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/* RISC-V PLT trampoline
Copyright (C) 2017-2024 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/>. */
#include <sysdep.h>
#include <sys/asm.h>
#include "dl-link.h"
/* Assembler veneer called from the PLT header code for lazy loading.
The PLT header passes its own args in t0-t2. */
#ifdef __riscv_float_abi_soft
# define FRAME_SIZE (-((-10 * SZREG) & ALMASK))
#else
# define FRAME_SIZE (-((-10 * SZREG - 8 * SZFREG) & ALMASK))
#endif
ENTRY (_dl_runtime_resolve)
# Save arguments to stack.
addi sp, sp, -FRAME_SIZE
REG_S ra, 9*SZREG(sp)
REG_S a0, 1*SZREG(sp)
REG_S a1, 2*SZREG(sp)
REG_S a2, 3*SZREG(sp)
REG_S a3, 4*SZREG(sp)
REG_S a4, 5*SZREG(sp)
REG_S a5, 6*SZREG(sp)
REG_S a6, 7*SZREG(sp)
REG_S a7, 8*SZREG(sp)
#ifndef __riscv_float_abi_soft
FREG_S fa0, (10*SZREG + 0*SZFREG)(sp)
FREG_S fa1, (10*SZREG + 1*SZFREG)(sp)
FREG_S fa2, (10*SZREG + 2*SZFREG)(sp)
FREG_S fa3, (10*SZREG + 3*SZFREG)(sp)
FREG_S fa4, (10*SZREG + 4*SZFREG)(sp)
FREG_S fa5, (10*SZREG + 5*SZFREG)(sp)
FREG_S fa6, (10*SZREG + 6*SZFREG)(sp)
FREG_S fa7, (10*SZREG + 7*SZFREG)(sp)
#endif
# Update .got.plt and obtain runtime address of callee.
slli a1, t1, 1
mv a0, t0 # link map
add a1, a1, t1 # reloc offset (== thrice the .got.plt offset)
la a2, _dl_fixup
jalr a2
mv t1, a0
# Restore arguments from stack.
REG_L ra, 9*SZREG(sp)
REG_L a0, 1*SZREG(sp)
REG_L a1, 2*SZREG(sp)
REG_L a2, 3*SZREG(sp)
REG_L a3, 4*SZREG(sp)
REG_L a4, 5*SZREG(sp)
REG_L a5, 6*SZREG(sp)
REG_L a6, 7*SZREG(sp)
REG_L a7, 8*SZREG(sp)
#ifndef __riscv_float_abi_soft
FREG_L fa0, (10*SZREG + 0*SZFREG)(sp)
FREG_L fa1, (10*SZREG + 1*SZFREG)(sp)
FREG_L fa2, (10*SZREG + 2*SZFREG)(sp)
FREG_L fa3, (10*SZREG + 3*SZFREG)(sp)
FREG_L fa4, (10*SZREG + 4*SZFREG)(sp)
FREG_L fa5, (10*SZREG + 5*SZFREG)(sp)
FREG_L fa6, (10*SZREG + 6*SZFREG)(sp)
FREG_L fa7, (10*SZREG + 7*SZFREG)(sp)
#endif
addi sp, sp, FRAME_SIZE
# Invoke the callee.
jr t1
END (_dl_runtime_resolve)
#if !defined PROF && defined SHARED
ENTRY (_dl_runtime_profile)
/* RISC-V we get called with:
t0 linkr_map pointer
t1 the scaled offset stored in t0, which can be used
to calculate the offset of the current symbol in .rela.plt
t2 %hi(%pcrel(.got.plt)) stored in t2, no use in this function
t3 dl resolver entry point, no use in this function
Stack frame layout with hard float:
RV64 RV32
[sp, #96] [sp, #48] La_riscv_regs
[sp, #48] [sp, #24] La_riscv_retval
[sp, #40] [sp, #20] frame size return from pltenter
[sp, #32] [sp, #16] dl_profile_call saved a1
[sp, #24] [sp, #12] dl_profile_call saved a0
[sp, #16] [sp, #8] T1
[sp, #0] [sp, #0] ra, fp <- fp
*/
# define OFFSET_T1 2*SZREG
# define OFFSET_SAVED_CALL_A0 OFFSET_T1 + SZREG
# define OFFSET_SAVED_CALL_A1 OFFSET_SAVED_CALL_A0 + SZREG
# define OFFSET_FS OFFSET_SAVED_CALL_A1 + SZREG
# define OFFSET_RV OFFSET_FS + SZREG
# define OFFSET_RG OFFSET_RV + DL_SIZEOF_RV
# define SF_SIZE (-(-(OFFSET_RG + DL_SIZEOF_RG) & ALMASK))
# Save arguments to stack.
add sp, sp, -SF_SIZE
REG_S ra, 0(sp)
REG_S fp, SZREG(sp)
mv fp, sp
REG_S a0, OFFSET_RG + DL_OFFSET_RG_A0 + 0*SZREG(fp)
REG_S a1, OFFSET_RG + DL_OFFSET_RG_A0 + 1*SZREG(fp)
REG_S a2, OFFSET_RG + DL_OFFSET_RG_A0 + 2*SZREG(fp)
REG_S a3, OFFSET_RG + DL_OFFSET_RG_A0 + 3*SZREG(fp)
REG_S a4, OFFSET_RG + DL_OFFSET_RG_A0 + 4*SZREG(fp)
REG_S a5, OFFSET_RG + DL_OFFSET_RG_A0 + 5*SZREG(fp)
REG_S a6, OFFSET_RG + DL_OFFSET_RG_A0 + 6*SZREG(fp)
REG_S a7, OFFSET_RG + DL_OFFSET_RG_A0 + 7*SZREG(fp)
#ifndef __riscv_float_abi_soft
FREG_S fa0, OFFSET_RG + DL_OFFSET_RG_FA0 + 0*SZFREG(fp)
FREG_S fa1, OFFSET_RG + DL_OFFSET_RG_FA0 + 1*SZFREG(fp)
FREG_S fa2, OFFSET_RG + DL_OFFSET_RG_FA0 + 2*SZFREG(fp)
FREG_S fa3, OFFSET_RG + DL_OFFSET_RG_FA0 + 3*SZFREG(fp)
FREG_S fa4, OFFSET_RG + DL_OFFSET_RG_FA0 + 4*SZFREG(fp)
FREG_S fa5, OFFSET_RG + DL_OFFSET_RG_FA0 + 5*SZFREG(fp)
FREG_S fa6, OFFSET_RG + DL_OFFSET_RG_FA0 + 6*SZFREG(fp)
FREG_S fa7, OFFSET_RG + DL_OFFSET_RG_FA0 + 7*SZFREG(fp)
#endif
# Update .got.plt and obtain runtime address of callee.
slli a1, t1, 1
mv a0, t0
add a1, a1, t1 # link map
mv a2, ra # return addr
addi a3, fp, OFFSET_RG # La_riscv_regs pointer
addi a4, fp, OFFSET_FS # frame size return from pltenter
REG_S a0, OFFSET_SAVED_CALL_A0(fp)
REG_S a1, OFFSET_SAVED_CALL_A1(fp)
la t2, _dl_profile_fixup
jalr t2
REG_L t3, OFFSET_FS(fp)
bgez t3, 1f
# Save the return.
mv t4, a0
# Restore arguments from stack.
REG_L a0, OFFSET_RG + DL_OFFSET_RG_A0 + 0*SZREG(fp)
REG_L a1, OFFSET_RG + DL_OFFSET_RG_A0 + 1*SZREG(fp)
REG_L a2, OFFSET_RG + DL_OFFSET_RG_A0 + 2*SZREG(fp)
REG_L a3, OFFSET_RG + DL_OFFSET_RG_A0 + 3*SZREG(fp)
REG_L a4, OFFSET_RG + DL_OFFSET_RG_A0 + 4*SZREG(fp)
REG_L a5, OFFSET_RG + DL_OFFSET_RG_A0 + 5*SZREG(fp)
REG_L a6, OFFSET_RG + DL_OFFSET_RG_A0 + 6*SZREG(fp)
REG_L a7, OFFSET_RG + DL_OFFSET_RG_A0 + 7*SZREG(fp)
#ifndef __riscv_float_abi_soft
FREG_L fa0, OFFSET_RG + DL_OFFSET_RG_FA0 + 0*SZFREG(fp)
FREG_L fa1, OFFSET_RG + DL_OFFSET_RG_FA0 + 1*SZFREG(fp)
FREG_L fa2, OFFSET_RG + DL_OFFSET_RG_FA0 + 2*SZFREG(fp)
FREG_L fa3, OFFSET_RG + DL_OFFSET_RG_FA0 + 3*SZFREG(fp)
FREG_L fa4, OFFSET_RG + DL_OFFSET_RG_FA0 + 4*SZFREG(fp)
FREG_L fa5, OFFSET_RG + DL_OFFSET_RG_FA0 + 5*SZFREG(fp)
FREG_L fa6, OFFSET_RG + DL_OFFSET_RG_FA0 + 6*SZFREG(fp)
FREG_L fa7, OFFSET_RG + DL_OFFSET_RG_FA0 + 7*SZFREG(fp)
#endif
REG_L ra, 0(fp)
REG_L fp, SZREG(fp)
addi sp, sp, SF_SIZE
jr t4
1:
# The new frame size is in t3.
sub sp, fp, t3
andi sp, sp, ALMASK
REG_S a0, OFFSET_T1(fp)
mv a0, sp
addi a1, fp, SF_SIZE
mv a2, t3
la t4, memcpy
jalr t4
REG_L t4, OFFSET_T1(fp)
# Call the function.
REG_L a0, OFFSET_RG + DL_OFFSET_RG_A0 + 0*SZREG(fp)
REG_L a1, OFFSET_RG + DL_OFFSET_RG_A0 + 1*SZREG(fp)
REG_L a2, OFFSET_RG + DL_OFFSET_RG_A0 + 2*SZREG(fp)
REG_L a3, OFFSET_RG + DL_OFFSET_RG_A0 + 3*SZREG(fp)
REG_L a4, OFFSET_RG + DL_OFFSET_RG_A0 + 4*SZREG(fp)
REG_L a5, OFFSET_RG + DL_OFFSET_RG_A0 + 5*SZREG(fp)
REG_L a6, OFFSET_RG + DL_OFFSET_RG_A0 + 6*SZREG(fp)
REG_L a7, OFFSET_RG + DL_OFFSET_RG_A0 + 7*SZREG(fp)
#ifndef __riscv_float_abi_soft
FREG_L fa0, OFFSET_RG + DL_OFFSET_RG_FA0 + 0*SZFREG(fp)
FREG_L fa1, OFFSET_RG + DL_OFFSET_RG_FA0 + 1*SZFREG(fp)
FREG_L fa2, OFFSET_RG + DL_OFFSET_RG_FA0 + 2*SZFREG(fp)
FREG_L fa3, OFFSET_RG + DL_OFFSET_RG_FA0 + 3*SZFREG(fp)
FREG_L fa4, OFFSET_RG + DL_OFFSET_RG_FA0 + 4*SZFREG(fp)
FREG_L fa5, OFFSET_RG + DL_OFFSET_RG_FA0 + 5*SZFREG(fp)
FREG_L fa6, OFFSET_RG + DL_OFFSET_RG_FA0 + 6*SZFREG(fp)
FREG_L fa7, OFFSET_RG + DL_OFFSET_RG_FA0 + 7*SZFREG(fp)
#endif
jalr t4
REG_S a0, OFFSET_SAVED_CALL_A0 + DL_OFFSET_RV_A0(fp)
REG_S a1, OFFSET_SAVED_CALL_A0 + DL_OFFSET_RV_A0 + SZREG(fp)
#ifndef __riscv_float_abi_soft
FREG_S fa0, OFFSET_SAVED_CALL_A0 + DL_OFFSET_RV_FA0(fp)
FREG_S fa1, OFFSET_SAVED_CALL_A0 + DL_OFFSET_RV_FA0 + SZFREG(fp)
#endif
# Setup call to pltexit.
REG_L a0, OFFSET_SAVED_CALL_A0(fp)
REG_L a1, OFFSET_SAVED_CALL_A0 + SZREG(fp)
addi a2, fp, OFFSET_RG
addi a3, fp, OFFSET_RV
la t4, _dl_audit_pltexit
jalr t4
REG_L a0, OFFSET_RV + DL_OFFSET_RV_A0(fp)
REG_L a1, OFFSET_RV + DL_OFFSET_RV_A0 + SZREG(fp)
#ifndef __riscv_float_abi_soft
FREG_L fa0, OFFSET_RV + DL_OFFSET_RV_FA0(fp)
FREG_L fa1, OFFSET_RV + DL_OFFSET_RV_FA0 + SZFREG(fp)
#endif
# RA from within La_riscv_reg.
REG_L ra, OFFSET_RG + DL_OFFSET_RG_RA(fp)
mv sp, fp
ADDI sp, sp, SF_SIZE
REG_S fp, SZREG(fp)
jr ra
END (_dl_runtime_profile)
#endif /* SHARED */
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