glibc/sysdeps/s390/s390-32/dl-trampoline.h
Adhemerval Zanella a8e211daea elf: Add _dl_audit_pltexit
It consolidates the code required to call la_pltexit audit
callback.

Checked on x86_64-linux-gnu, i686-linux-gnu, and aarch64-linux-gnu.

Reviewed-by: Florian Weimer <fweimer@redhat.com>
(cherry picked from commit 8c0664e2b8)

Resolved conflicts:
	sysdeps/hppa/dl-runtime.c
2022-04-08 14:18:12 -04:00

337 lines
9.7 KiB
C

/* PLT trampolines. s390 version.
Copyright (C) 2016-2021 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, see
<https://www.gnu.org/licenses/>. */
/* This code is used in dl-runtime.c to call the `fixup' function
and then redirect to the address it returns. */
/* The PLT stubs will call _dl_runtime_resolve/_dl_runtime_profile
* with the following linkage:
* r2 - r6 : parameter registers
* f0, f2 : floating point parameter registers
* v24, v26, v28, v30, v25, v27, v29, v31 : vector parameter registers
* 24(r15), 28(r15) : PLT arguments PLT1, PLT2
* 96(r15) : additional stack parameters
* The slightly tightened normal clobber rules for function calls apply:
* r0 : call saved (for __fentry__)
* r1 - r5 : call clobbered
* r6 - r13 : call saved
* r14 : return address (call clobbered)
* r15 : stack pointer (call saved)
* f4, f6 : call saved
* f0 - f3, f5, f7 - f15 : call clobbered
* v0 - v3, v5, v7 - v15 : bytes 0-7 overlap with fprs: call clobbered
bytes 8-15: call clobbered
* v4, v6 : bytes 0-7 overlap with f4, f6: call saved
bytes 8-15: call clobbered
* v16 - v31 : call clobbered
*/
#define CFA_OFF 96
#define FRAME_OFF CFA_OFF + FRAME_SIZE
#define V24_OFF -224
#define V25_OFF -208
#define V26_OFF -192
#define V27_OFF -176
#define V28_OFF -160
#define V29_OFF -144
#define V30_OFF -128
#define V31_OFF -112
#define R0_OFF -76
#define PLT1_OFF -72
#define PLT2_OFF -68
#define R2_OFF -64
#define R3_OFF -60
#define R4_OFF -56
#define R5_OFF -52
#define R14_OFF -48
#define R15_OFF -44
#define F0_OFF -40
#define F2_OFF -32
.globl _dl_runtime_resolve
.type _dl_runtime_resolve, @function
cfi_startproc
.align 16
_dl_runtime_resolve:
st %r0,CFA_OFF+R0_OFF(%r15)
cfi_offset (r0, R0_OFF)
stm %r2,%r5,CFA_OFF+R2_OFF(%r15) # save registers
cfi_offset (r2, R2_OFF)
cfi_offset (r3, R3_OFF)
cfi_offset (r4, R4_OFF)
cfi_offset (r5, R5_OFF)
stm %r14,%r15,CFA_OFF+R14_OFF(%r15)
cfi_offset (r14, R14_OFF)
cfi_offset (r15, R15_OFF)
std %f0,CFA_OFF+F0_OFF(%r15)
cfi_offset (f0, F0_OFF)
std %f2,CFA_OFF+F2_OFF(%r15)
cfi_offset (f2, F2_OFF)
lr %r0,%r15
lm %r2,%r3,CFA_OFF+PLT1_OFF(%r15) # load args saved by PLT
#ifdef RESTORE_VRS
# define FRAME_SIZE (CFA_OFF + 128)
ahi %r15,-FRAME_SIZE # create stack frame
cfi_adjust_cfa_offset (FRAME_SIZE)
.machine push
.machine "z13"
.machinemode "zarch_nohighgprs"
vstm %v24,%v31,FRAME_OFF+V24_OFF(%r15) # save call-clobbered vr args
cfi_offset (v24, V24_OFF)
cfi_offset (v25, V25_OFF)
cfi_offset (v26, V26_OFF)
cfi_offset (v27, V27_OFF)
cfi_offset (v28, V28_OFF)
cfi_offset (v29, V29_OFF)
cfi_offset (v30, V30_OFF)
cfi_offset (v31, V31_OFF)
.machine pop
#else
# define FRAME_SIZE CFA_OFF
ahi %r15,-FRAME_SIZE # create stack frame
cfi_adjust_cfa_offset (FRAME_SIZE)
#endif
st %r0,0(%r15) # write backchain
basr %r1,0
0: l %r14,1f-0b(%r1)
bas %r14,0(%r14,%r1) # call _dl_fixup
lr %r1,%r2 # function addr returned in r2
#ifdef RESTORE_VRS
.machine push
.machine "z13"
.machinemode "zarch_nohighgprs"
vlm %v24,%v31,FRAME_OFF+V24_OFF(%r15) # restore vector registers
.machine pop
#endif
lm %r14,%r15,FRAME_OFF+R14_OFF(%r15) # restore frame and registers
#undef FRAME_SIZE
cfi_def_cfa_offset (CFA_OFF)
ld %f0,CFA_OFF+F0_OFF(%r15)
ld %f2,CFA_OFF+F2_OFF(%r15)
lm %r2,%r5,CFA_OFF+R2_OFF(%r15)
l %r0,CFA_OFF+R0_OFF(%r15)
br %r1
1: .long _dl_fixup - 0b
cfi_endproc
.size _dl_runtime_resolve, .-_dl_runtime_resolve
#undef V24_OFF
#undef V25_OFF
#undef V26_OFF
#undef V27_OFF
#undef V28_OFF
#undef V29_OFF
#undef V30_OFF
#undef V31_OFF
#undef R0_OFF
#undef PLT1_OFF
#undef PLT2_OFF
#undef R2_OFF
#undef R3_OFF
#undef R4_OFF
#undef R5_OFF
#undef R14_OFF
#undef R15_OFF
#undef F0_OFF
#undef F2_OFF
#ifndef PROF
# define SIZEOF_STRUCT_LA_S390_32_REGS 168
# define REGS_OFF -264
# define R2_OFF -264
# define R3_OFF -260
# define R4_OFF -256
# define R5_OFF -252
# define R6_OFF -248
# define F0_OFF -240
# define F2_OFF -232
# define V24_OFF -224
# define V25_OFF -208
# define V26_OFF -192
# define V27_OFF -176
# define V28_OFF -160
# define V29_OFF -144
# define V30_OFF -128
# define V31_OFF -112
# define R0_OFF -88
# define R12_OFF -84
# define R14_OFF -80
# define FRAMESIZE_OFF -76
# define PLT1_OFF -72
# define PLT2_OFF -68
# define PREGS_OFF -64
# define RETVAL_OFF -56
# define RET_R2_OFF -56
# define RET_R3_OFF -52
# define RET_F0_OFF -48
# define RET_V24_OFF -40
.globl _dl_runtime_profile
.type _dl_runtime_profile, @function
cfi_startproc
.align 16
_dl_runtime_profile:
st %r0,CFA_OFF+R0_OFF(%r15)
cfi_offset (r0, R0_OFF)
st %r12,CFA_OFF+R12_OFF(%r15) # r12 is used as backup of r15
cfi_offset (r12, R12_OFF)
st %r14,CFA_OFF+R14_OFF(%r15)
cfi_offset (r14, R14_OFF)
lr %r12,%r15 # backup stack pointer
cfi_def_cfa_register (12)
# define FRAME_SIZE (CFA_OFF + SIZEOF_STRUCT_LA_S390_32_REGS)
ahi %r15,-FRAME_SIZE # create stack frame:
st %r12,0(%r15) # save backchain
stm %r2,%r6,FRAME_OFF+R2_OFF(%r15) # save registers
cfi_offset (r2, R2_OFF) # + r6 needed as arg for
cfi_offset (r3, R3_OFF) # _dl_profile_fixup
cfi_offset (r4, R4_OFF)
cfi_offset (r5, R5_OFF)
cfi_offset (r6, R6_OFF)
std %f0,FRAME_OFF+F0_OFF(%r15)
cfi_offset (f0, F0_OFF)
std %f2,FRAME_OFF+F2_OFF(%r15)
cfi_offset (f2, F2_OFF)
# ifdef RESTORE_VRS
.machine push
.machine "z13"
.machinemode "zarch_nohighgprs"
vstm %v24,%v31,FRAME_OFF+V24_OFF(%r15) # store call-clobbered
cfi_offset (v24, V24_OFF) # vr arguments
cfi_offset (v25, V25_OFF)
cfi_offset (v26, V26_OFF)
cfi_offset (v27, V27_OFF)
cfi_offset (v28, V28_OFF)
cfi_offset (v29, V29_OFF)
cfi_offset (v30, V30_OFF)
cfi_offset (v31, V31_OFF)
.machine pop
# endif
lm %r2,%r3,CFA_OFF+PLT1_OFF(%r12) # load arguments saved by PLT
lr %r4,%r14 # return address as third parm
basr %r1,0
0: l %r14,6f-0b(%r1)
la %r5,FRAME_OFF+REGS_OFF(%r15) # struct La_s390_32_regs *
la %r6,CFA_OFF+FRAMESIZE_OFF(%r12) # long int * framesize
bas %r14,0(%r14,%r1) # call resolver
lr %r1,%r2 # function addr returned in r2
ld %f0,FRAME_OFF+F0_OFF(%r15) # restore call-clobbered
ld %f2,FRAME_OFF+F2_OFF(%r15) # arg fprs
# ifdef RESTORE_VRS
.machine push
.machine "z13"
.machinemode "zarch_nohighgprs" # restore call-clobbered
vlm %v24,%v31,FRAME_OFF+V24_OFF(%r15)# arg vrs
.machine pop
# endif
icm %r0,15,CFA_OFF+FRAMESIZE_OFF(%r12) # load & test framesize
jnm 2f
# framesize < 0 means no
lm %r2,%r6,FRAME_OFF+R2_OFF(%r15) # pltexit call, so we can do a
# tail call without
# copying the arg overflow area
lr %r15,%r12 # remove stack frame
cfi_def_cfa_register (15)
l %r14,CFA_OFF+R14_OFF(%r15) # restore registers
l %r12,CFA_OFF+R12_OFF(%r15)
l %r0,CFA_OFF+R0_OFF(%r15)
br %r1 # tail call
cfi_def_cfa_register (12)
2: la %r4,FRAME_OFF+REGS_OFF(%r15) # struct La_s390_32_regs *
st %r4,CFA_OFF+PREGS_OFF(%r12)
jz 4f # framesize == 0 ?
ahi %r0,7 # align framesize to 8
lhi %r2,-8
nr %r0,%r2
slr %r15,%r0 # make room for framesize bytes
st %r12,0(%r15) # save backchain
la %r2,FRAME_OFF+REGS_OFF(%r15)
la %r3,CFA_OFF(%r12)
srl %r0,3
3: mvc 0(8,%r2),0(%r3) # copy additional parameters
la %r2,8(%r2)
la %r3,8(%r3)
brct %r0,3b
4: lm %r2,%r6,0(%r4) # load register parameters
basr %r14,%r1 # call resolved function
stm %r2,%r3,CFA_OFF+RET_R2_OFF(%r12) # store return vals r2, r3, f0
std %f0,CFA_OFF+RET_F0_OFF(%r12) # to struct La_s390_32_retval
# ifdef RESTORE_VRS
.machine push
.machine "z13"
vst %v24,CFA_OFF+RET_V24_OFF(%r12) # store return value v24
.machine pop
# endif
lm %r2,%r4,CFA_OFF+PLT1_OFF(%r12) # r2, r3: args saved by PLT
# r4: struct La_s390_32_regs *
basr %r1,0
5: l %r14,7f-5b(%r1)
la %r5,CFA_OFF+RETVAL_OFF(%r12) # struct La_s390_32_retval *
bas %r14,0(%r14,%r1) # call _dl_audit_pltexit
lr %r15,%r12 # remove stack frame
# undef FRAME_SIZE
cfi_def_cfa_register (15)
l %r14,CFA_OFF+R14_OFF(%r15) # restore registers
l %r12,CFA_OFF+R12_OFF(%r15)
l %r0,CFA_OFF+R0_OFF(%r15)
lm %r2,%r3,CFA_OFF+RET_R2_OFF(%r15) # restore return values
ld %f0,CFA_OFF+RET_F0_OFF(%r15)
# ifdef RESTORE_VRS
.machine push
.machine "z13"
vl %v24,CFA_OFF+RET_V24_OFF(%r15) # restore return value v24
.machine pop
# endif
br %r14
6: .long _dl_profile_fixup - 0b
7: .long _dl_audit_pltexit - 5b
cfi_endproc
.size _dl_runtime_profile, .-_dl_runtime_profile
# undef SIZEOF_STRUCT_LA_S390_32_REGS
# undef REGS_OFF
# undef R2_OFF
# undef R3_OFF
# undef R4_OFF
# undef R5_OFF
# undef R6_OFF
# undef F0_OFF
# undef F2_OFF
# undef V24_OFF
# undef V25_OFF
# undef V26_OFF
# undef V27_OFF
# undef V28_OFF
# undef V29_OFF
# undef V30_OFF
# undef V31_OFF
# undef R0_OFF
# undef R12_OFF
# undef R14_OFF
# undef FRAMESIZE_OFF
# undef PLT1_OFF
# undef PLT2_OFF
# undef PREGS_OFF
# undef RETVAL_OFF
# undef RET_R2_OFF
# undef RET_R3_OFF
# undef RET_F0_OFF
# undef RET_V24_OFF
#endif