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There is transition penalty when SSE instructions are mixed with 256-bit AVX or 512-bit AVX512 load instructions. Since _dl_runtime_resolve_avx and _dl_runtime_profile_avx512 save/restore 256-bit YMM/512-bit ZMM registers, there is transition penalty when SSE instructions are used with lazy binding on AVX and AVX512 processors. To avoid SSE transition penalty, if only the lower 128 bits of the first 8 vector registers are non-zero, we can preserve %xmm0 - %xmm7 registers with the zero upper bits. For AVX and AVX512 processors which support XGETBV with ECX == 1, we can use XGETBV with ECX == 1 to check if the upper 128 bits of YMM registers or the upper 256 bits of ZMM registers are zero. We can restore only the non-zero portion of vector registers with AVX/AVX512 load instructions which will zero-extend upper bits of vector registers. This patch adds _dl_runtime_resolve_sse_vex which saves and restores XMM registers with 128-bit AVX store/load instructions. It is used to preserve YMM/ZMM registers when only the lower 128 bits are non-zero. _dl_runtime_resolve_avx_opt and _dl_runtime_resolve_avx512_opt are added and used on AVX/AVX512 processors supporting XGETBV with ECX == 1 so that we store and load only the non-zero portion of vector registers. This avoids SSE transition penalty caused by _dl_runtime_resolve_avx and _dl_runtime_profile_avx512 when only the lower 128 bits of vector registers are used. _dl_runtime_resolve_avx_slow is added and used for AVX processors which don't support XGETBV with ECX == 1. Since there is no SSE transition penalty on AVX512 processors which don't support XGETBV with ECX == 1, _dl_runtime_resolve_avx512_slow isn't provided. [BZ #20495] [BZ #20508] * sysdeps/x86/cpu-features.c (init_cpu_features): For Intel processors, set Use_dl_runtime_resolve_slow and set Use_dl_runtime_resolve_opt if XGETBV suports ECX == 1. * sysdeps/x86/cpu-features.h (bit_arch_Use_dl_runtime_resolve_opt): New. (bit_arch_Use_dl_runtime_resolve_slow): Likewise. (index_arch_Use_dl_runtime_resolve_opt): Likewise. (index_arch_Use_dl_runtime_resolve_slow): Likewise. * sysdeps/x86_64/dl-machine.h (elf_machine_runtime_setup): Use _dl_runtime_resolve_avx512_opt and _dl_runtime_resolve_avx_opt if Use_dl_runtime_resolve_opt is set. Use _dl_runtime_resolve_slow if Use_dl_runtime_resolve_slow is set. * sysdeps/x86_64/dl-trampoline.S: Include <cpu-features.h>. (_dl_runtime_resolve_opt): New. Defined for AVX and AVX512. (_dl_runtime_resolve): Add one for _dl_runtime_resolve_sse_vex. * sysdeps/x86_64/dl-trampoline.h (_dl_runtime_resolve_avx_slow): New. (_dl_runtime_resolve_opt): Likewise. (_dl_runtime_profile): Define only if _dl_runtime_profile is defined.
647 lines
20 KiB
C
647 lines
20 KiB
C
/* PLT trampolines. x86-64 version.
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Copyright (C) 2009-2016 Free Software Foundation, Inc.
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This file is part of the GNU C Library.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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The GNU C Library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with the GNU C Library; if not, see
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<http://www.gnu.org/licenses/>. */
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#undef REGISTER_SAVE_AREA_RAW
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#ifdef __ILP32__
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/* X32 saves RCX, RDX, RSI, RDI, R8 and R9 plus RAX as well as VEC0 to
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VEC7. */
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# define REGISTER_SAVE_AREA_RAW (8 * 7 + VEC_SIZE * 8)
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#else
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/* X86-64 saves RCX, RDX, RSI, RDI, R8 and R9 plus RAX as well as
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BND0, BND1, BND2, BND3 and VEC0 to VEC7. */
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# define REGISTER_SAVE_AREA_RAW (8 * 7 + 16 * 4 + VEC_SIZE * 8)
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#endif
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#undef REGISTER_SAVE_AREA
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#undef LOCAL_STORAGE_AREA
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#undef BASE
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#if DL_RUNTIME_RESOLVE_REALIGN_STACK
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# define REGISTER_SAVE_AREA (REGISTER_SAVE_AREA_RAW + 8)
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/* Local stack area before jumping to function address: RBX. */
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# define LOCAL_STORAGE_AREA 8
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# define BASE rbx
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# if (REGISTER_SAVE_AREA % VEC_SIZE) != 0
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# error REGISTER_SAVE_AREA must be multples of VEC_SIZE
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# endif
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#else
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# define REGISTER_SAVE_AREA REGISTER_SAVE_AREA_RAW
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/* Local stack area before jumping to function address: All saved
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registers. */
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# define LOCAL_STORAGE_AREA REGISTER_SAVE_AREA
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# define BASE rsp
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# if (REGISTER_SAVE_AREA % 16) != 8
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# error REGISTER_SAVE_AREA must be odd multples of 8
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# endif
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#endif
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.text
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#ifdef _dl_runtime_resolve_opt
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/* Use the smallest vector registers to preserve the full YMM/ZMM
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registers to avoid SSE transition penalty. */
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# if VEC_SIZE == 32
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/* Check if the upper 128 bits in %ymm0 - %ymm7 registers are non-zero
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and preserve %xmm0 - %xmm7 registers with the zero upper bits. Since
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there is no SSE transition penalty on AVX512 processors which don't
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support XGETBV with ECX == 1, _dl_runtime_resolve_avx512_slow isn't
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provided. */
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.globl _dl_runtime_resolve_avx_slow
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.hidden _dl_runtime_resolve_avx_slow
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.type _dl_runtime_resolve_avx_slow, @function
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.align 16
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_dl_runtime_resolve_avx_slow:
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cfi_startproc
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cfi_adjust_cfa_offset(16) # Incorporate PLT
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vorpd %ymm0, %ymm1, %ymm8
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vorpd %ymm2, %ymm3, %ymm9
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vorpd %ymm4, %ymm5, %ymm10
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vorpd %ymm6, %ymm7, %ymm11
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vorpd %ymm8, %ymm9, %ymm9
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vorpd %ymm10, %ymm11, %ymm10
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vpcmpeqd %xmm8, %xmm8, %xmm8
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vorpd %ymm9, %ymm10, %ymm10
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vptest %ymm10, %ymm8
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# Preserve %ymm0 - %ymm7 registers if the upper 128 bits of any
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# %ymm0 - %ymm7 registers aren't zero.
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PRESERVE_BND_REGS_PREFIX
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jnc _dl_runtime_resolve_avx
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# Use vzeroupper to avoid SSE transition penalty.
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vzeroupper
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# Preserve %xmm0 - %xmm7 registers with the zero upper 128 bits
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# when the upper 128 bits of %ymm0 - %ymm7 registers are zero.
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PRESERVE_BND_REGS_PREFIX
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jmp _dl_runtime_resolve_sse_vex
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cfi_adjust_cfa_offset(-16) # Restore PLT adjustment
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cfi_endproc
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.size _dl_runtime_resolve_avx_slow, .-_dl_runtime_resolve_avx_slow
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# endif
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/* Use XGETBV with ECX == 1 to check which bits in vector registers are
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non-zero and only preserve the non-zero lower bits with zero upper
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bits. */
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.globl _dl_runtime_resolve_opt
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.hidden _dl_runtime_resolve_opt
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.type _dl_runtime_resolve_opt, @function
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.align 16
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_dl_runtime_resolve_opt:
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cfi_startproc
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cfi_adjust_cfa_offset(16) # Incorporate PLT
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pushq %rax
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cfi_adjust_cfa_offset(8)
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cfi_rel_offset(%rax, 0)
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pushq %rcx
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cfi_adjust_cfa_offset(8)
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cfi_rel_offset(%rcx, 0)
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pushq %rdx
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cfi_adjust_cfa_offset(8)
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cfi_rel_offset(%rdx, 0)
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movl $1, %ecx
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xgetbv
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movl %eax, %r11d
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popq %rdx
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cfi_adjust_cfa_offset(-8)
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cfi_restore (%rdx)
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popq %rcx
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cfi_adjust_cfa_offset(-8)
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cfi_restore (%rcx)
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popq %rax
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cfi_adjust_cfa_offset(-8)
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cfi_restore (%rax)
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# if VEC_SIZE == 32
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# For YMM registers, check if YMM state is in use.
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andl $bit_YMM_state, %r11d
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# Preserve %xmm0 - %xmm7 registers with the zero upper 128 bits if
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# YMM state isn't in use.
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PRESERVE_BND_REGS_PREFIX
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jz _dl_runtime_resolve_sse_vex
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# elif VEC_SIZE == 64
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# For ZMM registers, check if YMM state and ZMM state are in
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# use.
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andl $(bit_YMM_state | bit_ZMM0_15_state), %r11d
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cmpl $bit_YMM_state, %r11d
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# Preserve %xmm0 - %xmm7 registers with the zero upper 384 bits if
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# neither YMM state nor ZMM state are in use.
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PRESERVE_BND_REGS_PREFIX
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jl _dl_runtime_resolve_sse_vex
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# Preserve %ymm0 - %ymm7 registers with the zero upper 256 bits if
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# ZMM state isn't in use.
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PRESERVE_BND_REGS_PREFIX
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je _dl_runtime_resolve_avx
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# else
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# error Unsupported VEC_SIZE!
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# endif
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cfi_adjust_cfa_offset(-16) # Restore PLT adjustment
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cfi_endproc
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.size _dl_runtime_resolve_opt, .-_dl_runtime_resolve_opt
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#endif
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.globl _dl_runtime_resolve
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.hidden _dl_runtime_resolve
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.type _dl_runtime_resolve, @function
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.align 16
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cfi_startproc
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_dl_runtime_resolve:
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cfi_adjust_cfa_offset(16) # Incorporate PLT
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#if DL_RUNTIME_RESOLVE_REALIGN_STACK
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# if LOCAL_STORAGE_AREA != 8
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# error LOCAL_STORAGE_AREA must be 8
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# endif
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pushq %rbx # push subtracts stack by 8.
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cfi_adjust_cfa_offset(8)
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cfi_rel_offset(%rbx, 0)
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mov %RSP_LP, %RBX_LP
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cfi_def_cfa_register(%rbx)
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and $-VEC_SIZE, %RSP_LP
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#endif
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sub $REGISTER_SAVE_AREA, %RSP_LP
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#if !DL_RUNTIME_RESOLVE_REALIGN_STACK
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cfi_adjust_cfa_offset(REGISTER_SAVE_AREA)
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#endif
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# Preserve registers otherwise clobbered.
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movq %rax, REGISTER_SAVE_RAX(%rsp)
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movq %rcx, REGISTER_SAVE_RCX(%rsp)
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movq %rdx, REGISTER_SAVE_RDX(%rsp)
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movq %rsi, REGISTER_SAVE_RSI(%rsp)
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movq %rdi, REGISTER_SAVE_RDI(%rsp)
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movq %r8, REGISTER_SAVE_R8(%rsp)
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movq %r9, REGISTER_SAVE_R9(%rsp)
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VMOV %VEC(0), (REGISTER_SAVE_VEC_OFF)(%rsp)
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VMOV %VEC(1), (REGISTER_SAVE_VEC_OFF + VEC_SIZE)(%rsp)
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VMOV %VEC(2), (REGISTER_SAVE_VEC_OFF + VEC_SIZE * 2)(%rsp)
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VMOV %VEC(3), (REGISTER_SAVE_VEC_OFF + VEC_SIZE * 3)(%rsp)
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VMOV %VEC(4), (REGISTER_SAVE_VEC_OFF + VEC_SIZE * 4)(%rsp)
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VMOV %VEC(5), (REGISTER_SAVE_VEC_OFF + VEC_SIZE * 5)(%rsp)
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VMOV %VEC(6), (REGISTER_SAVE_VEC_OFF + VEC_SIZE * 6)(%rsp)
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VMOV %VEC(7), (REGISTER_SAVE_VEC_OFF + VEC_SIZE * 7)(%rsp)
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#ifndef __ILP32__
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# We also have to preserve bound registers. These are nops if
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# Intel MPX isn't available or disabled.
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# ifdef HAVE_MPX_SUPPORT
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bndmov %bnd0, REGISTER_SAVE_BND0(%rsp)
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bndmov %bnd1, REGISTER_SAVE_BND1(%rsp)
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bndmov %bnd2, REGISTER_SAVE_BND2(%rsp)
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bndmov %bnd3, REGISTER_SAVE_BND3(%rsp)
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# else
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# if REGISTER_SAVE_BND0 == 0
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.byte 0x66,0x0f,0x1b,0x04,0x24
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# else
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.byte 0x66,0x0f,0x1b,0x44,0x24,REGISTER_SAVE_BND0
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# endif
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.byte 0x66,0x0f,0x1b,0x4c,0x24,REGISTER_SAVE_BND1
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.byte 0x66,0x0f,0x1b,0x54,0x24,REGISTER_SAVE_BND2
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.byte 0x66,0x0f,0x1b,0x5c,0x24,REGISTER_SAVE_BND3
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# endif
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#endif
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# Copy args pushed by PLT in register.
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# %rdi: link_map, %rsi: reloc_index
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mov (LOCAL_STORAGE_AREA + 8)(%BASE), %RSI_LP
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mov LOCAL_STORAGE_AREA(%BASE), %RDI_LP
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call _dl_fixup # Call resolver.
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mov %RAX_LP, %R11_LP # Save return value
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#ifndef __ILP32__
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# Restore bound registers. These are nops if Intel MPX isn't
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# avaiable or disabled.
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# ifdef HAVE_MPX_SUPPORT
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bndmov REGISTER_SAVE_BND3(%rsp), %bnd3
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bndmov REGISTER_SAVE_BND2(%rsp), %bnd2
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bndmov REGISTER_SAVE_BND1(%rsp), %bnd1
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bndmov REGISTER_SAVE_BND0(%rsp), %bnd0
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# else
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.byte 0x66,0x0f,0x1a,0x5c,0x24,REGISTER_SAVE_BND3
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.byte 0x66,0x0f,0x1a,0x54,0x24,REGISTER_SAVE_BND2
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.byte 0x66,0x0f,0x1a,0x4c,0x24,REGISTER_SAVE_BND1
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# if REGISTER_SAVE_BND0 == 0
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.byte 0x66,0x0f,0x1a,0x04,0x24
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# else
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.byte 0x66,0x0f,0x1a,0x44,0x24,REGISTER_SAVE_BND0
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# endif
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# endif
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#endif
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# Get register content back.
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movq REGISTER_SAVE_R9(%rsp), %r9
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movq REGISTER_SAVE_R8(%rsp), %r8
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movq REGISTER_SAVE_RDI(%rsp), %rdi
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movq REGISTER_SAVE_RSI(%rsp), %rsi
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movq REGISTER_SAVE_RDX(%rsp), %rdx
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movq REGISTER_SAVE_RCX(%rsp), %rcx
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movq REGISTER_SAVE_RAX(%rsp), %rax
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VMOV (REGISTER_SAVE_VEC_OFF)(%rsp), %VEC(0)
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VMOV (REGISTER_SAVE_VEC_OFF + VEC_SIZE)(%rsp), %VEC(1)
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VMOV (REGISTER_SAVE_VEC_OFF + VEC_SIZE * 2)(%rsp), %VEC(2)
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VMOV (REGISTER_SAVE_VEC_OFF + VEC_SIZE * 3)(%rsp), %VEC(3)
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VMOV (REGISTER_SAVE_VEC_OFF + VEC_SIZE * 4)(%rsp), %VEC(4)
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VMOV (REGISTER_SAVE_VEC_OFF + VEC_SIZE * 5)(%rsp), %VEC(5)
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VMOV (REGISTER_SAVE_VEC_OFF + VEC_SIZE * 6)(%rsp), %VEC(6)
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VMOV (REGISTER_SAVE_VEC_OFF + VEC_SIZE * 7)(%rsp), %VEC(7)
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#if DL_RUNTIME_RESOLVE_REALIGN_STACK
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mov %RBX_LP, %RSP_LP
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cfi_def_cfa_register(%rsp)
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movq (%rsp), %rbx
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cfi_restore(%rbx)
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#endif
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# Adjust stack(PLT did 2 pushes)
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add $(LOCAL_STORAGE_AREA + 16), %RSP_LP
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cfi_adjust_cfa_offset(-(LOCAL_STORAGE_AREA + 16))
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# Preserve bound registers.
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PRESERVE_BND_REGS_PREFIX
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jmp *%r11 # Jump to function address.
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cfi_endproc
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.size _dl_runtime_resolve, .-_dl_runtime_resolve
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/* To preserve %xmm0 - %xmm7 registers, dl-trampoline.h is included
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twice, for _dl_runtime_resolve_sse and _dl_runtime_resolve_sse_vex.
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But we don't need another _dl_runtime_profile for XMM registers. */
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#if !defined PROF && defined _dl_runtime_profile
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# if (LR_VECTOR_OFFSET % VEC_SIZE) != 0
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# error LR_VECTOR_OFFSET must be multples of VEC_SIZE
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# endif
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.globl _dl_runtime_profile
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.hidden _dl_runtime_profile
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.type _dl_runtime_profile, @function
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.align 16
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_dl_runtime_profile:
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cfi_startproc
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cfi_adjust_cfa_offset(16) # Incorporate PLT
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/* The La_x86_64_regs data structure pointed to by the
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fourth paramater must be VEC_SIZE-byte aligned. This must
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be explicitly enforced. We have the set up a dynamically
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sized stack frame. %rbx points to the top half which
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has a fixed size and preserves the original stack pointer. */
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sub $32, %RSP_LP # Allocate the local storage.
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cfi_adjust_cfa_offset(32)
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movq %rbx, (%rsp)
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cfi_rel_offset(%rbx, 0)
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/* On the stack:
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56(%rbx) parameter #1
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48(%rbx) return address
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40(%rbx) reloc index
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32(%rbx) link_map
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24(%rbx) La_x86_64_regs pointer
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16(%rbx) framesize
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8(%rbx) rax
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(%rbx) rbx
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*/
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movq %rax, 8(%rsp)
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mov %RSP_LP, %RBX_LP
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cfi_def_cfa_register(%rbx)
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/* Actively align the La_x86_64_regs structure. */
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and $-VEC_SIZE, %RSP_LP
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/* sizeof(La_x86_64_regs). Need extra space for 8 SSE registers
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to detect if any xmm0-xmm7 registers are changed by audit
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module. */
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sub $(LR_SIZE + XMM_SIZE*8), %RSP_LP
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movq %rsp, 24(%rbx)
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/* Fill the La_x86_64_regs structure. */
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movq %rdx, LR_RDX_OFFSET(%rsp)
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movq %r8, LR_R8_OFFSET(%rsp)
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movq %r9, LR_R9_OFFSET(%rsp)
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movq %rcx, LR_RCX_OFFSET(%rsp)
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movq %rsi, LR_RSI_OFFSET(%rsp)
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movq %rdi, LR_RDI_OFFSET(%rsp)
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movq %rbp, LR_RBP_OFFSET(%rsp)
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lea 48(%rbx), %RAX_LP
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movq %rax, LR_RSP_OFFSET(%rsp)
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/* We always store the XMM registers even if AVX is available.
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This is to provide backward binary compatibility for existing
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audit modules. */
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movaps %xmm0, (LR_XMM_OFFSET)(%rsp)
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movaps %xmm1, (LR_XMM_OFFSET + XMM_SIZE)(%rsp)
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movaps %xmm2, (LR_XMM_OFFSET + XMM_SIZE*2)(%rsp)
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movaps %xmm3, (LR_XMM_OFFSET + XMM_SIZE*3)(%rsp)
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movaps %xmm4, (LR_XMM_OFFSET + XMM_SIZE*4)(%rsp)
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movaps %xmm5, (LR_XMM_OFFSET + XMM_SIZE*5)(%rsp)
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movaps %xmm6, (LR_XMM_OFFSET + XMM_SIZE*6)(%rsp)
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movaps %xmm7, (LR_XMM_OFFSET + XMM_SIZE*7)(%rsp)
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# ifndef __ILP32__
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# ifdef HAVE_MPX_SUPPORT
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bndmov %bnd0, (LR_BND_OFFSET)(%rsp) # Preserve bound
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bndmov %bnd1, (LR_BND_OFFSET + BND_SIZE)(%rsp) # registers. Nops if
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bndmov %bnd2, (LR_BND_OFFSET + BND_SIZE*2)(%rsp) # MPX not available
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bndmov %bnd3, (LR_BND_OFFSET + BND_SIZE*3)(%rsp) # or disabled.
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# else
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.byte 0x66,0x0f,0x1b,0x84,0x24;.long (LR_BND_OFFSET)
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|
.byte 0x66,0x0f,0x1b,0x8c,0x24;.long (LR_BND_OFFSET + BND_SIZE)
|
|
.byte 0x66,0x0f,0x1b,0x94,0x24;.long (LR_BND_OFFSET + BND_SIZE*2)
|
|
.byte 0x66,0x0f,0x1b,0x9c,0x24;.long (LR_BND_OFFSET + BND_SIZE*3)
|
|
# endif
|
|
# endif
|
|
|
|
# ifdef RESTORE_AVX
|
|
/* This is to support AVX audit modules. */
|
|
VMOVA %VEC(0), (LR_VECTOR_OFFSET)(%rsp)
|
|
VMOVA %VEC(1), (LR_VECTOR_OFFSET + VECTOR_SIZE)(%rsp)
|
|
VMOVA %VEC(2), (LR_VECTOR_OFFSET + VECTOR_SIZE*2)(%rsp)
|
|
VMOVA %VEC(3), (LR_VECTOR_OFFSET + VECTOR_SIZE*3)(%rsp)
|
|
VMOVA %VEC(4), (LR_VECTOR_OFFSET + VECTOR_SIZE*4)(%rsp)
|
|
VMOVA %VEC(5), (LR_VECTOR_OFFSET + VECTOR_SIZE*5)(%rsp)
|
|
VMOVA %VEC(6), (LR_VECTOR_OFFSET + VECTOR_SIZE*6)(%rsp)
|
|
VMOVA %VEC(7), (LR_VECTOR_OFFSET + VECTOR_SIZE*7)(%rsp)
|
|
|
|
/* Save xmm0-xmm7 registers to detect if any of them are
|
|
changed by audit module. */
|
|
vmovdqa %xmm0, (LR_SIZE)(%rsp)
|
|
vmovdqa %xmm1, (LR_SIZE + XMM_SIZE)(%rsp)
|
|
vmovdqa %xmm2, (LR_SIZE + XMM_SIZE*2)(%rsp)
|
|
vmovdqa %xmm3, (LR_SIZE + XMM_SIZE*3)(%rsp)
|
|
vmovdqa %xmm4, (LR_SIZE + XMM_SIZE*4)(%rsp)
|
|
vmovdqa %xmm5, (LR_SIZE + XMM_SIZE*5)(%rsp)
|
|
vmovdqa %xmm6, (LR_SIZE + XMM_SIZE*6)(%rsp)
|
|
vmovdqa %xmm7, (LR_SIZE + XMM_SIZE*7)(%rsp)
|
|
# endif
|
|
|
|
mov %RSP_LP, %RCX_LP # La_x86_64_regs pointer to %rcx.
|
|
mov 48(%rbx), %RDX_LP # Load return address if needed.
|
|
mov 40(%rbx), %RSI_LP # Copy args pushed by PLT in register.
|
|
mov 32(%rbx), %RDI_LP # %rdi: link_map, %rsi: reloc_index
|
|
lea 16(%rbx), %R8_LP # Address of framesize
|
|
call _dl_profile_fixup # Call resolver.
|
|
|
|
mov %RAX_LP, %R11_LP # Save return value.
|
|
|
|
movq 8(%rbx), %rax # Get back register content.
|
|
movq LR_RDX_OFFSET(%rsp), %rdx
|
|
movq LR_R8_OFFSET(%rsp), %r8
|
|
movq LR_R9_OFFSET(%rsp), %r9
|
|
|
|
movaps (LR_XMM_OFFSET)(%rsp), %xmm0
|
|
movaps (LR_XMM_OFFSET + XMM_SIZE)(%rsp), %xmm1
|
|
movaps (LR_XMM_OFFSET + XMM_SIZE*2)(%rsp), %xmm2
|
|
movaps (LR_XMM_OFFSET + XMM_SIZE*3)(%rsp), %xmm3
|
|
movaps (LR_XMM_OFFSET + XMM_SIZE*4)(%rsp), %xmm4
|
|
movaps (LR_XMM_OFFSET + XMM_SIZE*5)(%rsp), %xmm5
|
|
movaps (LR_XMM_OFFSET + XMM_SIZE*6)(%rsp), %xmm6
|
|
movaps (LR_XMM_OFFSET + XMM_SIZE*7)(%rsp), %xmm7
|
|
|
|
# ifdef RESTORE_AVX
|
|
/* Check if any xmm0-xmm7 registers are changed by audit
|
|
module. */
|
|
vpcmpeqq (LR_SIZE)(%rsp), %xmm0, %xmm8
|
|
vpmovmskb %xmm8, %esi
|
|
cmpl $0xffff, %esi
|
|
je 2f
|
|
vmovdqa %xmm0, (LR_VECTOR_OFFSET)(%rsp)
|
|
jmp 1f
|
|
2: VMOVA (LR_VECTOR_OFFSET)(%rsp), %VEC(0)
|
|
vmovdqa %xmm0, (LR_XMM_OFFSET)(%rsp)
|
|
|
|
1: vpcmpeqq (LR_SIZE + XMM_SIZE)(%rsp), %xmm1, %xmm8
|
|
vpmovmskb %xmm8, %esi
|
|
cmpl $0xffff, %esi
|
|
je 2f
|
|
vmovdqa %xmm1, (LR_VECTOR_OFFSET + VECTOR_SIZE)(%rsp)
|
|
jmp 1f
|
|
2: VMOVA (LR_VECTOR_OFFSET + VECTOR_SIZE)(%rsp), %VEC(1)
|
|
vmovdqa %xmm1, (LR_XMM_OFFSET + XMM_SIZE)(%rsp)
|
|
|
|
1: vpcmpeqq (LR_SIZE + XMM_SIZE*2)(%rsp), %xmm2, %xmm8
|
|
vpmovmskb %xmm8, %esi
|
|
cmpl $0xffff, %esi
|
|
je 2f
|
|
vmovdqa %xmm2, (LR_VECTOR_OFFSET + VECTOR_SIZE*2)(%rsp)
|
|
jmp 1f
|
|
2: VMOVA (LR_VECTOR_OFFSET + VECTOR_SIZE*2)(%rsp), %VEC(2)
|
|
vmovdqa %xmm2, (LR_XMM_OFFSET + XMM_SIZE*2)(%rsp)
|
|
|
|
1: vpcmpeqq (LR_SIZE + XMM_SIZE*3)(%rsp), %xmm3, %xmm8
|
|
vpmovmskb %xmm8, %esi
|
|
cmpl $0xffff, %esi
|
|
je 2f
|
|
vmovdqa %xmm3, (LR_VECTOR_OFFSET + VECTOR_SIZE*3)(%rsp)
|
|
jmp 1f
|
|
2: VMOVA (LR_VECTOR_OFFSET + VECTOR_SIZE*3)(%rsp), %VEC(3)
|
|
vmovdqa %xmm3, (LR_XMM_OFFSET + XMM_SIZE*3)(%rsp)
|
|
|
|
1: vpcmpeqq (LR_SIZE + XMM_SIZE*4)(%rsp), %xmm4, %xmm8
|
|
vpmovmskb %xmm8, %esi
|
|
cmpl $0xffff, %esi
|
|
je 2f
|
|
vmovdqa %xmm4, (LR_VECTOR_OFFSET + VECTOR_SIZE*4)(%rsp)
|
|
jmp 1f
|
|
2: VMOVA (LR_VECTOR_OFFSET + VECTOR_SIZE*4)(%rsp), %VEC(4)
|
|
vmovdqa %xmm4, (LR_XMM_OFFSET + XMM_SIZE*4)(%rsp)
|
|
|
|
1: vpcmpeqq (LR_SIZE + XMM_SIZE*5)(%rsp), %xmm5, %xmm8
|
|
vpmovmskb %xmm8, %esi
|
|
cmpl $0xffff, %esi
|
|
je 2f
|
|
vmovdqa %xmm5, (LR_VECTOR_OFFSET + VECTOR_SIZE*5)(%rsp)
|
|
jmp 1f
|
|
2: VMOVA (LR_VECTOR_OFFSET + VECTOR_SIZE*5)(%rsp), %VEC(5)
|
|
vmovdqa %xmm5, (LR_XMM_OFFSET + XMM_SIZE*5)(%rsp)
|
|
|
|
1: vpcmpeqq (LR_SIZE + XMM_SIZE*6)(%rsp), %xmm6, %xmm8
|
|
vpmovmskb %xmm8, %esi
|
|
cmpl $0xffff, %esi
|
|
je 2f
|
|
vmovdqa %xmm6, (LR_VECTOR_OFFSET + VECTOR_SIZE*6)(%rsp)
|
|
jmp 1f
|
|
2: VMOVA (LR_VECTOR_OFFSET + VECTOR_SIZE*6)(%rsp), %VEC(6)
|
|
vmovdqa %xmm6, (LR_XMM_OFFSET + XMM_SIZE*6)(%rsp)
|
|
|
|
1: vpcmpeqq (LR_SIZE + XMM_SIZE*7)(%rsp), %xmm7, %xmm8
|
|
vpmovmskb %xmm8, %esi
|
|
cmpl $0xffff, %esi
|
|
je 2f
|
|
vmovdqa %xmm7, (LR_VECTOR_OFFSET + VECTOR_SIZE*7)(%rsp)
|
|
jmp 1f
|
|
2: VMOVA (LR_VECTOR_OFFSET + VECTOR_SIZE*7)(%rsp), %VEC(7)
|
|
vmovdqa %xmm7, (LR_XMM_OFFSET + XMM_SIZE*7)(%rsp)
|
|
|
|
1:
|
|
# endif
|
|
|
|
# ifndef __ILP32__
|
|
# ifdef HAVE_MPX_SUPPORT
|
|
bndmov (LR_BND_OFFSET)(%rsp), %bnd0 # Restore bound
|
|
bndmov (LR_BND_OFFSET + BND_SIZE)(%rsp), %bnd1 # registers.
|
|
bndmov (LR_BND_OFFSET + BND_SIZE*2)(%rsp), %bnd2
|
|
bndmov (LR_BND_OFFSET + BND_SIZE*3)(%rsp), %bnd3
|
|
# else
|
|
.byte 0x66,0x0f,0x1a,0x84,0x24;.long (LR_BND_OFFSET)
|
|
.byte 0x66,0x0f,0x1a,0x8c,0x24;.long (LR_BND_OFFSET + BND_SIZE)
|
|
.byte 0x66,0x0f,0x1a,0x94,0x24;.long (LR_BND_OFFSET + BND_SIZE*2)
|
|
.byte 0x66,0x0f,0x1a,0x9c,0x24;.long (LR_BND_OFFSET + BND_SIZE*3)
|
|
# endif
|
|
# endif
|
|
|
|
mov 16(%rbx), %R10_LP # Anything in framesize?
|
|
test %R10_LP, %R10_LP
|
|
PRESERVE_BND_REGS_PREFIX
|
|
jns 3f
|
|
|
|
/* There's nothing in the frame size, so there
|
|
will be no call to the _dl_call_pltexit. */
|
|
|
|
/* Get back registers content. */
|
|
movq LR_RCX_OFFSET(%rsp), %rcx
|
|
movq LR_RSI_OFFSET(%rsp), %rsi
|
|
movq LR_RDI_OFFSET(%rsp), %rdi
|
|
|
|
mov %RBX_LP, %RSP_LP
|
|
movq (%rsp), %rbx
|
|
cfi_restore(%rbx)
|
|
cfi_def_cfa_register(%rsp)
|
|
|
|
add $48, %RSP_LP # Adjust the stack to the return value
|
|
# (eats the reloc index and link_map)
|
|
cfi_adjust_cfa_offset(-48)
|
|
PRESERVE_BND_REGS_PREFIX
|
|
jmp *%r11 # Jump to function address.
|
|
|
|
3:
|
|
cfi_adjust_cfa_offset(48)
|
|
cfi_rel_offset(%rbx, 0)
|
|
cfi_def_cfa_register(%rbx)
|
|
|
|
/* At this point we need to prepare new stack for the function
|
|
which has to be called. We copy the original stack to a
|
|
temporary buffer of the size specified by the 'framesize'
|
|
returned from _dl_profile_fixup */
|
|
|
|
lea LR_RSP_OFFSET(%rbx), %RSI_LP # stack
|
|
add $8, %R10_LP
|
|
and $-16, %R10_LP
|
|
mov %R10_LP, %RCX_LP
|
|
sub %R10_LP, %RSP_LP
|
|
mov %RSP_LP, %RDI_LP
|
|
shr $3, %RCX_LP
|
|
rep
|
|
movsq
|
|
|
|
movq 24(%rdi), %rcx # Get back register content.
|
|
movq 32(%rdi), %rsi
|
|
movq 40(%rdi), %rdi
|
|
|
|
PRESERVE_BND_REGS_PREFIX
|
|
call *%r11
|
|
|
|
mov 24(%rbx), %RSP_LP # Drop the copied stack content
|
|
|
|
/* Now we have to prepare the La_x86_64_retval structure for the
|
|
_dl_call_pltexit. The La_x86_64_regs is being pointed by rsp now,
|
|
so we just need to allocate the sizeof(La_x86_64_retval) space on
|
|
the stack, since the alignment has already been taken care of. */
|
|
# ifdef RESTORE_AVX
|
|
/* sizeof(La_x86_64_retval). Need extra space for 2 SSE
|
|
registers to detect if xmm0/xmm1 registers are changed
|
|
by audit module. */
|
|
sub $(LRV_SIZE + XMM_SIZE*2), %RSP_LP
|
|
# else
|
|
sub $LRV_SIZE, %RSP_LP # sizeof(La_x86_64_retval)
|
|
# endif
|
|
mov %RSP_LP, %RCX_LP # La_x86_64_retval argument to %rcx.
|
|
|
|
/* Fill in the La_x86_64_retval structure. */
|
|
movq %rax, LRV_RAX_OFFSET(%rcx)
|
|
movq %rdx, LRV_RDX_OFFSET(%rcx)
|
|
|
|
movaps %xmm0, LRV_XMM0_OFFSET(%rcx)
|
|
movaps %xmm1, LRV_XMM1_OFFSET(%rcx)
|
|
|
|
# ifdef RESTORE_AVX
|
|
/* This is to support AVX audit modules. */
|
|
VMOVA %VEC(0), LRV_VECTOR0_OFFSET(%rcx)
|
|
VMOVA %VEC(1), LRV_VECTOR1_OFFSET(%rcx)
|
|
|
|
/* Save xmm0/xmm1 registers to detect if they are changed
|
|
by audit module. */
|
|
vmovdqa %xmm0, (LRV_SIZE)(%rcx)
|
|
vmovdqa %xmm1, (LRV_SIZE + XMM_SIZE)(%rcx)
|
|
# endif
|
|
|
|
# ifndef __ILP32__
|
|
# ifdef HAVE_MPX_SUPPORT
|
|
bndmov %bnd0, LRV_BND0_OFFSET(%rcx) # Preserve returned bounds.
|
|
bndmov %bnd1, LRV_BND1_OFFSET(%rcx)
|
|
# else
|
|
.byte 0x66,0x0f,0x1b,0x81;.long (LRV_BND0_OFFSET)
|
|
.byte 0x66,0x0f,0x1b,0x89;.long (LRV_BND1_OFFSET)
|
|
# endif
|
|
# endif
|
|
|
|
fstpt LRV_ST0_OFFSET(%rcx)
|
|
fstpt LRV_ST1_OFFSET(%rcx)
|
|
|
|
movq 24(%rbx), %rdx # La_x86_64_regs argument to %rdx.
|
|
movq 40(%rbx), %rsi # Copy args pushed by PLT in register.
|
|
movq 32(%rbx), %rdi # %rdi: link_map, %rsi: reloc_index
|
|
call _dl_call_pltexit
|
|
|
|
/* Restore return registers. */
|
|
movq LRV_RAX_OFFSET(%rsp), %rax
|
|
movq LRV_RDX_OFFSET(%rsp), %rdx
|
|
|
|
movaps LRV_XMM0_OFFSET(%rsp), %xmm0
|
|
movaps LRV_XMM1_OFFSET(%rsp), %xmm1
|
|
|
|
# ifdef RESTORE_AVX
|
|
/* Check if xmm0/xmm1 registers are changed by audit module. */
|
|
vpcmpeqq (LRV_SIZE)(%rsp), %xmm0, %xmm2
|
|
vpmovmskb %xmm2, %esi
|
|
cmpl $0xffff, %esi
|
|
jne 1f
|
|
VMOVA LRV_VECTOR0_OFFSET(%rsp), %VEC(0)
|
|
|
|
1: vpcmpeqq (LRV_SIZE + XMM_SIZE)(%rsp), %xmm1, %xmm2
|
|
vpmovmskb %xmm2, %esi
|
|
cmpl $0xffff, %esi
|
|
jne 1f
|
|
VMOVA LRV_VECTOR1_OFFSET(%rsp), %VEC(1)
|
|
|
|
1:
|
|
# endif
|
|
|
|
# ifndef __ILP32__
|
|
# ifdef HAVE_MPX_SUPPORT
|
|
bndmov LRV_BND0_OFFSET(%rsp), %bnd0 # Restore bound registers.
|
|
bndmov LRV_BND1_OFFSET(%rsp), %bnd1
|
|
# else
|
|
.byte 0x66,0x0f,0x1a,0x84,0x24;.long (LRV_BND0_OFFSET)
|
|
.byte 0x66,0x0f,0x1a,0x8c,0x24;.long (LRV_BND1_OFFSET)
|
|
# endif
|
|
# endif
|
|
|
|
fldt LRV_ST1_OFFSET(%rsp)
|
|
fldt LRV_ST0_OFFSET(%rsp)
|
|
|
|
mov %RBX_LP, %RSP_LP
|
|
movq (%rsp), %rbx
|
|
cfi_restore(%rbx)
|
|
cfi_def_cfa_register(%rsp)
|
|
|
|
add $48, %RSP_LP # Adjust the stack to the return value
|
|
# (eats the reloc index and link_map)
|
|
cfi_adjust_cfa_offset(-48)
|
|
PRESERVE_BND_REGS_PREFIX
|
|
retq
|
|
|
|
cfi_endproc
|
|
.size _dl_runtime_profile, .-_dl_runtime_profile
|
|
#endif
|