mirror of
https://github.com/dolphin-emu/dolphin.git
synced 2024-11-15 05:47:56 -07:00
ca3e5ce5e1
Changed the CPEnd loop check to an exact match.
556 lines
15 KiB
C++
556 lines
15 KiB
C++
// Copyright 2013 Dolphin Emulator Project
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// Licensed under GPLv2
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// Refer to the license.txt file included.
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#include "Common/Atomic.h"
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#include "Common/ChunkFile.h"
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#include "Common/CommonTypes.h"
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#include "Common/MathUtil.h"
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#include "Common/Thread.h"
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#include "Core/ConfigManager.h"
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#include "Core/Core.h"
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#include "Core/CoreTiming.h"
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#include "Core/HW/GPFifo.h"
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#include "Core/HW/Memmap.h"
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#include "Core/HW/MMIO.h"
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#include "Core/HW/ProcessorInterface.h"
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#include "Core/HW/SystemTimers.h"
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#include "VideoCommon/CommandProcessor.h"
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#include "VideoCommon/Fifo.h"
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#include "VideoCommon/PixelEngine.h"
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#include "VideoCommon/VideoCommon.h"
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#include "VideoCommon/VideoConfig.h"
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namespace CommandProcessor
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{
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static int et_UpdateInterrupts;
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// TODO(ector): Warn on bbox read/write
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// STATE_TO_SAVE
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SCPFifoStruct fifo;
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static UCPStatusReg m_CPStatusReg;
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static UCPCtrlReg m_CPCtrlReg;
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static UCPClearReg m_CPClearReg;
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static u16 m_bboxleft;
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static u16 m_bboxtop;
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static u16 m_bboxright;
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static u16 m_bboxbottom;
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static u16 m_tokenReg;
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volatile bool isPossibleWaitingSetDrawDone = false;
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volatile bool interruptSet= false;
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volatile bool interruptWaiting= false;
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volatile bool interruptTokenWaiting = false;
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volatile bool interruptFinishWaiting = false;
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volatile u32 VITicks = CommandProcessor::m_cpClockOrigin;
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static bool IsOnThread()
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{
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return SConfig::GetInstance().m_LocalCoreStartupParameter.bCPUThread;
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}
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static void UpdateInterrupts_Wrapper(u64 userdata, int cyclesLate)
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{
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UpdateInterrupts(userdata);
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}
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void DoState(PointerWrap &p)
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{
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p.DoPOD(m_CPStatusReg);
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p.DoPOD(m_CPCtrlReg);
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p.DoPOD(m_CPClearReg);
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p.Do(m_bboxleft);
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p.Do(m_bboxtop);
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p.Do(m_bboxright);
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p.Do(m_bboxbottom);
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p.Do(m_tokenReg);
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p.Do(fifo);
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p.Do(isPossibleWaitingSetDrawDone);
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p.Do(interruptSet);
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p.Do(interruptWaiting);
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p.Do(interruptTokenWaiting);
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p.Do(interruptFinishWaiting);
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}
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static inline void WriteLow(volatile u32& _reg, u16 lowbits)
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{
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Common::AtomicStore(_reg, (_reg & 0xFFFF0000) | lowbits);
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}
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static inline void WriteHigh(volatile u32& _reg, u16 highbits)
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{
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Common::AtomicStore(_reg, (_reg & 0x0000FFFF) | ((u32)highbits << 16));
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}
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static inline u16 ReadLow(u32 _reg)
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{
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return (u16)(_reg & 0xFFFF);
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}
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static inline u16 ReadHigh(u32 _reg)
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{
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return (u16)(_reg >> 16);
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}
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void Init()
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{
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m_CPStatusReg.Hex = 0;
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m_CPStatusReg.CommandIdle = 1;
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m_CPStatusReg.ReadIdle = 1;
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m_CPCtrlReg.Hex = 0;
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m_CPClearReg.Hex = 0;
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m_bboxleft = 0;
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m_bboxtop = 0;
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m_bboxright = 640;
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m_bboxbottom = 480;
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m_tokenReg = 0;
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memset(&fifo,0,sizeof(fifo));
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fifo.bFF_Breakpoint = 0;
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fifo.bFF_HiWatermark = 0;
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fifo.bFF_HiWatermarkInt = 0;
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fifo.bFF_LoWatermark = 0;
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fifo.bFF_LoWatermarkInt = 0;
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interruptSet = false;
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interruptWaiting = false;
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interruptFinishWaiting = false;
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interruptTokenWaiting = false;
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isPossibleWaitingSetDrawDone = false;
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et_UpdateInterrupts = CoreTiming::RegisterEvent("CPInterrupt", UpdateInterrupts_Wrapper);
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}
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void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
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{
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struct {
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u32 addr;
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u16* ptr;
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bool readonly;
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bool writes_align_to_32_bytes;
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} directly_mapped_vars[] = {
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{ FIFO_TOKEN_REGISTER, &m_tokenReg },
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// Bounding box registers are read only.
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{ FIFO_BOUNDING_BOX_LEFT, &m_bboxleft, true },
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{ FIFO_BOUNDING_BOX_RIGHT, &m_bboxright, true },
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{ FIFO_BOUNDING_BOX_TOP, &m_bboxtop, true },
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{ FIFO_BOUNDING_BOX_BOTTOM, &m_bboxbottom, true },
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// Some FIFO addresses need to be aligned on 32 bytes on write - only
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// the high part can be written directly without a mask.
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{ FIFO_BASE_LO, MMIO::Utils::LowPart(&fifo.CPBase), false, true },
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{ FIFO_BASE_HI, MMIO::Utils::HighPart(&fifo.CPBase) },
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{ FIFO_END_LO, MMIO::Utils::LowPart(&fifo.CPEnd), false, true },
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{ FIFO_END_HI, MMIO::Utils::HighPart(&fifo.CPEnd) },
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{ FIFO_HI_WATERMARK_LO, MMIO::Utils::LowPart(&fifo.CPHiWatermark) },
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{ FIFO_HI_WATERMARK_HI, MMIO::Utils::HighPart(&fifo.CPHiWatermark) },
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{ FIFO_LO_WATERMARK_LO, MMIO::Utils::LowPart(&fifo.CPLoWatermark) },
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{ FIFO_LO_WATERMARK_HI, MMIO::Utils::HighPart(&fifo.CPLoWatermark) },
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// FIFO_RW_DISTANCE has some complex read code different for
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// single/dual core.
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{ FIFO_WRITE_POINTER_LO, MMIO::Utils::LowPart(&fifo.CPWritePointer), false, true },
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{ FIFO_WRITE_POINTER_HI, MMIO::Utils::HighPart(&fifo.CPWritePointer) },
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// FIFO_READ_POINTER has different code for single/dual core.
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};
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for (auto& mapped_var : directly_mapped_vars)
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{
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u16 wmask = mapped_var.writes_align_to_32_bytes ? 0xFFE0 : 0xFFFF;
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mmio->Register(base | mapped_var.addr,
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MMIO::DirectRead<u16>(mapped_var.ptr),
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mapped_var.readonly
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? MMIO::InvalidWrite<u16>()
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: MMIO::DirectWrite<u16>(mapped_var.ptr, wmask)
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);
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}
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mmio->Register(base | FIFO_BP_LO,
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MMIO::DirectRead<u16>(MMIO::Utils::LowPart(&fifo.CPBreakpoint)),
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MMIO::ComplexWrite<u16>([](u32, u16 val) {
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WriteLow(fifo.CPBreakpoint, val & 0xffe0);
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})
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);
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mmio->Register(base | FIFO_BP_HI,
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MMIO::DirectRead<u16>(MMIO::Utils::HighPart(&fifo.CPBreakpoint)),
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MMIO::ComplexWrite<u16>([](u32, u16 val) {
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WriteHigh(fifo.CPBreakpoint, val);
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})
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);
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// Timing and metrics MMIOs are stubbed with fixed values.
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struct {
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u32 addr;
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u16 value;
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} metrics_mmios[] = {
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{ XF_RASBUSY_L, 0 },
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{ XF_RASBUSY_H, 0 },
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{ XF_CLKS_L, 0 },
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{ XF_CLKS_H, 0 },
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{ XF_WAIT_IN_L, 0 },
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{ XF_WAIT_IN_H, 0 },
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{ XF_WAIT_OUT_L, 0 },
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{ XF_WAIT_OUT_H, 0 },
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{ VCACHE_METRIC_CHECK_L, 0 },
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{ VCACHE_METRIC_CHECK_H, 0 },
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{ VCACHE_METRIC_MISS_L, 0 },
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{ VCACHE_METRIC_MISS_H, 0 },
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{ VCACHE_METRIC_STALL_L, 0 },
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{ VCACHE_METRIC_STALL_H, 0 },
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{ CLKS_PER_VTX_OUT, 4 },
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};
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for (auto& metrics_mmio : metrics_mmios)
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{
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mmio->Register(base | metrics_mmio.addr,
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MMIO::Constant<u16>(metrics_mmio.value),
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MMIO::InvalidWrite<u16>()
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);
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}
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mmio->Register(base | STATUS_REGISTER,
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MMIO::ComplexRead<u16>([](u32) {
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SetCpStatusRegister();
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return m_CPStatusReg.Hex;
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}),
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MMIO::InvalidWrite<u16>()
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);
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mmio->Register(base | CTRL_REGISTER,
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MMIO::DirectRead<u16>(&m_CPCtrlReg.Hex),
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MMIO::ComplexWrite<u16>([](u32, u16 val) {
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UCPCtrlReg tmp(val);
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m_CPCtrlReg.Hex = tmp.Hex;
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SetCpControlRegister();
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RunGpu();
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})
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);
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mmio->Register(base | CLEAR_REGISTER,
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MMIO::DirectRead<u16>(&m_CPClearReg.Hex),
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MMIO::ComplexWrite<u16>([](u32, u16 val) {
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UCPClearReg tmp(val);
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m_CPClearReg.Hex = tmp.Hex;
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SetCpClearRegister();
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RunGpu();
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})
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);
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mmio->Register(base | PERF_SELECT,
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MMIO::InvalidRead<u16>(),
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MMIO::Nop<u16>()
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);
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// Some MMIOs have different handlers for single core vs. dual core mode.
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mmio->Register(base | FIFO_RW_DISTANCE_LO,
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IsOnThread()
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? MMIO::ComplexRead<u16>([](u32) {
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if (fifo.CPWritePointer >= fifo.SafeCPReadPointer)
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return ReadLow(fifo.CPWritePointer - fifo.SafeCPReadPointer);
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else
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return ReadLow(fifo.CPEnd - fifo.SafeCPReadPointer + fifo.CPWritePointer - fifo.CPBase + 32);
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})
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: MMIO::DirectRead<u16>(MMIO::Utils::LowPart(&fifo.CPReadWriteDistance)),
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MMIO::DirectWrite<u16>(MMIO::Utils::LowPart(&fifo.CPReadWriteDistance), 0xFFE0)
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);
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mmio->Register(base | FIFO_RW_DISTANCE_HI,
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IsOnThread()
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? MMIO::ComplexRead<u16>([](u32) {
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if (fifo.CPWritePointer >= fifo.SafeCPReadPointer)
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return ReadHigh(fifo.CPWritePointer - fifo.SafeCPReadPointer);
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else
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return ReadHigh(fifo.CPEnd - fifo.SafeCPReadPointer + fifo.CPWritePointer - fifo.CPBase + 32);
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})
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: MMIO::DirectRead<u16>(MMIO::Utils::HighPart(&fifo.CPReadWriteDistance)),
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MMIO::ComplexWrite<u16>([](u32, u16 val) {
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WriteHigh(fifo.CPReadWriteDistance, val);
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SyncGPU(SYNC_GPU_OTHER);
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if (fifo.CPReadWriteDistance == 0)
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{
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GPFifo::ResetGatherPipe();
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ResetVideoBuffer();
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}
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else
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{
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ResetVideoBuffer();
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}
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RunGpu();
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})
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);
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mmio->Register(base | FIFO_READ_POINTER_LO,
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IsOnThread()
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? MMIO::DirectRead<u16>(MMIO::Utils::LowPart(&fifo.SafeCPReadPointer))
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: MMIO::DirectRead<u16>(MMIO::Utils::LowPart(&fifo.CPReadPointer)),
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MMIO::DirectWrite<u16>(MMIO::Utils::LowPart(&fifo.CPReadPointer), 0xFFE0)
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);
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mmio->Register(base | FIFO_READ_POINTER_HI,
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IsOnThread()
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? MMIO::DirectRead<u16>(MMIO::Utils::HighPart(&fifo.SafeCPReadPointer))
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: MMIO::DirectRead<u16>(MMIO::Utils::HighPart(&fifo.CPReadPointer)),
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IsOnThread()
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? MMIO::ComplexWrite<u16>([](u32, u16 val) {
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WriteHigh(fifo.CPReadPointer, val);
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fifo.SafeCPReadPointer = fifo.CPReadPointer;
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})
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: MMIO::DirectWrite<u16>(MMIO::Utils::HighPart(&fifo.CPReadPointer))
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);
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}
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void GatherPipeBursted()
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{
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if (IsOnThread())
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SetCPStatusFromCPU();
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ProcessFifoEvents();
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// if we aren't linked, we don't care about gather pipe data
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if (!m_CPCtrlReg.GPLinkEnable)
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{
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if (IsOnThread() && !g_use_deterministic_gpu_thread)
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{
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// In multibuffer mode is not allowed write in the same FIFO attached to the GPU.
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// Fix Pokemon XD in DC mode.
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if ((ProcessorInterface::Fifo_CPUEnd == fifo.CPEnd) &&
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(ProcessorInterface::Fifo_CPUBase == fifo.CPBase) &&
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fifo.CPReadWriteDistance > 0)
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{
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ProcessFifoAllDistance();
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}
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}
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else
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{
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RunGpu();
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}
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return;
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}
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// update the fifo pointer
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if (fifo.CPWritePointer == fifo.CPEnd)
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fifo.CPWritePointer = fifo.CPBase;
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else
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fifo.CPWritePointer += GATHER_PIPE_SIZE;
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if (m_CPCtrlReg.GPReadEnable && m_CPCtrlReg.GPLinkEnable)
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{
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ProcessorInterface::Fifo_CPUWritePointer = fifo.CPWritePointer;
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ProcessorInterface::Fifo_CPUBase = fifo.CPBase;
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ProcessorInterface::Fifo_CPUEnd = fifo.CPEnd;
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}
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// If the game is running close to overflowing, make the exception checking more frequent.
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if (fifo.bFF_HiWatermark)
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CoreTiming::ForceExceptionCheck(0);
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Common::AtomicAdd(fifo.CPReadWriteDistance, GATHER_PIPE_SIZE);
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RunGpu();
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_assert_msg_(COMMANDPROCESSOR, fifo.CPReadWriteDistance <= fifo.CPEnd - fifo.CPBase,
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"FIFO is overflowed by GatherPipe !\nCPU thread is too fast!");
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// check if we are in sync
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_assert_msg_(COMMANDPROCESSOR, fifo.CPWritePointer == ProcessorInterface::Fifo_CPUWritePointer, "FIFOs linked but out of sync");
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_assert_msg_(COMMANDPROCESSOR, fifo.CPBase == ProcessorInterface::Fifo_CPUBase, "FIFOs linked but out of sync");
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_assert_msg_(COMMANDPROCESSOR, fifo.CPEnd == ProcessorInterface::Fifo_CPUEnd, "FIFOs linked but out of sync");
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}
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void UpdateInterrupts(u64 userdata)
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{
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if (userdata)
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{
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interruptSet = true;
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INFO_LOG(COMMANDPROCESSOR,"Interrupt set");
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ProcessorInterface::SetInterrupt(INT_CAUSE_CP, true);
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}
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else
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{
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interruptSet = false;
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INFO_LOG(COMMANDPROCESSOR,"Interrupt cleared");
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ProcessorInterface::SetInterrupt(INT_CAUSE_CP, false);
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}
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CoreTiming::ForceExceptionCheck(0);
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interruptWaiting = false;
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}
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void UpdateInterruptsFromVideoBackend(u64 userdata)
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{
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if (!g_use_deterministic_gpu_thread)
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CoreTiming::ScheduleEvent_Threadsafe(0, et_UpdateInterrupts, userdata);
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}
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void SetCPStatusFromGPU()
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{
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// breakpoint
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if (fifo.bFF_BPEnable)
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{
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if (fifo.CPBreakpoint == fifo.CPReadPointer)
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{
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if (!fifo.bFF_Breakpoint)
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{
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INFO_LOG(COMMANDPROCESSOR, "Hit breakpoint at %i", fifo.CPReadPointer);
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fifo.bFF_Breakpoint = true;
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}
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}
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else
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{
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if (fifo.bFF_Breakpoint)
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INFO_LOG(COMMANDPROCESSOR, "Cleared breakpoint at %i", fifo.CPReadPointer);
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fifo.bFF_Breakpoint = false;
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}
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}
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else
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{
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if (fifo.bFF_Breakpoint)
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INFO_LOG(COMMANDPROCESSOR, "Cleared breakpoint at %i", fifo.CPReadPointer);
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fifo.bFF_Breakpoint = false;
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}
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// overflow & underflow check
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fifo.bFF_HiWatermark = (fifo.CPReadWriteDistance > fifo.CPHiWatermark);
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fifo.bFF_LoWatermark = (fifo.CPReadWriteDistance < fifo.CPLoWatermark);
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bool bpInt = fifo.bFF_Breakpoint && fifo.bFF_BPInt;
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bool ovfInt = fifo.bFF_HiWatermark && fifo.bFF_HiWatermarkInt;
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bool undfInt = fifo.bFF_LoWatermark && fifo.bFF_LoWatermarkInt;
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bool interrupt = (bpInt || ovfInt || undfInt) && m_CPCtrlReg.GPReadEnable;
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if (interrupt != interruptSet && !interruptWaiting)
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{
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u64 userdata = interrupt ? 1 : 0;
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if (IsOnThread())
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{
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if (!interrupt || bpInt || undfInt || ovfInt)
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{
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// Schedule the interrupt asynchronously
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interruptWaiting = true;
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CommandProcessor::UpdateInterruptsFromVideoBackend(userdata);
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}
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}
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else
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{
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CommandProcessor::UpdateInterrupts(userdata);
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}
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}
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}
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void SetCPStatusFromCPU()
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{
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// overflow & underflow check
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fifo.bFF_HiWatermark = (fifo.CPReadWriteDistance > fifo.CPHiWatermark);
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fifo.bFF_LoWatermark = (fifo.CPReadWriteDistance < fifo.CPLoWatermark);
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bool bpInt = fifo.bFF_Breakpoint && fifo.bFF_BPInt;
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bool ovfInt = fifo.bFF_HiWatermark && fifo.bFF_HiWatermarkInt;
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bool undfInt = fifo.bFF_LoWatermark && fifo.bFF_LoWatermarkInt;
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bool interrupt = (bpInt || ovfInt || undfInt) && m_CPCtrlReg.GPReadEnable;
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if (interrupt != interruptSet && !interruptWaiting)
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{
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u64 userdata = interrupt ? 1 : 0;
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if (IsOnThread())
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{
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if (!interrupt || bpInt || undfInt || ovfInt)
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{
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interruptSet = interrupt;
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INFO_LOG(COMMANDPROCESSOR,"Interrupt set");
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ProcessorInterface::SetInterrupt(INT_CAUSE_CP, interrupt);
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}
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}
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else
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{
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CommandProcessor::UpdateInterrupts(userdata);
|
|
}
|
|
}
|
|
}
|
|
|
|
void ProcessFifoAllDistance()
|
|
{
|
|
if (IsOnThread())
|
|
{
|
|
while (!interruptWaiting && fifo.bFF_GPReadEnable && fifo.CPReadWriteDistance && !AtBreakpoint())
|
|
Common::YieldCPU();
|
|
}
|
|
}
|
|
|
|
void ProcessFifoEvents()
|
|
{
|
|
if (IsOnThread() && (interruptWaiting || interruptFinishWaiting || interruptTokenWaiting))
|
|
CoreTiming::ProcessFifoWaitEvents();
|
|
}
|
|
|
|
void Shutdown()
|
|
{
|
|
|
|
}
|
|
|
|
void SetCpStatusRegister()
|
|
{
|
|
// Here always there is one fifo attached to the GPU
|
|
m_CPStatusReg.Breakpoint = fifo.bFF_Breakpoint;
|
|
m_CPStatusReg.ReadIdle = !fifo.CPReadWriteDistance || AtBreakpoint() || (fifo.CPReadPointer == fifo.CPWritePointer);
|
|
m_CPStatusReg.CommandIdle = !fifo.CPReadWriteDistance || AtBreakpoint() || !fifo.bFF_GPReadEnable;
|
|
m_CPStatusReg.UnderflowLoWatermark = fifo.bFF_LoWatermark;
|
|
m_CPStatusReg.OverflowHiWatermark = fifo.bFF_HiWatermark;
|
|
|
|
INFO_LOG(COMMANDPROCESSOR,"\t Read from STATUS_REGISTER : %04x", m_CPStatusReg.Hex);
|
|
DEBUG_LOG(COMMANDPROCESSOR, "(r) status: iBP %s | fReadIdle %s | fCmdIdle %s | iOvF %s | iUndF %s"
|
|
, m_CPStatusReg.Breakpoint ? "ON" : "OFF"
|
|
, m_CPStatusReg.ReadIdle ? "ON" : "OFF"
|
|
, m_CPStatusReg.CommandIdle ? "ON" : "OFF"
|
|
, m_CPStatusReg.OverflowHiWatermark ? "ON" : "OFF"
|
|
, m_CPStatusReg.UnderflowLoWatermark ? "ON" : "OFF"
|
|
);
|
|
}
|
|
|
|
void SetCpControlRegister()
|
|
{
|
|
fifo.bFF_BPInt = m_CPCtrlReg.BPInt;
|
|
fifo.bFF_BPEnable = m_CPCtrlReg.BPEnable;
|
|
fifo.bFF_HiWatermarkInt = m_CPCtrlReg.FifoOverflowIntEnable;
|
|
fifo.bFF_LoWatermarkInt = m_CPCtrlReg.FifoUnderflowIntEnable;
|
|
fifo.bFF_GPLinkEnable = m_CPCtrlReg.GPLinkEnable;
|
|
|
|
if (fifo.bFF_GPReadEnable && !m_CPCtrlReg.GPReadEnable)
|
|
{
|
|
fifo.bFF_GPReadEnable = m_CPCtrlReg.GPReadEnable;
|
|
while (fifo.isGpuReadingData) Common::YieldCPU();
|
|
}
|
|
else
|
|
{
|
|
fifo.bFF_GPReadEnable = m_CPCtrlReg.GPReadEnable;
|
|
}
|
|
|
|
DEBUG_LOG(COMMANDPROCESSOR, "\t GPREAD %s | BP %s | Int %s | OvF %s | UndF %s | LINK %s"
|
|
, fifo.bFF_GPReadEnable ? "ON" : "OFF"
|
|
, fifo.bFF_BPEnable ? "ON" : "OFF"
|
|
, fifo.bFF_BPInt ? "ON" : "OFF"
|
|
, m_CPCtrlReg.FifoOverflowIntEnable ? "ON" : "OFF"
|
|
, m_CPCtrlReg.FifoUnderflowIntEnable ? "ON" : "OFF"
|
|
, m_CPCtrlReg.GPLinkEnable ? "ON" : "OFF"
|
|
);
|
|
|
|
}
|
|
|
|
// NOTE: We intentionally don't emulate this function at the moment.
|
|
// We don't emulate proper GP timing anyway at the moment, so it would just slow down emulation.
|
|
void SetCpClearRegister()
|
|
{
|
|
}
|
|
|
|
void Update()
|
|
{
|
|
while (VITicks > m_cpClockOrigin && fifo.isGpuReadingData && IsOnThread())
|
|
Common::YieldCPU();
|
|
|
|
if (fifo.isGpuReadingData)
|
|
Common::AtomicAdd(VITicks, SystemTimers::GetTicksPerSecond() / 10000);
|
|
}
|
|
} // end of namespace CommandProcessor
|