llvm-project/lld/test/ELF/gnu-ifunc-plt-i386.s

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// REQUIRES: x86
// RUN: llvm-mc -filetype=obj -triple=i686-pc-linux %S/Inputs/shared2-x86-64.s -o %t1.o
// RUN: ld.lld %t1.o --shared --soname=t.so -o %t.so
// RUN: llvm-mc -filetype=obj -triple=i686-pc-linux %s -o %t.o
// RUN: ld.lld --hash-style=sysv %t.so %t.o -o %tout
// RUN: llvm-objdump -d --no-show-raw-insn %tout | FileCheck %s --check-prefix=DISASM
// RUN: llvm-objdump -s %tout | FileCheck %s --check-prefix=GOTPLT
// RUN: llvm-readobj -r --dynamic-table %tout | FileCheck %s
// Check that the IRELATIVE relocations are after the JUMP_SLOT in the plt
// CHECK: Relocations [
[ELF] Move R_*_IRELATIVE from .rel[a].plt to .rel[a].dyn unless --pack-dyn-relocs=android[+relr] An R_*_IRELATIVE represents the address of a STT_GNU_IFUNC symbol (redirected at runtime) which is non-preemptable and is not associated with a canonical PLT (associated with a symbol with a section index of SHN_UNDEF but a non-zero st_value). .rel[a].plt [DT_JMPREL, DT_JMPREL+DT_JMPRELSZ) contains relocations that can be lazily resolved. R_*_IRELATIVE are always eagerly resolved, so conceptually they do not belong to .rela.plt. "iplt" is mostly a misnomer. glibc powerpc and powerpc64 do not resolve R_*_IRELATIVE if they are in .rela.plt. // a.o - synthesized PLT call stub has an R_*_IRELATIVE void ifunc(); int main() { ifunc(); } // b.o static void real() {} asm (".type ifunc, %gnu_indirect_function"); void *ifunc() { return ℜ } The lld-linked executable crashes. ld.bfd places R_*_IRELATIVE in .rela.dyn and the executable works. glibc i386, x86_64, and aarch64 have logic (glibc/sysdeps/*/dl-machine.h:elf_machine_lazy_rel) to eagerly resolve R_*_IRELATIVE in .rel[a].plt so the lld-linked executable works. Move R_*_IRELATIVE from .rel[a].plt to .rel[a].dyn to fix the crashes on glibc powerpc/powerpc64. This also helps simplifying ifunc implementation in FreeBSD rtld-elf powerpc64. If --pack-dyn-relocs=android[+relr] is specified, the Android packed dynamic relocation format is used for .rela.dyn. We cannot name in.relaIplt ".rela.dyn" because the output section will have mixed formats. This can be improved in the future. Reviewed By: pcc Differential Revision: https://reviews.llvm.org/D65651 llvm-svn: 367745
2019-08-03 10:26:52 +08:00
// CHECK-NEXT: Section (4) .rel.dyn {
// CHECK-NEXT: 0x4032AC R_386_IRELATIVE
// CHECK-NEXT: 0x4032B0 R_386_IRELATIVE
[ELF] Move R_*_IRELATIVE from .rel[a].plt to .rel[a].dyn unless --pack-dyn-relocs=android[+relr] An R_*_IRELATIVE represents the address of a STT_GNU_IFUNC symbol (redirected at runtime) which is non-preemptable and is not associated with a canonical PLT (associated with a symbol with a section index of SHN_UNDEF but a non-zero st_value). .rel[a].plt [DT_JMPREL, DT_JMPREL+DT_JMPRELSZ) contains relocations that can be lazily resolved. R_*_IRELATIVE are always eagerly resolved, so conceptually they do not belong to .rela.plt. "iplt" is mostly a misnomer. glibc powerpc and powerpc64 do not resolve R_*_IRELATIVE if they are in .rela.plt. // a.o - synthesized PLT call stub has an R_*_IRELATIVE void ifunc(); int main() { ifunc(); } // b.o static void real() {} asm (".type ifunc, %gnu_indirect_function"); void *ifunc() { return ℜ } The lld-linked executable crashes. ld.bfd places R_*_IRELATIVE in .rela.dyn and the executable works. glibc i386, x86_64, and aarch64 have logic (glibc/sysdeps/*/dl-machine.h:elf_machine_lazy_rel) to eagerly resolve R_*_IRELATIVE in .rel[a].plt so the lld-linked executable works. Move R_*_IRELATIVE from .rel[a].plt to .rel[a].dyn to fix the crashes on glibc powerpc/powerpc64. This also helps simplifying ifunc implementation in FreeBSD rtld-elf powerpc64. If --pack-dyn-relocs=android[+relr] is specified, the Android packed dynamic relocation format is used for .rela.dyn. We cannot name in.relaIplt ".rela.dyn" because the output section will have mixed formats. This can be improved in the future. Reviewed By: pcc Differential Revision: https://reviews.llvm.org/D65651 llvm-svn: 367745
2019-08-03 10:26:52 +08:00
// CHECK-NEXT: }
// CHECK-NEXT: Section (5) .rel.plt {
// CHECK-NEXT: 0x4032A4 R_386_JUMP_SLOT bar2
// CHECK-NEXT: 0x4032A8 R_386_JUMP_SLOT zed2
[ELF] Move R_*_IRELATIVE from .rel[a].plt to .rel[a].dyn unless --pack-dyn-relocs=android[+relr] An R_*_IRELATIVE represents the address of a STT_GNU_IFUNC symbol (redirected at runtime) which is non-preemptable and is not associated with a canonical PLT (associated with a symbol with a section index of SHN_UNDEF but a non-zero st_value). .rel[a].plt [DT_JMPREL, DT_JMPREL+DT_JMPRELSZ) contains relocations that can be lazily resolved. R_*_IRELATIVE are always eagerly resolved, so conceptually they do not belong to .rela.plt. "iplt" is mostly a misnomer. glibc powerpc and powerpc64 do not resolve R_*_IRELATIVE if they are in .rela.plt. // a.o - synthesized PLT call stub has an R_*_IRELATIVE void ifunc(); int main() { ifunc(); } // b.o static void real() {} asm (".type ifunc, %gnu_indirect_function"); void *ifunc() { return ℜ } The lld-linked executable crashes. ld.bfd places R_*_IRELATIVE in .rela.dyn and the executable works. glibc i386, x86_64, and aarch64 have logic (glibc/sysdeps/*/dl-machine.h:elf_machine_lazy_rel) to eagerly resolve R_*_IRELATIVE in .rel[a].plt so the lld-linked executable works. Move R_*_IRELATIVE from .rel[a].plt to .rel[a].dyn to fix the crashes on glibc powerpc/powerpc64. This also helps simplifying ifunc implementation in FreeBSD rtld-elf powerpc64. If --pack-dyn-relocs=android[+relr] is specified, the Android packed dynamic relocation format is used for .rela.dyn. We cannot name in.relaIplt ".rela.dyn" because the output section will have mixed formats. This can be improved in the future. Reviewed By: pcc Differential Revision: https://reviews.llvm.org/D65651 llvm-svn: 367745
2019-08-03 10:26:52 +08:00
// CHECK-NEXT: }
// Check that IRELATIVE .got.plt entries point to ifunc resolver and not
// back to the plt entry + 6.
// GOTPLT: Contents of section .got.plt:
// GOTPLT: 403298 20224000 00000000 00000000 e6114000
// GOTPLT-NEXT: 4032a8 f6114000 b4114000 b5114000
[ELF] Move R_*_IRELATIVE from .rel[a].plt to .rel[a].dyn unless --pack-dyn-relocs=android[+relr] An R_*_IRELATIVE represents the address of a STT_GNU_IFUNC symbol (redirected at runtime) which is non-preemptable and is not associated with a canonical PLT (associated with a symbol with a section index of SHN_UNDEF but a non-zero st_value). .rel[a].plt [DT_JMPREL, DT_JMPREL+DT_JMPRELSZ) contains relocations that can be lazily resolved. R_*_IRELATIVE are always eagerly resolved, so conceptually they do not belong to .rela.plt. "iplt" is mostly a misnomer. glibc powerpc and powerpc64 do not resolve R_*_IRELATIVE if they are in .rela.plt. // a.o - synthesized PLT call stub has an R_*_IRELATIVE void ifunc(); int main() { ifunc(); } // b.o static void real() {} asm (".type ifunc, %gnu_indirect_function"); void *ifunc() { return ℜ } The lld-linked executable crashes. ld.bfd places R_*_IRELATIVE in .rela.dyn and the executable works. glibc i386, x86_64, and aarch64 have logic (glibc/sysdeps/*/dl-machine.h:elf_machine_lazy_rel) to eagerly resolve R_*_IRELATIVE in .rel[a].plt so the lld-linked executable works. Move R_*_IRELATIVE from .rel[a].plt to .rel[a].dyn to fix the crashes on glibc powerpc/powerpc64. This also helps simplifying ifunc implementation in FreeBSD rtld-elf powerpc64. If --pack-dyn-relocs=android[+relr] is specified, the Android packed dynamic relocation format is used for .rela.dyn. We cannot name in.relaIplt ".rela.dyn" because the output section will have mixed formats. This can be improved in the future. Reviewed By: pcc Differential Revision: https://reviews.llvm.org/D65651 llvm-svn: 367745
2019-08-03 10:26:52 +08:00
// Check that the PLTRELSZ tag does not include the IRELATIVE relocations
// CHECK: DynamicSection [
[ELF] Move R_*_IRELATIVE from .rel[a].plt to .rel[a].dyn unless --pack-dyn-relocs=android[+relr] An R_*_IRELATIVE represents the address of a STT_GNU_IFUNC symbol (redirected at runtime) which is non-preemptable and is not associated with a canonical PLT (associated with a symbol with a section index of SHN_UNDEF but a non-zero st_value). .rel[a].plt [DT_JMPREL, DT_JMPREL+DT_JMPRELSZ) contains relocations that can be lazily resolved. R_*_IRELATIVE are always eagerly resolved, so conceptually they do not belong to .rela.plt. "iplt" is mostly a misnomer. glibc powerpc and powerpc64 do not resolve R_*_IRELATIVE if they are in .rela.plt. // a.o - synthesized PLT call stub has an R_*_IRELATIVE void ifunc(); int main() { ifunc(); } // b.o static void real() {} asm (".type ifunc, %gnu_indirect_function"); void *ifunc() { return ℜ } The lld-linked executable crashes. ld.bfd places R_*_IRELATIVE in .rela.dyn and the executable works. glibc i386, x86_64, and aarch64 have logic (glibc/sysdeps/*/dl-machine.h:elf_machine_lazy_rel) to eagerly resolve R_*_IRELATIVE in .rel[a].plt so the lld-linked executable works. Move R_*_IRELATIVE from .rel[a].plt to .rel[a].dyn to fix the crashes on glibc powerpc/powerpc64. This also helps simplifying ifunc implementation in FreeBSD rtld-elf powerpc64. If --pack-dyn-relocs=android[+relr] is specified, the Android packed dynamic relocation format is used for .rela.dyn. We cannot name in.relaIplt ".rela.dyn" because the output section will have mixed formats. This can be improved in the future. Reviewed By: pcc Differential Revision: https://reviews.llvm.org/D65651 llvm-svn: 367745
2019-08-03 10:26:52 +08:00
// CHECK: 0x00000012 RELSZ 16 (bytes)
// CHECK: 0x00000002 PLTRELSZ 16 (bytes)
// Check that a PLT header is written and the ifunc entries appear last
// DISASM: Disassembly of section .text:
// DISASM-EMPTY:
// DISASM-NEXT: foo:
// DISASM-NEXT: 4011b4: retl
// DISASM: bar:
// DISASM-NEXT: 4011b5: retl
// DISASM: _start:
// DISASM-NEXT: 4011b6: calll 69 <zed2@plt+0x10>
// DISASM-NEXT: calll 80 <zed2@plt+0x20>
// DISASM-NEXT: calll 27 <bar2@plt>
// DISASM-NEXT: calll 38 <zed2@plt>
// DISASM-EMPTY:
// DISASM-NEXT: Disassembly of section .plt:
// DISASM-EMPTY:
// DISASM-NEXT: .plt:
// DISASM-NEXT: 4011d0: pushl 4207260
// DISASM-NEXT: jmpl *4207264
// DISASM-NEXT: nop
// DISASM-NEXT: nop
// DISASM-NEXT: nop
// DISASM-NEXT: nop
// DISASM-EMPTY:
// DISASM-NEXT: bar2@plt:
// DISASM-NEXT: 4011e0: jmpl *4207268
// DISASM-NEXT: pushl $0
// DISASM-NEXT: jmp -32 <.plt>
// DISASM-EMPTY:
// DISASM-NEXT: zed2@plt:
// DISASM-NEXT: 4011f0: jmpl *4207272
// DISASM-NEXT: pushl $8
// DISASM-NEXT: jmp -48 <.plt>
// DISASM-NEXT: jmpl *4207276
// DISASM-NEXT: pushl $48
// DISASM-NEXT: jmp -32 <zed2@plt>
// DISASM-NEXT: jmpl *4207280
// DISASM-NEXT: pushl $56
// DISASM-NEXT: jmp -48 <zed2@plt>
.text
.type foo STT_GNU_IFUNC
.globl foo
foo:
ret
.type bar STT_GNU_IFUNC
.globl bar
bar:
ret
.globl _start
_start:
call foo@plt
call bar@plt
call bar2@plt
call zed2@plt