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https://github.com/c64scene-ar/llvm-6502.git
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7486d92a6c
For COFF and MachO, sections semantically have relocations that apply to them. That is not the case on ELF. In relocatable objects (.o), a section with relocations in ELF has offsets to another section where the relocations should be applied. In dynamic objects and executables, relocations don't have an offset, they have a virtual address. The section sh_info may or may not point to another section, but that is not actually used for resolving the relocations. This patch exposes that in the ObjectFile API. It has the following advantages: * Most (all?) clients can handle this more efficiently. They will normally walk all relocations, so doing an effort to iterate in a particular order doesn't save time. * llvm-readobj now prints relocations in the same way the native readelf does. * probably most important, relocations that don't point to any section are now visible. This is the case of relocations in the rela.dyn section. See the updated relocation-executable.test for example. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@182908 91177308-0d34-0410-b5e6-96231b3b80d8
168 lines
3.4 KiB
ArmAsm
168 lines
3.4 KiB
ArmAsm
// Test the bits of .eh_frame on mips that are already implemented correctly.
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// FIXME: This test would be a lot cleaner if llvm-objdump had the
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// --dwarf=frames option.
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// RUN: llvm-mc -filetype=obj %s -o %t.o -arch=mips
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// RUN: llvm-objdump -r -s %t.o | FileCheck --check-prefix=MIPS32 %s
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// RUN: llvm-mc -filetype=obj %s -o %t.o -arch=mipsel
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// RUN: llvm-objdump -r -s %t.o | FileCheck --check-prefix=MIPS32EL %s
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// RUN: llvm-mc -filetype=obj %s -o %t.o -arch=mips64
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// RUN: llvm-objdump -r -s %t.o | FileCheck --check-prefix=MIPS64 %s
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// RUN: llvm-mc -filetype=obj %s -o %t.o -arch=mips64el
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// RUN: llvm-objdump -r -s %t.o | FileCheck --check-prefix=MIPS64EL %s
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func:
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.cfi_startproc
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.cfi_endproc
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// MIPS32: RELOCATION RECORDS FOR [.rel.eh_frame]:
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// MIPS32-NEXT: R_MIPS_32
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// MIPS32: Contents of section .eh_frame:
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// MIPS32-NEXT: 0000
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// Length
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// MIPS32: 00000010
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// CIE ID
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// MIPS32: 00000000
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// Version
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// MIPS32: 01
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// Augmentation String
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// MIPS32: 7a5200
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// Code Alignment Factor
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// MIPS32: 01
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// Data Alignment Factor (-4)
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// MIPS32: 7c
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// Return Address Register
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// MIPS32: 1f
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// Augmentation Size
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// MIPS32: 01
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// MIPS32: .........zR..|..
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// MIPS32-NEXT: 0010
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// Augmentation (fde pointer encoding: DW_EH_PE_sdata4)
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// MIPS32: 0b
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// FIXME: The instructions are different from the ones produces by gas.
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// MIPS32EL: RELOCATION RECORDS FOR [.rel.eh_frame]:
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// MIPS32EL-NEXT: R_MIPS_32
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// MIPS32EL: Contents of section .eh_frame:
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// MIPS32EL-NEXT: 0000
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// Length
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// MIPS32EL: 10000000
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// CIE ID
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// MIPS32EL: 00000000
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// Version
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// MIPS32EL: 01
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// Augmentation String
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// MIPS32EL: 7a5200
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// Code Alignment Factor
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// MIPS32EL: 01
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// Data Alignment Factor (-4)
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// MIPS32EL: 7c
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// Return Address Register
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// MIPS32EL: 1f
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// Augmentation Size
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// MIPS32EL: 01
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// MIPS32EL: .........zR..|..
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// MIPS32EL-NEXT: 0010
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// Augmentation (fde pointer encoding: DW_EH_PE_sdata4)
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// MIPS32EL: 0b
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// FIXME: The instructions are different from the ones produces by gas.
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// MIPS64: RELOCATION RECORDS FOR [.rela.eh_frame]:
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// MIPS64-NEXT: R_MIPS_64
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// MIPS64: Contents of section .eh_frame:
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// MIPS64-NEXT: 0000
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// Length
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// MIPS64: 00000010
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// CIE ID
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// MIPS64: 00000000
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// Version
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// MIPS64: 01
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// Augmentation String
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// MIPS64: 7a5200
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// Code Alignment Factor
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// MIPS64: 01
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// Data Alignment Factor (-8). GAS uses -4. Should be ok as long as all
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// offsets we need are a multiple of 8.
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// MIPS64: 78
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// Return Address Register
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// MIPS64: 1f
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// Augmentation Size
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// MIPS64: 01
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// MIPS64: .........zR..x..
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// MIPS64-NEXT: 0010
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// Augmentation (fde pointer encoding: DW_EH_PE_sdata8)
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// MIPS64: 0c
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// FIXME: The instructions are different from the ones produces by gas.
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// MIPS64EL: RELOCATION RECORDS FOR [.rela.eh_frame]:
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// MIPS64EL-NEXT: R_MIPS_64
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// MIPS64EL: Contents of section .eh_frame:
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// MIPS64EL-NEXT: 0000
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// Length
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// MIPS64EL: 10000000
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// CIE ID
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// MIPS64EL: 00000000
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// Version
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// MIPS64EL: 01
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// Augmentation String
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// MIPS64EL: 7a5200
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// Code Alignment Factor
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// MIPS64EL: 01
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// Data Alignment Factor (-8). GAS uses -4. Should be ok as long as all
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// offsets we need are a multiple of 8.
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// MIPS64EL: 78
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// Return Address Register
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// MIPS64EL: 1f
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// Augmentation Size
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// MIPS64EL: 01
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// MIPS64EL: .........zR..x..
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// MIPS64EL-NEXT: 0010
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// Augmentation (fde pointer encoding: DW_EH_PE_sdata8)
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// MIPS64EL: 0c
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// FIXME: The instructions are different from the ones produces by gas.
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