blob: 4609067a5ab82d8dc59fbeebca8aacdf80b3e2a8 [file] [log] [blame]
%def header():
/*
* Copyright (C) 2016 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/*
Art assembly interpreter notes:
First validate assembly code by implementing ExecuteXXXImpl() style body (doesn't
handle invoke, allows higher-level code to create frame & shadow frame.
Once that's working, support direct entry code & eliminate shadow frame (and
excess locals allocation.
Some (hopefully) temporary ugliness. We'll treat rFP as pointing to the
base of the vreg array within the shadow frame. Access the other fields,
dex_pc_, method_ and number_of_vregs_ via negative offsets. For now, we'll continue
the shadow frame mechanism of double-storing object references - via rFP &
number_of_vregs_.
*/
/*
x86_64 ABI general notes:
Caller save set:
rax, rdx, rcx, rsi, rdi, r8-r11, st(0)-st(7)
Callee save set:
rbx, rbp, r12-r15
Return regs:
32-bit in eax
64-bit in rax
fp on xmm0
First 8 fp parameters came in xmm0-xmm7.
First 6 non-fp parameters came in rdi, rsi, rdx, rcx, r8, r9.
Other parameters passed on stack, pushed right-to-left. On entry to target, first
param is at 8(%esp). Traditional entry code is:
Stack must be 16-byte aligned to support SSE in native code.
If we're not doing variable stack allocation (alloca), the frame pointer can be
eliminated and all arg references adjusted to be esp relative.
*/
/*
Mterp and x86_64 notes:
Some key interpreter variables will be assigned to registers.
nick reg purpose
rPROFILE rbp countdown register for jit profiling
rPC r12 interpreted program counter, used for fetching instructions
rFP r13 interpreted frame pointer, used for accessing locals and args
rINSTw bx first 16-bit code of current instruction
rINSTbl bl opcode portion of instruction word
rINSTbh bh high byte of inst word, usually contains src/tgt reg names
rIBASE r14 base of instruction handler table
rREFS r15 base of object references in shadow frame.
Notes:
o High order 16 bits of ebx must be zero on entry to handler
o rPC, rFP, rINSTw/rINSTbl valid on handler entry and exit
o eax and ecx are scratch, rINSTw/ebx sometimes scratch
Macros are provided for common operations. Each macro MUST emit only
one instruction to make instruction-counting easier. They MUST NOT alter
unspecified registers or condition codes.
*/
/*
* This is a #include, not a %include, because we want the C pre-processor
* to expand the macros into assembler assignment statements.
*/
#include "asm_support.h"
#include "interpreter/cfi_asm_support.h"
#define LITERAL(value) $$(value)
/*
* Handle mac compiler specific
*/
#if defined(__APPLE__)
#define MACRO_LITERAL(value) $$(value)
#define FUNCTION_TYPE(name)
#define OBJECT_TYPE(name)
#define SIZE(start,end)
// Mac OS' symbols have an _ prefix.
#define SYMBOL(name) _ ## name
#define ASM_HIDDEN .private_extern
#else
#define MACRO_LITERAL(value) $$value
#define FUNCTION_TYPE(name) .type name, @function
#define OBJECT_TYPE(name) .type name, @object
#define SIZE(start,end) .size start, .-end
#define SYMBOL(name) name
#define ASM_HIDDEN .hidden
#endif
.macro PUSH _reg
pushq \_reg
.cfi_adjust_cfa_offset 8
.cfi_rel_offset \_reg, 0
.endm
.macro POP _reg
popq \_reg
.cfi_adjust_cfa_offset -8
.cfi_restore \_reg
.endm
/*
* Instead of holding a pointer to the shadow frame, we keep rFP at the base of the vregs. So,
* to access other shadow frame fields, we need to use a backwards offset. Define those here.
*/
#define OFF_FP(a) (a - SHADOWFRAME_VREGS_OFFSET)
#define OFF_FP_NUMBER_OF_VREGS OFF_FP(SHADOWFRAME_NUMBER_OF_VREGS_OFFSET)
#define OFF_FP_DEX_PC OFF_FP(SHADOWFRAME_DEX_PC_OFFSET)
#define OFF_FP_LINK OFF_FP(SHADOWFRAME_LINK_OFFSET)
#define OFF_FP_METHOD OFF_FP(SHADOWFRAME_METHOD_OFFSET)
#define OFF_FP_RESULT_REGISTER OFF_FP(SHADOWFRAME_RESULT_REGISTER_OFFSET)
#define OFF_FP_DEX_PC_PTR OFF_FP(SHADOWFRAME_DEX_PC_PTR_OFFSET)
#define OFF_FP_DEX_INSTRUCTIONS OFF_FP(SHADOWFRAME_DEX_INSTRUCTIONS_OFFSET)
#define OFF_FP_COUNTDOWN_OFFSET OFF_FP(SHADOWFRAME_HOTNESS_COUNTDOWN_OFFSET)
#define OFF_FP_SHADOWFRAME (-SHADOWFRAME_VREGS_OFFSET)
/* Frame size must be 16-byte aligned.
* Remember about 8 bytes for return address + 6 * 8 for spills.
*/
#define FRAME_SIZE 8
/* Frame diagram while executing ExecuteMterpImpl, high to low addresses */
#define IN_ARG3 %rcx
#define IN_ARG2 %rdx
#define IN_ARG1 %rsi
#define IN_ARG0 %rdi
/* Spill offsets relative to %esp */
#define SELF_SPILL (FRAME_SIZE - 8)
/* Out Args */
#define OUT_ARG3 %rcx
#define OUT_ARG2 %rdx
#define OUT_ARG1 %rsi
#define OUT_ARG0 %rdi
#define OUT_32_ARG3 %ecx
#define OUT_32_ARG2 %edx
#define OUT_32_ARG1 %esi
#define OUT_32_ARG0 %edi
#define OUT_FP_ARG1 %xmm1
#define OUT_FP_ARG0 %xmm0
/* During bringup, we'll use the shadow frame model instead of rFP */
/* single-purpose registers, given names for clarity */
#define rSELF SELF_SPILL(%rsp)
#define rPC %r12
#define CFI_DEX 12 // DWARF register number of the register holding dex-pc (rPC).
#define CFI_TMP 5 // DWARF register number of the first argument register (rdi).
#define rFP %r13
#define rINST %ebx
#define rINSTq %rbx
#define rINSTw %bx
#define rINSTbh %bh
#define rINSTbl %bl
#define rIBASE %r14
#define rREFS %r15
#define rPROFILE %ebp
#define MTERP_LOGGING 0
/*
* "export" the PC to dex_pc field in the shadow frame, f/b/o future exception objects. Must
* be done *before* something throws.
*
* It's okay to do this more than once.
*
* NOTE: the fast interpreter keeps track of dex pc as a direct pointer to the mapped
* dex byte codes. However, the rest of the runtime expects dex pc to be an instruction
* offset into the code_items_[] array. For effiency, we will "export" the
* current dex pc as a direct pointer using the EXPORT_PC macro, and rely on GetDexPC
* to convert to a dex pc when needed.
*/
.macro EXPORT_PC
movq rPC, OFF_FP_DEX_PC_PTR(rFP)
.endm
/*
* Refresh handler table.
* IBase handles uses the caller save register so we must restore it after each call.
* Also it is used as a result of some 64-bit operations (like imul) and we should
* restore it in such cases also.
*
*/
.macro REFRESH_IBASE_REG self_reg
movq THREAD_CURRENT_IBASE_OFFSET(\self_reg), rIBASE
.endm
.macro REFRESH_IBASE
movq rSELF, rIBASE
REFRESH_IBASE_REG rIBASE
.endm
/*
* Refresh rINST.
* At enter to handler rINST does not contain the opcode number.
* However some utilities require the full value, so this macro
* restores the opcode number.
*/
.macro REFRESH_INST _opnum
movb rINSTbl, rINSTbh
movb $$\_opnum, rINSTbl
.endm
/*
* Fetch the next instruction from rPC into rINSTw. Does not advance rPC.
*/
.macro FETCH_INST
movzwq (rPC), rINSTq
.endm
/*
* Remove opcode from rINST, compute the address of handler and jump to it.
*/
.macro GOTO_NEXT
movzx rINSTbl,%eax
movzbl rINSTbh,rINST
shll MACRO_LITERAL(${handler_size_bits}), %eax
addq rIBASE, %rax
jmp *%rax
.endm
/*
* Advance rPC by instruction count.
*/
.macro ADVANCE_PC _count
leaq 2*\_count(rPC), rPC
.endm
/*
* Advance rPC by instruction count, fetch instruction and jump to handler.
*/
.macro ADVANCE_PC_FETCH_AND_GOTO_NEXT _count
ADVANCE_PC \_count
FETCH_INST
GOTO_NEXT
.endm
/*
* Get/set the 32-bit value from a Dalvik register.
*/
#define VREG_ADDRESS(_vreg) (rFP,_vreg,4)
#define VREG_HIGH_ADDRESS(_vreg) 4(rFP,_vreg,4)
#define VREG_REF_ADDRESS(_vreg) (rREFS,_vreg,4)
#define VREG_REF_HIGH_ADDRESS(_vreg) 4(rREFS,_vreg,4)
.macro GET_VREG _reg _vreg
movl VREG_ADDRESS(\_vreg), \_reg
.endm
/* Read wide value. */
.macro GET_WIDE_VREG _reg _vreg
movq VREG_ADDRESS(\_vreg), \_reg
.endm
.macro SET_VREG _reg _vreg
movl \_reg, VREG_ADDRESS(\_vreg)
movl MACRO_LITERAL(0), VREG_REF_ADDRESS(\_vreg)
.endm
/* Write wide value. reg is clobbered. */
.macro SET_WIDE_VREG _reg _vreg
movq \_reg, VREG_ADDRESS(\_vreg)
xorq \_reg, \_reg
movq \_reg, VREG_REF_ADDRESS(\_vreg)
.endm
.macro SET_VREG_OBJECT _reg _vreg
movl \_reg, VREG_ADDRESS(\_vreg)
movl \_reg, VREG_REF_ADDRESS(\_vreg)
.endm
.macro GET_VREG_HIGH _reg _vreg
movl VREG_HIGH_ADDRESS(\_vreg), \_reg
.endm
.macro SET_VREG_HIGH _reg _vreg
movl \_reg, VREG_HIGH_ADDRESS(\_vreg)
movl MACRO_LITERAL(0), VREG_REF_HIGH_ADDRESS(\_vreg)
.endm
.macro CLEAR_REF _vreg
movl MACRO_LITERAL(0), VREG_REF_ADDRESS(\_vreg)
.endm
.macro CLEAR_WIDE_REF _vreg
movl MACRO_LITERAL(0), VREG_REF_ADDRESS(\_vreg)
movl MACRO_LITERAL(0), VREG_REF_HIGH_ADDRESS(\_vreg)
.endm
/*
* function support macros.
*/
.macro ENTRY name
.text
ASM_HIDDEN SYMBOL(\name)
.global SYMBOL(\name)
FUNCTION_TYPE(\name)
SYMBOL(\name):
.endm
.macro END name
SIZE(\name,\name)
.endm
%def entry():
/*
* Copyright (C) 2016 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/*
* Interpreter entry point.
*
* On entry:
* 0 Thread* self
* 1 insns_
* 2 ShadowFrame
* 3 JValue* result_register
*
*/
ENTRY ExecuteMterpImpl
.cfi_startproc
.cfi_def_cfa rsp, 8
/* Spill callee save regs */
PUSH %rbx
PUSH %rbp
PUSH %r12
PUSH %r13
PUSH %r14
PUSH %r15
/* Allocate frame */
subq $$FRAME_SIZE, %rsp
.cfi_adjust_cfa_offset FRAME_SIZE
/* Remember the return register */
movq IN_ARG3, SHADOWFRAME_RESULT_REGISTER_OFFSET(IN_ARG2)
/* Remember the code_item */
movq IN_ARG1, SHADOWFRAME_DEX_INSTRUCTIONS_OFFSET(IN_ARG2)
/* set up "named" registers */
movl SHADOWFRAME_NUMBER_OF_VREGS_OFFSET(IN_ARG2), %eax
leaq SHADOWFRAME_VREGS_OFFSET(IN_ARG2), rFP
leaq (rFP, %rax, 4), rREFS
movl SHADOWFRAME_DEX_PC_OFFSET(IN_ARG2), %eax
leaq (IN_ARG1, %rax, 2), rPC
CFI_DEFINE_DEX_PC_WITH_OFFSET(CFI_TMP, CFI_DEX, 0)
EXPORT_PC
/* Starting ibase */
movq IN_ARG0, rSELF
REFRESH_IBASE_REG IN_ARG0
/* Set up for backwards branches & osr profiling */
movq IN_ARG0, OUT_ARG2 /* Set up OUT_ARG2 before clobbering IN_ARG0 */
movq OFF_FP_METHOD(rFP), OUT_ARG0
leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG1
call SYMBOL(MterpSetUpHotnessCountdown)
movswl %ax, rPROFILE
/* start executing the instruction at rPC */
FETCH_INST
GOTO_NEXT
/* NOTE: no fallthrough */
// cfi info continues, and covers the whole mterp implementation.
END ExecuteMterpImpl
%def dchecks_before_helper():
// Call C++ to do debug checks and return to the handler using tail call.
.extern MterpCheckBefore
popq %rax # Return address (the instuction handler).
REFRESH_IBASE
movq rSELF, OUT_ARG0
leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG1
movq rPC, OUT_ARG2
pushq %rax # Return address for the tail call.
jmp SYMBOL(MterpCheckBefore) # (self, shadow_frame, dex_pc_ptr)
%def opcode_pre():
% add_helper(dchecks_before_helper, "Mterp_dchecks_before_helper")
#if !defined(NDEBUG)
call SYMBOL(Mterp_dchecks_before_helper)
#endif
%def fallback():
/* Transfer stub to alternate interpreter */
jmp MterpFallback
%def helpers():
ENTRY MterpHelpers
%def footer():
/*
* ===========================================================================
* Common subroutines and data
* ===========================================================================
*/
.text
.align 2
/*
* We've detected a condition that will result in an exception, but the exception
* has not yet been thrown. Just bail out to the reference interpreter to deal with it.
* TUNING: for consistency, we may want to just go ahead and handle these here.
*/
common_errDivideByZero:
EXPORT_PC
#if MTERP_LOGGING
movq rSELF, OUT_ARG0
leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG1
call SYMBOL(MterpLogDivideByZeroException)
#endif
jmp MterpCommonFallback
common_errArrayIndex:
EXPORT_PC
#if MTERP_LOGGING
movq rSELF, OUT_ARG0
leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG1
call SYMBOL(MterpLogArrayIndexException)
#endif
jmp MterpCommonFallback
common_errNegativeArraySize:
EXPORT_PC
#if MTERP_LOGGING
movq rSELF, OUT_ARG0
leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG1
call SYMBOL(MterpLogNegativeArraySizeException)
#endif
jmp MterpCommonFallback
common_errNoSuchMethod:
EXPORT_PC
#if MTERP_LOGGING
movq rSELF, OUT_ARG0
leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG1
call SYMBOL(MterpLogNoSuchMethodException)
#endif
jmp MterpCommonFallback
common_errNullObject:
EXPORT_PC
#if MTERP_LOGGING
movq rSELF, OUT_ARG0
leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG1
call SYMBOL(MterpLogNullObjectException)
#endif
jmp MterpCommonFallback
common_exceptionThrown:
EXPORT_PC
#if MTERP_LOGGING
movq rSELF, OUT_ARG0
leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG1
call SYMBOL(MterpLogExceptionThrownException)
#endif
jmp MterpCommonFallback
MterpSuspendFallback:
EXPORT_PC
#if MTERP_LOGGING
movq rSELF, OUT_ARG0
leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG1
movl THREAD_FLAGS_OFFSET(OUT_ARG0), OUT_32_ARG2
call SYMBOL(MterpLogSuspendFallback)
#endif
jmp MterpCommonFallback
/*
* If we're here, something is out of the ordinary. If there is a pending
* exception, handle it. Otherwise, roll back and retry with the reference
* interpreter.
*/
MterpPossibleException:
movq rSELF, %rcx
cmpq $$0, THREAD_EXCEPTION_OFFSET(%rcx)
jz MterpFallback
/* intentional fallthrough - handle pending exception. */
/*
* On return from a runtime helper routine, we've found a pending exception.
* Can we handle it here - or need to bail out to caller?
*
*/
MterpException:
movq rSELF, OUT_ARG0
leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG1
call SYMBOL(MterpHandleException)
testb %al, %al
jz MterpExceptionReturn
movq OFF_FP_DEX_INSTRUCTIONS(rFP), %rax
mov OFF_FP_DEX_PC(rFP), %ecx
leaq (%rax, %rcx, 2), rPC
movq rPC, OFF_FP_DEX_PC_PTR(rFP)
/* Do we need to switch interpreters? */
movq rSELF, %rax
cmpb LITERAL(0), THREAD_USE_MTERP_OFFSET(%rax)
jz MterpFallback
/* resume execution at catch block */
REFRESH_IBASE
FETCH_INST
GOTO_NEXT
/* NOTE: no fallthrough */
/*
* Common handling for branches with support for Jit profiling.
* On entry:
* rINST <= signed offset
* rPROFILE <= signed hotness countdown (expanded to 32 bits)
* condition bits <= set to establish sign of offset (use "NoFlags" entry if not)
*
* We have quite a few different cases for branch profiling, OSR detection and
* suspend check support here.
*
* Taken backward branches:
* If profiling active, do hotness countdown and report if we hit zero.
* If in osr check mode, see if our target is a compiled loop header entry and do OSR if so.
* Is there a pending suspend request? If so, suspend.
*
* Taken forward branches and not-taken backward branches:
* If in osr check mode, see if our target is a compiled loop header entry and do OSR if so.
*
* Our most common case is expected to be a taken backward branch with active jit profiling,
* but no full OSR check and no pending suspend request.
* Next most common case is not-taken branch with no full OSR check.
*
*/
MterpCommonTakenBranch:
jg .L_forward_branch # don't add forward branches to hotness
/*
* We need to subtract 1 from positive values and we should not see 0 here,
* so we may use the result of the comparison with -1.
*/
#if JIT_CHECK_OSR != -1
# error "JIT_CHECK_OSR must be -1."
#endif
cmpl $$JIT_CHECK_OSR, rPROFILE
je .L_osr_check
decl rPROFILE
je .L_add_batch # counted down to zero - report
.L_resume_backward_branch:
movq rSELF, %rax
testl $$(THREAD_SUSPEND_OR_CHECKPOINT_REQUEST), THREAD_FLAGS_OFFSET(%rax)
REFRESH_IBASE_REG %rax
leaq (rPC, rINSTq, 2), rPC
FETCH_INST
jnz .L_suspend_request_pending
GOTO_NEXT
.L_suspend_request_pending:
EXPORT_PC
movq rSELF, OUT_ARG0
call SYMBOL(MterpSuspendCheck) # (self)
testb %al, %al
jnz MterpFallback
REFRESH_IBASE # might have changed during suspend
GOTO_NEXT
.L_no_count_backwards:
cmpl $$JIT_CHECK_OSR, rPROFILE # possible OSR re-entry?
jne .L_resume_backward_branch
.L_osr_check:
EXPORT_PC
movq rSELF, OUT_ARG0
leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG1
movq rINSTq, OUT_ARG2
call SYMBOL(MterpMaybeDoOnStackReplacement) # (self, shadow_frame, offset)
testb %al, %al
jz .L_resume_backward_branch
jmp MterpOnStackReplacement
.L_forward_branch:
cmpl $$JIT_CHECK_OSR, rPROFILE # possible OSR re-entry?
je .L_check_osr_forward
.L_resume_forward_branch:
leaq (rPC, rINSTq, 2), rPC
FETCH_INST
GOTO_NEXT
.L_check_osr_forward:
EXPORT_PC
movq rSELF, OUT_ARG0
leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG1
movq rINSTq, OUT_ARG2
call SYMBOL(MterpMaybeDoOnStackReplacement) # (self, shadow_frame, offset)
testb %al, %al
jz .L_resume_forward_branch
jmp MterpOnStackReplacement
.L_add_batch:
movl rPROFILE, %eax
movq OFF_FP_METHOD(rFP), OUT_ARG0
leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG1
movw %ax, OFF_FP_COUNTDOWN_OFFSET(rFP)
movq rSELF, OUT_ARG2
call SYMBOL(MterpAddHotnessBatch) # (method, shadow_frame, self)
movswl %ax, rPROFILE
jmp .L_no_count_backwards
/*
* Entered from the conditional branch handlers when OSR check request active on
* not-taken path. All Dalvik not-taken conditional branch offsets are 2.
*/
.L_check_not_taken_osr:
EXPORT_PC
movq rSELF, OUT_ARG0
leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG1
movl $$2, OUT_32_ARG2
call SYMBOL(MterpMaybeDoOnStackReplacement) # (self, shadow_frame, offset)
testb %al, %al
jnz MterpOnStackReplacement
ADVANCE_PC_FETCH_AND_GOTO_NEXT 2
/*
* On-stack replacement has happened, and now we've returned from the compiled method.
*/
MterpOnStackReplacement:
#if MTERP_LOGGING
movq rSELF, OUT_ARG0
leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG1
movl rINST, OUT_32_ARG2
call SYMBOL(MterpLogOSR)
#endif
movl $$1, %eax
jmp MterpDone
/*
* Bail out to reference interpreter.
*/
MterpFallback:
EXPORT_PC
#if MTERP_LOGGING
movq rSELF, OUT_ARG0
leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG1
call SYMBOL(MterpLogFallback)
#endif
MterpCommonFallback:
xorl %eax, %eax
jmp MterpDone
/*
* On entry:
* uint32_t* rFP (should still be live, pointer to base of vregs)
*/
MterpExceptionReturn:
movl $$1, %eax
jmp MterpDone
MterpReturn:
movq OFF_FP_RESULT_REGISTER(rFP), %rdx
movq %rax, (%rdx)
movl $$1, %eax
MterpDone:
/*
* At this point, we expect rPROFILE to be non-zero. If negative, hotness is disabled or we're
* checking for OSR. If greater than zero, we might have unreported hotness to register
* (the difference between the ending rPROFILE and the cached hotness counter). rPROFILE
* should only reach zero immediately after a hotness decrement, and is then reset to either
* a negative special state or the new non-zero countdown value.
*/
testl rPROFILE, rPROFILE
jle MRestoreFrame # if > 0, we may have some counts to report.
movl %eax, rINST # stash return value
/* Report cached hotness counts */
movl rPROFILE, %eax
movq OFF_FP_METHOD(rFP), OUT_ARG0
leaq OFF_FP_SHADOWFRAME(rFP), OUT_ARG1
movw %ax, OFF_FP_COUNTDOWN_OFFSET(rFP)
movq rSELF, OUT_ARG2
call SYMBOL(MterpAddHotnessBatch) # (method, shadow_frame, self)
movl rINST, %eax # restore return value
/* pop up frame */
MRestoreFrame:
addq $$FRAME_SIZE, %rsp
.cfi_adjust_cfa_offset -FRAME_SIZE
/* Restore callee save register */
POP %r15
POP %r14
POP %r13
POP %r12
POP %rbp
POP %rbx
ret
.cfi_endproc
END MterpHelpers
%def instruction_end():
OBJECT_TYPE(artMterpAsmInstructionEnd)
ASM_HIDDEN SYMBOL(artMterpAsmInstructionEnd)
.global SYMBOL(artMterpAsmInstructionEnd)
SYMBOL(artMterpAsmInstructionEnd):
%def instruction_start():
OBJECT_TYPE(artMterpAsmInstructionStart)
ASM_HIDDEN SYMBOL(artMterpAsmInstructionStart)
.global SYMBOL(artMterpAsmInstructionStart)
SYMBOL(artMterpAsmInstructionStart) = .L_op_nop
.text
%def opcode_start():
ENTRY Mterp_${opcode}
%def opcode_end():
END Mterp_${opcode}
%def helper_start(name):
ENTRY ${name}
%def helper_end(name):
END ${name}