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|
; Licensed to the .NET Foundation under one or more agreements.
; The .NET Foundation licenses this file to you under the MIT license.
; See the LICENSE file in the project root for more information.
;; ==++==
;;
;;
;; ==--==
#include "ksarm64.h"
#include "asmconstants.h"
#include "asmmacros.h"
#ifdef FEATURE_PREJIT
IMPORT VirtualMethodFixupWorker
IMPORT StubDispatchFixupWorker
#endif
IMPORT ExternalMethodFixupWorker
IMPORT PreStubWorker
IMPORT NDirectImportWorker
IMPORT VSD_ResolveWorker
IMPORT JIT_InternalThrow
IMPORT ComPreStubWorker
IMPORT COMToCLRWorker
IMPORT CallDescrWorkerUnwindFrameChainHandler
IMPORT UMEntryPrestubUnwindFrameChainHandler
IMPORT UMThunkStubUnwindFrameChainHandler
IMPORT TheUMEntryPrestubWorker
IMPORT CreateThreadBlockThrow
IMPORT UMThunkStubRareDisableWorker
IMPORT GetCurrentSavedRedirectContext
IMPORT LinkFrameAndThrow
IMPORT FixContextHandler
IMPORT OnHijackWorker
#ifdef FEATURE_READYTORUN
IMPORT DynamicHelperWorker
#endif
IMPORT ObjIsInstanceOfNoGC
IMPORT ArrayStoreCheck
SETALIAS g_pObjectClass, ?g_pObjectClass@@3PEAVMethodTable@@EA
IMPORT $g_pObjectClass
#ifdef FEATURE_USE_SOFTWARE_WRITE_WATCH_FOR_GC_HEAP
IMPORT g_sw_ww_table
#endif
IMPORT g_ephemeral_low
IMPORT g_ephemeral_high
IMPORT g_lowest_address
IMPORT g_highest_address
IMPORT g_card_table
IMPORT g_TrapReturningThreads
IMPORT g_dispatch_cache_chain_success_counter
#ifdef WRITE_BARRIER_CHECK
SETALIAS g_GCShadow, ?g_GCShadow@@3PEAEEA
SETALIAS g_GCShadowEnd, ?g_GCShadowEnd@@3PEAEEA
IMPORT g_lowest_address
IMPORT $g_GCShadow
IMPORT $g_GCShadowEnd
#endif // WRITE_BARRIER_CHECK
IMPORT JIT_GetSharedNonGCStaticBase_Helper
IMPORT JIT_GetSharedGCStaticBase_Helper
#ifdef FEATURE_COMINTEROP
IMPORT CLRToCOMWorker
#endif // FEATURE_COMINTEROP
TEXTAREA
;; LPVOID __stdcall GetCurrentIP(void);
LEAF_ENTRY GetCurrentIP
mov x0, lr
ret lr
LEAF_END
;; LPVOID __stdcall GetCurrentSP(void);
LEAF_ENTRY GetCurrentSP
mov x0, sp
ret lr
LEAF_END
;;-----------------------------------------------------------------------------
;; This routine captures the machine state. It is used by helper method frame
;;-----------------------------------------------------------------------------
;;void LazyMachStateCaptureState(struct LazyMachState *pState);
LEAF_ENTRY LazyMachStateCaptureState
;; marks that this is not yet valid
mov w1, #0
str w1, [x0, #MachState__isValid]
str lr, [x0, #LazyMachState_captureIp]
;; str instruction does not save sp register directly so move to temp register
mov x1, sp
str x1, [x0, #LazyMachState_captureSp]
;; save non-volatile registers that can contain object references
add x1, x0, #LazyMachState_captureX19_X29
stp x19, x20, [x1, #(16*0)]
stp x21, x22, [x1, #(16*1)]
stp x23, x24, [x1, #(16*2)]
stp x25, x26, [x1, #(16*3)]
stp x27, x28, [x1, #(16*4)]
str x29, [x1, #(16*5)]
ret lr
LEAF_END
;
; If a preserved register were pushed onto the stack between
; the managed caller and the H_M_F, ptrX19_X29 will point to its
; location on the stack and it would have been updated on the
; stack by the GC already and it will be popped back into the
; appropriate register when the appropriate epilog is run.
;
; Otherwise, the register is preserved across all the code
; in this HCALL or FCALL, so we need to update those registers
; here because the GC will have updated our copies in the
; frame.
;
; So, if ptrX19_X29 points into the MachState, we need to update
; the register here. That's what this macro does.
;
MACRO
RestoreRegMS $regIndex, $reg
; Incoming:
;
; x0 = address of MachState
;
; $regIndex: Index of the register (x19-x29). For x19, index is 19.
; For x20, index is 20, and so on.
;
; $reg: Register name (e.g. x19, x20, etc)
;
; Get the address of the specified captured register from machine state
add x2, x0, #(MachState__captureX19_X29 + (($regIndex-19)*8))
; Get the content of specified preserved register pointer from machine state
ldr x3, [x0, #(MachState__ptrX19_X29 + (($regIndex-19)*8))]
cmp x2, x3
bne %FT0
ldr $reg, [x2]
0
MEND
; EXTERN_C int __fastcall HelperMethodFrameRestoreState(
; INDEBUG_COMMA(HelperMethodFrame *pFrame)
; MachState *pState
; )
LEAF_ENTRY HelperMethodFrameRestoreState
#ifdef _DEBUG
mov x0, x1
#endif
; If machine state is invalid, then simply exit
ldr w1, [x0, #MachState__isValid]
cmp w1, #0
beq Done
RestoreRegMS 19, X19
RestoreRegMS 20, X20
RestoreRegMS 21, X21
RestoreRegMS 22, X22
RestoreRegMS 23, X23
RestoreRegMS 24, X24
RestoreRegMS 25, X25
RestoreRegMS 26, X26
RestoreRegMS 27, X27
RestoreRegMS 28, X28
RestoreRegMS 29, X29
Done
; Its imperative that the return value of HelperMethodFrameRestoreState is zero
; as it is used in the state machine to loop until it becomes zero.
; Refer to HELPER_METHOD_FRAME_END macro for details.
mov x0,#0
ret lr
LEAF_END
; ------------------------------------------------------------------
; The call in ndirect import precode points to this function.
NESTED_ENTRY NDirectImportThunk
PROLOG_SAVE_REG_PAIR fp, lr, #-224!
SAVE_ARGUMENT_REGISTERS sp, 16
SAVE_FLOAT_ARGUMENT_REGISTERS sp, 96
mov x0, x12
bl NDirectImportWorker
mov x12, x0
; pop the stack and restore original register state
RESTORE_FLOAT_ARGUMENT_REGISTERS sp, 96
RESTORE_ARGUMENT_REGISTERS sp, 16
EPILOG_RESTORE_REG_PAIR fp, lr, #224!
; If we got back from NDirectImportWorker, the MD has been successfully
; linked. Proceed to execute the original DLL call.
EPILOG_BRANCH_REG x12
NESTED_END
; ------------------------------------------------------------------
; The call in fixup precode initally points to this function.
; The pupose of this function is to load the MethodDesc and forward the call to prestub.
NESTED_ENTRY PrecodeFixupThunk
; x12 = FixupPrecode *
; On Exit
; x12 = MethodDesc*
; x13, x14 Trashed
; Inline computation done by FixupPrecode::GetMethodDesc()
ldrb w13, [x12, #Offset_PrecodeChunkIndex] ; m_PrecodeChunkIndex
ldrb w14, [x12, #Offset_MethodDescChunkIndex] ; m_MethodDescChunkIndex
add x12,x12,w13,uxtw #FixupPrecode_ALIGNMENT_SHIFT_1
add x13,x12,w13,uxtw #FixupPrecode_ALIGNMENT_SHIFT_2
ldr x13, [x13,#SIZEOF__FixupPrecode]
add x12,x13,w14,uxtw #MethodDesc_ALIGNMENT_SHIFT
b ThePreStub
NESTED_END
; ------------------------------------------------------------------
NESTED_ENTRY ThePreStub
PROLOG_WITH_TRANSITION_BLOCK
add x0, sp, #__PWTB_TransitionBlock ; pTransitionBlock
mov x1, METHODDESC_REGISTER ; pMethodDesc
bl PreStubWorker
mov x9, x0
EPILOG_WITH_TRANSITION_BLOCK_TAILCALL
EPILOG_BRANCH_REG x9
NESTED_END
;; ------------------------------------------------------------------
;; ThePreStubPatch()
LEAF_ENTRY ThePreStubPatch
nop
ThePreStubPatchLabel
EXPORT ThePreStubPatchLabel
ret lr
LEAF_END
;-----------------------------------------------------------------------------
; The following Macros help in WRITE_BARRIER Implemetations
; WRITE_BARRIER_ENTRY
;
; Declare the start of a write barrier function. Use similarly to NESTED_ENTRY. This is the only legal way
; to declare a write barrier function.
;
MACRO
WRITE_BARRIER_ENTRY $name
LEAF_ENTRY $name
MEND
; WRITE_BARRIER_END
;
; The partner to WRITE_BARRIER_ENTRY, used like NESTED_END.
;
MACRO
WRITE_BARRIER_END $__write_barrier_name
LEAF_END_MARKED $__write_barrier_name
MEND
; ------------------------------------------------------------------
; Start of the writeable code region
LEAF_ENTRY JIT_PatchedCodeStart
ret lr
LEAF_END
;-----------------------------------------------------------------------------
; void JIT_UpdateWriteBarrierState(bool skipEphemeralCheck)
;
; Update shadow copies of the various state info required for barrier
;
; State info is contained in a literal pool at the end of the function
; Placed in text section so that it is close enough to use ldr literal and still
; be relocatable. Eliminates need for PREPARE_EXTERNAL_VAR in hot code.
;
; Align and group state info together so it fits in a single cache line
; and each entry can be written atomically
;
WRITE_BARRIER_ENTRY JIT_UpdateWriteBarrierState
PROLOG_SAVE_REG_PAIR fp, lr, #-16!
; x0-x7 will contain intended new state
; x8 will preserve skipEphemeralCheck
; x12 will be used for pointers
mov x8, x0
adrp x12, g_card_table
ldr x0, [x12, g_card_table]
#ifdef FEATURE_MANUALLY_MANAGED_CARD_BUNDLES
adrp x12, g_card_bundle_table
ldr x1, [x12, g_card_bundle_table]
#endif
#ifdef WRITE_BARRIER_CHECK
adrp x12, $g_GCShadow
ldr x2, [x12, $g_GCShadow]
#endif
#ifdef FEATURE_USE_SOFTWARE_WRITE_WATCH_FOR_GC_HEAP
adrp x12, g_sw_ww_table
ldr x3, [x12, g_sw_ww_table]
#endif
adrp x12, g_ephemeral_low
ldr x4, [x12, g_ephemeral_low]
adrp x12, g_ephemeral_high
ldr x5, [x12, g_ephemeral_high]
; Check skipEphemeralCheck
cbz x8, EphemeralCheckEnabled
movz x4, #0
movn x5, #0
EphemeralCheckEnabled
adrp x12, g_lowest_address
ldr x6, [x12, g_lowest_address]
adrp x12, g_highest_address
ldr x7, [x12, g_highest_address]
; Update wbs state
adr x12, wbs_begin
stp x0, x1, [x12], 16
stp x2, x3, [x12], 16
stp x4, x5, [x12], 16
stp x6, x7, [x12], 16
EPILOG_RESTORE_REG_PAIR fp, lr, #16!
EPILOG_RETURN
; Begin patchable literal pool
ALIGN 64 ; Align to power of two at least as big as patchable literal pool so that it fits optimally in cache line
wbs_begin
wbs_card_table
DCQ 0
wbs_card_bundle_table
DCQ 0
wbs_GCShadow
DCQ 0
wbs_sw_ww_table
DCQ 0
wbs_ephemeral_low
DCQ 0
wbs_ephemeral_high
DCQ 0
wbs_lowest_address
DCQ 0
wbs_highest_address
DCQ 0
WRITE_BARRIER_END JIT_UpdateWriteBarrierState
; ------------------------------------------------------------------
; End of the writeable code region
LEAF_ENTRY JIT_PatchedCodeLast
ret lr
LEAF_END
; void JIT_ByRefWriteBarrier
; On entry:
; x13 : the source address (points to object reference to write)
; x14 : the destination address (object reference written here)
;
; On exit:
; x12 : trashed
; x13 : incremented by 8
; x14 : incremented by 8
; x15 : trashed
; x17 : trashed (ip1) if FEATURE_USE_SOFTWARE_WRITE_WATCH_FOR_GC_HEAP
;
WRITE_BARRIER_ENTRY JIT_ByRefWriteBarrier
ldr x15, [x13], 8
b JIT_CheckedWriteBarrier
WRITE_BARRIER_END JIT_ByRefWriteBarrier
;-----------------------------------------------------------------------------
; Simple WriteBarriers
; void JIT_CheckedWriteBarrier(Object** dst, Object* src)
; On entry:
; x14 : the destination address (LHS of the assignment)
; x15 : the object reference (RHS of the assignment)
;
; On exit:
; x12 : trashed
; x14 : incremented by 8
; x15 : trashed
; x17 : trashed (ip1) if FEATURE_USE_SOFTWARE_WRITE_WATCH_FOR_GC_HEAP
;
WRITE_BARRIER_ENTRY JIT_CheckedWriteBarrier
ldr x12, wbs_lowest_address
cmp x14, x12
ldr x12, wbs_highest_address
ccmphs x14, x12, #0x2
blo JIT_WriteBarrier
NotInHeap
str x15, [x14], 8
ret lr
WRITE_BARRIER_END JIT_CheckedWriteBarrier
; void JIT_WriteBarrier(Object** dst, Object* src)
; On entry:
; x14 : the destination address (LHS of the assignment)
; x15 : the object reference (RHS of the assignment)
;
; On exit:
; x12 : trashed
; x14 : incremented by 8
; x15 : trashed
; x17 : trashed (ip1) if FEATURE_USE_SOFTWARE_WRITE_WATCH_FOR_GC_HEAP
;
WRITE_BARRIER_ENTRY JIT_WriteBarrier
stlr x15, [x14]
#ifdef WRITE_BARRIER_CHECK
; Update GC Shadow Heap
; Do not perform the work if g_GCShadow is 0
ldr x12, wbs_GCShadow
cbz x12, ShadowUpdateDisabled
; need temporary register. Save before using.
str x13, [sp, #-16]!
; Compute address of shadow heap location:
; pShadow = $g_GCShadow + (x14 - g_lowest_address)
ldr x13, wbs_lowest_address
sub x13, x14, x13
add x12, x13, x12
; if (pShadow >= $g_GCShadowEnd) goto end
adrp x13, $g_GCShadowEnd
ldr x13, [x13, $g_GCShadowEnd]
cmp x12, x13
bhs ShadowUpdateEnd
; *pShadow = x15
str x15, [x12]
; Ensure that the write to the shadow heap occurs before the read from the GC heap so that race
; conditions are caught by INVALIDGCVALUE.
dmb ish
; if ([x14] == x15) goto end
ldr x13, [x14]
cmp x13, x15
beq ShadowUpdateEnd
; *pShadow = INVALIDGCVALUE (0xcccccccd)
movz x13, #0xcccd
movk x13, #0xcccc, LSL #16
str x13, [x12]
ShadowUpdateEnd
ldr x13, [sp], #16
ShadowUpdateDisabled
#endif
#ifdef FEATURE_USE_SOFTWARE_WRITE_WATCH_FOR_GC_HEAP
; Update the write watch table if necessary
ldr x12, wbs_sw_ww_table
cbz x12, CheckCardTable
add x12, x12, x14, LSR #0xC // SoftwareWriteWatch::AddressToTableByteIndexShift
ldrb w17, [x12]
cbnz x17, CheckCardTable
mov w17, 0xFF
strb w17, [x12]
#endif
CheckCardTable
; Branch to Exit if the reference is not in the Gen0 heap
;
adr x12, wbs_ephemeral_low
ldp x12, x16, [x12]
cbz x12, SkipEphemeralCheck
cmp x15, x12
blo Exit
cmp x15, x16
bhi Exit
SkipEphemeralCheck
; Check if we need to update the card table
ldr x12, wbs_card_table
; x15 := offset within card table
lsr x15, x14, #11
ldrb w16, [x12, x15]
cmp w16, 0xFF
beq Exit
UpdateCardTable
mov x16, 0xFF
strb w16, [x12, x15]
#ifdef FEATURE_MANUALLY_MANAGED_CARD_BUNDLES
#error Need to implement for ARM64
#endif
Exit
add x14, x14, 8
ret lr
WRITE_BARRIER_END JIT_WriteBarrier
#ifdef FEATURE_PREJIT
;------------------------------------------------
; VirtualMethodFixupStub
;
; In NGEN images, virtual slots inherited from cross-module dependencies
; point to a jump thunk that calls into the following function that will
; call into a VM helper. The VM helper is responsible for patching up
; thunk, upon executing the precode, so that all subsequent calls go directly
; to the actual method body.
;
; This is done lazily for performance reasons.
;
; On entry:
;
; x0 = "this" pointer
; x12 = Address of thunk
NESTED_ENTRY VirtualMethodFixupStub
; Save arguments and return address
PROLOG_SAVE_REG_PAIR fp, lr, #-224!
SAVE_ARGUMENT_REGISTERS sp, 16
SAVE_FLOAT_ARGUMENT_REGISTERS sp, 96
; Refer to ZapImportVirtualThunk::Save
; for details on this.
;
; Move the thunk start address in x1
mov x1, x12
; Call the helper in the VM to perform the actual fixup
; and tell us where to tail call. x0 already contains
; the this pointer.
bl VirtualMethodFixupWorker
; On return, x0 contains the target to tailcall to
mov x12, x0
; pop the stack and restore original register state
RESTORE_ARGUMENT_REGISTERS sp, 16
RESTORE_FLOAT_ARGUMENT_REGISTERS sp, 96
EPILOG_RESTORE_REG_PAIR fp, lr, #224!
PATCH_LABEL VirtualMethodFixupPatchLabel
; and tailcall to the actual method
EPILOG_BRANCH_REG x12
NESTED_END
#endif // FEATURE_PREJIT
;------------------------------------------------
; ExternalMethodFixupStub
;
; In NGEN images, calls to cross-module external methods initially
; point to a jump thunk that calls into the following function that will
; call into a VM helper. The VM helper is responsible for patching up the
; thunk, upon executing the precode, so that all subsequent calls go directly
; to the actual method body.
;
; This is done lazily for performance reasons.
;
; On entry:
;
; x12 = Address of thunk
NESTED_ENTRY ExternalMethodFixupStub
PROLOG_WITH_TRANSITION_BLOCK
add x0, sp, #__PWTB_TransitionBlock ; pTransitionBlock
mov x1, x12 ; pThunk
bl ExternalMethodFixupWorker
; mov the address we patched to in x12 so that we can tail call to it
mov x12, x0
EPILOG_WITH_TRANSITION_BLOCK_TAILCALL
PATCH_LABEL ExternalMethodFixupPatchLabel
EPILOG_BRANCH_REG x12
NESTED_END
; void SinglecastDelegateInvokeStub(Delegate *pThis)
LEAF_ENTRY SinglecastDelegateInvokeStub
cmp x0, #0
beq LNullThis
ldr x16, [x0, #DelegateObject___methodPtr]
ldr x0, [x0, #DelegateObject___target]
br x16
LNullThis
mov x0, #CORINFO_NullReferenceException_ASM
b JIT_InternalThrow
LEAF_END
#ifdef FEATURE_COMINTEROP
; ------------------------------------------------------------------
; setStubReturnValue
; w0 - size of floating point return value (MetaSig::GetFPReturnSize())
; x1 - pointer to the return buffer in the stub frame
LEAF_ENTRY setStubReturnValue
cbz w0, NoFloatingPointRetVal
;; Float return case
cmp x0, #4
bne LNoFloatRetVal
ldr s0, [x1]
ret
LNoFloatRetVal
;; Double return case
cmp w0, #8
bne LNoDoubleRetVal
ldr d0, [x1]
ret
LNoDoubleRetVal
;; Float HFA return case
cmp w0, #16
bne LNoFloatHFARetVal
ldp s0, s1, [x1]
ldp s2, s3, [x1, #8]
ret
LNoFloatHFARetVal
;;Double HFA return case
cmp w0, #32
bne LNoDoubleHFARetVal
ldp d0, d1, [x1]
ldp d2, d3, [x1, #16]
ret
LNoDoubleHFARetVal
;;Vector HVA return case
cmp w3, #64
bne LNoVectorHVARetVal
ldp q0, q1, [x1]
ldp q2, q3, [x1, #32]
ret
LNoVectorHVARetVal
EMIT_BREAKPOINT ; Unreachable
NoFloatingPointRetVal
;; Restore the return value from retbuf
ldr x0, [x1]
ldr x1, [x1, #8]
ret
LEAF_END
; ------------------------------------------------------------------
; GenericComPlusCallStub that erects a ComPlusMethodFrame and calls into the runtime
; (CLRToCOMWorker) to dispatch rare cases of the interface call.
;
; On entry:
; x0 : 'this' object
; x12 : Interface MethodDesc*
; plus user arguments in registers and on the stack
;
; On exit:
; x0/x1/s0-s3/d0-d3 set to return value of the call as appropriate
;
NESTED_ENTRY GenericComPlusCallStub
PROLOG_WITH_TRANSITION_BLOCK ASM_ENREGISTERED_RETURNTYPE_MAXSIZE
add x0, sp, #__PWTB_TransitionBlock ; pTransitionBlock
mov x1, x12 ; pMethodDesc
; Call CLRToCOMWorker(TransitionBlock *, ComPlusCallMethodDesc *).
; This call will set up the rest of the frame (including the vfptr, the GS cookie and
; linking to the thread), make the client call and return with correct registers set
; (x0/x1/s0-s3/d0-d3 as appropriate).
bl CLRToCOMWorker
; x0 = fpRetSize
; The return value is stored before float argument registers
add x1, sp, #(__PWTB_FloatArgumentRegisters - ASM_ENREGISTERED_RETURNTYPE_MAXSIZE)
bl setStubReturnValue
EPILOG_WITH_TRANSITION_BLOCK_RETURN
NESTED_END
; ------------------------------------------------------------------
; COM to CLR stub called the first time a particular method is invoked.
;
; On entry:
; x12 : ComCallMethodDesc* provided by prepad thunk
; plus user arguments in registers and on the stack
;
; On exit:
; tail calls to real method
;
NESTED_ENTRY ComCallPreStub
GBLA ComCallPreStub_FrameSize
GBLA ComCallPreStub_StackAlloc
GBLA ComCallPreStub_FrameOffset
GBLA ComCallPreStub_ErrorReturnOffset
GBLA ComCallPreStub_FirstStackAdjust
ComCallPreStub_FrameSize SETA (SIZEOF__GSCookie + SIZEOF__ComMethodFrame)
ComCallPreStub_FirstStackAdjust SETA (8 + SIZEOF__ArgumentRegisters + 2 * 8) ; x8, reg args , fp & lr already pushed
ComCallPreStub_StackAlloc SETA ComCallPreStub_FrameSize - ComCallPreStub_FirstStackAdjust
ComCallPreStub_StackAlloc SETA ComCallPreStub_StackAlloc + SIZEOF__FloatArgumentRegisters + 8; 8 for ErrorReturn
IF ComCallPreStub_StackAlloc:MOD:16 != 0
ComCallPreStub_StackAlloc SETA ComCallPreStub_StackAlloc + 8
ENDIF
ComCallPreStub_FrameOffset SETA (ComCallPreStub_StackAlloc - (SIZEOF__ComMethodFrame - ComCallPreStub_FirstStackAdjust))
ComCallPreStub_ErrorReturnOffset SETA SIZEOF__FloatArgumentRegisters
IF (ComCallPreStub_FirstStackAdjust):MOD:16 != 0
ComCallPreStub_FirstStackAdjust SETA ComCallPreStub_FirstStackAdjust + 8
ENDIF
; Save arguments and return address
PROLOG_SAVE_REG_PAIR fp, lr, #-ComCallPreStub_FirstStackAdjust!
PROLOG_STACK_ALLOC ComCallPreStub_StackAlloc
SAVE_ARGUMENT_REGISTERS sp, (16+ComCallPreStub_StackAlloc)
SAVE_FLOAT_ARGUMENT_REGISTERS sp, 0
str x12, [sp, #(ComCallPreStub_FrameOffset + UnmanagedToManagedFrame__m_pvDatum)]
add x0, sp, #(ComCallPreStub_FrameOffset)
add x1, sp, #(ComCallPreStub_ErrorReturnOffset)
bl ComPreStubWorker
cbz x0, ComCallPreStub_ErrorExit
mov x12, x0
; pop the stack and restore original register state
RESTORE_FLOAT_ARGUMENT_REGISTERS sp, 0
RESTORE_ARGUMENT_REGISTERS sp, (16+ComCallPreStub_StackAlloc)
EPILOG_STACK_FREE ComCallPreStub_StackAlloc
EPILOG_RESTORE_REG_PAIR fp, lr, #ComCallPreStub_FirstStackAdjust!
; and tailcall to the actual method
EPILOG_BRANCH_REG x12
ComCallPreStub_ErrorExit
ldr x0, [sp, #(ComCallPreStub_ErrorReturnOffset)] ; ErrorReturn
; pop the stack
EPILOG_STACK_FREE ComCallPreStub_StackAlloc
EPILOG_RESTORE_REG_PAIR fp, lr, #ComCallPreStub_FirstStackAdjust!
EPILOG_RETURN
NESTED_END
; ------------------------------------------------------------------
; COM to CLR stub which sets up a ComMethodFrame and calls COMToCLRWorker.
;
; On entry:
; x12 : ComCallMethodDesc* provided by prepad thunk
; plus user arguments in registers and on the stack
;
; On exit:
; Result in x0/d0 as per the real method being called
;
NESTED_ENTRY GenericComCallStub
GBLA GenericComCallStub_FrameSize
GBLA GenericComCallStub_StackAlloc
GBLA GenericComCallStub_FrameOffset
GBLA GenericComCallStub_FirstStackAdjust
GenericComCallStub_FrameSize SETA (SIZEOF__GSCookie + SIZEOF__ComMethodFrame)
GenericComCallStub_FirstStackAdjust SETA (8 + SIZEOF__ArgumentRegisters + 2 * 8)
GenericComCallStub_StackAlloc SETA GenericComCallStub_FrameSize - GenericComCallStub_FirstStackAdjust
GenericComCallStub_StackAlloc SETA GenericComCallStub_StackAlloc + SIZEOF__FloatArgumentRegisters
IF (GenericComCallStub_StackAlloc):MOD:16 != 0
GenericComCallStub_StackAlloc SETA GenericComCallStub_StackAlloc + 8
ENDIF
GenericComCallStub_FrameOffset SETA (GenericComCallStub_StackAlloc - (SIZEOF__ComMethodFrame - GenericComCallStub_FirstStackAdjust))
IF (GenericComCallStub_FirstStackAdjust):MOD:16 != 0
GenericComCallStub_FirstStackAdjust SETA GenericComCallStub_FirstStackAdjust + 8
ENDIF
; Save arguments and return address
PROLOG_SAVE_REG_PAIR fp, lr, #-GenericComCallStub_FirstStackAdjust!
PROLOG_STACK_ALLOC GenericComCallStub_StackAlloc
SAVE_ARGUMENT_REGISTERS sp, (16+GenericComCallStub_StackAlloc)
SAVE_FLOAT_ARGUMENT_REGISTERS sp, 0
str x12, [sp, #(GenericComCallStub_FrameOffset + UnmanagedToManagedFrame__m_pvDatum)]
add x1, sp, #GenericComCallStub_FrameOffset
bl COMToCLRWorker
; pop the stack
EPILOG_STACK_FREE GenericComCallStub_StackAlloc
EPILOG_RESTORE_REG_PAIR fp, lr, #GenericComCallStub_FirstStackAdjust!
EPILOG_RETURN
NESTED_END
; ------------------------------------------------------------------
; COM to CLR stub called from COMToCLRWorker that actually dispatches to the real managed method.
;
; On entry:
; x0 : dwStackSlots, count of argument stack slots to copy
; x1 : pFrame, ComMethodFrame pushed by GenericComCallStub above
; x2 : pTarget, address of code to call
; x3 : pSecretArg, hidden argument passed to target above in x12
; x4 : pDangerousThis, managed 'this' reference
;
; On exit:
; Result in x0/d0 as per the real method being called
;
NESTED_ENTRY COMToCLRDispatchHelper,,CallDescrWorkerUnwindFrameChainHandler
PROLOG_SAVE_REG_PAIR fp, lr, #-16!
cbz x0, COMToCLRDispatchHelper_RegSetup
add x9, x1, #SIZEOF__ComMethodFrame
; Compute number of 8 bytes slots to copy. This is done by rounding up the
; dwStackSlots value to the nearest even value
add x0, x0, #1
bic x0, x0, #1
; Compute how many slots to adjust the address to copy from. Since we
; are copying 16 bytes at a time, adjust by -1 from the rounded value
sub x6, x0, #1
add x9, x9, x6, LSL #3
COMToCLRDispatchHelper_StackLoop
ldp x7, x8, [x9], #-16 ; post-index
stp x7, x8, [sp, #-16]! ; pre-index
subs x0, x0, #2
bne COMToCLRDispatchHelper_StackLoop
COMToCLRDispatchHelper_RegSetup
; We need an aligned offset for restoring float args, so do the subtraction into
; a scratch register
sub x5, x1, GenericComCallStub_FrameOffset
RESTORE_FLOAT_ARGUMENT_REGISTERS x5, 0
mov lr, x2
mov x12, x3
mov x0, x4
ldp x2, x3, [x1, #(SIZEOF__ComMethodFrame - SIZEOF__ArgumentRegisters + 16)]
ldp x4, x5, [x1, #(SIZEOF__ComMethodFrame - SIZEOF__ArgumentRegisters + 32)]
ldp x6, x7, [x1, #(SIZEOF__ComMethodFrame - SIZEOF__ArgumentRegisters + 48)]
ldr x8, [x1, #(SIZEOF__ComMethodFrame - SIZEOF__ArgumentRegisters - 8)]
ldr x1, [x1, #(SIZEOF__ComMethodFrame - SIZEOF__ArgumentRegisters + 8)]
blr lr
EPILOG_STACK_RESTORE
EPILOG_RESTORE_REG_PAIR fp, lr, #16!
EPILOG_RETURN
NESTED_END
#endif ; FEATURE_COMINTEROP
;
; x12 = UMEntryThunk*
;
NESTED_ENTRY TheUMEntryPrestub,,UMEntryPrestubUnwindFrameChainHandler
; Save arguments and return address
PROLOG_SAVE_REG_PAIR fp, lr, #-224!
SAVE_ARGUMENT_REGISTERS sp, 16
SAVE_FLOAT_ARGUMENT_REGISTERS sp, 96
mov x0, x12
bl TheUMEntryPrestubWorker
; save real target address in x12.
mov x12, x0
; pop the stack and restore original register state
RESTORE_ARGUMENT_REGISTERS sp, 16
RESTORE_FLOAT_ARGUMENT_REGISTERS sp, 96
EPILOG_RESTORE_REG_PAIR fp, lr, #224!
; and tailcall to the actual method
EPILOG_BRANCH_REG x12
NESTED_END
;
; x12 = UMEntryThunk*
;
NESTED_ENTRY UMThunkStub,,UMThunkStubUnwindFrameChainHandler
; Save arguments and return address
PROLOG_SAVE_REG_PAIR fp, lr, #-112! ; 72 for regArgs, 8 for x19 & 8 for x12 & 8 for 16-byte align
; save callee saved reg x19. x19 is used in the method to store thread*
PROLOG_SAVE_REG x19, #96
SAVE_ARGUMENT_REGISTERS sp, 16
GBLA UMThunkStub_HiddenArg ; offset of saved UMEntryThunk *
GBLA UMThunkStub_StackArgs ; offset of original stack args (total size of UMThunkStub frame)
UMThunkStub_HiddenArg SETA 88
UMThunkStub_StackArgs SETA 112
; save UMEntryThunk*
str x12, [sp, #UMThunkStub_HiddenArg]
; x0 = GetThread(). Trashes x19
INLINE_GETTHREAD x0, x19
cbz x0, UMThunkStub_DoThreadSetup
UMThunkStub_HaveThread
mov x19, x0 ; x19 = Thread *
mov x9, 1
; m_fPreemptiveGCDisabled is 4 byte field so using 32-bit variant
str w9, [x19, #Thread__m_fPreemptiveGCDisabled]
ldr x2, =g_TrapReturningThreads
ldr x3, [x2]
; assuming x0 contains Thread* before jumping to UMThunkStub_DoTrapReturningThreads
cbnz x3, UMThunkStub_DoTrapReturningThreads
UMThunkStub_InCooperativeMode
ldr x12, [fp, #UMThunkStub_HiddenArg] ; x12 = UMEntryThunk*
ldr x3, [x12, #UMEntryThunk__m_pUMThunkMarshInfo] ; x3 = m_pUMThunkMarshInfo
; m_cbActualArgSize is UINT32 and hence occupies 4 bytes
ldr w2, [x3, #UMThunkMarshInfo__m_cbActualArgSize] ; w2 = Stack arg bytes
cbz w2, UMThunkStub_RegArgumentsSetup
; extend to 64-bits
uxtw x2, w2
; Source pointer
add x0, fp, #UMThunkStub_StackArgs
; move source pointer to end of Stack Args
add x0, x0, x2
; Count of stack slot pairs to copy (divide by 16)
lsr x1, x2, #4
; Is there an extra stack slot (can happen when stack arg bytes not multiple of 16)
and x2, x2, #8
; If yes then start source pointer from 16 byte aligned stack slot
add x0, x0, x2
; increment stack slot pair count by 1 if x2 is not zero
add x1, x1, x2, LSR #3
UMThunkStub_StackLoop
ldp x4, x5, [x0, #-16]! ; pre-Index
stp x4, x5, [sp, #-16]! ; pre-Index
subs x1, x1, #1
bne UMThunkStub_StackLoop
UMThunkStub_RegArgumentsSetup
ldr x16, [x3, #UMThunkMarshInfo__m_pILStub]
RESTORE_ARGUMENT_REGISTERS fp, 16
blr x16
UMThunkStub_PostCall
mov x4, 0
; m_fPreemptiveGCDisabled is 4 byte field so using 32-bit variant
str w4, [x19, #Thread__m_fPreemptiveGCDisabled]
EPILOG_STACK_RESTORE
EPILOG_RESTORE_REG x19, #96
EPILOG_RESTORE_REG_PAIR fp, lr, #112!
EPILOG_RETURN
UMThunkStub_DoThreadSetup
sub sp, sp, #SIZEOF__FloatArgumentRegisters
SAVE_FLOAT_ARGUMENT_REGISTERS sp, 0
bl CreateThreadBlockThrow
RESTORE_FLOAT_ARGUMENT_REGISTERS sp, 0
add sp, sp, #SIZEOF__FloatArgumentRegisters
b UMThunkStub_HaveThread
UMThunkStub_DoTrapReturningThreads
sub sp, sp, #SIZEOF__FloatArgumentRegisters
SAVE_FLOAT_ARGUMENT_REGISTERS sp, 0
; x0 already contains Thread* pThread
; UMEntryThunk* pUMEntry
ldr x1, [fp, #UMThunkStub_HiddenArg]
bl UMThunkStubRareDisableWorker
RESTORE_FLOAT_ARGUMENT_REGISTERS sp, 0
add sp, sp, #SIZEOF__FloatArgumentRegisters
b UMThunkStub_InCooperativeMode
NESTED_END
INLINE_GETTHREAD_CONSTANT_POOL
#ifdef FEATURE_HIJACK
; ------------------------------------------------------------------
; Hijack function for functions which return a scalar type or a struct (value type)
NESTED_ENTRY OnHijackTripThread
PROLOG_SAVE_REG_PAIR fp, lr, #-176!
; Spill callee saved registers
PROLOG_SAVE_REG_PAIR x19, x20, #16
PROLOG_SAVE_REG_PAIR x21, x22, #32
PROLOG_SAVE_REG_PAIR x23, x24, #48
PROLOG_SAVE_REG_PAIR x25, x26, #64
PROLOG_SAVE_REG_PAIR x27, x28, #80
; save any integral return value(s)
stp x0, x1, [sp, #96]
; save any FP/HFA/HVA return value(s)
stp q0, q1, [sp, #112]
stp q2, q3, [sp, #144]
mov x0, sp
bl OnHijackWorker
; restore any integral return value(s)
ldp x0, x1, [sp, #96]
; restore any FP/HFA/HVA return value(s)
ldp q0, q1, [sp, #112]
ldp q2, q3, [sp, #144]
EPILOG_RESTORE_REG_PAIR x19, x20, #16
EPILOG_RESTORE_REG_PAIR x21, x22, #32
EPILOG_RESTORE_REG_PAIR x23, x24, #48
EPILOG_RESTORE_REG_PAIR x25, x26, #64
EPILOG_RESTORE_REG_PAIR x27, x28, #80
EPILOG_RESTORE_REG_PAIR fp, lr, #176!
EPILOG_RETURN
NESTED_END
#endif ; FEATURE_HIJACK
;; ------------------------------------------------------------------
;; Redirection Stub for GC in fully interruptible method
GenerateRedirectedHandledJITCaseStub GCThreadControl
;; ------------------------------------------------------------------
GenerateRedirectedHandledJITCaseStub DbgThreadControl
;; ------------------------------------------------------------------
GenerateRedirectedHandledJITCaseStub UserSuspend
#ifdef _DEBUG
; ------------------------------------------------------------------
; Redirection Stub for GC Stress
GenerateRedirectedHandledJITCaseStub GCStress
#endif
; ------------------------------------------------------------------
; This helper enables us to call into a funclet after restoring Fp register
NESTED_ENTRY CallEHFunclet
; On entry:
;
; X0 = throwable
; X1 = PC to invoke
; X2 = address of X19 register in CONTEXT record; used to restore the non-volatile registers of CrawlFrame
; X3 = address of the location where the SP of funclet's caller (i.e. this helper) should be saved.
;
; Using below prolog instead of PROLOG_SAVE_REG_PAIR fp,lr, #-16!
; is intentional. Above statement would also emit instruction to save
; sp in fp. If sp is saved in fp in prolog then it is not expected that fp can change in the body
; of method. However, this method needs to be able to change fp before calling funclet.
; This is required to access locals in funclet.
PROLOG_SAVE_REG_PAIR_NO_FP fp,lr, #-96!
; Spill callee saved registers
PROLOG_SAVE_REG_PAIR x19, x20, 16
PROLOG_SAVE_REG_PAIR x21, x22, 32
PROLOG_SAVE_REG_PAIR x23, x24, 48
PROLOG_SAVE_REG_PAIR x25, x26, 64
PROLOG_SAVE_REG_PAIR x27, x28, 80
; Save the SP of this function. We cannot store SP directly.
mov fp, sp
str fp, [x3]
ldp x19, x20, [x2, #0]
ldp x21, x22, [x2, #16]
ldp x23, x24, [x2, #32]
ldp x25, x26, [x2, #48]
ldp x27, x28, [x2, #64]
ldr fp, [x2, #80] ; offset of fp in CONTEXT relative to X19
; Invoke the funclet
blr x1
nop
EPILOG_RESTORE_REG_PAIR x19, x20, 16
EPILOG_RESTORE_REG_PAIR x21, x22, 32
EPILOG_RESTORE_REG_PAIR x23, x24, 48
EPILOG_RESTORE_REG_PAIR x25, x26, 64
EPILOG_RESTORE_REG_PAIR x27, x28, 80
EPILOG_RESTORE_REG_PAIR fp, lr, #96!
EPILOG_RETURN
NESTED_END CallEHFunclet
; This helper enables us to call into a filter funclet by passing it the CallerSP to lookup the
; frame pointer for accessing the locals in the parent method.
NESTED_ENTRY CallEHFilterFunclet
PROLOG_SAVE_REG_PAIR fp, lr, #-16!
; On entry:
;
; X0 = throwable
; X1 = SP of the caller of the method/funclet containing the filter
; X2 = PC to invoke
; X3 = address of the location where the SP of funclet's caller (i.e. this helper) should be saved.
;
; Save the SP of this function
str fp, [x3]
; Invoke the filter funclet
blr x2
EPILOG_RESTORE_REG_PAIR fp, lr, #16!
EPILOG_RETURN
NESTED_END CallEHFilterFunclet
GBLA FaultingExceptionFrame_StackAlloc
GBLA FaultingExceptionFrame_FrameOffset
FaultingExceptionFrame_StackAlloc SETA (SIZEOF__GSCookie + SIZEOF__FaultingExceptionFrame)
FaultingExceptionFrame_FrameOffset SETA SIZEOF__GSCookie
MACRO
GenerateRedirectedStubWithFrame $STUB, $TARGET
;
; This is the primary function to which execution will be redirected to.
;
NESTED_ENTRY $STUB
;
; IN: lr: original IP before redirect
;
PROLOG_SAVE_REG_PAIR fp, lr, #-16!
PROLOG_STACK_ALLOC FaultingExceptionFrame_StackAlloc
; At this point, the stack maybe misaligned if the thread abort was asynchronously
; triggered in the prolog or epilog of the managed method. For such a case, we must
; align the stack before calling into the VM.
;
; Runtime check for 16-byte alignment.
mov x0, sp
and x0, x0, #15
sub sp, sp, x0
; Save pointer to FEF for GetFrameFromRedirectedStubStackFrame
add x19, sp, #FaultingExceptionFrame_FrameOffset
; Prepare to initialize to NULL
mov x1,#0
str x1, [x19] ; Initialize vtbl (it is not strictly necessary)
str x1, [x19, #FaultingExceptionFrame__m_fFilterExecuted] ; Initialize BOOL for personality routine
mov x0, x19 ; move the ptr to FEF in X0
bl $TARGET
; Target should not return.
EMIT_BREAKPOINT
NESTED_END $STUB
MEND
; ------------------------------------------------------------------
;
; Helpers for async (NullRef, AccessViolation) exceptions
;
NESTED_ENTRY NakedThrowHelper2,,FixContextHandler
PROLOG_SAVE_REG_PAIR fp,lr, #-16!
; On entry:
;
; X0 = Address of FaultingExceptionFrame
bl LinkFrameAndThrow
; Target should not return.
EMIT_BREAKPOINT
NESTED_END NakedThrowHelper2
GenerateRedirectedStubWithFrame NakedThrowHelper, NakedThrowHelper2
; ------------------------------------------------------------------
; ResolveWorkerChainLookupAsmStub
;
; This method will perform a quick chained lookup of the entry if the
; initial cache lookup fails.
;
; On Entry:
; x9 contains the pointer to the current ResolveCacheElem
; x11 contains the address of the indirection (and the flags in the low two bits)
; x12 contains our contract the DispatchToken
; Must be preserved:
; x0 contains the instance object ref that we are making an interface call on
; x9 Must point to a ResolveCacheElem [For Sanity]
; [x1-x7] contains any additional register arguments for the interface method
;
; Loaded from x0
; x13 contains our type the MethodTable (from object ref in x0)
;
; On Exit:
; x0, [x1-x7] arguments for the interface implementation target
;
; On Exit (to ResolveWorkerAsmStub):
; x11 contains the address of the indirection and the flags in the low two bits.
; x12 contains our contract (DispatchToken)
; x16,x17 will be trashed
;
GBLA BACKPATCH_FLAG ; two low bit flags used by ResolveWorkerAsmStub
GBLA PROMOTE_CHAIN_FLAG ; two low bit flags used by ResolveWorkerAsmStub
BACKPATCH_FLAG SETA 1
PROMOTE_CHAIN_FLAG SETA 2
NESTED_ENTRY ResolveWorkerChainLookupAsmStub
tst x11, #BACKPATCH_FLAG ; First we check if x11 has the BACKPATCH_FLAG set
bne Fail ; If the BACKPATCH_FLAGS is set we will go directly to the ResolveWorkerAsmStub
ldr x13, [x0] ; retrieve the MethodTable from the object ref in x0
MainLoop
ldr x9, [x9, #ResolveCacheElem__pNext] ; x9 <= the next entry in the chain
cmp x9, #0
beq Fail
ldp x16, x17, [x9]
cmp x16, x13 ; compare our MT with the one in the ResolveCacheElem
bne MainLoop
cmp x17, x12 ; compare our DispatchToken with one in the ResolveCacheElem
bne MainLoop
Success
ldr x13, =g_dispatch_cache_chain_success_counter
ldr x16, [x13]
subs x16, x16, #1
str x16, [x13]
blt Promote
ldr x16, [x9, #ResolveCacheElem__target] ; get the ImplTarget
br x16 ; branch to interface implemenation target
Promote
; Move this entry to head postion of the chain
mov x16, #256
str x16, [x13] ; be quick to reset the counter so we don't get a bunch of contending threads
orr x11, x11, #PROMOTE_CHAIN_FLAG ; set PROMOTE_CHAIN_FLAG
mov x12, x9 ; We pass the ResolveCacheElem to ResolveWorkerAsmStub instead of the DispatchToken
Fail
b ResolveWorkerAsmStub ; call the ResolveWorkerAsmStub method to transition into the VM
NESTED_END ResolveWorkerChainLookupAsmStub
;; ------------------------------------------------------------------
;; void ResolveWorkerAsmStub(args in regs x0-x7 & stack and possibly retbuf arg in x8, x11:IndirectionCellAndFlags, x12:DispatchToken)
;;
;; The stub dispatch thunk which transfers control to VSD_ResolveWorker.
NESTED_ENTRY ResolveWorkerAsmStub
PROLOG_WITH_TRANSITION_BLOCK
add x0, sp, #__PWTB_TransitionBlock ; pTransitionBlock
and x1, x11, #-4 ; Indirection cell
mov x2, x12 ; DispatchToken
and x3, x11, #3 ; flag
bl VSD_ResolveWorker
mov x9, x0
EPILOG_WITH_TRANSITION_BLOCK_TAILCALL
EPILOG_BRANCH_REG x9
NESTED_END
#ifdef FEATURE_READYTORUN
NESTED_ENTRY DelayLoad_MethodCall
PROLOG_WITH_TRANSITION_BLOCK
add x0, sp, #__PWTB_TransitionBlock ; pTransitionBlock
mov x1, x11 ; Indirection cell
mov x2, x9 ; sectionIndex
mov x3, x10 ; Module*
bl ExternalMethodFixupWorker
mov x12, x0
EPILOG_WITH_TRANSITION_BLOCK_TAILCALL
; Share patch label
b ExternalMethodFixupPatchLabel
NESTED_END
MACRO
DynamicHelper $frameFlags, $suffix
NESTED_ENTRY DelayLoad_Helper$suffix
PROLOG_WITH_TRANSITION_BLOCK
add x0, sp, #__PWTB_TransitionBlock ; pTransitionBlock
mov x1, x11 ; Indirection cell
mov x2, x9 ; sectionIndex
mov x3, x10 ; Module*
mov x4, $frameFlags
bl DynamicHelperWorker
cbnz x0, %FT0
ldr x0, [sp, #__PWTB_ArgumentRegister_FirstArg]
EPILOG_WITH_TRANSITION_BLOCK_RETURN
0
mov x12, x0
EPILOG_WITH_TRANSITION_BLOCK_TAILCALL
EPILOG_BRANCH_REG x12
NESTED_END
MEND
DynamicHelper DynamicHelperFrameFlags_Default
DynamicHelper DynamicHelperFrameFlags_ObjectArg, _Obj
DynamicHelper DynamicHelperFrameFlags_ObjectArg | DynamicHelperFrameFlags_ObjectArg2, _ObjObj
#endif // FEATURE_READYTORUN
#ifdef FEATURE_PREJIT
;; ------------------------------------------------------------------
;; void StubDispatchFixupStub(args in regs x0-x7 & stack and possibly retbuff arg in x8, x11:IndirectionCellAndFlags)
;;
;; The stub dispatch thunk which transfers control to StubDispatchFixupWorker.
NESTED_ENTRY StubDispatchFixupStub
PROLOG_WITH_TRANSITION_BLOCK
add x0, sp, #__PWTB_TransitionBlock ; pTransitionBlock
and x1, x11, #-4 ; Indirection cell
mov x2, #0 ; sectionIndex
mov x3, #0 ; pModule
bl StubDispatchFixupWorker
mov x12, x0
EPILOG_WITH_TRANSITION_BLOCK_TAILCALL
PATCH_LABEL StubDispatchFixupPatchLabel
EPILOG_BRANCH_REG x12
NESTED_END
#endif
#ifdef FEATURE_COMINTEROP
; ------------------------------------------------------------------
; Function used by COM interop to get floating point return value (since it's not in the same
; register(s) as non-floating point values).
;
; On entry;
; x0 : size of the FP result (4 or 8 bytes)
; x1 : pointer to 64-bit buffer to receive result
;
; On exit:
; buffer pointed to by x1 on entry contains the float or double argument as appropriate
;
LEAF_ENTRY getFPReturn
str d0, [x1]
LEAF_END
; ------------------------------------------------------------------
; Function used by COM interop to set floating point return value (since it's not in the same
; register(s) as non-floating point values).
;
; On entry:
; x0 : size of the FP result (4 or 8 bytes)
; x1 : 32-bit or 64-bit FP result
;
; On exit:
; s0 : float result if x0 == 4
; d0 : double result if x0 == 8
;
LEAF_ENTRY setFPReturn
fmov d0, x1
LEAF_END
#endif
;
; JIT Static access helpers when coreclr host specifies single appdomain flag
;
; ------------------------------------------------------------------
; void* JIT_GetSharedNonGCStaticBase(SIZE_T moduleDomainID, DWORD dwClassDomainID)
LEAF_ENTRY JIT_GetSharedNonGCStaticBase_SingleAppDomain
; If class is not initialized, bail to C++ helper
add x2, x0, #DomainLocalModule__m_pDataBlob
ldrb w2, [x2, w1]
tst w2, #1
beq CallHelper1
ret lr
CallHelper1
; Tail call JIT_GetSharedNonGCStaticBase_Helper
b JIT_GetSharedNonGCStaticBase_Helper
LEAF_END
; ------------------------------------------------------------------
; void* JIT_GetSharedNonGCStaticBaseNoCtor(SIZE_T moduleDomainID, DWORD dwClassDomainID)
LEAF_ENTRY JIT_GetSharedNonGCStaticBaseNoCtor_SingleAppDomain
ret lr
LEAF_END
; ------------------------------------------------------------------
; void* JIT_GetSharedGCStaticBase(SIZE_T moduleDomainID, DWORD dwClassDomainID)
LEAF_ENTRY JIT_GetSharedGCStaticBase_SingleAppDomain
; If class is not initialized, bail to C++ helper
add x2, x0, #DomainLocalModule__m_pDataBlob
ldrb w2, [x2, w1]
tst w2, #1
beq CallHelper2
ldr x0, [x0, #DomainLocalModule__m_pGCStatics]
ret lr
CallHelper2
; Tail call Jit_GetSharedGCStaticBase_Helper
b JIT_GetSharedGCStaticBase_Helper
LEAF_END
; ------------------------------------------------------------------
; void* JIT_GetSharedGCStaticBaseNoCtor(SIZE_T moduleDomainID, DWORD dwClassDomainID)
LEAF_ENTRY JIT_GetSharedGCStaticBaseNoCtor_SingleAppDomain
ldr x0, [x0, #DomainLocalModule__m_pGCStatics]
ret lr
LEAF_END
; ------------------------------------------------------------------
;__declspec(naked) void F_CALL_CONV JIT_Stelem_Ref(PtrArray* array, unsigned idx, Object* val)
LEAF_ENTRY JIT_Stelem_Ref
; We retain arguments as they were passed and use x0 == array x1 == idx x2 == val
; check for null array
cbz x0, ThrowNullReferenceException
; idx bounds check
ldr x3,[x0,#ArrayBase__m_NumComponents]
cmp x3, x1
bls ThrowIndexOutOfRangeException
; fast path to null assignment (doesn't need any write-barriers)
cbz x2, AssigningNull
; Verify the array-type and val-type matches before writing
ldr x12, [x0] ; x12 = array MT
ldr x3, [x2] ; x3 = val->GetMethodTable()
ldr x12, [x12, #MethodTable__m_ElementType] ; array->GetArrayElementTypeHandle()
cmp x3, x12
beq JIT_Stelem_DoWrite
; Types didnt match but allow writing into an array of objects
ldr x3, =$g_pObjectClass
ldr x3, [x3] ; x3 = *g_pObjectClass
cmp x3, x12 ; array type matches with Object*
beq JIT_Stelem_DoWrite
; array type and val type do not exactly match. Raise frame and do detailed match
b JIT_Stelem_Ref_NotExactMatch
AssigningNull
; Assigning null doesn't need write barrier
add x0, x0, x1, LSL #3 ; x0 = x0 + (x1 x 8) = array->m_array[idx]
str x2, [x0, #PtrArray__m_Array] ; array->m_array[idx] = val
ret
ThrowNullReferenceException
; Tail call JIT_InternalThrow(NullReferenceException)
ldr x0, =CORINFO_NullReferenceException_ASM
b JIT_InternalThrow
ThrowIndexOutOfRangeException
; Tail call JIT_InternalThrow(NullReferenceException)
ldr x0, =CORINFO_IndexOutOfRangeException_ASM
b JIT_InternalThrow
LEAF_END
; ------------------------------------------------------------------
; __declspec(naked) void F_CALL_CONV JIT_Stelem_Ref_NotExactMatch(PtrArray* array,
; unsigned idx, Object* val)
; x12 = array->GetArrayElementTypeHandle()
;
NESTED_ENTRY JIT_Stelem_Ref_NotExactMatch
PROLOG_SAVE_REG_PAIR fp, lr, #-48!
stp x0, x1, [sp, #16]
str x2, [sp, #32]
; allow in case val can be casted to array element type
; call ObjIsInstanceOfNoGC(val, array->GetArrayElementTypeHandle())
mov x1, x12 ; array->GetArrayElementTypeHandle()
mov x0, x2
bl ObjIsInstanceOfNoGC
cmp x0, TypeHandle_CanCast
beq DoWrite ; ObjIsInstance returned TypeHandle::CanCast
; check via raising frame
NeedFrame
add x1, sp, #16 ; x1 = &array
add x0, sp, #32 ; x0 = &val
bl ArrayStoreCheck ; ArrayStoreCheck(&val, &array)
DoWrite
ldp x0, x1, [sp, #16]
ldr x2, [sp, #32]
EPILOG_RESTORE_REG_PAIR fp, lr, #48!
EPILOG_BRANCH JIT_Stelem_DoWrite
NESTED_END
; ------------------------------------------------------------------
; __declspec(naked) void F_CALL_CONV JIT_Stelem_DoWrite(PtrArray* array, unsigned idx, Object* val)
LEAF_ENTRY JIT_Stelem_DoWrite
; Setup args for JIT_WriteBarrier. x14 = &array->m_array[idx] x15 = val
add x14, x0, #PtrArray__m_Array ; x14 = &array->m_array
add x14, x14, x1, LSL #3
mov x15, x2 ; x15 = val
; Branch to the write barrier (which is already correctly overwritten with
; single or multi-proc code based on the current CPU
b JIT_WriteBarrier
LEAF_END
; Must be at very end of file
END
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