dolphin/Source/Core/DolphinWX/Debugger/JitWindow.cpp

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// Copyright 2008 Dolphin Emulator Project
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// Licensed under GPLv2+
// Refer to the license.txt file included.
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#include <cstdio>
#include <cstring>
#include <disasm.h> // Bochs
#include <sstream>
#if defined(HAS_LLVM)
// PowerPC.h defines PC.
// This conflicts with a function that has an argument named PC
#undef PC
#include <llvm-c/Disassembler.h>
#include <llvm-c/Target.h>
#endif
#include <wx/button.h>
#include <wx/listctrl.h>
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#include <wx/panel.h>
#include <wx/sizer.h>
#include <wx/textctrl.h>
#include "Common/CommonTypes.h"
#include "Common/GekkoDisassembler.h"
#include "Common/StringUtil.h"
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#include "Core/PowerPC/Gekko.h"
#include "Core/PowerPC/PPCAnalyst.h"
#include "Core/PowerPC/JitCommon/JitBase.h"
#include "Core/PowerPC/JitCommon/JitCache.h"
#include "DolphinWX/Globals.h"
#include "DolphinWX/WxUtils.h"
#include "DolphinWX/Debugger/JitWindow.h"
#if defined(HAS_LLVM)
// This class declaration should be in the header
// Due to the conflict with the PC define and the function with PC as an argument
// it has to be in this file instead.
// Once that conflict is resolved this can be moved to the header
class HostDisassemblerLLVM : public HostDisassembler
{
public:
HostDisassemblerLLVM(const std::string host_disasm, int inst_size = -1, const std::string cpu = "");
~HostDisassemblerLLVM()
{
if (m_can_disasm)
LLVMDisasmDispose(m_llvm_context);
}
private:
bool m_can_disasm;
LLVMDisasmContextRef m_llvm_context;
int m_instruction_size;
std::string DisassembleHostBlock(const u8* code_start, const u32 code_size, u32* host_instructions_count) override;
};
HostDisassemblerLLVM::HostDisassemblerLLVM(const std::string host_disasm, int inst_size, const std::string cpu)
: m_can_disasm(false), m_instruction_size(inst_size)
{
LLVMInitializeAllTargetInfos();
LLVMInitializeAllTargetMCs();
LLVMInitializeAllDisassemblers();
m_llvm_context = LLVMCreateDisasmCPU(host_disasm.c_str(), cpu.c_str(), nullptr, 0, 0, nullptr);
// Couldn't create llvm context
if (!m_llvm_context)
return;
LLVMSetDisasmOptions(m_llvm_context,
LLVMDisassembler_Option_AsmPrinterVariant |
LLVMDisassembler_Option_PrintLatency);
m_can_disasm = true;
}
std::string HostDisassemblerLLVM::DisassembleHostBlock(const u8* code_start, const u32 code_size, u32 *host_instructions_count)
{
if (!m_can_disasm)
return "(No LLVM context)";
u8* disasmPtr = (u8*)code_start;
const u8 *end = code_start + code_size;
std::ostringstream x86_disasm;
while ((u8*)disasmPtr < end)
{
char inst_disasm[256];
size_t inst_size = LLVMDisasmInstruction(m_llvm_context, disasmPtr, (u64)(end - disasmPtr), (u64)disasmPtr, inst_disasm, 256);
if (!inst_size)
{
x86_disasm << "Invalid inst:";
if (m_instruction_size != -1)
{
// If we are on an architecture that has a fixed instruction size
// We can continue onward past this bad instruction.
std::string inst_str = "";
for (int i = 0; i < m_instruction_size; ++i)
inst_str += StringFromFormat("%02x", disasmPtr[i]);
x86_disasm << inst_str << std::endl;
disasmPtr += m_instruction_size;
}
else
{
// We can't continue if we are on an architecture that has flexible instruction sizes
// Dump the rest of the block instead
std::string code_block = "";
for (int i = 0; (disasmPtr + i) < end; ++i)
code_block += StringFromFormat("%02x", disasmPtr[i]);
x86_disasm << code_block << std::endl;
break;
}
}
else
{
x86_disasm << inst_disasm << std::endl;
disasmPtr += inst_size;
}
(*host_instructions_count)++;
}
return x86_disasm.str();
}
#endif
std::string HostDisassembler::DisassembleBlock(u32* address, u32* host_instructions_count, u32* code_size)
{
if (!jit)
{
*host_instructions_count = 0;
*code_size = 0;
return "(No JIT active)";
}
int block_num = jit->GetBlockCache()->GetBlockNumberFromStartAddress(*address);
if (block_num < 0)
{
for (int i = 0; i < 500; i++)
{
block_num = jit->GetBlockCache()->GetBlockNumberFromStartAddress(*address - 4 * i);
if (block_num >= 0)
break;
}
if (block_num >= 0)
{
JitBlock* block = jit->GetBlockCache()->GetBlock(block_num);
if (!(block->originalAddress <= *address &&
block->originalSize + block->originalAddress >= *address))
block_num = -1;
}
// Do not merge this "if" with the above - block_num changes inside it.
if (block_num < 0)
{
host_instructions_count = 0;
code_size = 0;
return "(No translation)";
}
}
JitBlock* block = jit->GetBlockCache()->GetBlock(block_num);
const u8* code = (const u8*)jit->GetBlockCache()->GetCompiledCodeFromBlock(block_num);
*code_size = block->codeSize;
*address = block->originalAddress;
return DisassembleHostBlock(code, block->codeSize, host_instructions_count);
}
HostDisassemblerX86::HostDisassemblerX86()
{
m_disasm.set_syntax_intel();
}
std::string HostDisassemblerX86::DisassembleHostBlock(const u8* code_start, const u32 code_size, u32* host_instructions_count)
{
u64 disasmPtr = (u64)code_start;
const u8* end = code_start + code_size;
std::ostringstream x86_disasm;
while ((u8*)disasmPtr < end)
{
char inst_disasm[256];
disasmPtr += m_disasm.disasm64(disasmPtr, disasmPtr, (u8*)disasmPtr, inst_disasm);
x86_disasm << inst_disasm << std::endl;
(*host_instructions_count)++;
}
return x86_disasm.str();
}
CJitWindow::CJitWindow(wxWindow* parent, wxWindowID id, const wxPoint& pos,
const wxSize& size, long style, const wxString& name)
: wxPanel(parent, id, pos, size, style, name)
{
wxBoxSizer* sizerBig = new wxBoxSizer(wxVERTICAL);
wxBoxSizer* sizerSplit = new wxBoxSizer(wxHORIZONTAL);
sizerSplit->Add(ppc_box = new wxTextCtrl(this, wxID_ANY, "(ppc)",
wxDefaultPosition, wxDefaultSize, wxTE_MULTILINE), 1, wxEXPAND);
sizerSplit->Add(x86_box = new wxTextCtrl(this, wxID_ANY, "(x86)",
wxDefaultPosition, wxDefaultSize, wxTE_MULTILINE), 1, wxEXPAND);
sizerBig->Add(block_list = new JitBlockList(this, wxID_ANY,
wxDefaultPosition, wxSize(100, 140),
wxLC_REPORT | wxSUNKEN_BORDER | wxLC_ALIGN_LEFT | wxLC_SINGLE_SEL | wxLC_SORT_ASCENDING),
0, wxEXPAND);
sizerBig->Add(sizerSplit, 2, wxEXPAND);
sizerBig->Add(button_refresh = new wxButton(this, wxID_ANY, _("&Refresh")));
button_refresh->Bind(wxEVT_BUTTON, &CJitWindow::OnRefresh, this);
SetSizer(sizerBig);
sizerSplit->Fit(this);
sizerBig->Fit(this);
#if defined(_M_X86) && defined(HAS_LLVM)
m_disassembler.reset(new HostDisassemblerLLVM("x86_64-none-unknown"));
#elif defined(_M_X86)
m_disassembler.reset(new HostDisassemblerX86());
#elif defined(_M_ARM_64) && defined(HAS_LLVM)
m_disassembler.reset(new HostDisassemblerLLVM("aarch64-none-unknown", 4, "cortex-a57"));
#elif defined(_M_ARM_32) && defined(HAS_LLVM)
m_disassembler.reset(new HostDisassemblerLLVM("armv7-none-unknown", 4, "cortex-a15"));
#else
m_disassembler.reset(new HostDisassembler());
#endif
}
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void CJitWindow::OnRefresh(wxCommandEvent& /*event*/)
{
block_list->Update();
}
void CJitWindow::ViewAddr(u32 em_address)
{
Show(true);
Compare(em_address);
SetFocus();
}
void CJitWindow::Compare(u32 em_address)
{
// Get host side code disassembly
u32 host_instructions_count = 0;
u32 host_code_size = 0;
std::string host_instructions_disasm;
host_instructions_disasm = m_disassembler->DisassembleBlock(&em_address, &host_instructions_count, &host_code_size);
x86_box->SetValue(host_instructions_disasm);
// == Fill in ppc box
u32 ppc_addr = em_address;
PPCAnalyst::CodeBuffer code_buffer(32000);
PPCAnalyst::BlockStats st;
PPCAnalyst::BlockRegStats gpa;
PPCAnalyst::BlockRegStats fpa;
PPCAnalyst::CodeBlock code_block;
PPCAnalyst::PPCAnalyzer analyzer;
analyzer.SetOption(PPCAnalyst::PPCAnalyzer::OPTION_CONDITIONAL_CONTINUE);
code_block.m_stats = &st;
code_block.m_gpa = &gpa;
code_block.m_fpa = &fpa;
if (analyzer.Analyze(ppc_addr, &code_block, &code_buffer, 32000) != 0xFFFFFFFF)
{
std::ostringstream ppc_disasm;
for (u32 i = 0; i < code_block.m_num_instructions; i++)
{
const PPCAnalyst::CodeOp &op = code_buffer.codebuffer[i];
std::string opcode = GekkoDisassembler::Disassemble(op.inst.hex, op.address);
ppc_disasm << std::setfill('0') << std::setw(8) << std::hex << op.address;
ppc_disasm << " " << opcode << std::endl;
}
// Add stats to the end of the ppc box since it's generally the shortest.
ppc_disasm << std::dec << std::endl;
// Add some generic analysis
if (st.isFirstBlockOfFunction)
ppc_disasm << "(first block of function)" << std::endl;
if (st.isLastBlockOfFunction)
ppc_disasm << "(last block of function)" << std::endl;
ppc_disasm << st.numCycles << " estimated cycles" << std::endl;
ppc_disasm << "Num instr: PPC: " << code_block.m_num_instructions
<< " x86: " << host_instructions_count
<< " (blowup: " << 100 * host_instructions_count / code_block.m_num_instructions - 100
<< "%)" << std::endl;
ppc_disasm << "Num bytes: PPC: " << code_block.m_num_instructions * 4
<< " x86: " << host_code_size
<< " (blowup: " << 100 * host_code_size / (4 * code_block.m_num_instructions) - 100
<< "%)" << std::endl;
ppc_box->SetValue(ppc_disasm.str());
}
else
{
ppc_box->SetValue(StringFromFormat("(non-code address: %08x)", em_address));
x86_box->SetValue("---");
}
}
void CJitWindow::Update()
{
}
void CJitWindow::OnHostMessage(wxCommandEvent& event)
{
switch (event.GetId())
{
case IDM_NOTIFY_MAP_LOADED:
//NotifyMapLoaded();
break;
}
}
// JitBlockList
//================
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enum
{
COLUMN_ADDRESS,
COLUMN_PPCSIZE,
COLUMN_X86SIZE,
COLUMN_NAME,
COLUMN_FLAGS,
COLUMN_NUMEXEC,
COLUMN_COST, // (estimated as x86size * numexec)
};
JitBlockList::JitBlockList(wxWindow* parent, const wxWindowID id,
const wxPoint& pos, const wxSize& size, long style)
: wxListCtrl(parent, id, pos, size, style) // | wxLC_VIRTUAL)
{
Init();
}
void JitBlockList::Init()
{
InsertColumn(COLUMN_ADDRESS, _("Address"));
InsertColumn(COLUMN_PPCSIZE, _("PPC Size"));
InsertColumn(COLUMN_X86SIZE, _("x86 Size"));
InsertColumn(COLUMN_NAME, _("Symbol"));
InsertColumn(COLUMN_FLAGS, _("Flags"));
InsertColumn(COLUMN_NUMEXEC, _("NumExec"));
InsertColumn(COLUMN_COST, _("Cost"));
}
void JitBlockList::Update()
{
}