JitArm64: Initial implementation of the BLR optimization.
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f20113fce2
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384efb0cb2
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@ -46,9 +46,7 @@ void JitArm64::Init()
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UpdateMemoryOptions();
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gpr.Init(this);
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fpr.Init(this);
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blocks.Init();
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GenerateAsm();
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code_block.m_stats = &js.st;
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code_block.m_gpa = &js.gpa;
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@ -56,6 +54,9 @@ void JitArm64::Init()
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analyzer.SetOption(PPCAnalyst::PPCAnalyzer::OPTION_CONDITIONAL_CONTINUE);
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analyzer.SetOption(PPCAnalyst::PPCAnalyzer::OPTION_CARRY_MERGE);
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analyzer.SetOption(PPCAnalyst::PPCAnalyzer::OPTION_BRANCH_FOLLOW);
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m_enable_blr_optimization = true;
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GenerateAsm();
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m_supports_cycle_counter = HasCycleCounters();
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}
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@ -192,8 +193,16 @@ void JitArm64::DoDownCount()
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gpr.Unlock(WA, WB);
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}
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// Exits
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void JitArm64::WriteExit(u32 destination)
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void JitArm64::ResetStack()
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{
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if (!m_enable_blr_optimization)
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return;
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LDR(INDEX_UNSIGNED, X0, PPC_REG, PPCSTATE_OFF(stored_stack_pointer));
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SUB(SP, X0, 16);
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}
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void JitArm64::WriteExit(u32 destination, bool LK, u32 exit_address_after_return)
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{
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Cleanup();
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DoDownCount();
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@ -201,32 +210,160 @@ void JitArm64::WriteExit(u32 destination)
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if (Profiler::g_ProfileBlocks)
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EndTimeProfile(js.curBlock);
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// If nobody has taken care of this yet (this can be removed when all branches are done)
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LK &= m_enable_blr_optimization;
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if (LK)
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{
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// Push {ARM_PC+20; PPC_PC} on the stack
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MOVI2R(X1, exit_address_after_return);
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ADR(X0, 20);
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STP(INDEX_PRE, X0, X1, SP, -16);
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}
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JitBlock* b = js.curBlock;
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JitBlock::LinkData linkData;
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linkData.exitAddress = destination;
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linkData.exitPtrs = GetWritableCodePtr();
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linkData.linkStatus = false;
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linkData.call = LK;
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b->linkData.push_back(linkData);
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MOVI2R(DISPATCHER_PC, destination);
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if (!LK)
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{
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B(dispatcher);
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}
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else
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{
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BL(dispatcher);
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void JitArm64::WriteExit(ARM64Reg Reg)
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// MOVI2R might only require one instruction. So the const offset of 20 bytes
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// might be wrong. Be sure and just add a NOP here.
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HINT(HINT_NOP);
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// Write the regular exit node after the return.
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linkData.exitAddress = exit_address_after_return;
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linkData.exitPtrs = GetWritableCodePtr();
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linkData.linkStatus = false;
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linkData.call = false;
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b->linkData.push_back(linkData);
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MOVI2R(DISPATCHER_PC, exit_address_after_return);
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B(dispatcher);
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}
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}
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void JitArm64::WriteExit(Arm64Gen::ARM64Reg dest, bool LK, u32 exit_address_after_return)
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{
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Cleanup();
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DoDownCount();
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if (Reg != DISPATCHER_PC)
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MOV(DISPATCHER_PC, Reg);
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gpr.Unlock(Reg);
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LK &= m_enable_blr_optimization;
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if (dest != DISPATCHER_PC)
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MOV(DISPATCHER_PC, dest);
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gpr.Unlock(dest);
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if (Profiler::g_ProfileBlocks)
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EndTimeProfile(js.curBlock);
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if (!LK)
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{
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B(dispatcher);
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}
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else
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{
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// Push {ARM_PC, PPC_PC} on the stack
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MOVI2R(X1, exit_address_after_return);
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ADR(X0, 12);
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STP(INDEX_PRE, X0, X1, SP, -16);
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BL(dispatcher);
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// Write the regular exit node after the return.
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JitBlock* b = js.curBlock;
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JitBlock::LinkData linkData;
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linkData.exitAddress = exit_address_after_return;
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linkData.exitPtrs = GetWritableCodePtr();
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linkData.linkStatus = false;
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linkData.call = false;
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b->linkData.push_back(linkData);
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MOVI2R(DISPATCHER_PC, exit_address_after_return);
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B(dispatcher);
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}
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}
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void JitArm64::FakeLKExit(u32 exit_address_after_return)
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{
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if (!m_enable_blr_optimization)
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return;
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// We may need to fake the BLR stack on inlined CALL instructions.
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// Else we can't return to this location any more.
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ARM64Reg after_reg = gpr.GetReg();
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ARM64Reg code_reg = gpr.GetReg();
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MOVI2R(after_reg, exit_address_after_return);
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ADR(EncodeRegTo64(code_reg), 12);
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STP(INDEX_PRE, EncodeRegTo64(code_reg), EncodeRegTo64(after_reg), SP, -16);
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gpr.Unlock(after_reg, code_reg);
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FixupBranch skip_exit = BL();
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// Write the regular exit node after the return.
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JitBlock* b = js.curBlock;
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JitBlock::LinkData linkData;
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linkData.exitAddress = exit_address_after_return;
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linkData.exitPtrs = GetWritableCodePtr();
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linkData.linkStatus = false;
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linkData.call = false;
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b->linkData.push_back(linkData);
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MOVI2R(DISPATCHER_PC, exit_address_after_return);
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B(dispatcher);
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SetJumpTarget(skip_exit);
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}
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void JitArm64::WriteBLRExit(Arm64Gen::ARM64Reg dest)
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{
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if (!m_enable_blr_optimization)
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{
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WriteExit(dest);
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return;
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}
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Cleanup();
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if (Profiler::g_ProfileBlocks)
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EndTimeProfile(js.curBlock);
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ARM64Reg code = gpr.GetReg();
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ARM64Reg pc = gpr.GetReg();
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// Check if {ARM_PC, PPC_PC} matches the current state.
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LDP(INDEX_POST, EncodeRegTo64(code), EncodeRegTo64(pc), SP, 16);
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CMP(pc, dest);
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FixupBranch no_match = B(CC_NEQ);
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DoDownCount();
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RET(EncodeRegTo64(code));
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SetJumpTarget(no_match);
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DoDownCount();
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if (dest != DISPATCHER_PC)
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MOV(DISPATCHER_PC, dest);
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ResetStack();
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B(dispatcher);
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gpr.Unlock(dest, pc, code);
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}
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void JitArm64::WriteExceptionExit(u32 destination, bool only_external)
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{
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@ -399,11 +536,11 @@ void JitArm64::Jit(u32)
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}
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JitBlock* b = blocks.AllocateBlock(em_address);
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const u8* BlockPtr = DoJit(em_address, &code_buffer, b, nextPC);
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DoJit(em_address, &code_buffer, b, nextPC);
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blocks.FinalizeBlock(*b, jo.enableBlocklink, code_block.m_physical_addresses);
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}
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const u8* JitArm64::DoJit(u32 em_address, PPCAnalyst::CodeBuffer* code_buf, JitBlock* b, u32 nextPC)
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void JitArm64::DoJit(u32 em_address, PPCAnalyst::CodeBuffer* code_buf, JitBlock* b, u32 nextPC)
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{
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if (em_address == 0)
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{
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@ -629,5 +766,4 @@ const u8* JitArm64::DoJit(u32 em_address, PPCAnalyst::CodeBuffer* code_buf, JitB
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FlushIcache();
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farcode.FlushIcache();
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return start;
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}
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@ -190,6 +190,8 @@ private:
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// Do we support cycle counter profiling?
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bool m_supports_cycle_counter;
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bool m_enable_blr_optimization;
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void EmitResetCycleCounters();
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void EmitGetCycles(Arm64Gen::ARM64Reg reg);
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@ -219,10 +221,11 @@ private:
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void SafeLoadToReg(u32 dest, s32 addr, s32 offsetReg, u32 flags, s32 offset, bool update);
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void SafeStoreFromReg(s32 dest, u32 value, s32 regOffset, u32 flags, s32 offset);
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const u8* DoJit(u32 em_address, PPCAnalyst::CodeBuffer* code_buf, JitBlock* b, u32 nextPC);
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void DoJit(u32 em_address, PPCAnalyst::CodeBuffer* code_buf, JitBlock* b, u32 nextPC);
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void DoDownCount();
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void Cleanup();
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void ResetStack();
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// AsmRoutines
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void GenerateAsm();
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@ -234,10 +237,12 @@ private:
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void EndTimeProfile(JitBlock* b);
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// Exits
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void WriteExit(u32 destination);
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void WriteExit(Arm64Gen::ARM64Reg dest);
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void WriteExit(u32 destination, bool LK = false, u32 exit_address_after_return = 0);
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void WriteExit(Arm64Gen::ARM64Reg dest, bool LK = false, u32 exit_address_after_return = 0);
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void WriteExceptionExit(u32 destination, bool only_external = false);
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void WriteExceptionExit(Arm64Gen::ARM64Reg dest, bool only_external = false);
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void FakeLKExit(u32 exit_address_after_return);
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void WriteBLRExit(Arm64Gen::ARM64Reg dest);
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FixupBranch JumpIfCRFieldBit(int field, int bit, bool jump_if_set);
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@ -18,6 +18,12 @@ void JitArm64BlockCache::WriteLinkBlock(const JitBlock::LinkData& source, const
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ARM64XEmitter emit(location);
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if (dest)
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{
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if (source.call)
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{
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emit.BL(dest->checkedEntry);
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}
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else
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{
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// Are we able to jump directly to the normal entry?
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s64 distance = ((s64)dest->normalEntry - (s64)location) >> 2;
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@ -30,9 +36,13 @@ void JitArm64BlockCache::WriteLinkBlock(const JitBlock::LinkData& source, const
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// or if we're not able to inline the downcount check here.
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emit.B(dest->checkedEntry);
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}
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}
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else
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{
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emit.MOVI2R(DISPATCHER_PC, source.exitAddress);
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if (source.call)
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emit.BL(m_jit.GetAsmRoutines()->dispatcher);
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else
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emit.B(m_jit.GetAsmRoutines()->dispatcher);
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}
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emit.FlushIcache();
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@ -92,6 +92,13 @@ void JitArm64::bx(UGeckoInstruction inst)
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if (!js.isLastInstruction)
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{
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if (inst.LK && !js.op->skipLRStack)
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{
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// We have to fake the stack as the RET instruction was not
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// found in the same block. This is a big overhead, but still
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// better than calling the dispatcher.
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FakeLKExit(js.compilerPC + 4);
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}
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return;
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}
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@ -112,7 +119,7 @@ void JitArm64::bx(UGeckoInstruction inst)
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return;
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}
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WriteExit(destination);
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WriteExit(destination, inst.LK, js.compilerPC + 4);
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}
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void JitArm64::bcx(UGeckoInstruction inst)
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@ -162,7 +169,7 @@ void JitArm64::bcx(UGeckoInstruction inst)
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gpr.Flush(FlushMode::FLUSH_MAINTAIN_STATE);
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fpr.Flush(FlushMode::FLUSH_MAINTAIN_STATE);
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WriteExit(destination);
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WriteExit(destination, inst.LK, js.compilerPC + 4);
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SwitchToNearCode();
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@ -211,7 +218,8 @@ void JitArm64::bcctrx(UGeckoInstruction inst)
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LDR(INDEX_UNSIGNED, WA, PPC_REG, PPCSTATE_OFF(spr[SPR_CTR]));
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AND(WA, WA, 30, 29); // Wipe the bottom 2 bits.
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WriteExit(WA);
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WriteExit(WA, inst.LK_3, js.compilerPC + 4);
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}
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void JitArm64::bclrx(UGeckoInstruction inst)
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@ -264,7 +272,7 @@ void JitArm64::bclrx(UGeckoInstruction inst)
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gpr.Flush(conditional ? FlushMode::FLUSH_MAINTAIN_STATE : FlushMode::FLUSH_ALL);
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fpr.Flush(conditional ? FlushMode::FLUSH_MAINTAIN_STATE : FlushMode::FLUSH_ALL);
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WriteExit(WA);
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WriteBLRExit(WA);
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if (conditional)
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SwitchToNearCode();
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@ -56,6 +56,10 @@ void JitArm64::mtmsr(UGeckoInstruction inst)
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gpr.Flush(FlushMode::FLUSH_ALL);
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fpr.Flush(FlushMode::FLUSH_ALL);
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// Our jit cache also stores some MSR bits, as they have changed, we either
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// have to validate them in the BLR/RET check, or just flush the stack here.
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ResetStack();
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WriteExceptionExit(js.compilerPC + 4, true);
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}
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@ -28,6 +28,14 @@ void JitArm64::GenerateAsm()
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MOVP2R(PPC_REG, &PowerPC::ppcState);
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// Store the stack pointer, so we can reset it if the BLR optimization fails.
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ADD(X0, SP, 0);
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STR(INDEX_UNSIGNED, X0, PPC_REG, PPCSTATE_OFF(stored_stack_pointer));
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// Push {nullptr; -1} as invalid destination on the stack.
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MOVI2R(X0, 0xFFFFFFFF);
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STP(INDEX_PRE, ZR, X0, SP, -16);
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// The PC will be loaded into DISPATCHER_PC after the call to CoreTiming::Advance().
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// Advance() does an exception check so we don't know what PC to use until afterwards.
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FixupBranch to_start_of_timing_slice = B();
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@ -119,6 +127,7 @@ void JitArm64::GenerateAsm()
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// Call JIT
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SetJumpTarget(no_block_available);
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ResetStack();
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MOV(W0, DISPATCHER_PC);
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MOVP2R(X30, reinterpret_cast<void*>(&JitTrampoline));
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BLR(X30);
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@ -150,6 +159,11 @@ void JitArm64::GenerateAsm()
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B(dispatcherNoCheck);
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SetJumpTarget(Exit);
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// Reset the stack pointer, as the BLR optimization have touched it.
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LDR(INDEX_UNSIGNED, X0, PPC_REG, PPCSTATE_OFF(stored_stack_pointer));
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ADD(SP, X0, 0);
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ABI_PopRegisters(regs_to_save);
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RET(X30);
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@ -58,6 +58,7 @@ struct JitBlock
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u8* exitPtrs; // to be able to rewrite the exit jump
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u32 exitAddress;
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bool linkStatus; // is it already linked?
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bool call;
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};
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std::vector<LinkData> linkData;
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@ -116,6 +116,9 @@ struct PowerPCState
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// also for power management, but we don't care about that.
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u32 spr[1024];
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// Storage for the stack pointer of the BLR optimization.
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u8* stored_stack_pointer;
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std::array<std::array<tlb_entry, TLB_SIZE / TLB_WAYS>, NUM_TLBS> tlb;
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u32 pagetable_base;
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