# Copyright (C) 2011-2020 Apple Inc. All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions # are met: # 1. Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # 2. Redistributions in binary form must reproduce the above copyright # notice, this list of conditions and the following disclaimer in the # documentation and/or other materials provided with the distribution. # # THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS'' # AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, # THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR # PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS # BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR # CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF # SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS # INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN # CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) # ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF # THE POSSIBILITY OF SUCH DAMAGE. # Utilities. macro storePC() storei PC, LLIntReturnPC[cfr] end macro loadPC() loadi LLIntReturnPC[cfr], PC end macro getuOperandNarrow(opcodeStruct, fieldName, dst) loadb constexpr %opcodeStruct%_%fieldName%_index + OpcodeIDNarrowSize[PB, PC, 1], dst end macro getOperandNarrow(opcodeStruct, fieldName, dst) loadbsq constexpr %opcodeStruct%_%fieldName%_index + OpcodeIDNarrowSize[PB, PC, 1], dst end macro getuOperandWide16(opcodeStruct, fieldName, dst) loadh constexpr %opcodeStruct%_%fieldName%_index * 2 + OpcodeIDWide16Size[PB, PC, 1], dst end macro getOperandWide16(opcodeStruct, fieldName, dst) loadhsq constexpr %opcodeStruct%_%fieldName%_index * 2 + OpcodeIDWide16Size[PB, PC, 1], dst end macro getuOperandWide32(opcodeStruct, fieldName, dst) loadi constexpr %opcodeStruct%_%fieldName%_index * 4 + OpcodeIDWide32Size[PB, PC, 1], dst end macro getOperandWide32(opcodeStruct, fieldName, dst) loadis constexpr %opcodeStruct%_%fieldName%_index * 4 + OpcodeIDWide32Size[PB, PC, 1], dst end macro makeReturn(get, dispatch, fn) fn(macro (value) move value, t2 get(m_dst, t1) storeq t2, [cfr, t1, 8] dispatch() end) end macro makeReturnProfiled(opcodeStruct, get, metadata, dispatch, fn) fn(macro (value) move value, t3 metadata(t1, t2) valueProfile(opcodeStruct, m_profile, t1, t3) get(m_dst, t1) storeq t3, [cfr, t1, 8] dispatch() end) end macro valueProfile(opcodeStruct, profileName, metadata, value) storeq value, %opcodeStruct%::Metadata::%profileName%.m_buckets[metadata] end # After calling, calling bytecode is claiming input registers are not used. macro dispatchAfterCall(size, opcodeStruct, valueProfileName, dstVirtualRegister, dispatch) loadPC() loadp CodeBlock[cfr], PB loadp CodeBlock::m_instructionsRawPointer[PB], PB get(size, opcodeStruct, dstVirtualRegister, t1) storeq r0, [cfr, t1, 8] metadata(size, opcodeStruct, t2, t1) valueProfile(opcodeStruct, valueProfileName, t2, r0) dispatch() end macro cCall2(function) checkStackPointerAlignment(t4, 0xbad0c002) if X86_64 or ARM64 or ARM64E call function elsif X86_64_WIN # Note: this implementation is only correct if the return type size is > 8 bytes. # See macro cCall2Void for an implementation when the return type <= 8 bytes. # On Win64, when the return type is larger than 8 bytes, we need to allocate space on the stack for the return value. # On entry rcx (a0), should contain a pointer to this stack space. The other parameters are shifted to the right, # rdx (a1) should contain the first argument, and r8 (a2) should contain the second argument. # On return, rax contains a pointer to this stack value, and we then need to copy the 16 byte return value into rax (r0) and rdx (r1) # since the return value is expected to be split between the two. # See http://msdn.microsoft.com/en-us/library/7572ztz4.aspx move a1, a2 move a0, a1 subp 48, sp move sp, a0 addp 32, a0 call function addp 48, sp move 8[r0], r1 move [r0], r0 elsif C_LOOP or C_LOOP_WIN cloopCallSlowPath function, a0, a1 else error end end macro cCall2Void(function) if C_LOOP or C_LOOP_WIN cloopCallSlowPathVoid function, a0, a1 elsif X86_64_WIN # Note: we cannot use the cCall2 macro for Win64 in this case, # as the Win64 cCall2 implemenation is only correct when the return type size is > 8 bytes. # On Win64, rcx and rdx are used for passing the first two parameters. # We also need to make room on the stack for all four parameter registers. # See http://msdn.microsoft.com/en-us/library/ms235286.aspx subp 32, sp call function addp 32, sp else cCall2(function) end end # This barely works. arg3 and arg4 should probably be immediates. macro cCall4(function) checkStackPointerAlignment(t4, 0xbad0c004) if X86_64 or ARM64 or ARM64E call function elsif X86_64_WIN # On Win64, rcx, rdx, r8, and r9 are used for passing the first four parameters. # We also need to make room on the stack for all four parameter registers. # See http://msdn.microsoft.com/en-us/library/ms235286.aspx subp 64, sp call function addp 64, sp else error end end macro doVMEntry(makeCall) functionPrologue() pushCalleeSaves() const entry = a0 const vm = a1 const protoCallFrame = a2 vmEntryRecord(cfr, sp) checkStackPointerAlignment(t4, 0xbad0dc01) loadi VM::disallowVMEntryCount[vm], t4 btinz t4, .checkVMEntryPermission storep vm, VMEntryRecord::m_vm[sp] loadp VM::topCallFrame[vm], t4 storep t4, VMEntryRecord::m_prevTopCallFrame[sp] loadp VM::topEntryFrame[vm], t4 storep t4, VMEntryRecord::m_prevTopEntryFrame[sp] loadp ProtoCallFrame::calleeValue[protoCallFrame], t4 storep t4, VMEntryRecord::m_callee[sp] loadi ProtoCallFrame::paddedArgCount[protoCallFrame], t4 addp CallFrameHeaderSlots, t4, t4 lshiftp 3, t4 subp sp, t4, t3 bqbeq sp, t3, .throwStackOverflow # Ensure that we have enough additional stack capacity for the incoming args, # and the frame for the JS code we're executing. We need to do this check # before we start copying the args from the protoCallFrame below. if C_LOOP or C_LOOP_WIN bpaeq t3, VM::m_cloopStackLimit[vm], .stackHeightOK move entry, t4 move vm, t5 cloopCallSlowPath _llint_stack_check_at_vm_entry, vm, t3 bpeq t0, 0, .stackCheckFailed move t4, entry move t5, vm jmp .stackHeightOK .stackCheckFailed: move t4, entry move t5, vm jmp .throwStackOverflow else bpb t3, VM::m_softStackLimit[vm], .throwStackOverflow end .stackHeightOK: move t3, sp move (constexpr ProtoCallFrame::numberOfRegisters), t3 .copyHeaderLoop: # Copy the CodeBlock/Callee/ArgumentCountIncludingThis/|this| from protoCallFrame into the callee frame. subi 1, t3 loadq [protoCallFrame, t3, 8], extraTempReg storeq extraTempReg, CodeBlock[sp, t3, 8] btinz t3, .copyHeaderLoop loadi PayloadOffset + ProtoCallFrame::argCountAndCodeOriginValue[protoCallFrame], t4 subi 1, t4 loadi ProtoCallFrame::paddedArgCount[protoCallFrame], extraTempReg subi 1, extraTempReg bieq t4, extraTempReg, .copyArgs move ValueUndefined, t3 .fillExtraArgsLoop: subi 1, extraTempReg storeq t3, ThisArgumentOffset + 8[sp, extraTempReg, 8] bineq t4, extraTempReg, .fillExtraArgsLoop .copyArgs: loadp ProtoCallFrame::args[protoCallFrame], t3 .copyArgsLoop: btiz t4, .copyArgsDone subi 1, t4 loadq [t3, t4, 8], extraTempReg storeq extraTempReg, ThisArgumentOffset + 8[sp, t4, 8] jmp .copyArgsLoop .copyArgsDone: if ARM64 or ARM64E move sp, t4 storep t4, VM::topCallFrame[vm] else storep sp, VM::topCallFrame[vm] end storep cfr, VM::topEntryFrame[vm] checkStackPointerAlignment(extraTempReg, 0xbad0dc02) makeCall(entry, protoCallFrame, t3, t4) # We may have just made a call into a JS function, so we can't rely on sp # for anything but the fact that our own locals (ie the VMEntryRecord) are # not below it. It also still has to be aligned, though. checkStackPointerAlignment(t2, 0xbad0dc03) vmEntryRecord(cfr, t4) loadp VMEntryRecord::m_vm[t4], vm loadp VMEntryRecord::m_prevTopCallFrame[t4], t2 storep t2, VM::topCallFrame[vm] loadp VMEntryRecord::m_prevTopEntryFrame[t4], t2 storep t2, VM::topEntryFrame[vm] subp cfr, CalleeRegisterSaveSize, sp popCalleeSaves() functionEpilogue() ret .throwStackOverflow: move vm, a0 move protoCallFrame, a1 cCall2(_llint_throw_stack_overflow_error) vmEntryRecord(cfr, t4) loadp VMEntryRecord::m_vm[t4], vm loadp VMEntryRecord::m_prevTopCallFrame[t4], extraTempReg storep extraTempReg, VM::topCallFrame[vm] loadp VMEntryRecord::m_prevTopEntryFrame[t4], extraTempReg storep extraTempReg, VM::topEntryFrame[vm] subp cfr, CalleeRegisterSaveSize, sp popCalleeSaves() functionEpilogue() ret .checkVMEntryPermission: move vm, a0 move protoCallFrame, a1 cCall2(_llint_check_vm_entry_permission) move ValueUndefined, r0 subp cfr, CalleeRegisterSaveSize, sp popCalleeSaves() functionEpilogue() ret end # a0, a2, t3, t4 macro makeJavaScriptCall(entry, protoCallFrame, temp1, temp2) addp 16, sp if C_LOOP or C_LOOP_WIN cloopCallJSFunction entry elsif ARM64E move entry, t3 leap JSCConfig + constexpr JSC::offsetOfJSCConfigGateMap + (constexpr Gate::vmEntryToJavaScript) * PtrSize, a2 jmp [a2], NativeToJITGatePtrTag # JSEntryPtrTag global _vmEntryToJavaScriptTrampoline _vmEntryToJavaScriptTrampoline: call t3, JSEntryPtrTag else call entry, JSEntryPtrTag end if ARM64E global _vmEntryToJavaScriptGateAfter _vmEntryToJavaScriptGateAfter: end subp 16, sp end # a0, a2, t3, t4 macro makeHostFunctionCall(entry, protoCallFrame, temp1, temp2) move entry, temp1 storep cfr, [sp] loadp ProtoCallFrame::globalObject[protoCallFrame], a0 move sp, a1 if C_LOOP or C_LOOP_WIN storep lr, 8[sp] cloopCallNative temp1 elsif X86_64_WIN # We need to allocate 32 bytes on the stack for the shadow space. subp 32, sp call temp1, HostFunctionPtrTag addp 32, sp else call temp1, HostFunctionPtrTag end end op(llint_handle_uncaught_exception, macro () loadp Callee[cfr], t3 convertCalleeToVM(t3) restoreCalleeSavesFromVMEntryFrameCalleeSavesBuffer(t3, t0) storep 0, VM::callFrameForCatch[t3] loadp VM::topEntryFrame[t3], cfr vmEntryRecord(cfr, t2) loadp VMEntryRecord::m_vm[t2], t3 loadp VMEntryRecord::m_prevTopCallFrame[t2], extraTempReg storep extraTempReg, VM::topCallFrame[t3] loadp VMEntryRecord::m_prevTopEntryFrame[t2], extraTempReg storep extraTempReg, VM::topEntryFrame[t3] subp cfr, CalleeRegisterSaveSize, sp popCalleeSaves() functionEpilogue() ret end) op(llint_get_host_call_return_value, macro () functionPrologue() pushCalleeSaves() loadp Callee[cfr], t0 convertCalleeToVM(t0) loadq VM::encodedHostCallReturnValue[t0], t0 popCalleeSaves() functionEpilogue() ret end) macro prepareStateForCCall() addp PB, PC end macro restoreStateAfterCCall() move r0, PC subp PB, PC end macro callSlowPath(slowPath) prepareStateForCCall() move cfr, a0 move PC, a1 cCall2(slowPath) restoreStateAfterCCall() end macro traceOperand(fromWhere, operand) prepareStateForCCall() move fromWhere, a2 move operand, a3 move cfr, a0 move PC, a1 cCall4(_llint_trace_operand) restoreStateAfterCCall() end macro traceValue(fromWhere, operand) prepareStateForCCall() move fromWhere, a2 move operand, a3 move cfr, a0 move PC, a1 cCall4(_llint_trace_value) restoreStateAfterCCall() end # Call a slow path for call opcodes. macro callCallSlowPath(slowPath, action) storePC() prepareStateForCCall() move cfr, a0 move PC, a1 cCall2(slowPath) action(r0, r1) end macro callTrapHandler(throwHandler) storePC() prepareStateForCCall() move cfr, a0 move PC, a1 cCall2(_llint_slow_path_handle_traps) btpnz r0, throwHandler loadi LLIntReturnPC[cfr], PC end macro checkSwitchToJITForLoop() checkSwitchToJIT( 1, macro() storePC() prepareStateForCCall() move cfr, a0 move PC, a1 cCall2(_llint_loop_osr) btpz r0, .recover move r1, sp if ARM64E leap JSCConfig + constexpr JSC::offsetOfJSCConfigGateMap + (constexpr Gate::loopOSREntry) * PtrSize, a2 jmp [a2], NativeToJITGatePtrTag # JSEntryPtrTag else jmp r0, JSEntryPtrTag end .recover: loadPC() end) end macro cage(basePtr, mask, ptr, scratch) if GIGACAGE_ENABLED and not (C_LOOP or C_LOOP_WIN) loadp basePtr, scratch btpz scratch, .done andp mask, ptr addp scratch, ptr .done: end end macro cagePrimitive(basePtr, mask, ptr, scratch) if GIGACAGE_ENABLED and not (C_LOOP or C_LOOP_WIN) loadb GigacageConfig + Gigacage::Config::disablingPrimitiveGigacageIsForbidden, scratch btbnz scratch, .doCaging loadb _disablePrimitiveGigacageRequested, scratch btbnz scratch, .done .doCaging: cage(basePtr, mask, ptr, scratch) .done: end end macro cagedPrimitive(ptr, length, scratch, scratch2) if ARM64E const source = scratch2 move ptr, scratch2 else const source = ptr end if GIGACAGE_ENABLED cagePrimitive(GigacageConfig + Gigacage::Config::basePtrs + GigacagePrimitiveBasePtrOffset, constexpr Gigacage::primitiveGigacageMask, source, scratch) if ARM64E const numberOfPACBits = constexpr MacroAssembler::numberOfPACBits bfiq scratch2, 0, 64 - numberOfPACBits, ptr end end if ARM64E untagArrayPtr length, ptr end end macro loadCagedJSValue(source, dest, scratchOrLength) loadp source, dest if GIGACAGE_ENABLED cage(GigacageConfig + Gigacage::Config::basePtrs + GigacageJSValueBasePtrOffset, constexpr Gigacage::jsValueGigacageMask, dest, scratchOrLength) end end macro loadVariable(get, fieldName, valueReg) get(fieldName, valueReg) loadq [cfr, valueReg, 8], valueReg end # Index and value must be different registers. Index may be clobbered. macro loadConstant(size, index, value) macro loadNarrow() loadp CodeBlock[cfr], value loadp CodeBlock::m_constantRegisters + VectorBufferOffset[value], value loadq -(FirstConstantRegisterIndexNarrow * 8)[value, index, 8], value end macro loadWide16() loadp CodeBlock[cfr], value loadp CodeBlock::m_constantRegisters + VectorBufferOffset[value], value loadq -(FirstConstantRegisterIndexWide16 * 8)[value, index, 8], value end macro loadWide32() loadp CodeBlock[cfr], value loadp CodeBlock::m_constantRegisters + VectorBufferOffset[value], value subp FirstConstantRegisterIndexWide32, index loadq [value, index, 8], value end size(loadNarrow, loadWide16, loadWide32, macro (load) load() end) end # Index and value must be different registers. Index may be clobbered. macro loadConstantOrVariable(size, index, value) macro loadNarrow() bpgteq index, FirstConstantRegisterIndexNarrow, .constant loadq [cfr, index, 8], value jmp .done .constant: loadConstant(size, index, value) .done: end macro loadWide16() bpgteq index, FirstConstantRegisterIndexWide16, .constant loadq [cfr, index, 8], value jmp .done .constant: loadConstant(size, index, value) .done: end macro loadWide32() bpgteq index, FirstConstantRegisterIndexWide32, .constant loadq [cfr, index, 8], value jmp .done .constant: loadConstant(size, index, value) .done: end size(loadNarrow, loadWide16, loadWide32, macro (load) load() end) end macro loadConstantOrVariableInt32(size, index, value, slow) loadConstantOrVariable(size, index, value) bqb value, numberTag, slow end macro loadConstantOrVariableCell(size, index, value, slow) loadConstantOrVariable(size, index, value) btqnz value, notCellMask, slow end macro writeBarrierOnCellWithReload(cell, reloadAfterSlowPath) skipIfIsRememberedOrInEden( cell, macro() push PB, PC move cell, a1 # cell can be a0 move cfr, a0 cCall2Void(_llint_write_barrier_slow) pop PC, PB reloadAfterSlowPath() end) end macro writeBarrierOnCellAndValueWithReload(cell, value, reloadAfterSlowPath) btqnz value, notCellMask, .writeBarrierDone btqz value, .writeBarrierDone writeBarrierOnCellWithReload(cell, reloadAfterSlowPath) .writeBarrierDone: end macro writeBarrierOnOperandWithReload(size, get, cellFieldName, reloadAfterSlowPath) get(cellFieldName, t1) loadConstantOrVariableCell(size, t1, t2, .writeBarrierDone) writeBarrierOnCellWithReload(t2, reloadAfterSlowPath) .writeBarrierDone: end macro writeBarrierOnOperand(size, get, cellFieldName) writeBarrierOnOperandWithReload(size, get, cellFieldName, macro () end) end macro writeBarrierOnOperands(size, get, cellFieldName, valueFieldName) get(valueFieldName, t1) loadConstantOrVariableCell(size, t1, t0, .writeBarrierDone) btpz t0, .writeBarrierDone writeBarrierOnOperand(size, get, cellFieldName) .writeBarrierDone: end macro writeBarrierOnGlobal(size, get, valueFieldName, loadMacro) get(valueFieldName, t1) loadConstantOrVariableCell(size, t1, t0, .writeBarrierDone) btpz t0, .writeBarrierDone loadMacro(t3) writeBarrierOnCellWithReload(t3, macro() end) .writeBarrierDone: end macro writeBarrierOnGlobalObject(size, get, valueFieldName) writeBarrierOnGlobal(size, get, valueFieldName, macro(registerToStoreGlobal) loadp CodeBlock[cfr], registerToStoreGlobal loadp CodeBlock::m_globalObject[registerToStoreGlobal], registerToStoreGlobal end) end macro writeBarrierOnGlobalLexicalEnvironment(size, get, valueFieldName) writeBarrierOnGlobal(size, get, valueFieldName, macro(registerToStoreGlobal) loadp CodeBlock[cfr], registerToStoreGlobal loadp CodeBlock::m_globalObject[registerToStoreGlobal], registerToStoreGlobal loadp JSGlobalObject::m_globalLexicalEnvironment[registerToStoreGlobal], registerToStoreGlobal end) end macro structureIDToStructureWithScratch(structureIDThenStructure, scratch, scratch2) loadp CodeBlock[cfr], scratch move structureIDThenStructure, scratch2 loadp CodeBlock::m_vm[scratch], scratch rshifti NumberOfStructureIDEntropyBits, scratch2 loadp VM::heap + Heap::m_structureIDTable + StructureIDTable::m_table[scratch], scratch loadp [scratch, scratch2, PtrSize], scratch2 lshiftp StructureEntropyBitsShift, structureIDThenStructure xorp scratch2, structureIDThenStructure end macro loadStructureWithScratch(cell, structure, scratch, scratch2) loadi JSCell::m_structureID[cell], structure structureIDToStructureWithScratch(structure, scratch, scratch2) end # Entrypoints into the interpreter. # Expects that CodeBlock is in t1, which is what prologue() leaves behind. macro functionArityCheck(opcodeName, doneLabel, slowPath) loadi PayloadOffset + ArgumentCountIncludingThis[cfr], t0 biaeq t0, CodeBlock::m_numParameters[t1], doneLabel prepareStateForCCall() move cfr, a0 move PC, a1 cCall2(slowPath) # This slowPath has the protocol: r0 = 0 => no error, r0 != 0 => error btiz r0, .noError # We're throwing before the frame is fully set up. This frame will be # ignored by the unwinder. So, let's restore the callee saves before we # start unwinding. We need to do this before we change the cfr. restoreCalleeSavesUsedByLLInt() move r1, cfr # r1 contains caller frame jmp _llint_throw_from_slow_path_trampoline .noError: move r1, t1 # r1 contains slotsToAdd. btiz t1, .continue loadi PayloadOffset + ArgumentCountIncludingThis[cfr], t2 addi CallFrameHeaderSlots, t2 // Check if there are some unaligned slots we can use move t1, t3 andi StackAlignmentSlots - 1, t3 btiz t3, .noExtraSlot move ValueUndefined, t0 .fillExtraSlots: storeq t0, [cfr, t2, 8] addi 1, t2 bsubinz 1, t3, .fillExtraSlots andi ~(StackAlignmentSlots - 1), t1 btiz t1, .continue .noExtraSlot: if ARM64E leap JSCConfig + constexpr JSC::offsetOfJSCConfigGateMap + (constexpr Gate::%opcodeName%Untag) * PtrSize, t3 jmp [t3], NativeToJITGatePtrTag _js_trampoline_%opcodeName%_untag: loadp 8[cfr], lr addp 16, cfr, t3 untagReturnAddress t3 _%opcodeName%UntagGateAfter: else _js_trampoline_%opcodeName%_untag: end // Move frame up t1 slots negq t1 move cfr, t3 subp CalleeSaveSpaceAsVirtualRegisters * 8, t3 addi CalleeSaveSpaceAsVirtualRegisters, t2 move t1, t0 # Adds to sp are always 64-bit on arm64 so we need maintain t0's high bits. lshiftq 3, t0 addp t0, cfr addp t0, sp .copyLoop: loadq [t3], t0 storeq t0, [t3, t1, 8] addp 8, t3 bsubinz 1, t2, .copyLoop // Fill new slots with JSUndefined move t1, t2 move ValueUndefined, t0 .fillLoop: storeq t0, [t3, t1, 8] addp 8, t3 baddinz 1, t2, .fillLoop if ARM64E leap JSCConfig + constexpr JSC::offsetOfJSCConfigGateMap + (constexpr Gate::%opcodeName%Tag) * PtrSize, t3 jmp [t3], NativeToJITGatePtrTag _js_trampoline_%opcodeName%_tag: addp 16, cfr, t1 tagReturnAddress t1 storep lr, 8[cfr] _%opcodeName%TagGateAfter: else _js_trampoline_%opcodeName%_tag: end .continue: # Reload CodeBlock and reset PC, since the slow_path clobbered them. loadp CodeBlock[cfr], t1 loadp CodeBlock::m_instructionsRawPointer[t1], PB move 0, PC jmp doneLabel end # Instruction implementations _llint_op_enter: traceExecution() checkStackPointerAlignment(t2, 0xdead00e1) loadp CodeBlock[cfr], t2 // t2 = cfr.CodeBlock loadi CodeBlock::m_numVars[t2], t2 // t2 = t2.m_numVars subq CalleeSaveSpaceAsVirtualRegisters, t2 move cfr, t1 subq CalleeSaveSpaceAsVirtualRegisters * 8, t1 btiz t2, .opEnterDone move ValueUndefined, t0 negi t2 sxi2q t2, t2 .opEnterLoop: storeq t0, [t1, t2, 8] addq 1, t2 btqnz t2, .opEnterLoop .opEnterDone: callSlowPath(_slow_path_enter) dispatchOp(narrow, op_enter) llintOpWithProfile(op_get_argument, OpGetArgument, macro (size, get, dispatch, return) get(m_index, t2) loadi PayloadOffset + ArgumentCountIncludingThis[cfr], t0 bilteq t0, t2, .opGetArgumentOutOfBounds loadq ThisArgumentOffset[cfr, t2, 8], t0 return(t0) .opGetArgumentOutOfBounds: return(ValueUndefined) end) llintOpWithReturn(op_argument_count, OpArgumentCount, macro (size, get, dispatch, return) loadi PayloadOffset + ArgumentCountIncludingThis[cfr], t0 subi 1, t0 orq TagNumber, t0 return(t0) end) llintOpWithReturn(op_get_scope, OpGetScope, macro (size, get, dispatch, return) loadp Callee[cfr], t0 loadp JSCallee::m_scope[t0], t0 return(t0) end) llintOpWithMetadata(op_to_this, OpToThis, macro (size, get, dispatch, metadata, return) get(m_srcDst, t0) loadq [cfr, t0, 8], t0 btqnz t0, notCellMask, .opToThisSlow bbneq JSCell::m_type[t0], FinalObjectType, .opToThisSlow loadi JSCell::m_structureID[t0], t1 metadata(t2, t3) loadi OpToThis::Metadata::m_cachedStructureID[t2], t2 bineq t1, t2, .opToThisSlow dispatch() .opToThisSlow: callSlowPath(_slow_path_to_this) dispatch() end) llintOp(op_check_tdz, OpCheckTdz, macro (size, get, dispatch) get(m_targetVirtualRegister, t0) loadConstantOrVariable(size, t0, t1) bqneq t1, ValueEmpty, .opNotTDZ callSlowPath(_slow_path_check_tdz) .opNotTDZ: dispatch() end) llintOpWithReturn(op_mov, OpMov, macro (size, get, dispatch, return) get(m_src, t1) loadConstantOrVariable(size, t1, t2) return(t2) end) llintOpWithReturn(op_not, OpNot, macro (size, get, dispatch, return) get(m_operand, t0) loadConstantOrVariable(size, t0, t2) xorq ValueFalse, t2 btqnz t2, ~1, .opNotSlow xorq ValueTrue, t2 return(t2) .opNotSlow: callSlowPath(_slow_path_not) dispatch() end) macro equalityComparisonOp(opcodeName, opcodeStruct, integerComparison) llintOpWithReturn(op_%opcodeName%, opcodeStruct, macro (size, get, dispatch, return) get(m_rhs, t0) get(m_lhs, t2) loadConstantOrVariableInt32(size, t0, t1, .slow) loadConstantOrVariableInt32(size, t2, t0, .slow) integerComparison(t0, t1, t0) orq ValueFalse, t0 return(t0) .slow: callSlowPath(_slow_path_%opcodeName%) dispatch() end) end macro equalNullComparisonOp(opcodeName, opcodeStruct, fn) llintOpWithReturn(opcodeName, opcodeStruct, macro (size, get, dispatch, return) get(m_operand, t0) loadq [cfr, t0, 8], t0 btqnz t0, notCellMask, .immediate btbnz JSCell::m_flags[t0], MasqueradesAsUndefined, .masqueradesAsUndefined move 0, t0 jmp .done .masqueradesAsUndefined: loadStructureWithScratch(t0, t2, t1, t3) loadp CodeBlock[cfr], t0 loadp CodeBlock::m_globalObject[t0], t0 cpeq Structure::m_globalObject[t2], t0, t0 jmp .done .immediate: andq ~TagUndefined, t0 cqeq t0, ValueNull, t0 .done: fn(t0) return(t0) end) end equalNullComparisonOp(op_eq_null, OpEqNull, macro (value) orq ValueFalse, value end) equalNullComparisonOp(op_neq_null, OpNeqNull, macro (value) xorq ValueTrue, value end) llintOpWithReturn(op_is_undefined_or_null, OpIsUndefinedOrNull, macro (size, get, dispatch, return) get(m_operand, t1) loadConstantOrVariable(size, t1, t0) andq ~TagUndefined, t0 cqeq t0, ValueNull, t0 orq ValueFalse, t0 return(t0) end) macro strictEqOp(opcodeName, opcodeStruct, createBoolean) llintOpWithReturn(op_%opcodeName%, opcodeStruct, macro (size, get, dispatch, return) get(m_rhs, t0) get(m_lhs, t2) loadConstantOrVariable(size, t0, t1) loadConstantOrVariable(size, t2, t0) # At a high level we do # If (left is Double || right is Double) # goto slowPath; # result = (left == right); # if (result) # goto done; # if (left is Cell || right is Cell) # goto slowPath; # done: # return result; # This fragment implements (left is Double || right is Double), with a single branch instead of the 4 that would be naively required if we used branchIfInt32/branchIfNumber # The trick is that if a JSValue is an Int32, then adding 1<<49 to it will make it overflow, leaving all high bits at 0 # If it is not a number at all, then 1<<49 will be its only high bit set # Leaving only doubles above or equal 1<<50. move t0, t2 move t1, t3 move LowestOfHighBits, t5 addq t5, t2 addq t5, t3 orq t2, t3 lshiftq 1, t5 bqaeq t3, t5, .slow cqeq t0, t1, t5 btqnz t5, t5, .done #is there a better way of checking t5 != 0 ? move t0, t2 # This andq could be an 'or' if not for BigInt32 (since it makes it possible for a Cell to be strictEqual to a non-Cell) andq t1, t2 btqz t2, notCellMask, .slow .done: createBoolean(t5) return(t5) .slow: callSlowPath(_slow_path_%opcodeName%) dispatch() end) end strictEqOp(stricteq, OpStricteq, macro (operand) xorq ValueFalse, operand end) strictEqOp(nstricteq, OpNstricteq, macro (operand) xorq ValueTrue, operand end) macro strictEqualityJumpOp(opcodeName, opcodeStruct, jumpIfEqual, jumpIfNotEqual) llintOpWithJump(op_%opcodeName%, opcodeStruct, macro (size, get, jump, dispatch) get(m_lhs, t2) get(m_rhs, t3) loadConstantOrVariable(size, t2, t0) loadConstantOrVariable(size, t3, t1) # At a high level we do # If (left is Double || right is Double) # goto slowPath; # if (left == right) # goto jumpTarget; # if (left is Cell || right is Cell) # goto slowPath; # goto otherJumpTarget # This fragment implements (left is Double || right is Double), with a single branch instead of the 4 that would be naively required if we used branchIfInt32/branchIfNumber # The trick is that if a JSValue is an Int32, then adding 1<<49 to it will make it overflow, leaving all high bits at 0 # If it is not a number at all, then 1<<49 will be its only high bit set # Leaving only doubles above or equal 1<<50. move t0, t2 move t1, t3 move LowestOfHighBits, t5 addq t5, t2 addq t5, t3 orq t2, t3 lshiftq 1, t5 bqaeq t3, t5, .slow bqeq t0, t1, .equal move t0, t2 # This andq could be an 'or' if not for BigInt32 (since it makes it possible for a Cell to be strictEqual to a non-Cell) andq t1, t2 btqz t2, notCellMask, .slow jumpIfNotEqual(jump, m_targetLabel, dispatch) .equal: jumpIfEqual(jump, m_targetLabel, dispatch) .slow: callSlowPath(_llint_slow_path_%opcodeName%) nextInstruction() end) end strictEqualityJumpOp(jstricteq, OpJstricteq, macro (jump, targetLabel, dispatch) jump(targetLabel) end, macro (jump, targetLabel, dispatch) dispatch() end) strictEqualityJumpOp(jnstricteq, OpJnstricteq, macro (jump, targetLabel, dispatch) dispatch() end, macro (jump, targetLabel, dispatch) jump(targetLabel) end) macro preOp(opcodeName, opcodeStruct, integerOperation) llintOpWithMetadata(op_%opcodeName%, opcodeStruct, macro (size, get, dispatch, metadata, return) macro updateArithProfile(type) orh type, %opcodeStruct%::Metadata::m_arithProfile + UnaryArithProfile::m_bits[t2] end get(m_srcDst, t0) loadq [cfr, t0, 8], t1 metadata(t2, t3) # srcDst in t1, metadata in t2 # FIXME: the next line jumps to the slow path for BigInt32. We could instead have a dedicated path in here for them. bqb t1, numberTag, .slow integerOperation(t1, .slow) orq numberTag, t1 storeq t1, [cfr, t0, 8] updateArithProfile(ArithProfileInt) dispatch() .slow: callSlowPath(_slow_path_%opcodeName%) dispatch() end) end llintOpWithProfile(op_to_number, OpToNumber, macro (size, get, dispatch, return) get(m_operand, t0) loadConstantOrVariable(size, t0, t2) bqaeq t2, numberTag, .opToNumberIsImmediate btqz t2, numberTag, .opToNumberSlow .opToNumberIsImmediate: return(t2) .opToNumberSlow: callSlowPath(_slow_path_to_number) dispatch() end) llintOpWithProfile(op_to_numeric, OpToNumeric, macro (size, get, dispatch, return) get(m_operand, t0) loadConstantOrVariable(size, t0, t2) bqaeq t2, numberTag, .opToNumericIsImmediate btqz t2, numberTag, .opToNumericSlow .opToNumericIsImmediate: return(t2) .opToNumericSlow: callSlowPath(_slow_path_to_numeric) dispatch() end) llintOpWithReturn(op_to_string, OpToString, macro (size, get, dispatch, return) get(m_operand, t1) loadConstantOrVariable(size, t1, t0) btqnz t0, notCellMask, .opToStringSlow bbneq JSCell::m_type[t0], StringType, .opToStringSlow .opToStringIsString: return(t0) .opToStringSlow: callSlowPath(_slow_path_to_string) dispatch() end) llintOpWithProfile(op_to_object, OpToObject, macro (size, get, dispatch, return) get(m_operand, t0) loadConstantOrVariable(size, t0, t2) btqnz t2, notCellMask, .opToObjectSlow bbb JSCell::m_type[t2], ObjectType, .opToObjectSlow return(t2) .opToObjectSlow: callSlowPath(_slow_path_to_object) dispatch() end) llintOpWithMetadata(op_negate, OpNegate, macro (size, get, dispatch, metadata, return) macro updateArithProfile(type) orh type, OpNegate::Metadata::m_arithProfile + UnaryArithProfile::m_bits[t1] end get(m_operand, t0) loadConstantOrVariable(size, t0, t3) metadata(t1, t2) bqb t3, numberTag, .opNegateNotInt btiz t3, 0x7fffffff, .opNegateSlow negi t3 orq numberTag, t3 updateArithProfile(ArithProfileInt) return(t3) .opNegateNotInt: btqz t3, numberTag, .opNegateSlow xorq 0x8000000000000000, t3 updateArithProfile(ArithProfileNumber) return(t3) .opNegateSlow: callSlowPath(_slow_path_negate) dispatch() end) macro binaryOpCustomStore(opcodeName, opcodeStruct, integerOperationAndStore, doubleOperation) llintOpWithMetadata(op_%opcodeName%, opcodeStruct, macro (size, get, dispatch, metadata, return) metadata(t5, t0) macro profile(type) orh type, %opcodeStruct%::Metadata::m_arithProfile + BinaryArithProfile::m_bits[t5] end get(m_rhs, t0) get(m_lhs, t2) loadConstantOrVariable(size, t0, t1) loadConstantOrVariable(size, t2, t0) bqb t0, numberTag, .op1NotInt bqb t1, numberTag, .op2NotInt get(m_dst, t2) integerOperationAndStore(t1, t0, .slow, t2) profile(ArithProfileIntInt) dispatch() .op1NotInt: # First operand is definitely not an int, the second operand could be anything. btqz t0, numberTag, .slow bqaeq t1, numberTag, .op1NotIntOp2Int btqz t1, numberTag, .slow addq numberTag, t1 fq2d t1, ft1 profile(ArithProfileNumberNumber) jmp .op1NotIntReady .op1NotIntOp2Int: profile(ArithProfileNumberInt) ci2ds t1, ft1 .op1NotIntReady: get(m_dst, t2) addq numberTag, t0 fq2d t0, ft0 doubleOperation(ft1, ft0) fd2q ft0, t0 subq numberTag, t0 storeq t0, [cfr, t2, 8] dispatch() .op2NotInt: # First operand is definitely an int, the second is definitely not. get(m_dst, t2) btqz t1, numberTag, .slow profile(ArithProfileIntNumber) ci2ds t0, ft0 addq numberTag, t1 fq2d t1, ft1 doubleOperation(ft1, ft0) fd2q ft0, t0 subq numberTag, t0 storeq t0, [cfr, t2, 8] dispatch() .slow: callSlowPath(_slow_path_%opcodeName%) dispatch() end) end if X86_64 or X86_64_WIN binaryOpCustomStore(div, OpDiv, macro (left, right, slow, index) # Assume t3 is scratchable. btiz left, slow bineq left, -1, .notNeg2TwoThe31DivByNeg1 bieq right, -2147483648, .slow .notNeg2TwoThe31DivByNeg1: btinz right, .intOK bilt left, 0, slow .intOK: move left, t3 move right, t0 cdqi idivi t3 btinz t1, slow orq numberTag, t0 storeq t0, [cfr, index, 8] end, macro (left, right) divd left, right end) else slowPathOp(div) end binaryOpCustomStore(mul, OpMul, macro (left, right, slow, index) # Assume t3 is scratchable. move right, t3 bmulio left, t3, slow btinz t3, .done bilt left, 0, slow bilt right, 0, slow .done: orq numberTag, t3 storeq t3, [cfr, index, 8] end, macro (left, right) muld left, right end) macro binaryOp(opcodeName, opcodeStruct, integerOperation, doubleOperation) binaryOpCustomStore(opcodeName, opcodeStruct, macro (left, right, slow, index) integerOperation(left, right, slow) orq numberTag, right storeq right, [cfr, index, 8] end, doubleOperation) end binaryOp(add, OpAdd, macro (left, right, slow) baddio left, right, slow end, macro (left, right) addd left, right end) binaryOp(sub, OpSub, macro (left, right, slow) bsubio left, right, slow end, macro (left, right) subd left, right end) llintOpWithReturn(op_unsigned, OpUnsigned, macro (size, get, dispatch, return) get(m_operand, t1) loadConstantOrVariable(size, t1, t2) bilt t2, 0, .opUnsignedSlow return(t2) .opUnsignedSlow: callSlowPath(_slow_path_unsigned) dispatch() end) macro commonBitOp(opKind, opcodeName, opcodeStruct, operation) opKind(op_%opcodeName%, opcodeStruct, macro (size, get, dispatch, return) get(m_rhs, t0) get(m_lhs, t2) loadConstantOrVariable(size, t0, t1) loadConstantOrVariable(size, t2, t0) bqb t0, numberTag, .slow bqb t1, numberTag, .slow operation(t1, t0) orq numberTag, t0 return(t0) .slow: callSlowPath(_slow_path_%opcodeName%) dispatch() end) end macro bitOp(opcodeName, opcodeStruct, operation) commonBitOp(llintOpWithReturn, opcodeName, opcodeStruct, operation) end macro bitOpProfiled(opcodeName, opcodeStruct, operation) commonBitOp(llintOpWithProfile, opcodeName, opcodeStruct, operation) end bitOpProfiled(lshift, OpLshift, macro (left, right) lshifti left, right end) bitOpProfiled(rshift, OpRshift, macro (left, right) rshifti left, right end) bitOp(urshift, OpUrshift, macro (left, right) urshifti left, right end) bitOpProfiled(bitand, OpBitand, macro (left, right) andi left, right end) bitOpProfiled(bitor, OpBitor, macro (left, right) ori left, right end) bitOpProfiled(bitxor, OpBitxor, macro (left, right) xori left, right end) llintOpWithProfile(op_bitnot, OpBitnot, macro (size, get, dispatch, return) get(m_operand, t0) loadConstantOrVariableInt32(size, t0, t3, .opBitNotSlow) noti t3 orq numberTag, t3 return(t3) .opBitNotSlow: callSlowPath(_slow_path_bitnot) dispatch() end) llintOp(op_overrides_has_instance, OpOverridesHasInstance, macro (size, get, dispatch) get(m_dst, t3) get(m_hasInstanceValue, t1) loadConstantOrVariable(size, t1, t0) loadp CodeBlock[cfr], t2 loadp CodeBlock::m_globalObject[t2], t2 loadp JSGlobalObject::m_functionProtoHasInstanceSymbolFunction[t2], t2 bqneq t0, t2, .opOverridesHasInstanceNotDefaultSymbol get(m_constructor, t1) loadConstantOrVariable(size, t1, t0) tbz JSCell::m_flags[t0], ImplementsDefaultHasInstance, t1 orq ValueFalse, t1 storeq t1, [cfr, t3, 8] dispatch() .opOverridesHasInstanceNotDefaultSymbol: storeq ValueTrue, [cfr, t3, 8] dispatch() end) llintOpWithReturn(op_is_empty, OpIsEmpty, macro (size, get, dispatch, return) get(m_operand, t1) loadConstantOrVariable(size, t1, t0) cqeq t0, ValueEmpty, t3 orq ValueFalse, t3 return(t3) end) llintOpWithReturn(op_typeof_is_undefined, OpTypeofIsUndefined, macro (size, get, dispatch, return) get(m_operand, t1) loadConstantOrVariable(size, t1, t0) btqz t0, notCellMask, .opIsUndefinedCell cqeq t0, ValueUndefined, t3 orq ValueFalse, t3 return(t3) .opIsUndefinedCell: btbnz JSCell::m_flags[t0], MasqueradesAsUndefined, .masqueradesAsUndefined move ValueFalse, t1 return(t1) .masqueradesAsUndefined: loadStructureWithScratch(t0, t3, t1, t2) loadp CodeBlock[cfr], t1 loadp CodeBlock::m_globalObject[t1], t1 cpeq Structure::m_globalObject[t3], t1, t0 orq ValueFalse, t0 return(t0) end) llintOpWithReturn(op_is_boolean, OpIsBoolean, macro (size, get, dispatch, return) get(m_operand, t1) loadConstantOrVariable(size, t1, t0) xorq ValueFalse, t0 tqz t0, ~1, t0 orq ValueFalse, t0 return(t0) end) llintOpWithReturn(op_is_number, OpIsNumber, macro (size, get, dispatch, return) get(m_operand, t1) loadConstantOrVariable(size, t1, t0) tqnz t0, numberTag, t1 orq ValueFalse, t1 return(t1) end) if BIGINT32 llintOpWithReturn(op_is_big_int, OpIsBigInt, macro(size, get, dispatch, return) get(m_operand, t1) loadConstantOrVariable(size, t1, t0) btqnz t0, notCellMask, .notCellCase cbeq JSCell::m_type[t0], HeapBigIntType, t1 orq ValueFalse, t1 return(t1) .notCellCase: andq MaskBigInt32, t0 cqeq t0, TagBigInt32, t0 orq ValueFalse, t0 return(t0) end) else # if BIGINT32 is not supported we generate op_is_cell_with_type instead of op_is_big_int llintOp(op_is_big_int, OpIsBigInt, macro(unused, unused, unused) notSupported() end) end llintOpWithReturn(op_is_cell_with_type, OpIsCellWithType, macro (size, get, dispatch, return) getu(size, OpIsCellWithType, m_type, t0) get(m_operand, t1) loadConstantOrVariable(size, t1, t3) btqnz t3, notCellMask, .notCellCase cbeq JSCell::m_type[t3], t0, t1 orq ValueFalse, t1 return(t1) .notCellCase: return(ValueFalse) end) llintOpWithReturn(op_is_object, OpIsObject, macro (size, get, dispatch, return) get(m_operand, t1) loadConstantOrVariable(size, t1, t0) btqnz t0, notCellMask, .opIsObjectNotCell cbaeq JSCell::m_type[t0], ObjectType, t1 orq ValueFalse, t1 return(t1) .opIsObjectNotCell: return(ValueFalse) end) macro loadInlineOffset(propertyOffsetAsInt, objectAndStorage, value) addp sizeof JSObject - (firstOutOfLineOffset - 2) * 8, objectAndStorage loadq (firstOutOfLineOffset - 2) * 8[objectAndStorage, propertyOffsetAsInt, 8], value end macro loadPropertyAtVariableOffset(propertyOffsetAsInt, objectAndStorage, value) bilt propertyOffsetAsInt, firstOutOfLineOffset, .isInline loadp JSObject::m_butterfly[objectAndStorage], objectAndStorage negi propertyOffsetAsInt sxi2q propertyOffsetAsInt, propertyOffsetAsInt jmp .ready .isInline: addp sizeof JSObject - (firstOutOfLineOffset - 2) * 8, objectAndStorage .ready: loadq (firstOutOfLineOffset - 2) * 8[objectAndStorage, propertyOffsetAsInt, 8], value end macro storePropertyAtVariableOffset(propertyOffsetAsInt, objectAndStorage, value) bilt propertyOffsetAsInt, firstOutOfLineOffset, .isInline loadp JSObject::m_butterfly[objectAndStorage], objectAndStorage negi propertyOffsetAsInt sxi2q propertyOffsetAsInt, propertyOffsetAsInt jmp .ready .isInline: addp sizeof JSObject - (firstOutOfLineOffset - 2) * 8, objectAndStorage .ready: storeq value, (firstOutOfLineOffset - 2) * 8[objectAndStorage, propertyOffsetAsInt, 8] end llintOpWithMetadata(op_get_by_id_direct, OpGetByIdDirect, macro (size, get, dispatch, metadata, return) metadata(t2, t0) get(m_base, t0) loadConstantOrVariableCell(size, t0, t3, .opGetByIdDirectSlow) loadi JSCell::m_structureID[t3], t1 loadi OpGetByIdDirect::Metadata::m_structureID[t2], t0 bineq t0, t1, .opGetByIdDirectSlow loadi OpGetByIdDirect::Metadata::m_offset[t2], t1 loadPropertyAtVariableOffset(t1, t3, t0) valueProfile(OpGetByIdDirect, m_profile, t2, t0) return(t0) .opGetByIdDirectSlow: callSlowPath(_llint_slow_path_get_by_id_direct) dispatch() end) # The base object is expected in t3 macro performGetByIDHelper(opcodeStruct, modeMetadataName, valueProfileName, slowLabel, size, metadata, return) metadata(t2, t1) loadb %opcodeStruct%::Metadata::%modeMetadataName%.mode[t2], t1 .opGetByIdDefault: bbneq t1, constexpr GetByIdMode::Default, .opGetByIdProtoLoad loadi JSCell::m_structureID[t3], t1 loadi %opcodeStruct%::Metadata::%modeMetadataName%.defaultMode.structureID[t2], t0 bineq t0, t1, slowLabel loadis %opcodeStruct%::Metadata::%modeMetadataName%.defaultMode.cachedOffset[t2], t1 loadPropertyAtVariableOffset(t1, t3, t0) valueProfile(opcodeStruct, valueProfileName, t2, t0) return(t0) .opGetByIdProtoLoad: bbneq t1, constexpr GetByIdMode::ProtoLoad, .opGetByIdArrayLength loadi JSCell::m_structureID[t3], t1 loadi %opcodeStruct%::Metadata::%modeMetadataName%.protoLoadMode.structureID[t2], t3 bineq t3, t1, slowLabel loadis %opcodeStruct%::Metadata::%modeMetadataName%.protoLoadMode.cachedOffset[t2], t1 loadp %opcodeStruct%::Metadata::%modeMetadataName%.protoLoadMode.cachedSlot[t2], t3 loadPropertyAtVariableOffset(t1, t3, t0) valueProfile(opcodeStruct, valueProfileName, t2, t0) return(t0) .opGetByIdArrayLength: bbneq t1, constexpr GetByIdMode::ArrayLength, .opGetByIdUnset move t3, t0 arrayProfile(%opcodeStruct%::Metadata::%modeMetadataName%.arrayLengthMode.arrayProfile, t0, t2, t5) btiz t0, IsArray, slowLabel btiz t0, IndexingShapeMask, slowLabel loadCagedJSValue(JSObject::m_butterfly[t3], t0, t1) loadi -sizeof IndexingHeader + IndexingHeader::u.lengths.publicLength[t0], t0 bilt t0, 0, slowLabel orq numberTag, t0 valueProfile(opcodeStruct, valueProfileName, t2, t0) return(t0) .opGetByIdUnset: loadi JSCell::m_structureID[t3], t1 loadi %opcodeStruct%::Metadata::%modeMetadataName%.unsetMode.structureID[t2], t0 bineq t0, t1, slowLabel valueProfile(opcodeStruct, valueProfileName, t2, ValueUndefined) return(ValueUndefined) end llintOpWithMetadata(op_get_by_id, OpGetById, macro (size, get, dispatch, metadata, return) get(m_base, t0) loadConstantOrVariableCell(size, t0, t3, .opGetByIdSlow) performGetByIDHelper(OpGetById, m_modeMetadata, m_profile, .opGetByIdSlow, size, metadata, return) .opGetByIdSlow: callSlowPath(_llint_slow_path_get_by_id) dispatch() .osrReturnPoint: getterSetterOSRExitReturnPoint(op_get_by_id, size) metadata(t2, t3) valueProfile(OpGetById, m_profile, t2, r0) return(r0) end) llintOpWithProfile(op_get_prototype_of, OpGetPrototypeOf, macro (size, get, dispatch, return) get(m_value, t1) loadConstantOrVariable(size, t1, t0) btqnz t0, notCellMask, .opGetPrototypeOfSlow bbb JSCell::m_type[t0], ObjectType, .opGetPrototypeOfSlow loadStructureWithScratch(t0, t2, t1, t3) loadh Structure::m_outOfLineTypeFlags[t2], t3 btinz t3, OverridesGetPrototypeOutOfLine, .opGetPrototypeOfSlow loadq Structure::m_prototype[t2], t2 btqz t2, .opGetPrototypeOfPolyProto return(t2) .opGetPrototypeOfSlow: callSlowPath(_slow_path_get_prototype_of) dispatch() .opGetPrototypeOfPolyProto: move knownPolyProtoOffset, t1 loadInlineOffset(t1, t0, t3) return(t3) end) llintOpWithMetadata(op_put_by_id, OpPutById, macro (size, get, dispatch, metadata, return) get(m_base, t3) loadConstantOrVariableCell(size, t3, t0, .opPutByIdSlow) metadata(t5, t2) loadi OpPutById::Metadata::m_oldStructureID[t5], t2 bineq t2, JSCell::m_structureID[t0], .opPutByIdSlow # At this point, we have: # t0 -> object base # t2 -> current structure ID # t5 -> metadata loadi OpPutById::Metadata::m_newStructureID[t5], t1 btiz t1, .opPutByIdNotTransition # This is the transition case. t1 holds the new structureID. t2 holds the old structure ID. # If we have a chain, we need to check it. t0 is the base. We may clobber t1 to use it as # scratch. loadp OpPutById::Metadata::m_structureChain[t5], t3 btpz t3, .opPutByIdTransitionDirect loadp CodeBlock[cfr], t1 loadp CodeBlock::m_vm[t1], t1 loadp VM::heap + Heap::m_structureIDTable + StructureIDTable::m_table[t1], t1 macro structureIDToStructureWithScratchAndTable(structureIDThenStructure, table, scratch) move structureIDThenStructure, scratch rshifti NumberOfStructureIDEntropyBits, scratch loadp [table, scratch, PtrSize], scratch lshiftp StructureEntropyBitsShift, structureIDThenStructure xorp scratch, structureIDThenStructure end structureIDToStructureWithScratchAndTable(t2, t1, t0) loadp StructureChain::m_vector[t3], t3 assert(macro (ok) btpnz t3, ok end) loadq Structure::m_prototype[t2], t2 bqeq t2, ValueNull, .opPutByIdTransitionChainDone .opPutByIdTransitionChainLoop: loadi JSCell::m_structureID[t2], t2 bineq t2, [t3], .opPutByIdSlow addp 4, t3 structureIDToStructureWithScratchAndTable(t2, t1, t0) loadq Structure::m_prototype[t2], t2 bqneq t2, ValueNull, .opPutByIdTransitionChainLoop .opPutByIdTransitionChainDone: # Reload the new structure, since we clobbered it above. loadi OpPutById::Metadata::m_newStructureID[t5], t1 # Reload base into t0 get(m_base, t3) loadConstantOrVariable(size, t3, t0) .opPutByIdTransitionDirect: storei t1, JSCell::m_structureID[t0] writeBarrierOnOperandWithReload(size, get, m_base, macro () # Reload metadata into t5 metadata(t5, t1) # Reload base into t0 get(m_base, t1) loadConstantOrVariable(size, t1, t0) end) .opPutByIdNotTransition: # The only thing live right now is t0, which holds the base. get(m_value, t1) loadConstantOrVariable(size, t1, t2) loadi OpPutById::Metadata::m_offset[t5], t1 storePropertyAtVariableOffset(t1, t0, t2) writeBarrierOnOperands(size, get, m_base, m_value) dispatch() .opPutByIdSlow: callSlowPath(_llint_slow_path_put_by_id) dispatch() .osrReturnPoint: getterSetterOSRExitReturnPoint(op_put_by_id, size) dispatch() end) llintOpWithMetadata(op_get_by_val, OpGetByVal, macro (size, get, dispatch, metadata, return) macro finishGetByVal(result, scratch) get(m_dst, scratch) storeq result, [cfr, scratch, 8] valueProfile(OpGetByVal, m_profile, t5, result) dispatch() end macro finishIntGetByVal(result, scratch) orq numberTag, result finishGetByVal(result, scratch) end macro finishDoubleGetByVal(result, scratch1, scratch2, unused) fd2q result, scratch1 subq numberTag, scratch1 finishGetByVal(scratch1, scratch2) end metadata(t5, t2) get(m_base, t2) loadConstantOrVariableCell(size, t2, t0, .opGetByValSlow) move t0, t2 arrayProfile(OpGetByVal::Metadata::m_arrayProfile, t2, t5, t1) get(m_property, t3) loadConstantOrVariableInt32(size, t3, t1, .opGetByValSlow) sxi2q t1, t1 loadCagedJSValue(JSObject::m_butterfly[t0], t3, numberTag) move TagNumber, numberTag andi IndexingShapeMask, t2 bieq t2, Int32Shape, .opGetByValIsContiguous bineq t2, ContiguousShape, .opGetByValNotContiguous .opGetByValIsContiguous: biaeq t1, -sizeof IndexingHeader + IndexingHeader::u.lengths.publicLength[t3], .opGetByValSlow get(m_dst, t0) loadq [t3, t1, 8], t2 btqz t2, .opGetByValSlow jmp .opGetByValDone .opGetByValNotContiguous: bineq t2, DoubleShape, .opGetByValNotDouble biaeq t1, -sizeof IndexingHeader + IndexingHeader::u.lengths.publicLength[t3], .opGetByValSlow get(m_dst, t0) loadd [t3, t1, 8], ft0 bdnequn ft0, ft0, .opGetByValSlow fd2q ft0, t2 subq numberTag, t2 jmp .opGetByValDone .opGetByValNotDouble: subi ArrayStorageShape, t2 bia t2, SlowPutArrayStorageShape - ArrayStorageShape, .opGetByValNotIndexedStorage biaeq t1, -sizeof IndexingHeader + IndexingHeader::u.lengths.vectorLength[t3], .opGetByValSlow get(m_dst, t0) loadq ArrayStorage::m_vector[t3, t1, 8], t2 btqz t2, .opGetByValSlow .opGetByValDone: storeq t2, [cfr, t0, 8] valueProfile(OpGetByVal, m_profile, t5, t2) dispatch() .opGetByValNotIndexedStorage: getByValTypedArray(t0, t1, finishIntGetByVal, finishDoubleGetByVal, .opGetByValSlow) .opGetByValSlow: callSlowPath(_llint_slow_path_get_by_val) dispatch() .osrReturnPoint: getterSetterOSRExitReturnPoint(op_get_by_val, size) metadata(t5, t2) valueProfile(OpGetByVal, m_profile, t5, r0) return(r0) end) llintOpWithMetadata(op_get_private_name, OpGetPrivateName, macro (size, get, dispatch, metadata, return) metadata(t2, t0) # Slow path if the private field is stale get(m_property, t1) loadConstantOrVariable(size, t1, t0) loadp OpGetPrivateName::Metadata::m_property[t2], t1 bpneq t1, t0, .opGetPrivateNameSlow get(m_base, t0) loadConstantOrVariableCell(size, t0, t3, .opGetPrivateNameSlow) loadi JSCell::m_structureID[t3], t1 loadi OpGetPrivateName::Metadata::m_structureID[t2], t0 bineq t0, t1, .opGetPrivateNameSlow loadi OpGetPrivateName::Metadata::m_offset[t2], t1 loadPropertyAtVariableOffset(t1, t3, t0) valueProfile(OpGetPrivateName, m_profile, t2, t0) return(t0) .opGetPrivateNameSlow: callSlowPath(_llint_slow_path_get_private_name) dispatch() end) llintOpWithMetadata(op_put_private_name, OpPutPrivateName, macro (size, get, dispatch, metadata, return) get(m_base, t3) loadConstantOrVariableCell(size, t3, t0, .opPutPrivateNameSlow) get(m_property, t3) loadConstantOrVariableCell(size, t3, t1, .opPutPrivateNameSlow) metadata(t5, t2) loadi OpPutPrivateName::Metadata::m_oldStructureID[t5], t2 bineq t2, JSCell::m_structureID[t0], .opPutPrivateNameSlow loadp OpPutPrivateName::Metadata::m_property[t5], t3 bpneq t3, t1, .opPutPrivateNameSlow # At this point, we have: # t0 -> object base # t2 -> current structure ID # t5 -> metadata loadi OpPutPrivateName::Metadata::m_newStructureID[t5], t1 btiz t1, .opPutNotTransition storei t1, JSCell::m_structureID[t0] writeBarrierOnOperandWithReload(size, get, m_base, macro () # Reload metadata into t5 metadata(t5, t1) # Reload base into t0 get(m_base, t1) loadConstantOrVariable(size, t1, t0) end) .opPutNotTransition: # The only thing live right now is t0, which holds the base. get(m_value, t1) loadConstantOrVariable(size, t1, t2) loadi OpPutPrivateName::Metadata::m_offset[t5], t1 storePropertyAtVariableOffset(t1, t0, t2) writeBarrierOnOperands(size, get, m_base, m_value) dispatch() .opPutPrivateNameSlow: callSlowPath(_llint_slow_path_put_private_name) dispatch() end) macro putByValOp(opcodeName, opcodeStruct, osrExitPoint) llintOpWithMetadata(op_%opcodeName%, opcodeStruct, macro (size, get, dispatch, metadata, return) macro contiguousPutByVal(storeCallback) biaeq t3, -sizeof IndexingHeader + IndexingHeader::u.lengths.publicLength[t0], .outOfBounds .storeResult: get(m_value, t2) storeCallback(t2, t1, [t0, t3, 8]) dispatch() .outOfBounds: biaeq t3, -sizeof IndexingHeader + IndexingHeader::u.lengths.vectorLength[t0], .opPutByValOutOfBounds storeb 1, %opcodeStruct%::Metadata::m_arrayProfile.m_mayStoreToHole[t5] addi 1, t3, t2 storei t2, -sizeof IndexingHeader + IndexingHeader::u.lengths.publicLength[t0] jmp .storeResult end get(m_base, t0) loadConstantOrVariableCell(size, t0, t1, .opPutByValSlow) move t1, t2 metadata(t5, t0) arrayProfile(%opcodeStruct%::Metadata::m_arrayProfile, t2, t5, t0) get(m_property, t0) loadConstantOrVariableInt32(size, t0, t3, .opPutByValSlow) sxi2q t3, t3 loadCagedJSValue(JSObject::m_butterfly[t1], t0, numberTag) move TagNumber, numberTag btinz t2, CopyOnWrite, .opPutByValSlow andi IndexingShapeMask, t2 bineq t2, Int32Shape, .opPutByValNotInt32 contiguousPutByVal( macro (operand, scratch, address) loadConstantOrVariable(size, operand, scratch) bqb scratch, numberTag, .opPutByValSlow storeq scratch, address writeBarrierOnOperands(size, get, m_base, m_value) end) .opPutByValNotInt32: bineq t2, DoubleShape, .opPutByValNotDouble contiguousPutByVal( macro (operand, scratch, address) loadConstantOrVariable(size, operand, scratch) bqb scratch, numberTag, .notInt ci2ds scratch, ft0 jmp .ready .notInt: addq numberTag, scratch fq2d scratch, ft0 bdnequn ft0, ft0, .opPutByValSlow .ready: stored ft0, address writeBarrierOnOperands(size, get, m_base, m_value) end) .opPutByValNotDouble: bineq t2, ContiguousShape, .opPutByValNotContiguous contiguousPutByVal( macro (operand, scratch, address) loadConstantOrVariable(size, operand, scratch) storeq scratch, address writeBarrierOnOperands(size, get, m_base, m_value) end) .opPutByValNotContiguous: bineq t2, ArrayStorageShape, .opPutByValSlow biaeq t3, -sizeof IndexingHeader + IndexingHeader::u.lengths.vectorLength[t0], .opPutByValOutOfBounds btqz ArrayStorage::m_vector[t0, t3, 8], .opPutByValArrayStorageEmpty .opPutByValArrayStorageStoreResult: get(m_value, t2) loadConstantOrVariable(size, t2, t1) storeq t1, ArrayStorage::m_vector[t0, t3, 8] writeBarrierOnOperands(size, get, m_base, m_value) dispatch() .opPutByValArrayStorageEmpty: storeb 1, %opcodeStruct%::Metadata::m_arrayProfile.m_mayStoreToHole[t5] addi 1, ArrayStorage::m_numValuesInVector[t0] bib t3, -sizeof IndexingHeader + IndexingHeader::u.lengths.publicLength[t0], .opPutByValArrayStorageStoreResult addi 1, t3, t1 storei t1, -sizeof IndexingHeader + IndexingHeader::u.lengths.publicLength[t0] jmp .opPutByValArrayStorageStoreResult .opPutByValOutOfBounds: storeb 1, %opcodeStruct%::Metadata::m_arrayProfile.m_outOfBounds[t5] .opPutByValSlow: callSlowPath(_llint_slow_path_%opcodeName%) dispatch() osrExitPoint(size, dispatch) end) end putByValOp(put_by_val, OpPutByVal, macro (size, dispatch) .osrReturnPoint: getterSetterOSRExitReturnPoint(op_put_by_val, size) dispatch() end) putByValOp(put_by_val_direct, OpPutByValDirect, macro (a, b) end) macro llintJumpTrueOrFalseOp(opcodeName, opcodeStruct, miscConditionOp, truthyCellConditionOp) llintOpWithJump(op_%opcodeName%, opcodeStruct, macro (size, get, jump, dispatch) get(m_condition, t1) loadConstantOrVariable(size, t1, t0) btqnz t0, ~0xf, .maybeCell miscConditionOp(t0, .target) dispatch() .maybeCell: btqnz t0, notCellMask, .slow bbbeq JSCell::m_type[t0], constexpr JSType::LastMaybeFalsyCellPrimitive, .slow btbnz JSCell::m_flags[t0], constexpr MasqueradesAsUndefined, .slow truthyCellConditionOp(dispatch) .target: jump(m_targetLabel) .slow: callSlowPath(_llint_slow_path_%opcodeName%) nextInstruction() end) end macro equalNullJumpOp(opcodeName, opcodeStruct, cellHandler, immediateHandler) llintOpWithJump(op_%opcodeName%, opcodeStruct, macro (size, get, jump, dispatch) get(m_value, t0) assertNotConstant(size, t0) loadq [cfr, t0, 8], t0 btqnz t0, notCellMask, .immediate loadStructureWithScratch(t0, t2, t1, t3) cellHandler(t2, JSCell::m_flags[t0], .target) dispatch() .target: jump(m_targetLabel) .immediate: andq ~TagUndefined, t0 immediateHandler(t0, .target) dispatch() end) end equalNullJumpOp(jeq_null, OpJeqNull, macro (structure, value, target) btbz value, MasqueradesAsUndefined, .notMasqueradesAsUndefined loadp CodeBlock[cfr], t0 loadp CodeBlock::m_globalObject[t0], t0 bpeq Structure::m_globalObject[structure], t0, target .notMasqueradesAsUndefined: end, macro (value, target) bqeq value, ValueNull, target end) equalNullJumpOp(jneq_null, OpJneqNull, macro (structure, value, target) btbz value, MasqueradesAsUndefined, target loadp CodeBlock[cfr], t0 loadp CodeBlock::m_globalObject[t0], t0 bpneq Structure::m_globalObject[structure], t0, target end, macro (value, target) bqneq value, ValueNull, target end) macro undefinedOrNullJumpOp(opcodeName, opcodeStruct, fn) llintOpWithJump(op_%opcodeName%, opcodeStruct, macro (size, get, jump, dispatch) get(m_value, t1) loadConstantOrVariable(size, t1, t0) andq ~TagUndefined, t0 fn(t0, .target) dispatch() .target: jump(m_targetLabel) end) end undefinedOrNullJumpOp(jundefined_or_null, OpJundefinedOrNull, macro (value, target) bqeq value, ValueNull, target end) undefinedOrNullJumpOp(jnundefined_or_null, OpJnundefinedOrNull, macro (value, target) bqneq value, ValueNull, target end) llintOpWithMetadata(op_jneq_ptr, OpJneqPtr, macro (size, get, dispatch, metadata, return) get(m_value, t0) get(m_specialPointer, t1) loadConstant(size, t1, t2) bpneq t2, [cfr, t0, 8], .opJneqPtrTarget dispatch() .opJneqPtrTarget: metadata(t5, t0) storeb 1, OpJneqPtr::Metadata::m_hasJumped[t5] get(m_targetLabel, t0) jumpImpl(dispatchIndirect, t0) end) macro compareJumpOp(opcodeName, opcodeStruct, integerCompare, doubleCompare) llintOpWithJump(op_%opcodeName%, opcodeStruct, macro (size, get, jump, dispatch) get(m_lhs, t2) get(m_rhs, t3) loadConstantOrVariable(size, t2, t0) loadConstantOrVariable(size, t3, t1) bqb t0, numberTag, .op1NotInt bqb t1, numberTag, .op2NotInt integerCompare(t0, t1, .jumpTarget) dispatch() .op1NotInt: btqz t0, numberTag, .slow bqb t1, numberTag, .op1NotIntOp2NotInt ci2ds t1, ft1 jmp .op1NotIntReady .op1NotIntOp2NotInt: btqz t1, numberTag, .slow addq numberTag, t1 fq2d t1, ft1 .op1NotIntReady: addq numberTag, t0 fq2d t0, ft0 doubleCompare(ft0, ft1, .jumpTarget) dispatch() .op2NotInt: ci2ds t0, ft0 btqz t1, numberTag, .slow addq numberTag, t1 fq2d t1, ft1 doubleCompare(ft0, ft1, .jumpTarget) dispatch() .jumpTarget: jump(m_targetLabel) .slow: callSlowPath(_llint_slow_path_%opcodeName%) nextInstruction() end) end macro equalityJumpOp(opcodeName, opcodeStruct, integerComparison) llintOpWithJump(op_%opcodeName%, opcodeStruct, macro (size, get, jump, dispatch) get(m_lhs, t2) get(m_rhs, t3) loadConstantOrVariableInt32(size, t2, t0, .slow) loadConstantOrVariableInt32(size, t3, t1, .slow) integerComparison(t0, t1, .jumpTarget) dispatch() .jumpTarget: jump(m_targetLabel) .slow: callSlowPath(_llint_slow_path_%opcodeName%) nextInstruction() end) end macro compareUnsignedJumpOp(opcodeName, opcodeStruct, integerCompareMacro) llintOpWithJump(op_%opcodeName%, opcodeStruct, macro (size, get, jump, dispatch) get(m_lhs, t2) get(m_rhs, t3) loadConstantOrVariable(size, t2, t0) loadConstantOrVariable(size, t3, t1) integerCompareMacro(t0, t1, .jumpTarget) dispatch() .jumpTarget: jump(m_targetLabel) end) end macro compareUnsignedOp(opcodeName, opcodeStruct, integerCompareAndSet) llintOpWithReturn(op_%opcodeName%, opcodeStruct, macro (size, get, dispatch, return) get(m_lhs, t2) get(m_rhs, t0) loadConstantOrVariable(size, t0, t1) loadConstantOrVariable(size, t2, t0) integerCompareAndSet(t0, t1, t0) orq ValueFalse, t0 return(t0) end) end llintOpWithJump(op_switch_imm, OpSwitchImm, macro (size, get, jump, dispatch) get(m_scrutinee, t2) getu(size, OpSwitchImm, m_tableIndex, t3) loadConstantOrVariable(size, t2, t1) loadp CodeBlock[cfr], t2 loadp CodeBlock::m_rareData[t2], t2 muli sizeof SimpleJumpTable, t3 loadp CodeBlock::RareData::m_switchJumpTables + VectorBufferOffset[t2], t2 addp t3, t2 bqb t1, numberTag, .opSwitchImmNotInt subi SimpleJumpTable::min[t2], t1 biaeq t1, SimpleJumpTable::branchOffsets + VectorSizeOffset[t2], .opSwitchImmFallThrough loadp SimpleJumpTable::branchOffsets + VectorBufferOffset[t2], t3 loadis [t3, t1, 4], t1 btiz t1, .opSwitchImmFallThrough dispatchIndirect(t1) .opSwitchImmNotInt: btqnz t1, numberTag, .opSwitchImmSlow # Go slow if it's a double. .opSwitchImmFallThrough: jump(m_defaultOffset) .opSwitchImmSlow: callSlowPath(_llint_slow_path_switch_imm) nextInstruction() end) llintOpWithJump(op_switch_char, OpSwitchChar, macro (size, get, jump, dispatch) get(m_scrutinee, t2) getu(size, OpSwitchChar, m_tableIndex, t3) loadConstantOrVariable(size, t2, t1) loadp CodeBlock[cfr], t2 loadp CodeBlock::m_rareData[t2], t2 muli sizeof SimpleJumpTable, t3 loadp CodeBlock::RareData::m_switchJumpTables + VectorBufferOffset[t2], t2 addp t3, t2 btqnz t1, notCellMask, .opSwitchCharFallThrough bbneq JSCell::m_type[t1], StringType, .opSwitchCharFallThrough loadp JSString::m_fiber[t1], t0 btpnz t0, isRopeInPointer, .opSwitchOnRope bineq StringImpl::m_length[t0], 1, .opSwitchCharFallThrough loadp StringImpl::m_data8[t0], t1 btinz StringImpl::m_hashAndFlags[t0], HashFlags8BitBuffer, .opSwitchChar8Bit loadh [t1], t0 jmp .opSwitchCharReady .opSwitchChar8Bit: loadb [t1], t0 .opSwitchCharReady: subi SimpleJumpTable::min[t2], t0 biaeq t0, SimpleJumpTable::branchOffsets + VectorSizeOffset[t2], .opSwitchCharFallThrough loadp SimpleJumpTable::branchOffsets + VectorBufferOffset[t2], t2 loadis [t2, t0, 4], t1 btiz t1, .opSwitchCharFallThrough dispatchIndirect(t1) .opSwitchCharFallThrough: jump(m_defaultOffset) .opSwitchOnRope: bineq JSRopeString::m_compactFibers + JSRopeString::CompactFibers::m_length[t1], 1, .opSwitchCharFallThrough .opSwitchOnRopeChar: callSlowPath(_llint_slow_path_switch_char) nextInstruction() end) # we assume t5 contains the metadata, and we should not scratch that macro arrayProfileForCall(opcodeStruct, getu) getu(m_argv, t3) negp t3 loadq ThisArgumentOffset[cfr, t3, 8], t0 btqnz t0, notCellMask, .done loadi JSCell::m_structureID[t0], t3 storei t3, %opcodeStruct%::Metadata::m_callLinkInfo.m_arrayProfile.m_lastSeenStructureID[t5] .done: end macro callHelper(opcodeName, slowPath, opcodeStruct, valueProfileName, dstVirtualRegister, prepareCall, size, dispatch, metadata, getCallee, getArgumentStart, getArgumentCountIncludingThis) metadata(t5, t0) getCallee(t0) loadp %opcodeStruct%::Metadata::m_callLinkInfo.m_calleeOrLastSeenCalleeWithLinkBit[t5], t2 loadConstantOrVariable(size, t0, t3) bqneq t3, t2, .opCallSlow getArgumentStart(t3) lshifti 3, t3 negp t3 addp cfr, t3 storeq t2, Callee[t3] getArgumentCountIncludingThis(t2) storePC() storei t2, ArgumentCountIncludingThis + PayloadOffset[t3] move t3, sp if ARM64E loadp %opcodeStruct%::Metadata::m_callLinkInfo.m_machineCodeTarget[t5], t0 prepareCall(t0, t2, t3, t4, t1, JSEntryPtrTag) loadp %opcodeStruct%::Metadata::m_callLinkInfo.m_machineCodeTarget[t5], t0 callTargetFunction(opcodeName, size, opcodeStruct, valueProfileName, dstVirtualRegister, dispatch, t0, JSEntryPtrTag) else prepareCall(%opcodeStruct%::Metadata::m_callLinkInfo.m_machineCodeTarget[t5], t2, t3, t4, t1, JSEntryPtrTag) callTargetFunction(opcodeName, size, opcodeStruct, valueProfileName, dstVirtualRegister, dispatch, %opcodeStruct%::Metadata::m_callLinkInfo.m_machineCodeTarget[t5], JSEntryPtrTag) end .opCallSlow: slowPathForCall(opcodeName, size, opcodeStruct, valueProfileName, dstVirtualRegister, dispatch, slowPath, prepareCall) end macro commonCallOp(opcodeName, slowPath, opcodeStruct, prepareCall, prologue) llintOpWithMetadata(opcodeName, opcodeStruct, macro (size, get, dispatch, metadata, return) metadata(t5, t0) prologue(macro (fieldName, dst) getu(size, opcodeStruct, fieldName, dst) end, metadata) macro getCallee(dst) get(m_callee, t0) end macro getArgumentStart(dst) getu(size, opcodeStruct, m_argv, dst) end macro getArgumentCount(dst) getu(size, opcodeStruct, m_argc, dst) end callHelper(opcodeName, slowPath, opcodeStruct, m_profile, m_dst, prepareCall, size, dispatch, metadata, getCallee, getArgumentStart, getArgumentCount) end) end llintOp(op_ret, OpRet, macro (size, get, dispatch) checkSwitchToJITForEpilogue() get(m_value, t2) loadConstantOrVariable(size, t2, r0) doReturn() end) llintOpWithReturn(op_to_primitive, OpToPrimitive, macro (size, get, dispatch, return) get(m_src, t2) loadConstantOrVariable(size, t2, t0) btqnz t0, notCellMask, .opToPrimitiveIsImm bbaeq JSCell::m_type[t0], ObjectType, .opToPrimitiveSlowCase .opToPrimitiveIsImm: return(t0) .opToPrimitiveSlowCase: callSlowPath(_slow_path_to_primitive) dispatch() end) llintOpWithReturn(op_to_property_key, OpToPropertyKey, macro (size, get, dispatch, return) get(m_src, t2) loadConstantOrVariable(size, t2, t0) btqnz t0, notCellMask, .opToPropertyKeySlow bbeq JSCell::m_type[t0], SymbolType, .done bbneq JSCell::m_type[t0], StringType, .opToPropertyKeySlow .done: return(t0) .opToPropertyKeySlow: callSlowPath(_slow_path_to_property_key) dispatch() end) commonOp(llint_op_catch, macro () end, macro (size) # This is where we end up from the JIT's throw trampoline (because the # machine code return address will be set to _llint_op_catch), and from # the interpreter's throw trampoline (see _llint_throw_trampoline). # The throwing code must have known that we were throwing to the interpreter, # and have set VM::targetInterpreterPCForThrow. loadp Callee[cfr], t3 convertCalleeToVM(t3) restoreCalleeSavesFromVMEntryFrameCalleeSavesBuffer(t3, t0) loadp VM::callFrameForCatch[t3], cfr storep 0, VM::callFrameForCatch[t3] restoreStackPointerAfterCall() loadp CodeBlock[cfr], PB loadp CodeBlock::m_metadata[PB], metadataTable loadp CodeBlock::m_instructionsRawPointer[PB], PB loadp VM::targetInterpreterPCForThrow[t3], PC subp PB, PC callSlowPath(_llint_slow_path_check_if_exception_is_uncatchable_and_notify_profiler) bpeq r1, 0, .isCatchableException jmp _llint_throw_from_slow_path_trampoline .isCatchableException: loadp CodeBlock[cfr], t3 loadp CodeBlock::m_vm[t3], t3 loadp VM::m_exception[t3], t0 storep 0, VM::m_exception[t3] get(size, OpCatch, m_exception, t2) storeq t0, [cfr, t2, 8] loadq Exception::m_value[t0], t3 get(size, OpCatch, m_thrownValue, t2) storeq t3, [cfr, t2, 8] traceExecution() callSlowPath(_llint_slow_path_profile_catch) dispatchOp(size, op_catch) end) llintOp(op_end, OpEnd, macro (size, get, dispatch) checkSwitchToJITForEpilogue() get(m_value, t0) assertNotConstant(size, t0) loadq [cfr, t0, 8], r0 doReturn() end) op(llint_throw_from_slow_path_trampoline, macro () loadp Callee[cfr], t1 convertCalleeToVM(t1) copyCalleeSavesToVMEntryFrameCalleeSavesBuffer(t1, t2) callSlowPath(_llint_slow_path_handle_exception) # When throwing from the interpreter (i.e. throwing from LLIntSlowPaths), so # the throw target is not necessarily interpreted code, we come to here. # This essentially emulates the JIT's throwing protocol. loadp Callee[cfr], t1 convertCalleeToVM(t1) if ARM64E loadp VM::targetMachinePCForThrow[t1], a0 leap JSCConfig + constexpr JSC::offsetOfJSCConfigGateMap + (constexpr Gate::exceptionHandler) * PtrSize, a1 jmp [a1], NativeToJITGatePtrTag # ExceptionHandlerPtrTag else jmp VM::targetMachinePCForThrow[t1], ExceptionHandlerPtrTag end end) op(llint_throw_during_call_trampoline, macro () preserveReturnAddressAfterCall(t2) jmp _llint_throw_from_slow_path_trampoline end) macro nativeCallTrampoline(executableOffsetToFunction) functionPrologue() storep 0, CodeBlock[cfr] loadp Callee[cfr], a0 loadp JSFunction::m_executableOrRareData[a0], a2 btpz a2, (constexpr JSFunction::rareDataTag), .isExecutable loadp (FunctionRareData::m_executable - (constexpr JSFunction::rareDataTag))[a2], a2 .isExecutable: loadp JSFunction::m_scope[a0], a0 loadp JSGlobalObject::m_vm[a0], a1 storep cfr, VM::topCallFrame[a1] if ARM64 or ARM64E or C_LOOP or C_LOOP_WIN storep lr, ReturnPC[cfr] end move cfr, a1 checkStackPointerAlignment(t3, 0xdead0001) if C_LOOP or C_LOOP_WIN cloopCallNative executableOffsetToFunction[a2] else if X86_64_WIN subp 32, sp call executableOffsetToFunction[a2], HostFunctionPtrTag addp 32, sp else call executableOffsetToFunction[a2], HostFunctionPtrTag end end loadp Callee[cfr], t3 loadp JSFunction::m_scope[t3], t3 loadp JSGlobalObject::m_vm[t3], t3 btpnz VM::m_exception[t3], .handleException functionEpilogue() ret .handleException: storep cfr, VM::topCallFrame[t3] jmp _llint_throw_from_slow_path_trampoline end macro internalFunctionCallTrampoline(offsetOfFunction) functionPrologue() storep 0, CodeBlock[cfr] loadp Callee[cfr], a2 loadp InternalFunction::m_globalObject[a2], a0 loadp JSGlobalObject::m_vm[a0], a1 storep cfr, VM::topCallFrame[a1] if ARM64 or ARM64E or C_LOOP or C_LOOP_WIN storep lr, ReturnPC[cfr] end move cfr, a1 checkStackPointerAlignment(t3, 0xdead0001) if C_LOOP or C_LOOP_WIN cloopCallNative offsetOfFunction[a2] else if X86_64_WIN subp 32, sp call offsetOfFunction[a2], HostFunctionPtrTag addp 32, sp else call offsetOfFunction[a2], HostFunctionPtrTag end end loadp Callee[cfr], t3 loadp InternalFunction::m_globalObject[t3], t3 loadp JSGlobalObject::m_vm[t3], t3 btpnz VM::m_exception[t3], .handleException functionEpilogue() ret .handleException: storep cfr, VM::topCallFrame[t3] jmp _llint_throw_from_slow_path_trampoline end macro varInjectionCheck(slowPath, scratch) loadp CodeBlock[cfr], scratch loadp CodeBlock::m_globalObject[scratch], scratch loadp JSGlobalObject::m_varInjectionWatchpoint[scratch], scratch bbeq WatchpointSet::m_state[scratch], IsInvalidated, slowPath end llintOpWithMetadata(op_resolve_scope, OpResolveScope, macro (size, get, dispatch, metadata, return) metadata(t5, t0) macro getConstantScope(dst) loadp OpResolveScope::Metadata::m_constantScope[t5], dst end macro returnConstantScope() getConstantScope(t0) return(t0) end macro globalLexicalBindingEpochCheck(slowPath, globalObject, scratch) loadi OpResolveScope::Metadata::m_globalLexicalBindingEpoch[t5], scratch bineq JSGlobalObject::m_globalLexicalBindingEpoch[globalObject], scratch, slowPath end macro resolveScope() loadi OpResolveScope::Metadata::m_localScopeDepth[t5], t2 get(m_scope, t0) loadq [cfr, t0, 8], t0 btiz t2, .resolveScopeLoopEnd .resolveScopeLoop: loadp JSScope::m_next[t0], t0 subi 1, t2 btinz t2, .resolveScopeLoop .resolveScopeLoopEnd: return(t0) end loadi OpResolveScope::Metadata::m_resolveType[t5], t0 #rGlobalProperty: bineq t0, GlobalProperty, .rGlobalVar getConstantScope(t0) globalLexicalBindingEpochCheck(.rDynamic, t0, t2) return(t0) .rGlobalVar: bineq t0, GlobalVar, .rGlobalLexicalVar returnConstantScope() .rGlobalLexicalVar: bineq t0, GlobalLexicalVar, .rClosureVar returnConstantScope() .rClosureVar: bineq t0, ClosureVar, .rModuleVar resolveScope() .rModuleVar: bineq t0, ModuleVar, .rGlobalPropertyWithVarInjectionChecks returnConstantScope() .rGlobalPropertyWithVarInjectionChecks: bineq t0, GlobalPropertyWithVarInjectionChecks, .rGlobalVarWithVarInjectionChecks varInjectionCheck(.rDynamic, t2) getConstantScope(t0) globalLexicalBindingEpochCheck(.rDynamic, t0, t2) return(t0) .rGlobalVarWithVarInjectionChecks: bineq t0, GlobalVarWithVarInjectionChecks, .rGlobalLexicalVarWithVarInjectionChecks varInjectionCheck(.rDynamic, t2) returnConstantScope() .rGlobalLexicalVarWithVarInjectionChecks: bineq t0, GlobalLexicalVarWithVarInjectionChecks, .rClosureVarWithVarInjectionChecks varInjectionCheck(.rDynamic, t2) returnConstantScope() .rClosureVarWithVarInjectionChecks: bineq t0, ClosureVarWithVarInjectionChecks, .rDynamic varInjectionCheck(.rDynamic, t2) resolveScope() .rDynamic: callSlowPath(_slow_path_resolve_scope) dispatch() end) macro loadWithStructureCheck(opcodeStruct, get, slowPath) get(m_scope, t0) loadq [cfr, t0, 8], t0 loadStructureWithScratch(t0, t2, t1, t3) loadp %opcodeStruct%::Metadata::m_structure[t5], t1 bpneq t2, t1, slowPath end llintOpWithMetadata(op_get_from_scope, OpGetFromScope, macro (size, get, dispatch, metadata, return) metadata(t5, t0) macro getProperty() loadp OpGetFromScope::Metadata::m_operand[t5], t1 loadPropertyAtVariableOffset(t1, t0, t2) valueProfile(OpGetFromScope, m_profile, t5, t2) return(t2) end macro getGlobalVar(tdzCheckIfNecessary) loadp OpGetFromScope::Metadata::m_operand[t5], t0 loadq [t0], t0 tdzCheckIfNecessary(t0) valueProfile(OpGetFromScope, m_profile, t5, t0) return(t0) end macro getClosureVar() loadp OpGetFromScope::Metadata::m_operand[t5], t1 loadq JSLexicalEnvironment_variables[t0, t1, 8], t0 valueProfile(OpGetFromScope, m_profile, t5, t0) return(t0) end loadi OpGetFromScope::Metadata::m_getPutInfo + GetPutInfo::m_operand[t5], t0 andi ResolveTypeMask, t0 #gGlobalProperty: bineq t0, GlobalProperty, .gGlobalVar loadWithStructureCheck(OpGetFromScope, get, .gDynamic) # This structure check includes lexical binding epoch check since when the epoch is changed, scope will be changed too. getProperty() .gGlobalVar: bineq t0, GlobalVar, .gGlobalLexicalVar getGlobalVar(macro(v) end) .gGlobalLexicalVar: bineq t0, GlobalLexicalVar, .gClosureVar getGlobalVar( macro (value) bqeq value, ValueEmpty, .gDynamic end) .gClosureVar: bineq t0, ClosureVar, .gGlobalPropertyWithVarInjectionChecks loadVariable(get, m_scope, t0) getClosureVar() .gGlobalPropertyWithVarInjectionChecks: bineq t0, GlobalPropertyWithVarInjectionChecks, .gGlobalVarWithVarInjectionChecks loadWithStructureCheck(OpGetFromScope, get, .gDynamic) # This structure check includes lexical binding epoch check since when the epoch is changed, scope will be changed too. getProperty() .gGlobalVarWithVarInjectionChecks: bineq t0, GlobalVarWithVarInjectionChecks, .gGlobalLexicalVarWithVarInjectionChecks varInjectionCheck(.gDynamic, t2) getGlobalVar(macro(v) end) .gGlobalLexicalVarWithVarInjectionChecks: bineq t0, GlobalLexicalVarWithVarInjectionChecks, .gClosureVarWithVarInjectionChecks varInjectionCheck(.gDynamic, t2) getGlobalVar( macro (value) bqeq value, ValueEmpty, .gDynamic end) .gClosureVarWithVarInjectionChecks: bineq t0, ClosureVarWithVarInjectionChecks, .gDynamic varInjectionCheck(.gDynamic, t2) loadVariable(get, m_scope, t0) getClosureVar() .gDynamic: callSlowPath(_llint_slow_path_get_from_scope) dispatch() end) llintOpWithMetadata(op_put_to_scope, OpPutToScope, macro (size, get, dispatch, metadata, return) macro putProperty() get(m_value, t1) loadConstantOrVariable(size, t1, t2) loadp OpPutToScope::Metadata::m_operand[t5], t1 storePropertyAtVariableOffset(t1, t0, t2) end macro putGlobalVariable() get(m_value, t0) loadConstantOrVariable(size, t0, t1) loadp OpPutToScope::Metadata::m_watchpointSet[t5], t2 btpz t2, .noVariableWatchpointSet notifyWrite(t2, .pDynamic) .noVariableWatchpointSet: loadp OpPutToScope::Metadata::m_operand[t5], t0 storeq t1, [t0] end macro putClosureVar() get(m_value, t1) loadConstantOrVariable(size, t1, t2) loadp OpPutToScope::Metadata::m_operand[t5], t1 storeq t2, JSLexicalEnvironment_variables[t0, t1, 8] end macro putLocalClosureVar() get(m_value, t1) loadConstantOrVariable(size, t1, t2) loadp OpPutToScope::Metadata::m_watchpointSet[t5], t3 btpz t3, .noVariableWatchpointSet notifyWrite(t3, .pDynamic) .noVariableWatchpointSet: loadp OpPutToScope::Metadata::m_operand[t5], t1 storeq t2, JSLexicalEnvironment_variables[t0, t1, 8] end macro checkTDZInGlobalPutToScopeIfNecessary() loadi OpPutToScope::Metadata::m_getPutInfo + GetPutInfo::m_operand[t5], t0 andi InitializationModeMask, t0 rshifti InitializationModeShift, t0 bineq t0, NotInitialization, .noNeedForTDZCheck loadp OpPutToScope::Metadata::m_operand[t5], t0 loadq [t0], t0 bqeq t0, ValueEmpty, .pDynamic .noNeedForTDZCheck: end metadata(t5, t0) loadi OpPutToScope::Metadata::m_getPutInfo + GetPutInfo::m_operand[t5], t0 andi ResolveTypeMask, t0 #pLocalClosureVar: bineq t0, LocalClosureVar, .pGlobalProperty loadVariable(get, m_scope, t0) putLocalClosureVar() writeBarrierOnOperands(size, get, m_scope, m_value) dispatch() .pGlobalProperty: bineq t0, GlobalProperty, .pGlobalVar loadWithStructureCheck(OpPutToScope, get, .pDynamic) # This structure check includes lexical binding epoch check since when the epoch is changed, scope will be changed too. putProperty() writeBarrierOnOperands(size, get, m_scope, m_value) dispatch() .pGlobalVar: bineq t0, GlobalVar, .pGlobalLexicalVar putGlobalVariable() writeBarrierOnGlobalObject(size, get, m_value) dispatch() .pGlobalLexicalVar: bineq t0, GlobalLexicalVar, .pClosureVar checkTDZInGlobalPutToScopeIfNecessary() putGlobalVariable() writeBarrierOnGlobalLexicalEnvironment(size, get, m_value) dispatch() .pClosureVar: bineq t0, ClosureVar, .pGlobalPropertyWithVarInjectionChecks loadVariable(get, m_scope, t0) putClosureVar() writeBarrierOnOperands(size, get, m_scope, m_value) dispatch() .pGlobalPropertyWithVarInjectionChecks: bineq t0, GlobalPropertyWithVarInjectionChecks, .pGlobalVarWithVarInjectionChecks loadWithStructureCheck(OpPutToScope, get, .pDynamic) # This structure check includes lexical binding epoch check since when the epoch is changed, scope will be changed too. putProperty() writeBarrierOnOperands(size, get, m_scope, m_value) dispatch() .pGlobalVarWithVarInjectionChecks: bineq t0, GlobalVarWithVarInjectionChecks, .pGlobalLexicalVarWithVarInjectionChecks varInjectionCheck(.pDynamic, t2) putGlobalVariable() writeBarrierOnGlobalObject(size, get, m_value) dispatch() .pGlobalLexicalVarWithVarInjectionChecks: bineq t0, GlobalLexicalVarWithVarInjectionChecks, .pClosureVarWithVarInjectionChecks varInjectionCheck(.pDynamic, t2) checkTDZInGlobalPutToScopeIfNecessary() putGlobalVariable() writeBarrierOnGlobalLexicalEnvironment(size, get, m_value) dispatch() .pClosureVarWithVarInjectionChecks: bineq t0, ClosureVarWithVarInjectionChecks, .pModuleVar varInjectionCheck(.pDynamic, t2) loadVariable(get, m_scope, t0) putClosureVar() writeBarrierOnOperands(size, get, m_scope, m_value) dispatch() .pModuleVar: bineq t0, ModuleVar, .pDynamic callSlowPath(_slow_path_throw_strict_mode_readonly_property_write_error) dispatch() .pDynamic: callSlowPath(_llint_slow_path_put_to_scope) dispatch() end) llintOpWithProfile(op_get_from_arguments, OpGetFromArguments, macro (size, get, dispatch, return) loadVariable(get, m_arguments, t0) getu(size, OpGetFromArguments, m_index, t1) loadq DirectArguments_storage[t0, t1, 8], t0 return(t0) end) llintOp(op_put_to_arguments, OpPutToArguments, macro (size, get, dispatch) loadVariable(get, m_arguments, t0) getu(size, OpPutToArguments, m_index, t1) get(m_value, t3) loadConstantOrVariable(size, t3, t2) storeq t2, DirectArguments_storage[t0, t1, 8] writeBarrierOnOperands(size, get, m_arguments, m_value) dispatch() end) llintOpWithReturn(op_get_parent_scope, OpGetParentScope, macro (size, get, dispatch, return) loadVariable(get, m_scope, t0) loadp JSScope::m_next[t0], t0 return(t0) end) llintOpWithMetadata(op_profile_type, OpProfileType, macro (size, get, dispatch, metadata, return) loadp CodeBlock[cfr], t1 loadp CodeBlock::m_vm[t1], t1 # t1 is holding the pointer to the typeProfilerLog. loadp VM::m_typeProfilerLog[t1], t1 # t2 is holding the pointer to the current log entry. loadp TypeProfilerLog::m_currentLogEntryPtr[t1], t2 # t0 is holding the JSValue argument. get(m_targetVirtualRegister, t3) loadConstantOrVariable(size, t3, t0) bqeq t0, ValueEmpty, .opProfileTypeDone # Store the JSValue onto the log entry. storeq t0, TypeProfilerLog::LogEntry::value[t2] # Store the TypeLocation onto the log entry. metadata(t5, t3) loadp OpProfileType::Metadata::m_typeLocation[t5], t3 storep t3, TypeProfilerLog::LogEntry::location[t2] btqz t0, notCellMask, .opProfileTypeIsCell storei 0, TypeProfilerLog::LogEntry::structureID[t2] jmp .opProfileTypeSkipIsCell .opProfileTypeIsCell: loadi JSCell::m_structureID[t0], t3 storei t3, TypeProfilerLog::LogEntry::structureID[t2] .opProfileTypeSkipIsCell: # Increment the current log entry. addp sizeof TypeProfilerLog::LogEntry, t2 storep t2, TypeProfilerLog::m_currentLogEntryPtr[t1] loadp TypeProfilerLog::m_logEndPtr[t1], t1 bpneq t2, t1, .opProfileTypeDone callSlowPath(_slow_path_profile_type_clear_log) .opProfileTypeDone: dispatch() end) llintOpWithMetadata(op_profile_control_flow, OpProfileControlFlow, macro (size, get, dispatch, metadata, return) metadata(t5, t0) loadp OpProfileControlFlow::Metadata::m_basicBlockLocation[t5], t0 addq 1, BasicBlockLocation::m_executionCount[t0] dispatch() end) llintOpWithReturn(op_get_rest_length, OpGetRestLength, macro (size, get, dispatch, return) loadi PayloadOffset + ArgumentCountIncludingThis[cfr], t0 subi 1, t0 getu(size, OpGetRestLength, m_numParametersToSkip, t1) bilteq t0, t1, .storeZero subi t1, t0 jmp .boxUp .storeZero: move 0, t0 .boxUp: orq numberTag, t0 return(t0) end) llintOpWithMetadata(op_iterator_open, OpIteratorOpen, macro (size, get, dispatch, metadata, return) macro fastNarrow() callSlowPath(_iterator_open_try_fast_narrow) end macro fastWide16() callSlowPath(_iterator_open_try_fast_wide16) end macro fastWide32() callSlowPath(_iterator_open_try_fast_wide32) end size(fastNarrow, fastWide16, fastWide32, macro (callOp) callOp() end) # FIXME: We should do this with inline assembly since it's the "fast" case. bbeq r1, constexpr IterationMode::Generic, .iteratorOpenGeneric dispatch() .iteratorOpenGeneric: macro gotoGetByIdCheckpoint() jmp .getByIdStart end macro getCallee(dst) get(m_symbolIterator, dst) end macro getArgumentIncludingThisStart(dst) getu(size, OpIteratorOpen, m_stackOffset, dst) end macro getArgumentIncludingThisCount(dst) move 1, dst end callHelper(op_iterator_open, _llint_slow_path_iterator_open_call, OpIteratorOpen, m_iteratorProfile, m_iterator, prepareForRegularCall, size, gotoGetByIdCheckpoint, metadata, getCallee, getArgumentIncludingThisStart, getArgumentIncludingThisCount) .getByIdStart: macro storeNextAndDispatch(value) move value, t2 get(m_next, t1) storeq t2, [cfr, t1, 8] dispatch() end loadVariable(get, m_iterator, t3) btqnz t3, notCellMask, .iteratorOpenGenericGetNextSlow performGetByIDHelper(OpIteratorOpen, m_modeMetadata, m_nextProfile, .iteratorOpenGenericGetNextSlow, size, metadata, storeNextAndDispatch) .iteratorOpenGenericGetNextSlow: callSlowPath(_llint_slow_path_iterator_open_get_next) dispatch() end) llintOpWithMetadata(op_iterator_next, OpIteratorNext, macro (size, get, dispatch, metadata, return) loadVariable(get, m_next, t0) btqnz t0, t0, .iteratorNextGeneric macro fastNarrow() callSlowPath(_iterator_next_try_fast_narrow) end macro fastWide16() callSlowPath(_iterator_next_try_fast_wide16) end macro fastWide32() callSlowPath(_iterator_next_try_fast_wide32) end size(fastNarrow, fastWide16, fastWide32, macro (callOp) callOp() end) # FIXME: We should do this with inline assembly since it's the "fast" case. bbeq r1, constexpr IterationMode::Generic, .iteratorNextGeneric dispatch() .iteratorNextGeneric: macro gotoGetDoneCheckpoint() jmp .getDoneStart end macro getCallee(dst) get(m_next, dst) end macro getArgumentIncludingThisStart(dst) getu(size, OpIteratorNext, m_stackOffset, dst) end macro getArgumentIncludingThisCount(dst) move 1, dst end # Use m_value slot as a tmp since we are going to write to it later. callHelper(op_iterator_next, _llint_slow_path_iterator_next_call, OpIteratorNext, m_nextResultProfile, m_value, prepareForRegularCall, size, gotoGetDoneCheckpoint, metadata, getCallee, getArgumentIncludingThisStart, getArgumentIncludingThisCount) .getDoneStart: macro storeDoneAndJmpToGetValue(doneValue) # use t0 because performGetByIDHelper usually puts the doneValue there and offlineasm will elide the self move. move doneValue, t0 get(m_done, t1) storeq t0, [cfr, t1, 8] jmp .getValueStart end loadVariable(get, m_value, t3) btqnz t3, notCellMask, .getDoneSlow performGetByIDHelper(OpIteratorNext, m_doneModeMetadata, m_doneProfile, .getDoneSlow, size, metadata, storeDoneAndJmpToGetValue) .getDoneSlow: callSlowPath(_llint_slow_path_iterator_next_get_done) branchIfException(_llint_throw_from_slow_path_trampoline) loadVariable(get, m_done, t0) # storeDoneAndJmpToGetValue puts the doneValue into t0 .getValueStart: # Branch to slow if not misc primitive. btqnz t0, ~0xf, .getValueSlow btiz t0, 0x1, .notDone dispatch() .notDone: macro storeValueAndDispatch(v) move v, t2 get(m_value, t1) storeq t2, [cfr, t1, 8] checkStackPointerAlignment(t0, 0xbaddb01e) dispatch() end # Reload the next result tmp since the get_by_id above may have clobbered t3. loadVariable(get, m_value, t3) # We don't need to check if the iterator result is a cell here since we will have thrown an error before. performGetByIDHelper(OpIteratorNext, m_valueModeMetadata, m_valueProfile, .getValueSlow, size, metadata, storeValueAndDispatch) .getValueSlow: callSlowPath(_llint_slow_path_iterator_next_get_value) dispatch() end) llintOpWithProfile(op_get_internal_field, OpGetInternalField, macro (size, get, dispatch, return) loadVariable(get, m_base, t1) getu(size, OpGetInternalField, m_index, t2) loadq JSInternalFieldObjectImpl_internalFields[t1, t2, SlotSize], t0 return(t0) end) llintOp(op_put_internal_field, OpPutInternalField, macro (size, get, dispatch) loadVariable(get, m_base, t0) get(m_value, t1) loadConstantOrVariable(size, t1, t2) getu(size, OpPutInternalField, m_index, t1) storeq t2, JSInternalFieldObjectImpl_internalFields[t0, t1, SlotSize] writeBarrierOnCellAndValueWithReload(t0, t2, macro() end) dispatch() end) llintOp(op_log_shadow_chicken_prologue, OpLogShadowChickenPrologue, macro (size, get, dispatch) acquireShadowChickenPacket(.opLogShadowChickenPrologueSlow) storep cfr, ShadowChicken::Packet::frame[t0] loadp CallerFrame[cfr], t1 storep t1, ShadowChicken::Packet::callerFrame[t0] loadp Callee[cfr], t1 storep t1, ShadowChicken::Packet::callee[t0] loadVariable(get, m_scope, t1) storep t1, ShadowChicken::Packet::scope[t0] dispatch() .opLogShadowChickenPrologueSlow: callSlowPath(_llint_slow_path_log_shadow_chicken_prologue) dispatch() end) llintOp(op_log_shadow_chicken_tail, OpLogShadowChickenTail, macro (size, get, dispatch) acquireShadowChickenPacket(.opLogShadowChickenTailSlow) storep cfr, ShadowChicken::Packet::frame[t0] storep ShadowChickenTailMarker, ShadowChicken::Packet::callee[t0] loadVariable(get, m_thisValue, t1) storep t1, ShadowChicken::Packet::thisValue[t0] loadVariable(get, m_scope, t1) storep t1, ShadowChicken::Packet::scope[t0] loadp CodeBlock[cfr], t1 storep t1, ShadowChicken::Packet::codeBlock[t0] storei PC, ShadowChicken::Packet::callSiteIndex[t0] dispatch() .opLogShadowChickenTailSlow: callSlowPath(_llint_slow_path_log_shadow_chicken_tail) dispatch() end) macro hasStructurePropertyImpl(size, get, dispatch, return, slowPathCall) get(m_base, t0) loadConstantOrVariable(size, t0, t1) btqnz t1, notCellMask, .slowPath loadVariable(get, m_enumerator, t0) loadi JSCell::m_structureID[t1], t1 bineq t1, JSPropertyNameEnumerator::m_cachedStructureID[t0], .slowPath return(ValueTrue) .slowPath: callSlowPath(slowPathCall) dispatch() end llintOpWithReturn(op_has_enumerable_structure_property, OpHasEnumerableStructureProperty, macro (size, get, dispatch, return) hasStructurePropertyImpl(size, get, dispatch, return, _slow_path_has_enumerable_structure_property) end) llintOpWithReturn(op_has_own_structure_property, OpHasOwnStructureProperty, macro (size, get, dispatch, return) hasStructurePropertyImpl(size, get, dispatch, return, _slow_path_has_own_structure_property) end) llintOpWithReturn(op_in_structure_property, OpInStructureProperty, macro (size, get, dispatch, return) hasStructurePropertyImpl(size, get, dispatch, return, _slow_path_in_structure_property) end) op(fuzzer_return_early_from_loop_hint, macro () loadp CodeBlock[cfr], t0 loadp CodeBlock::m_globalObject[t0], t0 doReturn() end)