Play-/Source/BasicBlock.cpp

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#include "BasicBlock.h"
#include "MemStream.h"
#include "offsetof_def.h"
#include "MipsJitter.h"
#include "Jitter_CodeGenFactory.h"
#if defined(AOT_BUILD_CACHE) || defined(AOT_USE_CACHE)
#define AOT_ENABLED
#endif
#ifdef AOT_ENABLED
#include <zlib.h>
#include "StdStream.h"
#include "StdStreamUtils.h"
#endif
#ifdef VTUNE_ENABLED
#include <jitprofiling.h>
#include "string_format.h"
#endif
#ifdef AOT_USE_CACHE
#pragma pack(push, 1)
struct AOT_BLOCK
{
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AOT_BLOCK_KEY key;
void* fct;
};
#pragma pack(pop)
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extern "C"
{
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extern AOT_BLOCK _aot_firstBlock;
extern uint32 _aot_blockCount;
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}
#endif
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#define INVALID_LINK_SLOT (~0U)
CBasicBlock::CBasicBlock(CMIPS& context, uint32 begin, uint32 end)
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: m_begin(begin)
, m_end(end)
, m_context(context)
#ifdef AOT_USE_CACHE
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, m_function(nullptr)
#endif
{
assert(m_end >= m_begin);
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for(uint32 i = 0; i < LINK_SLOT_MAX; i++)
{
m_linkBlockTrampolineOffset[i] = INVALID_LINK_SLOT;
}
}
#ifdef AOT_BUILD_CACHE
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Framework::CStdStream* CBasicBlock::m_aotBlockOutputStream(nullptr);
std::mutex CBasicBlock::m_aotBlockOutputStreamMutex;
void CBasicBlock::SetAotBlockOutputStream(Framework::CStdStream* outputStream)
{
assert(m_aotBlockOutputStream == nullptr || outputStream == nullptr);
m_aotBlockOutputStream = outputStream;
}
#endif
void CBasicBlock::Compile()
{
#ifndef AOT_USE_CACHE
Framework::CMemStream stream;
{
static
#ifdef AOT_BUILD_CACHE
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__declspec(thread)
#endif
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CMipsJitter* jitter = nullptr;
if(jitter == nullptr)
{
Jitter::CCodeGen* codeGen = Jitter::CreateCodeGen();
jitter = new CMipsJitter(codeGen);
for(unsigned int i = 0; i < 4; i++)
{
jitter->SetVariableAsConstant(
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offsetof(CMIPS, m_State.nGPR[CMIPS::R0].nV[i]),
0);
}
}
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jitter->GetCodeGen()->SetExternalSymbolReferencedHandler([&](auto symbol, auto offset) { HandleExternalFunctionReference(symbol, offset); });
jitter->SetStream(&stream);
jitter->Begin();
CompileRange(jitter);
jitter->End();
}
m_function = CMemoryFunction(stream.GetBuffer(), stream.GetSize());
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#ifdef VTUNE_ENABLED
if(iJIT_IsProfilingActive() == iJIT_SAMPLING_ON)
{
iJIT_Method_Load jmethod = {};
jmethod.method_id = iJIT_GetNewMethodID();
jmethod.class_file_name = "";
jmethod.source_file_name = __FILE__;
jmethod.method_load_address = m_function.GetCode();
jmethod.method_size = m_function.GetSize();
jmethod.line_number_size = 0;
auto functionName = string_format("BasicBlock_0x%08X_0x%08X", m_begin, m_end);
jmethod.method_name = const_cast<char*>(functionName.c_str());
iJIT_NotifyEvent(iJVM_EVENT_TYPE_METHOD_LOAD_FINISHED, reinterpret_cast<void*>(&jmethod));
}
#endif
#endif
#ifdef AOT_ENABLED
size_t blockSize = ((m_end - m_begin) / 4) + 1;
auto blockData = new uint32[blockSize];
for(uint32 i = 0; i < blockSize; i++)
{
blockData[i] = m_context.m_pMemoryMap->GetWord(m_begin + (i * 4));
}
uint32 blockChecksum = crc32(0, reinterpret_cast<Bytef*>(blockData), blockSize * 4);
#endif
#ifdef AOT_USE_CACHE
AOT_BLOCK* blocksBegin = &_aot_firstBlock;
AOT_BLOCK* blocksEnd = blocksBegin + _aot_blockCount;
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AOT_BLOCK blockRef = {blockChecksum, m_begin, m_end, nullptr};
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static const auto blockComparer =
[](const AOT_BLOCK& item1, const AOT_BLOCK& item2) {
return item1.key < item2.key;
};
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// assert(std::is_sorted(blocksBegin, blocksEnd, blockComparer));
bool blockExists = std::binary_search(blocksBegin, blocksEnd, blockRef, blockComparer);
auto blockIterator = std::lower_bound(blocksBegin, blocksEnd, blockRef, blockComparer);
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assert(blockExists);
assert(blockIterator != blocksEnd);
assert(blockIterator->key.crc == blockChecksum);
assert(blockIterator->key.begin == m_begin);
assert(blockIterator->key.end == m_end);
m_function = reinterpret_cast<void (*)(void*)>(blockIterator->fct);
#endif
#ifdef AOT_BUILD_CACHE
{
std::lock_guard<std::mutex> lock(m_aotBlockOutputStreamMutex);
m_aotBlockOutputStream->Write32(blockChecksum);
m_aotBlockOutputStream->Write32(m_begin);
m_aotBlockOutputStream->Write32(m_end);
m_aotBlockOutputStream->Write(blockData, blockSize * 4);
}
#endif
}
void CBasicBlock::CompileRange(CMipsJitter* jitter)
{
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if(IsEmpty())
{
jitter->JumpTo(reinterpret_cast<void*>(&EmptyBlockHandler));
return;
}
for(uint32 address = m_begin; address <= m_end; address += 4)
{
m_context.m_pArch->CompileInstruction(
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address,
jitter,
&m_context);
//Sanity check
assert(jitter->IsStackEmpty());
}
CompileProlog(jitter);
}
void CBasicBlock::CompileProlog(CMipsJitter* jitter)
{
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//Update cycle quota
jitter->PushRel(offsetof(CMIPS, m_State.cycleQuota));
jitter->PushCst(((m_end - m_begin) / 4) + 1);
jitter->Sub();
jitter->PullRel(offsetof(CMIPS, m_State.cycleQuota));
jitter->PushRel(offsetof(CMIPS, m_State.cycleQuota));
jitter->PushCst(0);
jitter->BeginIf(Jitter::CONDITION_LE);
{
jitter->PushRel(offsetof(CMIPS, m_State.nHasException));
jitter->PushCst(MIPS_EXECUTION_STATUS_QUOTADONE);
jitter->Or();
jitter->PullRel(offsetof(CMIPS, m_State.nHasException));
}
jitter->EndIf();
//We probably don't need to pay for this since we know in advance if there's a branch
jitter->PushCst(MIPS_INVALID_PC);
jitter->PushRel(offsetof(CMIPS, m_State.nDelayedJumpAddr));
jitter->BeginIf(Jitter::CONDITION_NE);
{
jitter->PushRel(offsetof(CMIPS, m_State.nDelayedJumpAddr));
jitter->PullRel(offsetof(CMIPS, m_State.nPC));
jitter->PushCst(MIPS_INVALID_PC);
jitter->PullRel(offsetof(CMIPS, m_State.nDelayedJumpAddr));
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jitter->PushRel(offsetof(CMIPS, m_State.nHasException));
jitter->PushCst(0);
jitter->BeginIf(Jitter::CONDITION_EQ);
{
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jitter->JumpTo(reinterpret_cast<void*>(&NextBlockTrampoline));
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}
jitter->EndIf();
}
jitter->Else();
{
jitter->PushCst(m_end + 4);
jitter->PullRel(offsetof(CMIPS, m_State.nPC));
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jitter->PushRel(offsetof(CMIPS, m_State.nHasException));
jitter->PushCst(0);
jitter->BeginIf(Jitter::CONDITION_EQ);
{
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jitter->JumpTo(reinterpret_cast<void*>(&NextBlockTrampoline));
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}
jitter->EndIf();
}
jitter->EndIf();
}
void CBasicBlock::Execute()
{
m_function(&m_context);
assert(m_context.m_State.nGPR[0].nV0 == 0);
assert(m_context.m_State.nGPR[0].nV1 == 0);
assert(m_context.m_State.nGPR[0].nV2 == 0);
assert(m_context.m_State.nGPR[0].nV3 == 0);
assert((m_context.m_State.nPC & 3) == 0);
assert((m_context.m_State.nGPR[CMIPS::RA].nV0 & 3) == 0);
assert(m_context.m_State.nCOP2[0].nV0 == 0x00000000);
assert(m_context.m_State.nCOP2[0].nV1 == 0x00000000);
assert(m_context.m_State.nCOP2[0].nV2 == 0x00000000);
assert(m_context.m_State.nCOP2[0].nV3 == 0x3F800000);
assert(m_context.m_State.nCOP2VI[0] == 0);
}
uint32 CBasicBlock::GetBeginAddress() const
{
return m_begin;
}
uint32 CBasicBlock::GetEndAddress() const
{
return m_end;
}
bool CBasicBlock::IsCompiled() const
{
#ifndef AOT_USE_CACHE
return !m_function.IsEmpty();
#else
return (m_function != nullptr);
#endif
}
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bool CBasicBlock::IsEmpty() const
{
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return (m_begin == MIPS_INVALID_PC) &&
(m_end == MIPS_INVALID_PC);
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}
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void CBasicBlock::LinkBlock(LINK_SLOT linkSlot, CBasicBlock* otherBlock)
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{
assert(!IsEmpty());
assert(!otherBlock->IsEmpty());
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assert(linkSlot < LINK_SLOT_MAX);
assert(m_linkBlockTrampolineOffset[linkSlot] != INVALID_LINK_SLOT);
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auto patchValue = reinterpret_cast<uintptr_t>(otherBlock->m_function.GetCode());
auto code = reinterpret_cast<uint8*>(m_function.GetCode());
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*reinterpret_cast<uintptr_t*>(code + m_linkBlockTrampolineOffset[linkSlot]) = patchValue;
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}
void CBasicBlock::HandleExternalFunctionReference(uintptr_t symbol, uint32 offset)
{
if(symbol == reinterpret_cast<uintptr_t>(&NextBlockTrampoline))
{
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if(m_linkBlockTrampolineOffset[LINK_SLOT_BRANCH] == INVALID_LINK_SLOT)
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{
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m_linkBlockTrampolineOffset[LINK_SLOT_BRANCH] = offset;
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}
else
{
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m_linkBlockTrampolineOffset[LINK_SLOT_NEXT] = offset;
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}
}
}
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void CBasicBlock::EmptyBlockHandler(CMIPS* context)
{
context->m_emptyBlockHandler(context);
}
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void CBasicBlock::NextBlockTrampoline(CMIPS* context)
{
}