llvm-project/lld/test/ELF/ppc32-gnu-ifunc.s

# REQUIRES: ppc
# XFAIL: *
# RUN: llvm-mc -filetype=obj -triple=powerpc %s -o %t.o
# RUN: ld.lld %t.o -o %t
# RUN: llvm-readobj -r %t | FileCheck --check-prefix=RELOC %s
# RUN: llvm-readelf -S -s %t | FileCheck --check-prefixes=SEC,SYM %s
# RUN: llvm-objdump -d --no-show-raw-insn %t | FileCheck %s

# RELOC:      .rela.dyn {
# RELOC-NEXT:   0x10020114 R_PPC_IRELATIVE - 0x100100E0
# RELOC-NEXT: }

# SEC: .rela.dyn RELA 100000d4 0000d4 00000c
# SYM: 100100e0 0 FUNC GLOBAL DEFAULT {{.*}} func

# CHECK:      func_resolver:
# CHECK-NEXT:   100100e0:
# CHECK:      _start:
# CHECK-NEXT:   bl .+20
## .rela.plt = 0x100000d4 = 65536*4096+212
## end(.rela.plt) = 0x100000d4+0xc = 65536*4096+224
# CHECK-NEXT:   lis 9, 4096
# CHECK-NEXT:   lis 8, 4096
# CHECK-NEXT:   addi 9, 9, 212
# CHECK-NEXT:   addi 8, 8, 224

.globl func
.type func, @gnu_indirect_function
func:
.globl func_resolver
.type func_resolver, @function
func_resolver:
  blr

.globl _start
_start:
  bl func

  lis 9, __rela_iplt_start@ha
  lis 8, __rela_iplt_end@ha
  la 9, __rela_iplt_start@l(9)
  la 8, __rela_iplt_end@l(8)
[PPC32] Improve the 32-bit PowerPC port Many -static/-no-pie/-shared/-pie applications linked against glibc or musl should work with this patch. This also helps FreeBSD PowerPC64 to migrate their lib32 (PR40888). * Fix default image base and max page size. * Support new-style Secure PLT (see below). Old-style BSS PLT is not implemented, so it is not suitable for FreeBSD rtld now because it doesn't support Secure PLT yet. * Support more initial relocation types: R_PPC_ADDR32, R_PPC_REL16, R_PPC_LOCAL24PC, R_PPC_PLTREL24, and R_PPC_GOT16. The addend of R_PPC_PLTREL24 is special: it decides the call stub PLT type but it should be ignored for the computation of target symbol VA. Support GNU ifunc * Support .glink used for lazy PLT resolution in glibc * Add a new thunk type: PPC32PltCallStub that is similar to PPC64PltCallStub. It is used by R_PPC_REL24 and R_PPC_PLTREL24. A PLT stub used in -fPIE/-fPIC usually loads an address relative to .got2+0x8000 (-fpie/-fpic code uses _GLOBAL_OFFSET_TABLE_ relative addresses). Two .got2 sections in two object files have different addresses, thus a PLT stub can't be shared by two object files. To handle this incompatibility, change the parameters of Thunk::isCompatibleWith to `const InputSection &, const Relocation &`. PowerPC psABI specified an old-style .plt (BSS PLT) that is both writable and executable. Linkers don't make separate RW- and RWE segments, which causes all initially writable memory (think .data) executable. This is a big security concern so a new PLT scheme (secure PLT) was developed to address the security issue. TLS will be implemented in D62940. glibc older than ~2012 requires .rela.dyn to include .rela.plt, it can not handle the DT_RELA+DT_RELASZ == DT_JMPREL case correctly. A hack (not included in this patch) in LinkerScript.cpp addOrphanSections() to work around the issue: if (Config->EMachine == EM_PPC) { // Older glibc assumes .rela.dyn includes .rela.plt Add(In.RelaDyn); if (In.RelaPlt->isLive() && !In.RelaPlt->Parent) In.RelaDyn->getParent()->addSection(In.RelaPlt); } Reviewed By: ruiu Differential Revision: https://reviews.llvm.org/D62464 llvm-svn: 362721 2019-06-07 01:03:00 +08:00			`# REQUIRES: ppc`
[ELF] Rename .plt to .iplt and decrease EM_PPC{,64} alignment of .glink to 4 GNU ld creates the synthetic section .iplt, and has a built-in linker script that assigns .iplt to the output section .plt . There is no output section named .iplt . Making .iplt an output section actually has a benefit that makes the tricky toolchain feature stand out. Symbolizers don't have to deal with mixed PLT entries (e.g. llvm-objdump -d incorrectly annotates such jump targets). On EM_PPC{,64}, .glink contains a PLT resolver and a series of jump instructions. The 4-byte entry size makes it unnecessary to have an alignment of 16. Mark ppc32-gnu-ifunc.s and ppc32-gnu-ifunc-nonpreemptable.s as `XFAIL: *`. They test IPLT on EM_PPC, which never works. Reviewed By: peter.smith Differential Revision: https://reviews.llvm.org/D71520 2019-12-15 08:19:03 +08:00			`# XFAIL: *`
[PPC32] Improve the 32-bit PowerPC port Many -static/-no-pie/-shared/-pie applications linked against glibc or musl should work with this patch. This also helps FreeBSD PowerPC64 to migrate their lib32 (PR40888). * Fix default image base and max page size. * Support new-style Secure PLT (see below). Old-style BSS PLT is not implemented, so it is not suitable for FreeBSD rtld now because it doesn't support Secure PLT yet. * Support more initial relocation types: R_PPC_ADDR32, R_PPC_REL16, R_PPC_LOCAL24PC, R_PPC_PLTREL24, and R_PPC_GOT16. The addend of R_PPC_PLTREL24 is special: it decides the call stub PLT type but it should be ignored for the computation of target symbol VA. Support GNU ifunc * Support .glink used for lazy PLT resolution in glibc * Add a new thunk type: PPC32PltCallStub that is similar to PPC64PltCallStub. It is used by R_PPC_REL24 and R_PPC_PLTREL24. A PLT stub used in -fPIE/-fPIC usually loads an address relative to .got2+0x8000 (-fpie/-fpic code uses _GLOBAL_OFFSET_TABLE_ relative addresses). Two .got2 sections in two object files have different addresses, thus a PLT stub can't be shared by two object files. To handle this incompatibility, change the parameters of Thunk::isCompatibleWith to `const InputSection &, const Relocation &`. PowerPC psABI specified an old-style .plt (BSS PLT) that is both writable and executable. Linkers don't make separate RW- and RWE segments, which causes all initially writable memory (think .data) executable. This is a big security concern so a new PLT scheme (secure PLT) was developed to address the security issue. TLS will be implemented in D62940. glibc older than ~2012 requires .rela.dyn to include .rela.plt, it can not handle the DT_RELA+DT_RELASZ == DT_JMPREL case correctly. A hack (not included in this patch) in LinkerScript.cpp addOrphanSections() to work around the issue: if (Config->EMachine == EM_PPC) { // Older glibc assumes .rela.dyn includes .rela.plt Add(In.RelaDyn); if (In.RelaPlt->isLive() && !In.RelaPlt->Parent) In.RelaDyn->getParent()->addSection(In.RelaPlt); } Reviewed By: ruiu Differential Revision: https://reviews.llvm.org/D62464 llvm-svn: 362721 2019-06-07 01:03:00 +08:00			`# RUN: llvm-mc -filetype=obj -triple=powerpc %s -o %t.o`
			`# RUN: ld.lld %t.o -o %t`
			`# RUN: llvm-readobj -r %t \| FileCheck --check-prefix=RELOC %s`
			`# RUN: llvm-readelf -S -s %t \| FileCheck --check-prefixes=SEC,SYM %s`
			`# RUN: llvm-objdump -d --no-show-raw-insn %t \| FileCheck %s`

[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 &real; } 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			`# RELOC: .rela.dyn {`
[ELF][PPC] Allow PT_LOAD to have overlapping p_offset ranges on EM_PPC Ported the D64906 technique to EM_PPC. Delete ppc-rela.s that is covered by ppc32-abs-pic.s llvm-svn: 369351 2019-08-20 17:20:05 +08:00			`# RELOC-NEXT: 0x10020114 R_PPC_IRELATIVE - 0x100100E0`
[PPC32] Improve the 32-bit PowerPC port Many -static/-no-pie/-shared/-pie applications linked against glibc or musl should work with this patch. This also helps FreeBSD PowerPC64 to migrate their lib32 (PR40888). * Fix default image base and max page size. * Support new-style Secure PLT (see below). Old-style BSS PLT is not implemented, so it is not suitable for FreeBSD rtld now because it doesn't support Secure PLT yet. * Support more initial relocation types: R_PPC_ADDR32, R_PPC_REL16, R_PPC_LOCAL24PC, R_PPC_PLTREL24, and R_PPC_GOT16. The addend of R_PPC_PLTREL24 is special: it decides the call stub PLT type but it should be ignored for the computation of target symbol VA. Support GNU ifunc * Support .glink used for lazy PLT resolution in glibc * Add a new thunk type: PPC32PltCallStub that is similar to PPC64PltCallStub. It is used by R_PPC_REL24 and R_PPC_PLTREL24. A PLT stub used in -fPIE/-fPIC usually loads an address relative to .got2+0x8000 (-fpie/-fpic code uses _GLOBAL_OFFSET_TABLE_ relative addresses). Two .got2 sections in two object files have different addresses, thus a PLT stub can't be shared by two object files. To handle this incompatibility, change the parameters of Thunk::isCompatibleWith to `const InputSection &, const Relocation &`. PowerPC psABI specified an old-style .plt (BSS PLT) that is both writable and executable. Linkers don't make separate RW- and RWE segments, which causes all initially writable memory (think .data) executable. This is a big security concern so a new PLT scheme (secure PLT) was developed to address the security issue. TLS will be implemented in D62940. glibc older than ~2012 requires .rela.dyn to include .rela.plt, it can not handle the DT_RELA+DT_RELASZ == DT_JMPREL case correctly. A hack (not included in this patch) in LinkerScript.cpp addOrphanSections() to work around the issue: if (Config->EMachine == EM_PPC) { // Older glibc assumes .rela.dyn includes .rela.plt Add(In.RelaDyn); if (In.RelaPlt->isLive() && !In.RelaPlt->Parent) In.RelaDyn->getParent()->addSection(In.RelaPlt); } Reviewed By: ruiu Differential Revision: https://reviews.llvm.org/D62464 llvm-svn: 362721 2019-06-07 01:03:00 +08:00			`# RELOC-NEXT: }`

[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 &real; } 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			`# SEC: .rela.dyn RELA 100000d4 0000d4 00000c`
[ELF][PPC] Allow PT_LOAD to have overlapping p_offset ranges on EM_PPC Ported the D64906 technique to EM_PPC. Delete ppc-rela.s that is covered by ppc32-abs-pic.s llvm-svn: 369351 2019-08-20 17:20:05 +08:00			`# SYM: 100100e0 0 FUNC GLOBAL DEFAULT {{.*}} func`
[PPC32] Improve the 32-bit PowerPC port Many -static/-no-pie/-shared/-pie applications linked against glibc or musl should work with this patch. This also helps FreeBSD PowerPC64 to migrate their lib32 (PR40888). * Fix default image base and max page size. * Support new-style Secure PLT (see below). Old-style BSS PLT is not implemented, so it is not suitable for FreeBSD rtld now because it doesn't support Secure PLT yet. * Support more initial relocation types: R_PPC_ADDR32, R_PPC_REL16, R_PPC_LOCAL24PC, R_PPC_PLTREL24, and R_PPC_GOT16. The addend of R_PPC_PLTREL24 is special: it decides the call stub PLT type but it should be ignored for the computation of target symbol VA. Support GNU ifunc * Support .glink used for lazy PLT resolution in glibc * Add a new thunk type: PPC32PltCallStub that is similar to PPC64PltCallStub. It is used by R_PPC_REL24 and R_PPC_PLTREL24. A PLT stub used in -fPIE/-fPIC usually loads an address relative to .got2+0x8000 (-fpie/-fpic code uses _GLOBAL_OFFSET_TABLE_ relative addresses). Two .got2 sections in two object files have different addresses, thus a PLT stub can't be shared by two object files. To handle this incompatibility, change the parameters of Thunk::isCompatibleWith to `const InputSection &, const Relocation &`. PowerPC psABI specified an old-style .plt (BSS PLT) that is both writable and executable. Linkers don't make separate RW- and RWE segments, which causes all initially writable memory (think .data) executable. This is a big security concern so a new PLT scheme (secure PLT) was developed to address the security issue. TLS will be implemented in D62940. glibc older than ~2012 requires .rela.dyn to include .rela.plt, it can not handle the DT_RELA+DT_RELASZ == DT_JMPREL case correctly. A hack (not included in this patch) in LinkerScript.cpp addOrphanSections() to work around the issue: if (Config->EMachine == EM_PPC) { // Older glibc assumes .rela.dyn includes .rela.plt Add(In.RelaDyn); if (In.RelaPlt->isLive() && !In.RelaPlt->Parent) In.RelaDyn->getParent()->addSection(In.RelaPlt); } Reviewed By: ruiu Differential Revision: https://reviews.llvm.org/D62464 llvm-svn: 362721 2019-06-07 01:03:00 +08:00
			`# CHECK: func_resolver:`
[ELF][PPC] Allow PT_LOAD to have overlapping p_offset ranges on EM_PPC Ported the D64906 technique to EM_PPC. Delete ppc-rela.s that is covered by ppc32-abs-pic.s llvm-svn: 369351 2019-08-20 17:20:05 +08:00			`# CHECK-NEXT: 100100e0:`
[PPC32] Improve the 32-bit PowerPC port Many -static/-no-pie/-shared/-pie applications linked against glibc or musl should work with this patch. This also helps FreeBSD PowerPC64 to migrate their lib32 (PR40888). * Fix default image base and max page size. * Support new-style Secure PLT (see below). Old-style BSS PLT is not implemented, so it is not suitable for FreeBSD rtld now because it doesn't support Secure PLT yet. * Support more initial relocation types: R_PPC_ADDR32, R_PPC_REL16, R_PPC_LOCAL24PC, R_PPC_PLTREL24, and R_PPC_GOT16. The addend of R_PPC_PLTREL24 is special: it decides the call stub PLT type but it should be ignored for the computation of target symbol VA. Support GNU ifunc * Support .glink used for lazy PLT resolution in glibc * Add a new thunk type: PPC32PltCallStub that is similar to PPC64PltCallStub. It is used by R_PPC_REL24 and R_PPC_PLTREL24. A PLT stub used in -fPIE/-fPIC usually loads an address relative to .got2+0x8000 (-fpie/-fpic code uses _GLOBAL_OFFSET_TABLE_ relative addresses). Two .got2 sections in two object files have different addresses, thus a PLT stub can't be shared by two object files. To handle this incompatibility, change the parameters of Thunk::isCompatibleWith to `const InputSection &, const Relocation &`. PowerPC psABI specified an old-style .plt (BSS PLT) that is both writable and executable. Linkers don't make separate RW- and RWE segments, which causes all initially writable memory (think .data) executable. This is a big security concern so a new PLT scheme (secure PLT) was developed to address the security issue. TLS will be implemented in D62940. glibc older than ~2012 requires .rela.dyn to include .rela.plt, it can not handle the DT_RELA+DT_RELASZ == DT_JMPREL case correctly. A hack (not included in this patch) in LinkerScript.cpp addOrphanSections() to work around the issue: if (Config->EMachine == EM_PPC) { // Older glibc assumes .rela.dyn includes .rela.plt Add(In.RelaDyn); if (In.RelaPlt->isLive() && !In.RelaPlt->Parent) In.RelaDyn->getParent()->addSection(In.RelaPlt); } Reviewed By: ruiu Differential Revision: https://reviews.llvm.org/D62464 llvm-svn: 362721 2019-06-07 01:03:00 +08:00			`# CHECK: _start:`
			`# CHECK-NEXT: bl .+20`
			`## .rela.plt = 0x100000d4 = 65536*4096+212`
			`## end(.rela.plt) = 0x100000d4+0xc = 65536*4096+224`
			`# CHECK-NEXT: lis 9, 4096`
			`# CHECK-NEXT: lis 8, 4096`
			`# CHECK-NEXT: addi 9, 9, 212`
			`# CHECK-NEXT: addi 8, 8, 224`

			`.globl func`
			`.type func, @gnu_indirect_function`
			`func:`
			`.globl func_resolver`
			`.type func_resolver, @function`
			`func_resolver:`
			`blr`

			`.globl _start`
			`_start:`
			`bl func`

			`lis 9, __rela_iplt_start@ha`
			`lis 8, __rela_iplt_end@ha`
			`la 9, __rela_iplt_start@l(9)`
			`la 8, __rela_iplt_end@l(8)`