF2, length);
|
||||
return StartImmediateTransfer(request, false);
|
||||
}
|
||||
case DIIoctl::DVDLowRequestAudioStatus:
|
||||
{
|
||||
const u8 mode = memory.Read_U8(request.buffer_in + 7);
|
||||
INFO_LOG_FMT(IOS_DI, "DVDLowRequestAudioStatus({})", mode);
|
||||
mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xE2000000 | ((mode & 3) << 16));
|
||||
mmio->Write<u32>(ADDRESS_DICMDBUF1, 0);
|
||||
mmio->Write<u32>(system, ADDRESS_DICMDBUF0, 0xE2000000 | ((mode & 3) << 16));
|
||||
mmio->Write<u32>(system, ADDRESS_DICMDBUF1, 0);
|
||||
// Note that this command does not copy the value written to DIIMMBUF, which makes it rather
|
||||
// useless (to actually use it, DVDLowGetImmBuf would need to be used afterwards)
|
||||
return StartImmediateTransfer(request, false);
|
||||
|
|
@ -513,8 +518,9 @@ std::optional<DIDevice::DIResult> DIDevice::StartIOCtl(const IOCtlRequest& reque
|
|||
const u8 eject = memory.Read_U8(request.buffer_in + 7);
|
||||
const u8 kill = memory.Read_U8(request.buffer_in + 11);
|
||||
INFO_LOG_FMT(IOS_DI, "DVDLowStopMotor({}, {})", eject, kill);
|
||||
mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xE3000000 | ((eject & 1) << 17) | ((kill & 1) << 20));
|
||||
mmio->Write<u32>(ADDRESS_DICMDBUF1, 0);
|
||||
mmio->Write<u32>(system, ADDRESS_DICMDBUF0,
|
||||
0xE3000000 | ((eject & 1) << 17) | ((kill & 1) << 20));
|
||||
mmio->Write<u32>(system, ADDRESS_DICMDBUF1, 0);
|
||||
return StartImmediateTransfer(request);
|
||||
}
|
||||
case DIIoctl::DVDLowAudioBufferConfig:
|
||||
|
|
@ -523,8 +529,9 @@ std::optional<DIDevice::DIResult> DIDevice::StartIOCtl(const IOCtlRequest& reque
|
|||
const u8 buffer_size = memory.Read_U8(request.buffer_in + 11);
|
||||
INFO_LOG_FMT(IOS_DI, "DVDLowAudioBufferConfig: {}, buffer size {}",
|
||||
enable ? "enabled" : "disabled", buffer_size);
|
||||
mmio->Write<u32>(ADDRESS_DICMDBUF0, 0xE4000000 | ((enable & 1) << 16) | (buffer_size & 0xf));
|
||||
mmio->Write<u32>(ADDRESS_DICMDBUF1, 0);
|
||||
mmio->Write<u32>(system, ADDRESS_DICMDBUF0,
|
||||
0xE4000000 | ((enable & 1) << 16) | (buffer_size & 0xf));
|
||||
mmio->Write<u32>(system, ADDRESS_DICMDBUF1, 0);
|
||||
// On the other hand, this command *does* copy DIIMMBUF, but the actual code in the drive never
|
||||
// writes anything to it, so it just copies over a stale value (e.g. from DVDLowRequestError).
|
||||
return StartImmediateTransfer(request);
|
||||
|
|
@ -565,9 +572,9 @@ std::optional<DIDevice::DIResult> DIDevice::StartDMATransfer(u32 command_length,
|
|||
|
||||
auto& system = GetSystem();
|
||||
auto* mmio = system.GetMemory().GetMMIOMapping();
|
||||
mmio->Write<u32>(ADDRESS_DIMAR, request.buffer_out);
|
||||
mmio->Write<u32>(system, ADDRESS_DIMAR, request.buffer_out);
|
||||
m_last_length = command_length;
|
||||
mmio->Write<u32>(ADDRESS_DILENGTH, command_length);
|
||||
mmio->Write<u32>(system, ADDRESS_DILENGTH, command_length);
|
||||
|
||||
system.GetDVDInterface().ExecuteCommand(DVD::ReplyType::IOS);
|
||||
// Reply will be posted when done by FinishIOCtl.
|
||||
|
|
@ -658,7 +665,7 @@ void DIDevice::FinishDICommand(DIResult result)
|
|||
|
||||
IOCtlRequest request{system, m_executing_command->m_request_address};
|
||||
if (m_executing_command->m_copy_diimmbuf)
|
||||
memory.Write_U32(mmio->Read<u32>(ADDRESS_DIIMMBUF), request.buffer_out);
|
||||
memory.Write_U32(mmio->Read<u32>(system, ADDRESS_DIIMMBUF), request.buffer_out);
|
||||
|
||||
GetEmulationKernel().EnqueueIPCReply(request, static_cast<s32>(result));
|
||||
|
||||
|
|
|
|||
|
|
@ -189,9 +189,14 @@ T MMU::ReadFromHardware(u32 em_address)
|
|||
if (flag == XCheckTLBFlag::Read && (em_address & 0xF8000000) == 0x08000000)
|
||||
{
|
||||
if (em_address < 0x0c000000)
|
||||
{
|
||||
return EFB_Read(em_address);
|
||||
}
|
||||
else
|
||||
return static_cast<T>(m_memory.GetMMIOMapping()->Read<std::make_unsigned_t<T>>(em_address));
|
||||
{
|
||||
return static_cast<T>(
|
||||
m_memory.GetMMIOMapping()->Read<std::make_unsigned_t<T>>(m_system, em_address));
|
||||
}
|
||||
}
|
||||
|
||||
// Locked L1 technically doesn't have a fixed address, but games all use 0xE0000000.
|
||||
|
|
@ -346,20 +351,20 @@ void MMU::WriteToHardware(u32 em_address, const u32 data, const u32 size)
|
|||
switch (size)
|
||||
{
|
||||
case 1:
|
||||
m_memory.GetMMIOMapping()->Write<u8>(em_address, static_cast<u8>(data));
|
||||
m_memory.GetMMIOMapping()->Write<u8>(m_system, em_address, static_cast<u8>(data));
|
||||
return;
|
||||
case 2:
|
||||
m_memory.GetMMIOMapping()->Write<u16>(em_address, static_cast<u16>(data));
|
||||
m_memory.GetMMIOMapping()->Write<u16>(m_system, em_address, static_cast<u16>(data));
|
||||
return;
|
||||
case 4:
|
||||
m_memory.GetMMIOMapping()->Write<u32>(em_address, data);
|
||||
m_memory.GetMMIOMapping()->Write<u32>(m_system, em_address, data);
|
||||
return;
|
||||
default:
|
||||
// Some kind of misaligned write. TODO: Does this match how the actual hardware handles it?
|
||||
for (size_t i = size * 8; i > 0; em_address++)
|
||||
{
|
||||
i -= 8;
|
||||
m_memory.GetMMIOMapping()->Write<u8>(em_address, static_cast<u8>(data >> i));
|
||||
m_memory.GetMMIOMapping()->Write<u8>(m_system, em_address, static_cast<u8>(data >> i));
|
||||
}
|
||||
return;
|
||||
}
|
||||
|
|
@ -1035,7 +1040,7 @@ void MMU::DMA_LCToMemory(const u32 mem_address, const u32 cache_address, const u
|
|||
for (u32 i = 0; i < 32 * num_blocks; i += 4)
|
||||
{
|
||||
const u32 data = Common::swap32(m_memory.GetL1Cache() + ((cache_address + i) & 0x3FFFF));
|
||||
m_memory.GetMMIOMapping()->Write(mem_address + i, data);
|
||||
m_memory.GetMMIOMapping()->Write(m_system, mem_address + i, data);
|
||||
}
|
||||
return;
|
||||
}
|
||||
|
|
@ -1071,7 +1076,8 @@ void MMU::DMA_MemoryToLC(const u32 cache_address, const u32 mem_address, const u
|
|||
{
|
||||
for (u32 i = 0; i < 32 * num_blocks; i += 4)
|
||||
{
|
||||
const u32 data = Common::swap32(m_memory.GetMMIOMapping()->Read<u32>(mem_address + i));
|
||||
const u32 data =
|
||||
Common::swap32(m_memory.GetMMIOMapping()->Read<u32>(m_system, mem_address + i));
|
||||
std::memcpy(m_memory.GetL1Cache() + ((cache_address + i) & 0x3FFFF), &data, sizeof(u32));
|
||||
}
|
||||
return;
|
||||
|
|
|
|||
|
|
@ -2,6 +2,8 @@
|
|||
// SPDX-License-Identifier: GPL-2.0-or-later
|
||||
|
||||
#include <gtest/gtest.h>
|
||||
|
||||
#include <memory>
|
||||
#include <string>
|
||||
#include <unordered_set>
|
||||
|
||||
|
|
@ -10,6 +12,7 @@
|
|||
#include "Common/FileUtil.h"
|
||||
#include "Core/HW/GPFifo.h"
|
||||
#include "Core/HW/MMIO.h"
|
||||
#include "Core/System.h"
|
||||
#include "UICommon/UICommon.h"
|
||||
|
||||
// Tests that the UniqueID function returns a "unique enough" identifier
|
||||
|
|
@ -66,9 +69,18 @@ TEST(IsMMIOAddress, SpecialAddresses)
|
|||
class MappingTest : public testing::Test
|
||||
{
|
||||
protected:
|
||||
virtual void SetUp() override { m_mapping = new MMIO::Mapping(); }
|
||||
virtual void TearDown() override { delete m_mapping; }
|
||||
MMIO::Mapping* m_mapping = nullptr;
|
||||
virtual void SetUp() override
|
||||
{
|
||||
m_system = &Core::System::GetInstance();
|
||||
m_mapping = std::make_unique<MMIO::Mapping>();
|
||||
}
|
||||
virtual void TearDown() override
|
||||
{
|
||||
m_system = nullptr;
|
||||
m_mapping.reset();
|
||||
}
|
||||
Core::System* m_system = nullptr;
|
||||
std::unique_ptr<MMIO::Mapping> m_mapping;
|
||||
};
|
||||
|
||||
TEST_F(MappingTest, ReadConstant)
|
||||
|
|
@ -77,9 +89,9 @@ TEST_F(MappingTest, ReadConstant)
|
|||
m_mapping->Register(0x0C001234, MMIO::Constant<u16>(0x1234), MMIO::Nop<u16>());
|
||||
m_mapping->Register(0x0C001234, MMIO::Constant<u32>(0xdeadbeef), MMIO::Nop<u32>());
|
||||
|
||||
u8 val8 = m_mapping->Read<u8>(0x0C001234);
|
||||
u16 val16 = m_mapping->Read<u16>(0x0C001234);
|
||||
u32 val32 = m_mapping->Read<u32>(0x0C001234);
|
||||
u8 val8 = m_mapping->Read<u8>(*m_system, 0x0C001234);
|
||||
u16 val16 = m_mapping->Read<u16>(*m_system, 0x0C001234);
|
||||
u32 val32 = m_mapping->Read<u32>(*m_system, 0x0C001234);
|
||||
|
||||
EXPECT_EQ(0x42, val8);
|
||||
EXPECT_EQ(0x1234, val16);
|
||||
|
|
@ -101,19 +113,19 @@ TEST_F(MappingTest, ReadWriteDirect)
|
|||
|
||||
for (u32 i = 0; i < 100; ++i)
|
||||
{
|
||||
u8 val8 = m_mapping->Read<u8>(0x0C001234);
|
||||
u8 val8 = m_mapping->Read<u8>(*m_system, 0x0C001234);
|
||||
EXPECT_EQ(i, val8);
|
||||
u16 val16 = m_mapping->Read<u16>(0x0C001234);
|
||||
u16 val16 = m_mapping->Read<u16>(*m_system, 0x0C001234);
|
||||
EXPECT_EQ(i, val16);
|
||||
u32 val32 = m_mapping->Read<u32>(0x0C001234);
|
||||
u32 val32 = m_mapping->Read<u32>(*m_system, 0x0C001234);
|
||||
EXPECT_EQ(i, val32);
|
||||
|
||||
val8 += 1;
|
||||
m_mapping->Write(0x0C001234, val8);
|
||||
m_mapping->Write(*m_system, 0x0C001234, val8);
|
||||
val16 += 1;
|
||||
m_mapping->Write(0x0C001234, val16);
|
||||
m_mapping->Write(*m_system, 0x0C001234, val16);
|
||||
val32 += 1;
|
||||
m_mapping->Write(0x0C001234, val32);
|
||||
m_mapping->Write(*m_system, 0x0C001234, val32);
|
||||
}
|
||||
}
|
||||
|
||||
|
|
@ -132,9 +144,9 @@ TEST_F(MappingTest, ReadWriteComplex)
|
|||
write_called = true;
|
||||
}));
|
||||
|
||||
u8 val = m_mapping->Read<u8>(0x0C001234);
|
||||
u8 val = m_mapping->Read<u8>(*m_system, 0x0C001234);
|
||||
EXPECT_EQ(0x12, val);
|
||||
m_mapping->Write(0x0C001234, (u8)0x34);
|
||||
m_mapping->Write(*m_system, 0x0C001234, (u8)0x34);
|
||||
|
||||
EXPECT_TRUE(read_called);
|
||||
EXPECT_TRUE(write_called);
|
||||
|
|
|
|||
Loading…
Reference in New Issue