| # Copyright (C) 2011-2019 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. |
| |
| # Crash course on the language that this is written in (which I just call |
| # "assembly" even though it's more than that): |
| # |
| # - Mostly gas-style operand ordering. The last operand tends to be the |
| # destination. So "a := b" is written as "mov b, a". But unlike gas, |
| # comparisons are in-order, so "if (a < b)" is written as |
| # "bilt a, b, ...". |
| # |
| # - "b" = byte, "h" = 16-bit word, "i" = 32-bit word, "p" = pointer. |
| # For 32-bit, "i" and "p" are interchangeable except when an op supports one |
| # but not the other. |
| # |
| # - In general, valid operands for macro invocations and instructions are |
| # registers (eg "t0"), addresses (eg "4[t0]"), base-index addresses |
| # (eg "7[t0, t1, 2]"), absolute addresses (eg "0xa0000000[]"), or labels |
| # (eg "_foo" or ".foo"). Macro invocations can also take anonymous |
| # macros as operands. Instructions cannot take anonymous macros. |
| # |
| # - Labels must have names that begin with either "_" or ".". A "." label |
| # is local and gets renamed before code gen to minimize namespace |
| # pollution. A "_" label is an extern symbol (i.e. ".globl"). The "_" |
| # may or may not be removed during code gen depending on whether the asm |
| # conventions for C name mangling on the target platform mandate a "_" |
| # prefix. |
| # |
| # - A "macro" is a lambda expression, which may be either anonymous or |
| # named. But this has caveats. "macro" can take zero or more arguments, |
| # which may be macros or any valid operands, but it can only return |
| # code. But you can do Turing-complete things via continuation passing |
| # style: "macro foo (a, b) b(a, a) end foo(foo, foo)". Actually, don't do |
| # that, since you'll just crash the assembler. |
| # |
| # - An "if" is a conditional on settings. Any identifier supplied in the |
| # predicate of an "if" is assumed to be a #define that is available |
| # during code gen. So you can't use "if" for computation in a macro, but |
| # you can use it to select different pieces of code for different |
| # platforms. |
| # |
| # - Arguments to macros follow lexical scoping rather than dynamic scoping. |
| # Const's also follow lexical scoping and may override (hide) arguments |
| # or other consts. All variables (arguments and constants) can be bound |
| # to operands. Additionally, arguments (but not constants) can be bound |
| # to macros. |
| |
| # The following general-purpose registers are available: |
| # |
| # - cfr and sp hold the call frame and (native) stack pointer respectively. |
| # They are callee-save registers, and guaranteed to be distinct from all other |
| # registers on all architectures. |
| # |
| # - lr is defined on non-X86 architectures (ARM64, ARM64E, ARMv7, MIPS and CLOOP) |
| # and holds the return PC |
| # |
| # - t0, t1, t2, t3, t4, and optionally t5, t6, and t7 are temporary registers that can get trashed on |
| # calls, and are pairwise distinct registers. t4 holds the JS program counter, so use |
| # with caution in opcodes (actually, don't use it in opcodes at all, except as PC). |
| # |
| # - r0 and r1 are the platform's customary return registers, and thus are |
| # two distinct registers |
| # |
| # - a0, a1, a2 and a3 are the platform's customary argument registers, and |
| # thus are pairwise distinct registers. Be mindful that: |
| # + On X86, there are no argument registers. a0 and a1 are edx and |
| # ecx following the fastcall convention, but you should still use the stack |
| # to pass your arguments. The cCall2 and cCall4 macros do this for you. |
| # + On X86_64_WIN, you should allocate space on the stack for the arguments, |
| # and the return convention is weird for > 8 bytes types. The only place we |
| # use > 8 bytes return values is on a cCall, and cCall2 and cCall4 handle |
| # this for you. |
| # |
| # - The only registers guaranteed to be caller-saved are r0, r1, a0, a1 and a2, and |
| # you should be mindful of that in functions that are called directly from C. |
| # If you need more registers, you should push and pop them like a good |
| # assembly citizen, because any other register will be callee-saved on X86. |
| # |
| # You can additionally assume: |
| # |
| # - a3, t2, t3, t4 and t5 are never return registers; t0, t1, a0, a1 and a2 |
| # can be return registers. |
| # |
| # - t4 and t5 are never argument registers, t3 can only be a3, t1 can only be |
| # a1; but t0 and t2 can be either a0 or a2. |
| # |
| # - There are callee-save registers named csr0, csr1, ... csrN. |
| # The last three csr registers are used used to store the PC base and |
| # two special tag values (on 64-bits only). Don't use them for anything else. |
| # |
| # Additional platform-specific details (you shouldn't rely on this remaining |
| # true): |
| # |
| # - For consistency with the baseline JIT, t0 is always r0 (and t1 is always |
| # r1 on 32 bits platforms). You should use the r version when you need return |
| # registers, and the t version otherwise: code using t0 (or t1) should still |
| # work if swapped with e.g. t3, while code using r0 (or r1) should not. There |
| # *may* be legacy code relying on this. |
| # |
| # - On all platforms other than X86, t0 can only be a0 and t2 can only be a2. |
| # |
| # - On all platforms other than X86 and X86_64, a2 is not a return register. |
| # a2 is r0 on X86 (because we have so few registers) and r1 on X86_64 (because |
| # the ABI enforces it). |
| # |
| # The following floating-point registers are available: |
| # |
| # - ft0-ft5 are temporary floating-point registers that get trashed on calls, |
| # and are pairwise distinct. |
| # |
| # - fa0 and fa1 are the platform's customary floating-point argument |
| # registers, and are both distinct. On 64-bits platforms, fa2 and fa3 are |
| # additional floating-point argument registers. |
| # |
| # - fr is the platform's customary floating-point return register |
| # |
| # You can assume that ft1-ft5 or fa1-fa3 are never fr, and that ftX is never |
| # faY if X != Y. |
| |
| # First come the common protocols that both interpreters use. Note that each |
| # of these must have an ASSERT() in LLIntData.cpp |
| |
| # Work-around for the fact that the toolchain's awareness of armv7k / armv7s |
| # results in a separate slab in the fat binary, yet the offlineasm doesn't know |
| # to expect it. |
| if ARMv7k |
| end |
| if ARMv7s |
| end |
| |
| # These declarations must match interpreter/JSStack.h. |
| |
| const PtrSize = constexpr (sizeof(void*)) |
| const MachineRegisterSize = constexpr (sizeof(CPURegister)) |
| const SlotSize = constexpr (sizeof(Register)) |
| |
| if JSVALUE64 |
| const CallFrameHeaderSlots = 5 |
| else |
| const CallFrameHeaderSlots = 4 |
| const CallFrameAlignSlots = 1 |
| end |
| |
| const JSLexicalEnvironment_variables = (sizeof JSLexicalEnvironment + SlotSize - 1) & ~(SlotSize - 1) |
| const DirectArguments_storage = (sizeof DirectArguments + SlotSize - 1) & ~(SlotSize - 1) |
| const JSInternalFieldObjectImpl_internalFields = JSInternalFieldObjectImpl::m_internalFields |
| |
| const StackAlignment = constexpr (stackAlignmentBytes()) |
| const StackAlignmentSlots = constexpr (stackAlignmentRegisters()) |
| const StackAlignmentMask = StackAlignment - 1 |
| |
| const CallerFrameAndPCSize = constexpr (sizeof(CallerFrameAndPC)) |
| |
| const CallerFrame = 0 |
| const ReturnPC = CallerFrame + MachineRegisterSize |
| const CodeBlock = ReturnPC + MachineRegisterSize |
| const Callee = CodeBlock + SlotSize |
| const ArgumentCountIncludingThis = Callee + SlotSize |
| const ThisArgumentOffset = ArgumentCountIncludingThis + SlotSize |
| const FirstArgumentOffset = ThisArgumentOffset + SlotSize |
| const CallFrameHeaderSize = ThisArgumentOffset |
| |
| const MetadataOffsetTable16Offset = 0 |
| const MetadataOffsetTable32Offset = constexpr UnlinkedMetadataTable::s_offset16TableSize |
| const NumberOfJSOpcodeIDs = constexpr numOpcodeIDs |
| |
| # Some value representation constants. |
| if JSVALUE64 |
| const TagOther = constexpr JSValue::OtherTag |
| const TagBool = constexpr JSValue::BoolTag |
| const TagUndefined = constexpr JSValue::UndefinedTag |
| const ValueEmpty = constexpr JSValue::ValueEmpty |
| const ValueFalse = constexpr JSValue::ValueFalse |
| const ValueTrue = constexpr JSValue::ValueTrue |
| const ValueUndefined = constexpr JSValue::ValueUndefined |
| const ValueNull = constexpr JSValue::ValueNull |
| const TagNumber = constexpr JSValue::NumberTag |
| const NotCellMask = constexpr JSValue::NotCellMask |
| else |
| const Int32Tag = constexpr JSValue::Int32Tag |
| const BooleanTag = constexpr JSValue::BooleanTag |
| const NullTag = constexpr JSValue::NullTag |
| const UndefinedTag = constexpr JSValue::UndefinedTag |
| const CellTag = constexpr JSValue::CellTag |
| const EmptyValueTag = constexpr JSValue::EmptyValueTag |
| const DeletedValueTag = constexpr JSValue::DeletedValueTag |
| const LowestTag = constexpr JSValue::LowestTag |
| end |
| |
| if JSVALUE64 |
| const NumberOfStructureIDEntropyBits = constexpr StructureIDTable::s_numberOfEntropyBits |
| const StructureEntropyBitsShift = constexpr StructureIDTable::s_entropyBitsShiftForStructurePointer |
| end |
| |
| const maxFrameExtentForSlowPathCall = constexpr maxFrameExtentForSlowPathCall |
| |
| if X86_64 or X86_64_WIN or ARM64 or ARM64E |
| const CalleeSaveSpaceAsVirtualRegisters = 4 |
| elsif C_LOOP or C_LOOP_WIN |
| const CalleeSaveSpaceAsVirtualRegisters = 1 |
| elsif ARMv7 |
| const CalleeSaveSpaceAsVirtualRegisters = 1 |
| elsif MIPS |
| const CalleeSaveSpaceAsVirtualRegisters = 1 |
| else |
| const CalleeSaveSpaceAsVirtualRegisters = 0 |
| end |
| |
| const CalleeSaveSpaceStackAligned = (CalleeSaveSpaceAsVirtualRegisters * SlotSize + StackAlignment - 1) & ~StackAlignmentMask |
| |
| |
| # Watchpoint states |
| const ClearWatchpoint = constexpr ClearWatchpoint |
| const IsWatched = constexpr IsWatched |
| const IsInvalidated = constexpr IsInvalidated |
| |
| # ShadowChicken data |
| const ShadowChickenTailMarker = constexpr ShadowChicken::Packet::tailMarkerValue |
| |
| # UnaryArithProfile data |
| const ArithProfileInt = constexpr (UnaryArithProfile::observedIntBits()) |
| const ArithProfileNumber = constexpr (UnaryArithProfile::observedNumberBits()) |
| |
| # BinaryArithProfile data |
| const ArithProfileIntInt = constexpr (BinaryArithProfile::observedIntIntBits()) |
| const ArithProfileNumberInt = constexpr (BinaryArithProfile::observedNumberIntBits()) |
| const ArithProfileIntNumber = constexpr (BinaryArithProfile::observedIntNumberBits()) |
| const ArithProfileNumberNumber = constexpr (BinaryArithProfile::observedNumberNumberBits()) |
| |
| # Pointer Tags |
| const BytecodePtrTag = constexpr BytecodePtrTag |
| const JSEntryPtrTag = constexpr JSEntryPtrTag |
| const ExceptionHandlerPtrTag = constexpr ExceptionHandlerPtrTag |
| const NoPtrTag = constexpr NoPtrTag |
| const SlowPathPtrTag = constexpr SlowPathPtrTag |
| |
| # Some register conventions. |
| # - We use a pair of registers to represent the PC: one register for the |
| # base of the bytecodes, and one register for the index. |
| # - The PC base (or PB for short) must be stored in a callee-save register. |
| # - C calls are still given the Instruction* rather than the PC index. |
| # This requires an add before the call, and a sub after. |
| if JSVALUE64 |
| const PC = t4 # When changing this, make sure LLIntPC is up to date in LLIntPCRanges.h |
| if ARM64 or ARM64E |
| const metadataTable = csr6 |
| const PB = csr7 |
| const numberTag = csr8 |
| const notCellMask = csr9 |
| elsif X86_64 |
| const metadataTable = csr1 |
| const PB = csr2 |
| const numberTag = csr3 |
| const notCellMask = csr4 |
| elsif X86_64_WIN |
| const metadataTable = csr3 |
| const PB = csr4 |
| const numberTag = csr5 |
| const notCellMask = csr6 |
| elsif C_LOOP or C_LOOP_WIN |
| const PB = csr0 |
| const numberTag = csr1 |
| const notCellMask = csr2 |
| const metadataTable = csr3 |
| end |
| |
| else |
| const PC = t4 # When changing this, make sure LLIntPC is up to date in LLIntPCRanges.h |
| if C_LOOP or C_LOOP_WIN |
| const PB = csr0 |
| const metadataTable = csr3 |
| elsif ARMv7 |
| const metadataTable = csr0 |
| const PB = csr1 |
| elsif MIPS |
| const metadataTable = csr0 |
| const PB = csr1 |
| else |
| error |
| end |
| end |
| |
| if GIGACAGE_ENABLED |
| const GigacagePrimitiveBasePtrOffset = constexpr Gigacage::offsetOfPrimitiveGigacageBasePtr |
| const GigacageJSValueBasePtrOffset = constexpr Gigacage::offsetOfJSValueGigacageBasePtr |
| end |
| |
| # Opcode offsets |
| const OpcodeIDNarrowSize = 1 # OpcodeID |
| const OpcodeIDWide16Size = 2 # Wide16 Prefix + OpcodeID |
| const OpcodeIDWide32Size = 2 # Wide32 Prefix + OpcodeID |
| |
| |
| macro nextInstruction() |
| loadb [PB, PC, 1], t0 |
| leap _g_opcodeMap, t1 |
| jmp [t1, t0, PtrSize], BytecodePtrTag |
| end |
| |
| macro nextInstructionWide16() |
| loadb OpcodeIDNarrowSize[PB, PC, 1], t0 |
| leap _g_opcodeMapWide16, t1 |
| jmp [t1, t0, PtrSize], BytecodePtrTag |
| end |
| |
| macro nextInstructionWide32() |
| loadb OpcodeIDNarrowSize[PB, PC, 1], t0 |
| leap _g_opcodeMapWide32, t1 |
| jmp [t1, t0, PtrSize], BytecodePtrTag |
| end |
| |
| macro dispatch(advanceReg) |
| addp advanceReg, PC |
| nextInstruction() |
| end |
| |
| macro dispatchIndirect(offsetReg) |
| dispatch(offsetReg) |
| end |
| |
| macro genericDispatchOp(dispatch, size, opcodeName) |
| macro dispatchNarrow() |
| dispatch((constexpr %opcodeName%_length - 1) * 1 + OpcodeIDNarrowSize) |
| end |
| |
| macro dispatchWide16() |
| dispatch((constexpr %opcodeName%_length - 1) * 2 + OpcodeIDWide16Size) |
| end |
| |
| macro dispatchWide32() |
| dispatch((constexpr %opcodeName%_length - 1) * 4 + OpcodeIDWide32Size) |
| end |
| |
| size(dispatchNarrow, dispatchWide16, dispatchWide32, macro (dispatch) dispatch() end) |
| end |
| |
| macro dispatchOp(size, opcodeName) |
| genericDispatchOp(dispatch, size, opcodeName) |
| end |
| |
| |
| macro getu(size, opcodeStruct, fieldName, dst) |
| size(getuOperandNarrow, getuOperandWide16, getuOperandWide32, macro (getu) |
| getu(opcodeStruct, fieldName, dst) |
| end) |
| end |
| |
| macro get(size, opcodeStruct, fieldName, dst) |
| size(getOperandNarrow, getOperandWide16, getOperandWide32, macro (get) |
| get(opcodeStruct, fieldName, dst) |
| end) |
| end |
| |
| macro narrow(narrowFn, wide16Fn, wide32Fn, k) |
| k(narrowFn) |
| end |
| |
| macro wide16(narrowFn, wide16Fn, wide32Fn, k) |
| k(wide16Fn) |
| end |
| |
| macro wide32(narrowFn, wide16Fn, wide32Fn, k) |
| k(wide32Fn) |
| end |
| |
| macro metadata(size, opcode, dst, scratch) |
| loadh (constexpr %opcode%::opcodeID * 2 + MetadataOffsetTable16Offset)[metadataTable], dst # offset = metadataTable<uint16_t*>[opcodeID] |
| btinz dst, .setUpOffset |
| loadi (constexpr %opcode%::opcodeID * 4 + MetadataOffsetTable32Offset)[metadataTable], dst # offset = metadataTable<uint32_t*>[opcodeID] |
| .setUpOffset: |
| getu(size, opcode, m_metadataID, scratch) # scratch = bytecode.m_metadataID |
| muli sizeof %opcode%::Metadata, scratch # scratch *= sizeof(Op::Metadata) |
| addi scratch, dst # offset += scratch |
| addp metadataTable, dst # return &metadataTable[offset] |
| end |
| |
| macro jumpImpl(dispatchIndirect, targetOffsetReg) |
| btiz targetOffsetReg, .outOfLineJumpTarget |
| dispatchIndirect(targetOffsetReg) |
| .outOfLineJumpTarget: |
| callSlowPath(_llint_slow_path_out_of_line_jump_target) |
| nextInstruction() |
| end |
| |
| macro commonOp(label, prologue, fn) |
| _%label%: |
| prologue() |
| fn(narrow) |
| if ASSERT_ENABLED |
| break |
| break |
| end |
| |
| # FIXME: We cannot enable wide16 bytecode in Windows CLoop. With MSVC, as CLoop::execute gets larger code |
| # size, CLoop::execute gets higher stack height requirement. This makes CLoop::execute takes 160KB stack |
| # per call, causes stack overflow error easily. For now, we disable wide16 optimization for Windows CLoop. |
| # https://bugs.webkit.org/show_bug.cgi?id=198283 |
| if not C_LOOP_WIN |
| _%label%_wide16: |
| prologue() |
| fn(wide16) |
| if ASSERT_ENABLED |
| break |
| break |
| end |
| end |
| |
| _%label%_wide32: |
| prologue() |
| fn(wide32) |
| if ASSERT_ENABLED |
| break |
| break |
| end |
| end |
| |
| macro op(l, fn) |
| commonOp(l, macro () end, macro (size) |
| size(fn, macro() end, macro() end, macro(gen) gen() end) |
| end) |
| end |
| |
| macro llintOp(opcodeName, opcodeStruct, fn) |
| commonOp(llint_%opcodeName%, traceExecution, macro(size) |
| macro getImpl(fieldName, dst) |
| get(size, opcodeStruct, fieldName, dst) |
| end |
| |
| macro dispatchImpl() |
| dispatchOp(size, opcodeName) |
| end |
| |
| fn(size, getImpl, dispatchImpl) |
| end) |
| end |
| |
| macro llintOpWithReturn(opcodeName, opcodeStruct, fn) |
| llintOp(opcodeName, opcodeStruct, macro(size, get, dispatch) |
| makeReturn(get, dispatch, macro (return) |
| fn(size, get, dispatch, return) |
| end) |
| end) |
| end |
| |
| macro llintOpWithMetadata(opcodeName, opcodeStruct, fn) |
| llintOpWithReturn(opcodeName, opcodeStruct, macro (size, get, dispatch, return) |
| macro meta(dst, scratch) |
| metadata(size, opcodeStruct, dst, scratch) |
| end |
| fn(size, get, dispatch, meta, return) |
| end) |
| end |
| |
| macro llintOpWithJump(opcodeName, opcodeStruct, impl) |
| llintOpWithMetadata(opcodeName, opcodeStruct, macro(size, get, dispatch, metadata, return) |
| macro jump(fieldName) |
| get(fieldName, t0) |
| jumpImpl(dispatchIndirect, t0) |
| end |
| |
| impl(size, get, jump, dispatch) |
| end) |
| end |
| |
| macro llintOpWithProfile(opcodeName, opcodeStruct, fn) |
| llintOpWithMetadata(opcodeName, opcodeStruct, macro(size, get, dispatch, metadata, return) |
| makeReturnProfiled(opcodeStruct, get, metadata, dispatch, macro (returnProfiled) |
| fn(size, get, dispatch, returnProfiled) |
| end) |
| end) |
| end |
| |
| |
| if X86_64_WIN |
| const extraTempReg = t0 |
| else |
| const extraTempReg = t5 |
| end |
| |
| # Constants for reasoning about value representation. |
| const TagOffset = constexpr TagOffset |
| const PayloadOffset = constexpr PayloadOffset |
| |
| # Constant for reasoning about butterflies. |
| const IsArray = constexpr IsArray |
| const IndexingShapeMask = constexpr IndexingShapeMask |
| const NoIndexingShape = constexpr NoIndexingShape |
| const Int32Shape = constexpr Int32Shape |
| const DoubleShape = constexpr DoubleShape |
| const ContiguousShape = constexpr ContiguousShape |
| const ArrayStorageShape = constexpr ArrayStorageShape |
| const SlowPutArrayStorageShape = constexpr SlowPutArrayStorageShape |
| const CopyOnWrite = constexpr CopyOnWrite |
| |
| # Type constants. |
| const StringType = constexpr StringType |
| const SymbolType = constexpr SymbolType |
| const ObjectType = constexpr ObjectType |
| const FinalObjectType = constexpr FinalObjectType |
| const JSFunctionType = constexpr JSFunctionType |
| const ArrayType = constexpr ArrayType |
| const DerivedArrayType = constexpr DerivedArrayType |
| const ProxyObjectType = constexpr ProxyObjectType |
| |
| # The typed array types need to be numbered in a particular order because of the manually written |
| # switch statement in get_by_val and put_by_val. |
| const Int8ArrayType = constexpr Int8ArrayType |
| const Uint8ArrayType = constexpr Uint8ArrayType |
| const Uint8ClampedArrayType = constexpr Uint8ClampedArrayType |
| const Int16ArrayType = constexpr Int16ArrayType |
| const Uint16ArrayType = constexpr Uint16ArrayType |
| const Int32ArrayType = constexpr Int32ArrayType |
| const Uint32ArrayType = constexpr Uint32ArrayType |
| const Float32ArrayType = constexpr Float32ArrayType |
| const Float64ArrayType = constexpr Float64ArrayType |
| |
| const FirstTypedArrayType = constexpr FirstTypedArrayType |
| const NumberOfTypedArrayTypesExcludingDataView = constexpr NumberOfTypedArrayTypesExcludingDataView |
| |
| # Type flags constants. |
| const MasqueradesAsUndefined = constexpr MasqueradesAsUndefined |
| const ImplementsDefaultHasInstance = constexpr ImplementsDefaultHasInstance |
| |
| # Bytecode operand constants. |
| const FirstConstantRegisterIndexNarrow = constexpr FirstConstantRegisterIndex8 |
| const FirstConstantRegisterIndexWide16 = constexpr FirstConstantRegisterIndex16 |
| const FirstConstantRegisterIndexWide32 = constexpr FirstConstantRegisterIndex |
| |
| # Code type constants. |
| const GlobalCode = constexpr GlobalCode |
| const EvalCode = constexpr EvalCode |
| const FunctionCode = constexpr FunctionCode |
| const ModuleCode = constexpr ModuleCode |
| |
| # The interpreter steals the tag word of the argument count. |
| const LLIntReturnPC = ArgumentCountIncludingThis + TagOffset |
| |
| # String flags. |
| const isRopeInPointer = constexpr JSString::isRopeInPointer |
| const HashFlags8BitBuffer = constexpr StringImpl::s_hashFlag8BitBuffer |
| |
| # Copied from PropertyOffset.h |
| const firstOutOfLineOffset = constexpr firstOutOfLineOffset |
| |
| # ResolveType |
| const GlobalProperty = constexpr GlobalProperty |
| const GlobalVar = constexpr GlobalVar |
| const GlobalLexicalVar = constexpr GlobalLexicalVar |
| const ClosureVar = constexpr ClosureVar |
| const LocalClosureVar = constexpr LocalClosureVar |
| const ModuleVar = constexpr ModuleVar |
| const GlobalPropertyWithVarInjectionChecks = constexpr GlobalPropertyWithVarInjectionChecks |
| const GlobalVarWithVarInjectionChecks = constexpr GlobalVarWithVarInjectionChecks |
| const GlobalLexicalVarWithVarInjectionChecks = constexpr GlobalLexicalVarWithVarInjectionChecks |
| const ClosureVarWithVarInjectionChecks = constexpr ClosureVarWithVarInjectionChecks |
| |
| const ResolveTypeMask = constexpr GetPutInfo::typeBits |
| const InitializationModeMask = constexpr GetPutInfo::initializationBits |
| const InitializationModeShift = constexpr GetPutInfo::initializationShift |
| const NotInitialization = constexpr InitializationMode::NotInitialization |
| |
| const MarkedBlockSize = constexpr MarkedBlock::blockSize |
| const MarkedBlockMask = ~(MarkedBlockSize - 1) |
| const MarkedBlockFooterOffset = constexpr MarkedBlock::offsetOfFooter |
| const PreciseAllocationHeaderSize = constexpr (PreciseAllocation::headerSize()) |
| const PreciseAllocationVMOffset = (PreciseAllocation::m_weakSet + WeakSet::m_vm - PreciseAllocationHeaderSize) |
| |
| const BlackThreshold = constexpr blackThreshold |
| |
| const VectorBufferOffset = Vector::m_buffer |
| const VectorSizeOffset = Vector::m_size |
| |
| # Some common utilities. |
| macro crash() |
| if C_LOOP or C_LOOP_WIN |
| cloopCrash |
| else |
| call _llint_crash |
| end |
| end |
| |
| macro assert(assertion) |
| if ASSERT_ENABLED |
| assertion(.ok) |
| crash() |
| .ok: |
| end |
| end |
| |
| macro assert_with(assertion, crash) |
| if ASSERT_ENABLED |
| assertion(.ok) |
| crash() |
| .ok: |
| end |
| end |
| |
| # The probe macro can be used to insert some debugging code without perturbing scalar |
| # registers. Presently, the probe macro only preserves scalar registers. Hence, the |
| # C probe callback function should not trash floating point registers. |
| # |
| # The macro you pass to probe() can pass whatever registers you like to your probe |
| # callback function. However, you need to be mindful of which of the registers are |
| # also used as argument registers, and ensure that you don't trash the register value |
| # before storing it in the probe callback argument register that you desire. |
| # |
| # Here's an example of how it's used: |
| # |
| # probe( |
| # macro() |
| # move cfr, a0 # pass the CallFrame* as arg0. |
| # move t0, a1 # pass the value of register t0 as arg1. |
| # call _cProbeCallbackFunction # to do whatever you want. |
| # end |
| # ) |
| # |
| if X86_64 or ARM64 or ARM64E or ARMv7 |
| macro probe(action) |
| # save all the registers that the LLInt may use. |
| if ARM64 or ARM64E or ARMv7 |
| push cfr, lr |
| end |
| push a0, a1 |
| push a2, a3 |
| push t0, t1 |
| push t2, t3 |
| push t4, t5 |
| if ARM64 or ARM64E |
| push csr0, csr1 |
| push csr2, csr3 |
| push csr4, csr5 |
| push csr6, csr7 |
| push csr8, csr9 |
| elsif ARMv7 |
| push csr0, csr1 |
| end |
| |
| action() |
| |
| # restore all the registers we saved previously. |
| if ARM64 or ARM64E |
| pop csr9, csr8 |
| pop csr7, csr6 |
| pop csr5, csr4 |
| pop csr3, csr2 |
| pop csr1, csr0 |
| elsif ARMv7 |
| pop csr1, csr0 |
| end |
| pop t5, t4 |
| pop t3, t2 |
| pop t1, t0 |
| pop a3, a2 |
| pop a1, a0 |
| if ARM64 or ARM64E or ARMv7 |
| pop lr, cfr |
| end |
| end |
| else |
| macro probe(action) |
| end |
| end |
| |
| macro checkStackPointerAlignment(tempReg, location) |
| if ASSERT_ENABLED |
| if ARM64 or ARM64E or C_LOOP or C_LOOP_WIN |
| # ARM64 and ARM64E will check for us! |
| # C_LOOP or C_LOOP_WIN does not need the alignment, and can use a little perf |
| # improvement from avoiding useless work. |
| else |
| if ARMv7 |
| # ARM can't do logical ops with the sp as a source |
| move sp, tempReg |
| andp StackAlignmentMask, tempReg |
| else |
| andp sp, StackAlignmentMask, tempReg |
| end |
| btpz tempReg, .stackPointerOkay |
| move location, tempReg |
| break |
| .stackPointerOkay: |
| end |
| end |
| end |
| |
| if C_LOOP or C_LOOP_WIN or ARM64 or ARM64E or X86_64 or X86_64_WIN |
| const CalleeSaveRegisterCount = 0 |
| elsif ARMv7 |
| const CalleeSaveRegisterCount = 7 |
| elsif MIPS |
| const CalleeSaveRegisterCount = 3 |
| elsif X86 or X86_WIN |
| const CalleeSaveRegisterCount = 3 |
| end |
| |
| const CalleeRegisterSaveSize = CalleeSaveRegisterCount * MachineRegisterSize |
| |
| # VMEntryTotalFrameSize includes the space for struct VMEntryRecord and the |
| # callee save registers rounded up to keep the stack aligned |
| const VMEntryTotalFrameSize = (CalleeRegisterSaveSize + sizeof VMEntryRecord + StackAlignment - 1) & ~StackAlignmentMask |
| |
| macro pushCalleeSaves() |
| if C_LOOP or C_LOOP_WIN or ARM64 or ARM64E or X86_64 or X86_64_WIN |
| elsif ARMv7 |
| emit "push {r4-r6, r8-r11}" |
| elsif MIPS |
| emit "addiu $sp, $sp, -12" |
| emit "sw $s0, 0($sp)" # csr0/metaData |
| emit "sw $s1, 4($sp)" # csr1/PB |
| emit "sw $s4, 8($sp)" |
| # save $gp to $s4 so that we can restore it after a function call |
| emit "move $s4, $gp" |
| elsif X86 |
| emit "push %esi" |
| emit "push %edi" |
| emit "push %ebx" |
| elsif X86_WIN |
| emit "push esi" |
| emit "push edi" |
| emit "push ebx" |
| end |
| end |
| |
| macro popCalleeSaves() |
| if C_LOOP or C_LOOP_WIN or ARM64 or ARM64E or X86_64 or X86_64_WIN |
| elsif ARMv7 |
| emit "pop {r4-r6, r8-r11}" |
| elsif MIPS |
| emit "lw $s0, 0($sp)" |
| emit "lw $s1, 4($sp)" |
| emit "lw $s4, 8($sp)" |
| emit "addiu $sp, $sp, 12" |
| elsif X86 |
| emit "pop %ebx" |
| emit "pop %edi" |
| emit "pop %esi" |
| elsif X86_WIN |
| emit "pop ebx" |
| emit "pop edi" |
| emit "pop esi" |
| end |
| end |
| |
| macro preserveCallerPCAndCFR() |
| if C_LOOP or C_LOOP_WIN or ARMv7 or MIPS |
| push lr |
| push cfr |
| elsif X86 or X86_WIN or X86_64 or X86_64_WIN |
| push cfr |
| elsif ARM64 or ARM64E |
| push cfr, lr |
| else |
| error |
| end |
| move sp, cfr |
| end |
| |
| macro restoreCallerPCAndCFR() |
| move cfr, sp |
| if C_LOOP or C_LOOP_WIN or ARMv7 or MIPS |
| pop cfr |
| pop lr |
| elsif X86 or X86_WIN or X86_64 or X86_64_WIN |
| pop cfr |
| elsif ARM64 or ARM64E |
| pop lr, cfr |
| end |
| end |
| |
| macro preserveCalleeSavesUsedByLLInt() |
| subp CalleeSaveSpaceStackAligned, sp |
| if C_LOOP or C_LOOP_WIN |
| storep metadataTable, -PtrSize[cfr] |
| |
| # Next ARMv7 and MIPS differ in how we store metadataTable and PB, |
| # because this codes needs to be in sync with how registers are |
| # restored in Baseline JIT (specifically in emitRestoreCalleeSavesFor). |
| # emitRestoreCalleeSavesFor restores registers in order instead of by name. |
| # However, ARMv7 and MIPS differ in the order in which registers are assigned |
| # to metadataTable and PB, therefore they can also not have the same saving |
| # order. |
| elsif ARMv7 |
| storep metadataTable, -4[cfr] |
| storep PB, -8[cfr] |
| elsif MIPS |
| storep PB, -4[cfr] |
| storep metadataTable, -8[cfr] |
| elsif ARM64 or ARM64E |
| emit "stp x27, x28, [x29, #-16]" |
| emit "stp x25, x26, [x29, #-32]" |
| elsif X86 |
| elsif X86_WIN |
| elsif X86_64 |
| storep csr4, -8[cfr] |
| storep csr3, -16[cfr] |
| storep csr2, -24[cfr] |
| storep csr1, -32[cfr] |
| elsif X86_64_WIN |
| storep csr6, -8[cfr] |
| storep csr5, -16[cfr] |
| storep csr4, -24[cfr] |
| storep csr3, -32[cfr] |
| end |
| end |
| |
| macro restoreCalleeSavesUsedByLLInt() |
| if C_LOOP or C_LOOP_WIN |
| loadp -PtrSize[cfr], metadataTable |
| # To understand why ARMv7 and MIPS differ in restore order, |
| # see comment in preserveCalleeSavesUsedByLLInt |
| elsif ARMv7 |
| loadp -4[cfr], metadataTable |
| loadp -8[cfr], PB |
| elsif MIPS |
| loadp -4[cfr], PB |
| loadp -8[cfr], metadataTable |
| elsif ARM64 or ARM64E |
| emit "ldp x25, x26, [x29, #-32]" |
| emit "ldp x27, x28, [x29, #-16]" |
| elsif X86 |
| elsif X86_WIN |
| elsif X86_64 |
| loadp -32[cfr], csr1 |
| loadp -24[cfr], csr2 |
| loadp -16[cfr], csr3 |
| loadp -8[cfr], csr4 |
| elsif X86_64_WIN |
| loadp -32[cfr], csr3 |
| loadp -24[cfr], csr4 |
| loadp -16[cfr], csr5 |
| loadp -8[cfr], csr6 |
| end |
| end |
| |
| macro copyCalleeSavesToEntryFrameCalleeSavesBuffer(entryFrame) |
| if ARM64 or ARM64E or X86_64 or X86_64_WIN or ARMv7 or MIPS |
| vmEntryRecord(entryFrame, entryFrame) |
| leap VMEntryRecord::calleeSaveRegistersBuffer[entryFrame], entryFrame |
| if ARM64 or ARM64E |
| storeq csr0, [entryFrame] |
| storeq csr1, 8[entryFrame] |
| storeq csr2, 16[entryFrame] |
| storeq csr3, 24[entryFrame] |
| storeq csr4, 32[entryFrame] |
| storeq csr5, 40[entryFrame] |
| storeq csr6, 48[entryFrame] |
| storeq csr7, 56[entryFrame] |
| storeq csr8, 64[entryFrame] |
| storeq csr9, 72[entryFrame] |
| stored csfr0, 80[entryFrame] |
| stored csfr1, 88[entryFrame] |
| stored csfr2, 96[entryFrame] |
| stored csfr3, 104[entryFrame] |
| stored csfr4, 112[entryFrame] |
| stored csfr5, 120[entryFrame] |
| stored csfr6, 128[entryFrame] |
| stored csfr7, 136[entryFrame] |
| elsif X86_64 |
| storeq csr0, [entryFrame] |
| storeq csr1, 8[entryFrame] |
| storeq csr2, 16[entryFrame] |
| storeq csr3, 24[entryFrame] |
| storeq csr4, 32[entryFrame] |
| elsif X86_64_WIN |
| storeq csr0, [entryFrame] |
| storeq csr1, 8[entryFrame] |
| storeq csr2, 16[entryFrame] |
| storeq csr3, 24[entryFrame] |
| storeq csr4, 32[entryFrame] |
| storeq csr5, 40[entryFrame] |
| storeq csr6, 48[entryFrame] |
| elsif ARMv7 or MIPS |
| storep csr0, [entryFrame] |
| storep csr1, 4[entryFrame] |
| end |
| end |
| end |
| |
| macro copyCalleeSavesToVMEntryFrameCalleeSavesBuffer(vm, temp) |
| if ARM64 or ARM64E or X86_64 or X86_64_WIN or ARMv7 or MIPS |
| loadp VM::topEntryFrame[vm], temp |
| copyCalleeSavesToEntryFrameCalleeSavesBuffer(temp) |
| end |
| end |
| |
| macro restoreCalleeSavesFromVMEntryFrameCalleeSavesBuffer(vm, temp) |
| if ARM64 or ARM64E or X86_64 or X86_64_WIN or ARMv7 or MIPS |
| loadp VM::topEntryFrame[vm], temp |
| vmEntryRecord(temp, temp) |
| leap VMEntryRecord::calleeSaveRegistersBuffer[temp], temp |
| if ARM64 or ARM64E |
| loadq [temp], csr0 |
| loadq 8[temp], csr1 |
| loadq 16[temp], csr2 |
| loadq 24[temp], csr3 |
| loadq 32[temp], csr4 |
| loadq 40[temp], csr5 |
| loadq 48[temp], csr6 |
| loadq 56[temp], csr7 |
| loadq 64[temp], csr8 |
| loadq 72[temp], csr9 |
| loadd 80[temp], csfr0 |
| loadd 88[temp], csfr1 |
| loadd 96[temp], csfr2 |
| loadd 104[temp], csfr3 |
| loadd 112[temp], csfr4 |
| loadd 120[temp], csfr5 |
| loadd 128[temp], csfr6 |
| loadd 136[temp], csfr7 |
| elsif X86_64 |
| loadq [temp], csr0 |
| loadq 8[temp], csr1 |
| loadq 16[temp], csr2 |
| loadq 24[temp], csr3 |
| loadq 32[temp], csr4 |
| elsif X86_64_WIN |
| loadq [temp], csr0 |
| loadq 8[temp], csr1 |
| loadq 16[temp], csr2 |
| loadq 24[temp], csr3 |
| loadq 32[temp], csr4 |
| loadq 40[temp], csr5 |
| loadq 48[temp], csr6 |
| elsif ARMv7 or MIPS |
| loadp [temp], csr0 |
| loadp 4[temp], csr1 |
| end |
| end |
| end |
| |
| macro preserveReturnAddressAfterCall(destinationRegister) |
| if C_LOOP or C_LOOP_WIN or ARMv7 or ARM64 or ARM64E or MIPS |
| # In C_LOOP or C_LOOP_WIN case, we're only preserving the bytecode vPC. |
| move lr, destinationRegister |
| elsif X86 or X86_WIN or X86_64 or X86_64_WIN |
| pop destinationRegister |
| else |
| error |
| end |
| end |
| |
| macro functionPrologue() |
| tagReturnAddress sp |
| if X86 or X86_WIN or X86_64 or X86_64_WIN |
| push cfr |
| elsif ARM64 or ARM64E |
| push cfr, lr |
| elsif C_LOOP or C_LOOP_WIN or ARMv7 or MIPS |
| push lr |
| push cfr |
| end |
| move sp, cfr |
| end |
| |
| macro functionEpilogue() |
| if X86 or X86_WIN or X86_64 or X86_64_WIN |
| pop cfr |
| elsif ARM64 or ARM64E |
| pop lr, cfr |
| elsif C_LOOP or C_LOOP_WIN or ARMv7 or MIPS |
| pop cfr |
| pop lr |
| end |
| end |
| |
| macro vmEntryRecord(entryFramePointer, resultReg) |
| subp entryFramePointer, VMEntryTotalFrameSize, resultReg |
| end |
| |
| macro getFrameRegisterSizeForCodeBlock(codeBlock, size) |
| loadi CodeBlock::m_numCalleeLocals[codeBlock], size |
| lshiftp 3, size |
| addp maxFrameExtentForSlowPathCall, size |
| end |
| |
| macro restoreStackPointerAfterCall() |
| loadp CodeBlock[cfr], t2 |
| getFrameRegisterSizeForCodeBlock(t2, t2) |
| if ARMv7 |
| subp cfr, t2, t2 |
| move t2, sp |
| else |
| subp cfr, t2, sp |
| end |
| end |
| |
| macro traceExecution() |
| if TRACING |
| callSlowPath(_llint_trace) |
| end |
| end |
| |
| macro defineOSRExitReturnLabel(opcodeName, size) |
| macro defineNarrow() |
| if not C_LOOP_WIN |
| _%opcodeName%_return_location: |
| end |
| end |
| |
| macro defineWide16() |
| if not C_LOOP_WIN |
| _%opcodeName%_return_location_wide16: |
| end |
| end |
| |
| macro defineWide32() |
| if not C_LOOP_WIN |
| _%opcodeName%_return_location_wide32: |
| end |
| end |
| |
| size(defineNarrow, defineWide16, defineWide32, macro (f) f() end) |
| end |
| |
| macro callTargetFunction(opcodeName, size, opcodeStruct, dispatch, callee, callPtrTag) |
| if C_LOOP or C_LOOP_WIN |
| cloopCallJSFunction callee |
| else |
| call callee, callPtrTag |
| end |
| |
| if ARMv7 or MIPS |
| # It is required in ARMv7 and MIPs because global label definitions |
| # for those architectures generates a set of instructions |
| # that can clobber LLInt execution, resulting in unexpected |
| # crashes. |
| restoreStackPointerAfterCall() |
| dispatchAfterCall(size, opcodeStruct, dispatch) |
| end |
| defineOSRExitReturnLabel(opcodeName, size) |
| restoreStackPointerAfterCall() |
| dispatchAfterCall(size, opcodeStruct, dispatch) |
| end |
| |
| macro prepareForRegularCall(callee, temp1, temp2, temp3, callPtrTag) |
| addp CallerFrameAndPCSize, sp |
| end |
| |
| # sp points to the new frame |
| macro prepareForTailCall(callee, temp1, temp2, temp3, callPtrTag) |
| restoreCalleeSavesUsedByLLInt() |
| |
| loadi PayloadOffset + ArgumentCountIncludingThis[cfr], temp2 |
| loadp CodeBlock[cfr], temp1 |
| loadi CodeBlock::m_numParameters[temp1], temp1 |
| bilteq temp1, temp2, .noArityFixup |
| move temp1, temp2 |
| |
| .noArityFixup: |
| # We assume < 2^28 arguments |
| muli SlotSize, temp2 |
| addi StackAlignment - 1 + CallFrameHeaderSize, temp2 |
| andi ~StackAlignmentMask, temp2 |
| |
| move cfr, temp1 |
| addp temp2, temp1 |
| |
| loadi PayloadOffset + ArgumentCountIncludingThis[sp], temp2 |
| # We assume < 2^28 arguments |
| muli SlotSize, temp2 |
| addi StackAlignment - 1 + CallFrameHeaderSize, temp2 |
| andi ~StackAlignmentMask, temp2 |
| |
| if ARMv7 or ARM64 or ARM64E or C_LOOP or C_LOOP_WIN or MIPS |
| addp CallerFrameAndPCSize, sp |
| subi CallerFrameAndPCSize, temp2 |
| loadp CallerFrameAndPC::returnPC[cfr], lr |
| else |
| addp PtrSize, sp |
| subi PtrSize, temp2 |
| loadp PtrSize[cfr], temp3 |
| storep temp3, [sp] |
| end |
| |
| if ARM64E |
| addp 16, cfr, temp3 |
| untagReturnAddress temp3 |
| end |
| |
| subp temp2, temp1 |
| loadp [cfr], cfr |
| |
| .copyLoop: |
| if ARM64 and not ADDRESS64 |
| subi MachineRegisterSize, temp2 |
| loadq [sp, temp2, 1], temp3 |
| storeq temp3, [temp1, temp2, 1] |
| btinz temp2, .copyLoop |
| else |
| subi PtrSize, temp2 |
| loadp [sp, temp2, 1], temp3 |
| storep temp3, [temp1, temp2, 1] |
| btinz temp2, .copyLoop |
| end |
| |
| move temp1, sp |
| jmp callee, callPtrTag |
| end |
| |
| macro slowPathForCall(opcodeName, size, opcodeStruct, dispatch, slowPath, prepareCall) |
| callCallSlowPath( |
| slowPath, |
| # Those are r0 and r1 |
| macro (callee, calleeFramePtr) |
| btpz calleeFramePtr, .dontUpdateSP |
| move calleeFramePtr, sp |
| prepareCall(callee, t2, t3, t4, SlowPathPtrTag) |
| .dontUpdateSP: |
| callTargetFunction(%opcodeName%_slow, size, opcodeStruct, dispatch, callee, SlowPathPtrTag) |
| end) |
| end |
| |
| macro getterSetterOSRExitReturnPoint(opName, size) |
| crash() # We don't reach this in straight line code. We only reach it via returning to the code below when reconstructing stack frames during OSR exit. |
| |
| defineOSRExitReturnLabel(opName, size) |
| |
| restoreStackPointerAfterCall() |
| loadi LLIntReturnPC[cfr], PC |
| end |
| |
| macro arrayProfile(offset, cellAndIndexingType, metadata, scratch) |
| const cell = cellAndIndexingType |
| const indexingType = cellAndIndexingType |
| loadi JSCell::m_structureID[cell], scratch |
| storei scratch, offset + ArrayProfile::m_lastSeenStructureID[metadata] |
| loadb JSCell::m_indexingTypeAndMisc[cell], indexingType |
| end |
| |
| macro skipIfIsRememberedOrInEden(cell, slowPath) |
| memfence |
| bba JSCell::m_cellState[cell], BlackThreshold, .done |
| slowPath() |
| .done: |
| end |
| |
| macro notifyWrite(set, slow) |
| bbneq WatchpointSet::m_state[set], IsInvalidated, slow |
| end |
| |
| macro checkSwitchToJIT(increment, action) |
| loadp CodeBlock[cfr], t0 |
| baddis increment, CodeBlock::m_llintExecuteCounter + BaselineExecutionCounter::m_counter[t0], .continue |
| action() |
| .continue: |
| end |
| |
| macro checkSwitchToJITForEpilogue() |
| checkSwitchToJIT( |
| 10, |
| macro () |
| callSlowPath(_llint_replace) |
| end) |
| end |
| |
| macro assertNotConstant(size, index) |
| size(FirstConstantRegisterIndexNarrow, FirstConstantRegisterIndexWide16, FirstConstantRegisterIndexWide32, macro (FirstConstantRegisterIndex) |
| assert(macro (ok) bilt index, FirstConstantRegisterIndex, ok end) |
| end) |
| end |
| |
| macro functionForCallCodeBlockGetter(targetRegister) |
| if JSVALUE64 |
| loadp Callee[cfr], targetRegister |
| else |
| loadp Callee + PayloadOffset[cfr], targetRegister |
| end |
| loadp JSFunction::m_executableOrRareData[targetRegister], targetRegister |
| btpz targetRegister, (constexpr JSFunction::rareDataTag), .isExecutable |
| loadp (FunctionRareData::m_executable - (constexpr JSFunction::rareDataTag))[targetRegister], targetRegister |
| .isExecutable: |
| loadp FunctionExecutable::m_codeBlockForCall[targetRegister], targetRegister |
| loadp ExecutableToCodeBlockEdge::m_codeBlock[targetRegister], targetRegister |
| end |
| |
| macro functionForConstructCodeBlockGetter(targetRegister) |
| if JSVALUE64 |
| loadp Callee[cfr], targetRegister |
| else |
| loadp Callee + PayloadOffset[cfr], targetRegister |
| end |
| loadp JSFunction::m_executableOrRareData[targetRegister], targetRegister |
| btpz targetRegister, (constexpr JSFunction::rareDataTag), .isExecutable |
| loadp (FunctionRareData::m_executable - (constexpr JSFunction::rareDataTag))[targetRegister], targetRegister |
| .isExecutable: |
| loadp FunctionExecutable::m_codeBlockForConstruct[targetRegister], targetRegister |
| loadp ExecutableToCodeBlockEdge::m_codeBlock[targetRegister], targetRegister |
| end |
| |
| macro notFunctionCodeBlockGetter(targetRegister) |
| loadp CodeBlock[cfr], targetRegister |
| end |
| |
| macro functionCodeBlockSetter(sourceRegister) |
| storep sourceRegister, CodeBlock[cfr] |
| end |
| |
| macro notFunctionCodeBlockSetter(sourceRegister) |
| # Nothing to do! |
| end |
| |
| macro convertCalleeToVM(callee) |
| btpnz callee, (constexpr PreciseAllocation::halfAlignment), .preciseAllocation |
| andp MarkedBlockMask, callee |
| loadp MarkedBlockFooterOffset + MarkedBlock::Footer::m_vm[callee], callee |
| jmp .done |
| .preciseAllocation: |
| loadp PreciseAllocationVMOffset[callee], callee |
| .done: |
| end |
| |
| # Do the bare minimum required to execute code. Sets up the PC, leave the CodeBlock* |
| # in t1. May also trigger prologue entry OSR. |
| macro prologue(codeBlockGetter, codeBlockSetter, osrSlowPath, traceSlowPath) |
| # Set up the call frame and check if we should OSR. |
| tagReturnAddress sp |
| preserveCallerPCAndCFR() |
| |
| if TRACING |
| subp maxFrameExtentForSlowPathCall, sp |
| callSlowPath(traceSlowPath) |
| addp maxFrameExtentForSlowPathCall, sp |
| end |
| codeBlockGetter(t1) |
| codeBlockSetter(t1) |
| if not (C_LOOP or C_LOOP_WIN) |
| baddis 5, CodeBlock::m_llintExecuteCounter + BaselineExecutionCounter::m_counter[t1], .continue |
| if JSVALUE64 |
| move cfr, a0 |
| move PC, a1 |
| cCall2(osrSlowPath) |
| else |
| # We are after the function prologue, but before we have set up sp from the CodeBlock. |
| # Temporarily align stack pointer for this call. |
| subp 8, sp |
| move cfr, a0 |
| move PC, a1 |
| cCall2(osrSlowPath) |
| addp 8, sp |
| end |
| btpz r0, .recover |
| move cfr, sp # restore the previous sp |
| # pop the callerFrame since we will jump to a function that wants to save it |
| if ARM64 or ARM64E |
| pop lr, cfr |
| untagReturnAddress sp |
| elsif ARMv7 or MIPS |
| pop cfr |
| pop lr |
| else |
| pop cfr |
| end |
| jmp r0, JSEntryPtrTag |
| .recover: |
| notFunctionCodeBlockGetter(t1) |
| .continue: |
| end |
| |
| preserveCalleeSavesUsedByLLInt() |
| |
| # Set up the PC. |
| loadp CodeBlock::m_instructionsRawPointer[t1], PB |
| move 0, PC |
| |
| # Get new sp in t0 and check stack height. |
| getFrameRegisterSizeForCodeBlock(t1, t0) |
| subp cfr, t0, t0 |
| bpa t0, cfr, .needStackCheck |
| loadp CodeBlock::m_vm[t1], t2 |
| if C_LOOP or C_LOOP_WIN |
| bpbeq VM::m_cloopStackLimit[t2], t0, .stackHeightOK |
| else |
| bpbeq VM::m_softStackLimit[t2], t0, .stackHeightOK |
| end |
| |
| .needStackCheck: |
| # Stack height check failed - need to call a slow_path. |
| # Set up temporary stack pointer for call including callee saves |
| subp maxFrameExtentForSlowPathCall, sp |
| callSlowPath(_llint_stack_check) |
| bpeq r1, 0, .stackHeightOKGetCodeBlock |
| |
| # 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 |
| jmp _llint_throw_from_slow_path_trampoline |
| |
| .stackHeightOKGetCodeBlock: |
| # Stack check slow path returned that the stack was ok. |
| # Since they were clobbered, need to get CodeBlock and new sp |
| notFunctionCodeBlockGetter(t1) |
| getFrameRegisterSizeForCodeBlock(t1, t0) |
| subp cfr, t0, t0 |
| |
| .stackHeightOK: |
| if X86_64 or ARM64 |
| # We need to start zeroing from sp as it has been adjusted after saving callee saves. |
| move sp, t2 |
| move t0, sp |
| .zeroStackLoop: |
| bpeq sp, t2, .zeroStackDone |
| subp PtrSize, t2 |
| storep 0, [t2] |
| jmp .zeroStackLoop |
| .zeroStackDone: |
| else |
| move t0, sp |
| end |
| |
| loadp CodeBlock::m_metadata[t1], metadataTable |
| |
| if JSVALUE64 |
| move TagNumber, numberTag |
| addq TagOther, numberTag, notCellMask |
| end |
| end |
| |
| # Expects that CodeBlock is in t1, which is what prologue() leaves behind. |
| # Must call dispatch(0) after calling this. |
| macro functionInitialization(profileArgSkip) |
| # Profile the arguments. Unfortunately, we have no choice but to do this. This |
| # code is pretty horrendous because of the difference in ordering between |
| # arguments and value profiles, the desire to have a simple loop-down-to-zero |
| # loop, and the desire to use only three registers so as to preserve the PC and |
| # the code block. It is likely that this code should be rewritten in a more |
| # optimal way for architectures that have more than five registers available |
| # for arbitrary use in the interpreter. |
| loadi CodeBlock::m_numParameters[t1], t0 |
| addp -profileArgSkip, t0 # Use addi because that's what has the peephole |
| assert(macro (ok) bpgteq t0, 0, ok end) |
| btpz t0, .argumentProfileDone |
| loadp CodeBlock::m_argumentValueProfiles + RefCountedArray::m_data[t1], t3 |
| btpz t3, .argumentProfileDone # When we can't JIT, we don't allocate any argument value profiles. |
| mulp sizeof ValueProfile, t0, t2 # Aaaaahhhh! Need strength reduction! |
| lshiftp 3, t0 # offset of last JSValue arguments on the stack. |
| addp t2, t3 # pointer to end of ValueProfile array in CodeBlock::m_argumentValueProfiles. |
| .argumentProfileLoop: |
| if JSVALUE64 |
| loadq ThisArgumentOffset - 8 + profileArgSkip * 8[cfr, t0], t2 |
| subp sizeof ValueProfile, t3 |
| storeq t2, profileArgSkip * sizeof ValueProfile + ValueProfile::m_buckets[t3] |
| else |
| loadi ThisArgumentOffset + TagOffset - 8 + profileArgSkip * 8[cfr, t0], t2 |
| subp sizeof ValueProfile, t3 |
| storei t2, profileArgSkip * sizeof ValueProfile + ValueProfile::m_buckets + TagOffset[t3] |
| loadi ThisArgumentOffset + PayloadOffset - 8 + profileArgSkip * 8[cfr, t0], t2 |
| storei t2, profileArgSkip * sizeof ValueProfile + ValueProfile::m_buckets + PayloadOffset[t3] |
| end |
| baddpnz -8, t0, .argumentProfileLoop |
| .argumentProfileDone: |
| end |
| |
| macro doReturn() |
| restoreCalleeSavesUsedByLLInt() |
| restoreCallerPCAndCFR() |
| ret |
| end |
| |
| # This break instruction is needed so that the synthesized llintPCRangeStart label |
| # doesn't point to the exact same location as vmEntryToJavaScript which comes after it. |
| # Otherwise, libunwind will report vmEntryToJavaScript as llintPCRangeStart in |
| # stack traces. |
| |
| break |
| |
| # stub to call into JavaScript or Native functions |
| # EncodedJSValue vmEntryToJavaScript(void* code, VM* vm, ProtoCallFrame* protoFrame) |
| # EncodedJSValue vmEntryToNativeFunction(void* code, VM* vm, ProtoCallFrame* protoFrame) |
| |
| if C_LOOP or C_LOOP_WIN |
| _llint_vm_entry_to_javascript: |
| else |
| global _vmEntryToJavaScript |
| _vmEntryToJavaScript: |
| end |
| doVMEntry(makeJavaScriptCall) |
| |
| |
| if C_LOOP or C_LOOP_WIN |
| _llint_vm_entry_to_native: |
| else |
| global _vmEntryToNative |
| _vmEntryToNative: |
| end |
| doVMEntry(makeHostFunctionCall) |
| |
| |
| if not (C_LOOP or C_LOOP_WIN) |
| # void sanitizeStackForVMImpl(VM* vm) |
| global _sanitizeStackForVMImpl |
| _sanitizeStackForVMImpl: |
| tagReturnAddress sp |
| # We need three non-aliased caller-save registers. We are guaranteed |
| # this for a0, a1 and a2 on all architectures. |
| if X86 or X86_WIN |
| loadp 4[sp], a0 |
| end |
| const vmOrStartSP = a0 |
| const address = a1 |
| const zeroValue = a2 |
| |
| loadp VM::m_lastStackTop[vmOrStartSP], address |
| move sp, zeroValue |
| storep zeroValue, VM::m_lastStackTop[vmOrStartSP] |
| move sp, vmOrStartSP |
| |
| bpbeq sp, address, .zeroFillDone |
| move address, sp |
| |
| move 0, zeroValue |
| .zeroFillLoop: |
| storep zeroValue, [address] |
| addp PtrSize, address |
| bpa vmOrStartSP, address, .zeroFillLoop |
| |
| .zeroFillDone: |
| move vmOrStartSP, sp |
| ret |
| |
| # VMEntryRecord* vmEntryRecord(const EntryFrame* entryFrame) |
| global _vmEntryRecord |
| _vmEntryRecord: |
| tagReturnAddress sp |
| if X86 or X86_WIN |
| loadp 4[sp], a0 |
| end |
| |
| vmEntryRecord(a0, r0) |
| ret |
| end |
| |
| if C_LOOP or C_LOOP_WIN |
| # Dummy entry point the C Loop uses to initialize. |
| _llint_entry: |
| crash() |
| else |
| macro initPCRelative(kind, pcBase) |
| if X86_64 or X86_64_WIN or X86 or X86_WIN |
| call _%kind%_relativePCBase |
| _%kind%_relativePCBase: |
| pop pcBase |
| elsif ARM64 or ARM64E |
| elsif ARMv7 |
| _%kind%_relativePCBase: |
| move pc, pcBase |
| subp 3, pcBase # Need to back up the PC and set the Thumb2 bit |
| elsif MIPS |
| la _%kind%_relativePCBase, pcBase |
| setcallreg pcBase # needed to set $t9 to the right value for the .cpload created by the label. |
| _%kind%_relativePCBase: |
| end |
| end |
| |
| # The PC base is in t3, as this is what _llint_entry leaves behind through |
| # initPCRelative(t3) |
| macro setEntryAddressCommon(kind, index, label, map) |
| if X86_64 |
| leap (label - _%kind%_relativePCBase)[t3], t4 |
| move index, t5 |
| storep t4, [map, t5, 8] |
| elsif X86_64_WIN |
| leap (label - _%kind%_relativePCBase)[t3], t4 |
| move index, t0 |
| storep t4, [map, t0, 8] |
| elsif X86 or X86_WIN |
| leap (label - _%kind%_relativePCBase)[t3], t4 |
| move index, t5 |
| storep t4, [map, t5, 4] |
| elsif ARM64 or ARM64E |
| pcrtoaddr label, t3 |
| move index, t4 |
| storep t3, [map, t4, PtrSize] |
| elsif ARMv7 |
| mvlbl (label - _%kind%_relativePCBase), t4 |
| addp t4, t3, t4 |
| move index, t5 |
| storep t4, [map, t5, 4] |
| elsif MIPS |
| la label, t4 |
| la _%kind%_relativePCBase, t3 |
| subp t3, t4 |
| addp t4, t3, t4 |
| move index, t5 |
| storep t4, [map, t5, 4] |
| end |
| end |
| |
| |
| |
| macro includeEntriesAtOffset(kind, fn) |
| macro setEntryAddress(index, label) |
| setEntryAddressCommon(kind, index, label, a0) |
| end |
| |
| macro setEntryAddressWide16(index, label) |
| setEntryAddressCommon(kind, index, label, a1) |
| end |
| |
| macro setEntryAddressWide32(index, label) |
| setEntryAddressCommon(kind, index, label, a2) |
| end |
| |
| fn() |
| end |
| |
| |
| macro entry(kind, initialize) |
| global _%kind%_entry |
| _%kind%_entry: |
| functionPrologue() |
| pushCalleeSaves() |
| if X86 or X86_WIN |
| loadp 20[sp], a0 |
| loadp 24[sp], a1 |
| loadp 28[sp], a2 |
| end |
| |
| initPCRelative(kind, t3) |
| |
| # Include generated bytecode initialization file. |
| includeEntriesAtOffset(kind, initialize) |
| popCalleeSaves() |
| functionEpilogue() |
| ret |
| end |
| |
| # Entry point for the llint to initialize. |
| entry(llint, macro() |
| include InitBytecodes |
| end) |
| |
| end // not (C_LOOP or C_LOOP_WIN) |
| |
| _llint_op_wide16: |
| nextInstructionWide16() |
| |
| _llint_op_wide32: |
| nextInstructionWide32() |
| |
| macro noWide(label) |
| _%label%_wide16: |
| crash() |
| |
| _%label%_wide32: |
| crash() |
| end |
| |
| noWide(llint_op_wide16) |
| noWide(llint_op_wide32) |
| noWide(llint_op_enter) |
| |
| op(llint_program_prologue, macro () |
| prologue(notFunctionCodeBlockGetter, notFunctionCodeBlockSetter, _llint_entry_osr, _llint_trace_prologue) |
| dispatch(0) |
| end) |
| |
| |
| op(llint_module_program_prologue, macro () |
| prologue(notFunctionCodeBlockGetter, notFunctionCodeBlockSetter, _llint_entry_osr, _llint_trace_prologue) |
| dispatch(0) |
| end) |
| |
| |
| op(llint_eval_prologue, macro () |
| prologue(notFunctionCodeBlockGetter, notFunctionCodeBlockSetter, _llint_entry_osr, _llint_trace_prologue) |
| dispatch(0) |
| end) |
| |
| |
| op(llint_function_for_call_prologue, macro () |
| prologue(functionForCallCodeBlockGetter, functionCodeBlockSetter, _llint_entry_osr_function_for_call, _llint_trace_prologue_function_for_call) |
| functionInitialization(0) |
| dispatch(0) |
| end) |
| |
| |
| op(llint_function_for_construct_prologue, macro () |
| prologue(functionForConstructCodeBlockGetter, functionCodeBlockSetter, _llint_entry_osr_function_for_construct, _llint_trace_prologue_function_for_construct) |
| functionInitialization(1) |
| dispatch(0) |
| end) |
| |
| |
| op(llint_function_for_call_arity_check, macro () |
| prologue(functionForCallCodeBlockGetter, functionCodeBlockSetter, _llint_entry_osr_function_for_call_arityCheck, _llint_trace_arityCheck_for_call) |
| functionArityCheck(.functionForCallBegin, _slow_path_call_arityCheck) |
| .functionForCallBegin: |
| functionInitialization(0) |
| dispatch(0) |
| end) |
| |
| |
| op(llint_function_for_construct_arity_check, macro () |
| prologue(functionForConstructCodeBlockGetter, functionCodeBlockSetter, _llint_entry_osr_function_for_construct_arityCheck, _llint_trace_arityCheck_for_construct) |
| functionArityCheck(.functionForConstructBegin, _slow_path_construct_arityCheck) |
| .functionForConstructBegin: |
| functionInitialization(1) |
| dispatch(0) |
| end) |
| |
| |
| # Value-representation-specific code. |
| if JSVALUE64 |
| include LowLevelInterpreter64 |
| else |
| include LowLevelInterpreter32_64 |
| end |
| |
| |
| # Value-representation-agnostic code. |
| macro slowPathOp(opcodeName) |
| llintOp(op_%opcodeName%, unused, macro (unused, unused, dispatch) |
| callSlowPath(_slow_path_%opcodeName%) |
| dispatch() |
| end) |
| end |
| |
| slowPathOp(create_cloned_arguments) |
| slowPathOp(create_arguments_butterfly) |
| slowPathOp(create_direct_arguments) |
| slowPathOp(create_lexical_environment) |
| slowPathOp(create_rest) |
| slowPathOp(create_scoped_arguments) |
| slowPathOp(create_this) |
| slowPathOp(create_promise) |
| slowPathOp(create_generator) |
| slowPathOp(create_async_generator) |
| slowPathOp(define_accessor_property) |
| slowPathOp(define_data_property) |
| slowPathOp(enumerator_generic_pname) |
| slowPathOp(enumerator_structure_pname) |
| slowPathOp(get_by_id_with_this) |
| slowPathOp(get_by_val_with_this) |
| slowPathOp(get_direct_pname) |
| slowPathOp(get_enumerable_length) |
| slowPathOp(get_property_enumerator) |
| slowPathOp(greater) |
| slowPathOp(greatereq) |
| slowPathOp(has_generic_property) |
| slowPathOp(has_indexed_property) |
| slowPathOp(has_structure_property) |
| slowPathOp(in_by_id) |
| slowPathOp(in_by_val) |
| slowPathOp(is_function) |
| slowPathOp(is_object_or_null) |
| slowPathOp(less) |
| slowPathOp(lesseq) |
| slowPathOp(mod) |
| slowPathOp(new_array_buffer) |
| slowPathOp(new_array_with_spread) |
| slowPathOp(pow) |
| slowPathOp(push_with_scope) |
| slowPathOp(put_by_id_with_this) |
| slowPathOp(put_by_val_with_this) |
| slowPathOp(resolve_scope_for_hoisting_func_decl_in_eval) |
| slowPathOp(spread) |
| slowPathOp(strcat) |
| slowPathOp(throw_static_error) |
| slowPathOp(to_index_string) |
| slowPathOp(typeof) |
| slowPathOp(unreachable) |
| slowPathOp(new_promise) |
| slowPathOp(new_generator) |
| |
| macro llintSlowPathOp(opcodeName) |
| llintOp(op_%opcodeName%, unused, macro (unused, unused, dispatch) |
| callSlowPath(_llint_slow_path_%opcodeName%) |
| dispatch() |
| end) |
| end |
| |
| llintSlowPathOp(del_by_id) |
| llintSlowPathOp(del_by_val) |
| llintSlowPathOp(instanceof) |
| llintSlowPathOp(instanceof_custom) |
| llintSlowPathOp(new_array) |
| llintSlowPathOp(new_array_with_size) |
| llintSlowPathOp(new_async_func) |
| llintSlowPathOp(new_async_func_exp) |
| llintSlowPathOp(new_async_generator_func) |
| llintSlowPathOp(new_async_generator_func_exp) |
| llintSlowPathOp(new_func) |
| llintSlowPathOp(new_func_exp) |
| llintSlowPathOp(new_generator_func) |
| llintSlowPathOp(new_generator_func_exp) |
| llintSlowPathOp(new_object) |
| llintSlowPathOp(new_regexp) |
| llintSlowPathOp(put_getter_by_id) |
| llintSlowPathOp(put_getter_by_val) |
| llintSlowPathOp(put_getter_setter_by_id) |
| llintSlowPathOp(put_setter_by_id) |
| llintSlowPathOp(put_setter_by_val) |
| llintSlowPathOp(set_function_name) |
| llintSlowPathOp(super_sampler_begin) |
| llintSlowPathOp(super_sampler_end) |
| llintSlowPathOp(throw) |
| llintSlowPathOp(try_get_by_id) |
| |
| llintOp(op_switch_string, unused, macro (unused, unused, unused) |
| callSlowPath(_llint_slow_path_switch_string) |
| nextInstruction() |
| end) |
| |
| |
| equalityComparisonOp(eq, OpEq, |
| macro (left, right, result) cieq left, right, result end) |
| |
| |
| equalityComparisonOp(neq, OpNeq, |
| macro (left, right, result) cineq left, right, result end) |
| |
| |
| compareUnsignedOp(below, OpBelow, |
| macro (left, right, result) cib left, right, result end) |
| |
| |
| compareUnsignedOp(beloweq, OpBeloweq, |
| macro (left, right, result) cibeq left, right, result end) |
| |
| |
| llintOpWithJump(op_jmp, OpJmp, macro (size, get, jump, dispatch) |
| jump(m_targetLabel) |
| end) |
| |
| |
| llintJumpTrueOrFalseOp(jtrue, OpJtrue, |
| # Misc primitive |
| macro (value, target) btinz value, 1, target end, |
| # Truthy Cell |
| macro (dispatch) end) |
| |
| |
| llintJumpTrueOrFalseOp(jfalse, OpJfalse, |
| # Misc primitive |
| macro (value, target) btiz value, 1, target end, |
| # Truthy Cell |
| macro (dispatch) dispatch() end) |
| |
| |
| compareJumpOp( |
| jless, OpJless, |
| macro (left, right, target) bilt left, right, target end, |
| macro (left, right, target) bdlt left, right, target end) |
| |
| |
| compareJumpOp( |
| jnless, OpJnless, |
| macro (left, right, target) bigteq left, right, target end, |
| macro (left, right, target) bdgtequn left, right, target end) |
| |
| |
| compareJumpOp( |
| jgreater, OpJgreater, |
| macro (left, right, target) bigt left, right, target end, |
| macro (left, right, target) bdgt left, right, target end) |
| |
| |
| compareJumpOp( |
| jngreater, OpJngreater, |
| macro (left, right, target) bilteq left, right, target end, |
| macro (left, right, target) bdltequn left, right, target end) |
| |
| |
| compareJumpOp( |
| jlesseq, OpJlesseq, |
| macro (left, right, target) bilteq left, right, target end, |
| macro (left, right, target) bdlteq left, right, target end) |
| |
| |
| compareJumpOp( |
| jnlesseq, OpJnlesseq, |
| macro (left, right, target) bigt left, right, target end, |
| macro (left, right, target) bdgtun left, right, target end) |
| |
| |
| compareJumpOp( |
| jgreatereq, OpJgreatereq, |
| macro (left, right, target) bigteq left, right, target end, |
| macro (left, right, target) bdgteq left, right, target end) |
| |
| |
| compareJumpOp( |
| jngreatereq, OpJngreatereq, |
| macro (left, right, target) bilt left, right, target end, |
| macro (left, right, target) bdltun left, right, target end) |
| |
| |
| equalityJumpOp( |
| jeq, OpJeq, |
| macro (left, right, target) bieq left, right, target end) |
| |
| |
| equalityJumpOp( |
| jneq, OpJneq, |
| macro (left, right, target) bineq left, right, target end) |
| |
| |
| compareUnsignedJumpOp( |
| jbelow, OpJbelow, |
| macro (left, right, target) bib left, right, target end) |
| |
| |
| compareUnsignedJumpOp( |
| jbeloweq, OpJbeloweq, |
| macro (left, right, target) bibeq left, right, target end) |
| |
| |
| preOp(inc, OpInc, |
| macro (value, slow) baddio 1, value, slow end) |
| |
| preOp(dec, OpDec, |
| macro (value, slow) bsubio 1, value, slow end) |
| |
| |
| llintOp(op_loop_hint, OpLoopHint, macro (unused, unused, dispatch) |
| checkSwitchToJITForLoop() |
| dispatch() |
| end) |
| |
| |
| llintOp(op_check_traps, OpCheckTraps, macro (unused, unused, dispatch) |
| loadp CodeBlock[cfr], t1 |
| loadp CodeBlock::m_vm[t1], t1 |
| loadb VM::m_traps+VMTraps::m_needTrapHandling[t1], t0 |
| btpnz t0, .handleTraps |
| .afterHandlingTraps: |
| dispatch() |
| .handleTraps: |
| callTrapHandler(.throwHandler) |
| jmp .afterHandlingTraps |
| .throwHandler: |
| jmp _llint_throw_from_slow_path_trampoline |
| end) |
| |
| |
| # Returns the packet pointer in t0. |
| macro acquireShadowChickenPacket(slow) |
| loadp CodeBlock[cfr], t1 |
| loadp CodeBlock::m_vm[t1], t1 |
| loadp VM::m_shadowChicken[t1], t2 |
| loadp ShadowChicken::m_logCursor[t2], t0 |
| bpaeq t0, ShadowChicken::m_logEnd[t2], slow |
| addp sizeof ShadowChicken::Packet, t0, t1 |
| storep t1, ShadowChicken::m_logCursor[t2] |
| end |
| |
| |
| llintOp(op_nop, OpNop, macro (unused, unused, dispatch) |
| dispatch() |
| end) |
| |
| |
| # we can't use callOp because we can't pass `call` as the opcode name, since it's an instruction name |
| commonCallOp(op_call, _llint_slow_path_call, OpCall, prepareForRegularCall, macro (getu, metadata) |
| arrayProfileForCall(OpCall, getu) |
| end) |
| |
| |
| macro callOp(opcodeName, opcodeStruct, prepareCall, fn) |
| commonCallOp(op_%opcodeName%, _llint_slow_path_%opcodeName%, opcodeStruct, prepareCall, fn) |
| end |
| |
| |
| callOp(tail_call, OpTailCall, prepareForTailCall, macro (getu, metadata) |
| arrayProfileForCall(OpTailCall, getu) |
| checkSwitchToJITForEpilogue() |
| # reload metadata since checkSwitchToJITForEpilogue() might have trashed t5 |
| metadata(t5, t0) |
| end) |
| |
| |
| callOp(construct, OpConstruct, prepareForRegularCall, macro (getu, metadata) end) |
| |
| |
| macro branchIfException(exceptionTarget) |
| loadp CodeBlock[cfr], t3 |
| loadp CodeBlock::m_vm[t3], t3 |
| btpz VM::m_exception[t3], .noException |
| jmp exceptionTarget |
| .noException: |
| end |
| |
| macro doCallVarargs(opcodeName, size, opcodeStruct, dispatch, frameSlowPath, slowPath, prepareCall) |
| callSlowPath(frameSlowPath) |
| branchIfException(_llint_throw_from_slow_path_trampoline) |
| # calleeFrame in r1 |
| if JSVALUE64 |
| move r1, sp |
| else |
| # The calleeFrame is not stack aligned, move down by CallerFrameAndPCSize to align |
| if ARMv7 |
| subp r1, CallerFrameAndPCSize, t2 |
| move t2, sp |
| else |
| subp r1, CallerFrameAndPCSize, sp |
| end |
| end |
| slowPathForCall(opcodeName, size, opcodeStruct, dispatch, slowPath, prepareCall) |
| end |
| |
| |
| llintOp(op_call_varargs, OpCallVarargs, macro (size, get, dispatch) |
| doCallVarargs(op_call_varargs, size, OpCallVarargs, dispatch, _llint_slow_path_size_frame_for_varargs, _llint_slow_path_call_varargs, prepareForRegularCall) |
| end) |
| |
| llintOp(op_tail_call_varargs, OpTailCallVarargs, macro (size, get, dispatch) |
| checkSwitchToJITForEpilogue() |
| # We lie and perform the tail call instead of preparing it since we can't |
| # prepare the frame for a call opcode |
| doCallVarargs(op_tail_call_varargs, size, OpTailCallVarargs, dispatch, _llint_slow_path_size_frame_for_varargs, _llint_slow_path_tail_call_varargs, prepareForTailCall) |
| end) |
| |
| |
| llintOp(op_tail_call_forward_arguments, OpTailCallForwardArguments, macro (size, get, dispatch) |
| checkSwitchToJITForEpilogue() |
| # We lie and perform the tail call instead of preparing it since we can't |
| # prepare the frame for a call opcode |
| doCallVarargs(op_tail_call_forward_arguments, size, OpTailCallForwardArguments, dispatch, _llint_slow_path_size_frame_for_forward_arguments, _llint_slow_path_tail_call_forward_arguments, prepareForTailCall) |
| end) |
| |
| |
| llintOp(op_construct_varargs, OpConstructVarargs, macro (size, get, dispatch) |
| doCallVarargs(op_construct_varargs, size, OpConstructVarargs, dispatch, _llint_slow_path_size_frame_for_varargs, _llint_slow_path_construct_varargs, prepareForRegularCall) |
| end) |
| |
| |
| # Eval is executed in one of two modes: |
| # |
| # 1) We find that we're really invoking eval() in which case the |
| # execution is perfomed entirely inside the slow_path, and it |
| # returns the PC of a function that just returns the return value |
| # that the eval returned. |
| # |
| # 2) We find that we're invoking something called eval() that is not |
| # the real eval. Then the slow_path returns the PC of the thing to |
| # call, and we call it. |
| # |
| # This allows us to handle two cases, which would require a total of |
| # up to four pieces of state that cannot be easily packed into two |
| # registers (C functions can return up to two registers, easily): |
| # |
| # - The call frame register. This may or may not have been modified |
| # by the slow_path, but the convention is that it returns it. It's not |
| # totally clear if that's necessary, since the cfr is callee save. |
| # But that's our style in this here interpreter so we stick with it. |
| # |
| # - A bit to say if the slow_path successfully executed the eval and has |
| # the return value, or did not execute the eval but has a PC for us |
| # to call. |
| # |
| # - Either: |
| # - The JS return value (two registers), or |
| # |
| # - The PC to call. |
| # |
| # It turns out to be easier to just always have this return the cfr |
| # and a PC to call, and that PC may be a dummy thunk that just |
| # returns the JS value that the eval returned. |
| |
| _llint_op_call_eval: |
| slowPathForCall( |
| op_call_eval_narrow, |
| narrow, |
| OpCallEval, |
| macro () dispatchOp(narrow, op_call_eval) end, |
| _llint_slow_path_call_eval, |
| prepareForRegularCall) |
| |
| _llint_op_call_eval_wide16: |
| slowPathForCall( |
| op_call_eval_wide16, |
| wide16, |
| OpCallEval, |
| macro () dispatchOp(wide16, op_call_eval) end, |
| _llint_slow_path_call_eval_wide16, |
| prepareForRegularCall) |
| |
| _llint_op_call_eval_wide32: |
| slowPathForCall( |
| op_call_eval_wide32, |
| wide32, |
| OpCallEval, |
| macro () dispatchOp(wide32, op_call_eval) end, |
| _llint_slow_path_call_eval_wide32, |
| prepareForRegularCall) |
| |
| |
| commonOp(llint_generic_return_point, macro () end, macro (size) |
| dispatchAfterCall(size, OpCallEval, macro () |
| dispatchOp(size, op_call_eval) |
| end) |
| end) |
| |
| |
| llintOp(op_identity_with_profile, OpIdentityWithProfile, macro (unused, unused, dispatch) |
| dispatch() |
| end) |
| |
| |
| llintOp(op_yield, OpYield, macro (unused, unused, unused) |
| notSupported() |
| end) |
| |
| |
| llintOp(op_create_generator_frame_environment, OpYield, macro (unused, unused, unused) |
| notSupported() |
| end) |
| |
| |
| llintOp(op_debug, OpDebug, macro (unused, unused, dispatch) |
| loadp CodeBlock[cfr], t0 |
| loadi CodeBlock::m_debuggerRequests[t0], t0 |
| btiz t0, .opDebugDone |
| callSlowPath(_llint_slow_path_debug) |
| .opDebugDone: |
| dispatch() |
| end) |
| |
| |
| op(llint_native_call_trampoline, macro () |
| nativeCallTrampoline(NativeExecutable::m_function) |
| end) |
| |
| |
| op(llint_native_construct_trampoline, macro () |
| nativeCallTrampoline(NativeExecutable::m_constructor) |
| end) |
| |
| |
| op(llint_internal_function_call_trampoline, macro () |
| internalFunctionCallTrampoline(InternalFunction::m_functionForCall) |
| end) |
| |
| |
| op(llint_internal_function_construct_trampoline, macro () |
| internalFunctionCallTrampoline(InternalFunction::m_functionForConstruct) |
| end) |
| |
| |
| op(checkpoint_osr_exit_from_inlined_call_trampoline, macro () |
| if (JSVALUE64 and not (C_LOOP or C_LOOP_WIN)) or ARMv7 or MIPS |
| restoreStackPointerAfterCall() |
| |
| # Make sure we move r0 to a1 first since r0 might be the same as a0, for instance, on arm. |
| if ARMv7 or MIPS |
| # Given _slow_path_checkpoint_osr_exit_from_inlined_call has |
| # parameters as CallFrame* and EncodedJSValue, |
| # we need to store call result on a2, a3 and call frame on a0, |
| # leaving a1 as dummy value. |
| move r1, a3 |
| move r0, a2 |
| move cfr, a0 |
| # We don't call saveStateForCCall() because we are going to use the bytecodeIndex from our side state. |
| cCall4(_slow_path_checkpoint_osr_exit_from_inlined_call) |
| else |
| move r0, a1 |
| move cfr, a0 |
| # We don't call saveStateForCCall() because we are going to use the bytecodeIndex from our side state. |
| cCall2(_slow_path_checkpoint_osr_exit_from_inlined_call) |
| end |
| |
| restoreStateAfterCCall() |
| branchIfException(_llint_throw_from_slow_path_trampoline) |
| jmp r1, JSEntryPtrTag |
| else |
| notSupported() |
| end |
| end) |
| |
| op(checkpoint_osr_exit_trampoline, macro () |
| # FIXME: We can probably dispatch to the checkpoint handler directly but this was easier |
| # and probably doesn't matter for performance. |
| if (JSVALUE64 and not (C_LOOP or C_LOOP_WIN)) or ARMv7 or MIPS |
| restoreStackPointerAfterCall() |
| |
| move cfr, a0 |
| # We don't call saveStateForCCall() because we are going to use the bytecodeIndex from our side state. |
| cCall2(_slow_path_checkpoint_osr_exit) |
| restoreStateAfterCCall() |
| branchIfException(_llint_throw_from_slow_path_trampoline) |
| jmp r1, JSEntryPtrTag |
| else |
| notSupported() |
| end |
| end) |
| |
| # Lastly, make sure that we can link even though we don't support all opcodes. |
| # These opcodes should never arise when using LLInt or either JIT. We assert |
| # as much. |
| |
| macro notSupported() |
| if ASSERT_ENABLED |
| crash() |
| else |
| # We should use whatever the smallest possible instruction is, just to |
| # ensure that there is a gap between instruction labels. If multiple |
| # smallest instructions exist, we should pick the one that is most |
| # likely result in execution being halted. Currently that is the break |
| # instruction on all architectures we're interested in. (Break is int3 |
| # on Intel, which is 1 byte, and bkpt on ARMv7, which is 2 bytes.) |
| break |
| end |
| end |
| |
| // FIXME: We should not need the X86_64_WIN condition here, since WEBASSEMBLY should already be false on Windows |
| // https://bugs.webkit.org/show_bug.cgi?id=203716 |
| if WEBASSEMBLY and not X86_64_WIN |
| |
| entry(wasm, macro() |
| include InitWasm |
| end) |
| |
| macro wasmScope() |
| # Wrap the script in a macro since it overwrites some of the LLInt macros, |
| # but we don't want to interfere with the LLInt opcodes |
| include WebAssembly |
| end |
| wasmScope() |
| |
| else |
| |
| # These need to be defined even when WebAssembly is disabled |
| op(wasm_function_prologue, macro () |
| crash() |
| end) |
| |
| op(wasm_function_prologue_no_tls, macro () |
| crash() |
| end) |
| |
| end |