// RUN: llvm-mc -triple x86_64-apple-darwin10 %s -filetype=obj -o - | llvm-readobj --file-headers -S --sd -r --symbols --macho-segment --macho-dysymtab --macho-indirect-symbols - | FileCheck %s .text // FIXME: llvm-mc doesn't handle this in a way we can make compatible with 'as', // currently, because of how we handle assembler variables. // // See improve handling of absolute symbols // _baz = 4 _foo: xorl %eax,%eax _g0: xorl %eax,%eax L0: jmp 4 // jmp _baz // FIXME: Darwin 'as' for historical reasons widens this jump, but doesn't emit // a relocation. It seems like 'as' widens any jump that is not to a temporary, // which is inherited from the x86_32 behavior, even though x86_64 could do // better. // jmp _g0 jmp L0 jmp _g1 // FIXME: Darwin 'as' gets this wrong as well, even though it could get it right // given the other things we do on x86_64. It is using a short jump here. This // is probably fallout of the hack that exists for x86_32. // jmp L1 // FIXME: We don't support this, and would currently get it wrong, it should be a jump to an absolute address. // jmp L0 - _g0 // jmp _g1 - _g0 // FIXME: Darwin 'as' comes up with 'SIGNED' here instead of 'BRANCH'. // jmp _g1 - L1 // FIXME: Darwin 'as' gets this completely wrong. It ends up with a single // branch relocation. Fallout from the other delta hack? // jmp L1 - _g0 jmp _g2 jmp L2 jmp _g3 jmp L3 // FIXME: Darwin 'as' gets this completely wrong. It ends up with a single // branch relocation. Fallout from the other delta hack? // jmp L2 - _g3 // jmp _g3 - _g2 // FIXME: Darwin 'as' comes up with 'SIGNED' here instead of 'BRANCH'. // jmp _g3 - L3 // FIXME: Darwin 'as' gets this completely wrong. It ends up with a single // branch relocation. Fallout from the other delta hack? // jmp L3 - _g2 movl %eax,4(%rip) // movl %eax,_baz(%rip) movl %eax,_g0(%rip) movl %eax,L0(%rip) movl %eax,_g1(%rip) movl %eax,L1(%rip) // FIXME: Darwin 'as' gets most of these wrong, and there is an ambiguity in ATT // syntax in what they should mean in the first place (absolute or // rip-relative address). // movl %eax,L0 - _g0(%rip) // movl %eax,_g1 - _g0(%rip) // movl %eax,_g1 - L1(%rip) // movl %eax,L1 - _g0(%rip) movl %eax,_g2(%rip) movl %eax,L2(%rip) movl %eax,_g3(%rip) movl %eax,L3(%rip) // FIXME: Darwin 'as' gets most of these wrong, and there is an ambiguity in ATT // syntax in what they should mean in the first place (absolute or // rip-relative address). // movl %eax,L2 - _g2(%rip) // movl %eax,_g3 - _g2(%rip) // movl %eax,_g3 - L3(%rip) // movl %eax,L3 - _g2(%rip) _g1: xorl %eax,%eax L1: xorl %eax,%eax .data _g2: xorl %eax,%eax L2: .quad 4 // .quad _baz .quad _g2 .quad L2 .quad _g3 .quad L3 .quad L2 - _g2 .quad _g3 - _g2 .quad L3 - _g2 .quad L3 - _g3 .quad _g0 .quad L0 .quad _g1 .quad L1 .quad L0 - _g0 .quad _g1 - _g0 .quad L1 - _g0 .quad L1 - _g1 _g3: xorl %eax,%eax L3: xorl %eax,%eax // FIXME: Unfortunately, we do not get these relocations in exactly the same // order as Darwin 'as'. It turns out that 'as' *usually* ends up emitting // them in reverse address order, but sometimes it allocates some // additional relocations late so these end up precede the other entries. I // haven't figured out the exact criteria for this yet. // CHECK: File: // CHECK: Format: Mach-O 64-bit x86-64 // CHECK: Arch: x86_64 // CHECK: AddressSize: 64bit // CHECK: MachHeader { // CHECK: Magic: Magic64 (0xFEEDFACF) // CHECK: CpuType: X86-64 (0x1000007) // CHECK: CpuSubType: CPU_SUBTYPE_X86_64_ALL (0x3) // CHECK: FileType: Relocatable (0x1) // CHECK: NumOfLoadCommands: 4 // CHECK: SizeOfLoadCommands: 352 // CHECK: Flags [ (0x0) // CHECK: ] // CHECK: Reserved: 0x0 // CHECK: } // CHECK: Sections [ // CHECK: Section { // CHECK: Index: 0 // CHECK: Name: __text (5F 5F 74 65 78 74 00 00 00 00 00 00 00 00 00 00) // CHECK: Segment: __TEXT (5F 5F 54 45 58 54 00 00 00 00 00 00 00 00 00 00) // CHECK: Address: 0x0 // CHECK: Size: 0x5E // CHECK: Offset: 384 // CHECK: Alignment: 0 // CHECK: RelocationOffset: 0x270 // CHECK: RelocationCount: 12 // CHECK: Type: Regular (0x0) // CHECK: Attributes [ (0x800004) // CHECK: PureInstructions (0x800000) // CHECK: SomeInstructions (0x4) // CHECK: ] // CHECK: Reserved1: 0x0 // CHECK: Reserved2: 0x0 // CHECK: Reserved3: 0x0 // CHECK: SectionData ( // CHECK: 0000: 31C031C0 E9040000 00EBF9E9 00000000 |1.1.............| // CHECK: 0010: E9000000 00E90200 0000E900 000000E9 |................| // CHECK: 0020: 02000000 89050400 00008905 D2FFFFFF |................| // CHECK: 0030: 8905CEFF FFFF8905 00000000 89050200 |................| // CHECK: 0040: 00008905 00000000 89050200 00008905 |................| // CHECK: 0050: 00000000 89050200 000031C0 31C0 |..........1.1.| // CHECK: ) // CHECK: } // CHECK: Section { // CHECK: Index: 1 // CHECK: Name: __data (5F 5F 64 61 74 61 00 00 00 00 00 00 00 00 00 00) // CHECK: Segment: __DATA (5F 5F 44 41 54 41 00 00 00 00 00 00 00 00 00 00) // CHECK: Address: 0x5E // CHECK: Size: 0x8E // CHECK: Offset: 478 // CHECK: Alignment: 0 // CHECK: RelocationOffset: 0x2D0 // CHECK: RelocationCount: 16 // CHECK: Type: Regular (0x0) // CHECK: Attributes [ (0x4) // CHECK: SomeInstructions (0x4) // CHECK: ] // CHECK: Reserved1: 0x0 // CHECK: Reserved2: 0x0 // CHECK: Reserved3: 0x0 // CHECK: SectionData ( // CHECK: 0000: 31C00400 00000000 00000000 00000000 |1...............| // CHECK: 0010: 00000200 00000000 00000000 00000000 |................| // CHECK: 0020: 00000200 00000000 00000200 00000000 |................| // CHECK: 0030: 00000000 00000000 00000200 00000000 |................| // CHECK: 0040: 00000200 00000000 00000000 00000000 |................| // CHECK: 0050: 00000200 00000000 00000000 00000000 |................| // CHECK: 0060: 00000200 00000000 00000200 00000000 |................| // CHECK: 0070: 00000000 00000000 00000200 00000000 |................| // CHECK: 0080: 00000200 00000000 000031C0 31C0 |..........1.1.| // CHECK: ) // CHECK: } // CHECK: ] // CHECK: Relocations [ // CHECK: Section __text { // CHECK: 0x56 1 2 1 X86_64_RELOC_SIGNED 0 _g3 // CHECK: 0x50 1 2 1 X86_64_RELOC_SIGNED 0 _g3 // CHECK: 0x4A 1 2 1 X86_64_RELOC_SIGNED 0 _g2 // CHECK: 0x44 1 2 1 X86_64_RELOC_SIGNED 0 _g2 // CHECK: 0x3E 1 2 1 X86_64_RELOC_SIGNED 0 _g1 // CHECK: 0x38 1 2 1 X86_64_RELOC_SIGNED 0 _g1 // CHECK: 0x20 1 2 1 X86_64_RELOC_BRANCH 0 _g3 // CHECK: 0x1B 1 2 1 X86_64_RELOC_BRANCH 0 _g3 // CHECK: 0x16 1 2 1 X86_64_RELOC_BRANCH 0 _g2 // CHECK: 0x11 1 2 1 X86_64_RELOC_BRANCH 0 _g2 // CHECK: 0xC 1 2 1 X86_64_RELOC_BRANCH 0 _g1 // CHECK: 0x5 1 2 1 X86_64_RELOC_BRANCH 0 _foo // CHECK: } // CHECK: Section __data { // CHECK: 0x7A 0 3 1 X86_64_RELOC_SUBTRACTOR 0 _g0 // CHECK: 0x7A 0 3 1 X86_64_RELOC_UNSIGNED 0 _g1 // CHECK: 0x72 0 3 1 X86_64_RELOC_SUBTRACTOR 0 _g0 // CHECK: 0x72 0 3 1 X86_64_RELOC_UNSIGNED 0 _g1 // CHECK: 0x62 0 3 1 X86_64_RELOC_UNSIGNED 0 _g1 // CHECK: 0x5A 0 3 1 X86_64_RELOC_UNSIGNED 0 _g1 // CHECK: 0x52 0 3 1 X86_64_RELOC_UNSIGNED 0 _g0 // CHECK: 0x4A 0 3 1 X86_64_RELOC_UNSIGNED 0 _g0 // CHECK: 0x3A 0 3 1 X86_64_RELOC_SUBTRACTOR 0 _g2 // CHECK: 0x3A 0 3 1 X86_64_RELOC_UNSIGNED 0 _g3 // CHECK: 0x32 0 3 1 X86_64_RELOC_SUBTRACTOR 0 _g2 // CHECK: 0x32 0 3 1 X86_64_RELOC_UNSIGNED 0 _g3 // CHECK: 0x22 0 3 1 X86_64_RELOC_UNSIGNED 0 _g3 // CHECK: 0x1A 0 3 1 X86_64_RELOC_UNSIGNED 0 _g3 // CHECK: 0x12 0 3 1 X86_64_RELOC_UNSIGNED 0 _g2 // CHECK: 0xA 0 3 1 X86_64_RELOC_UNSIGNED 0 _g2 // CHECK: } // CHECK: ] // CHECK: Symbols [ // CHECK: Symbol { // CHECK: Name: _foo (1) // CHECK: Type: Section (0xE) // CHECK: Section: __text (0x1) // CHECK: RefType: UndefinedNonLazy (0x0) // CHECK: Flags [ (0x0) // CHECK: ] // CHECK: Value: 0x0 // CHECK: } // CHECK: Symbol { // CHECK: Name: _g0 (18) // CHECK: Type: Section (0xE) // CHECK: Section: __text (0x1) // CHECK: RefType: UndefinedNonLazy (0x0) // CHECK: Flags [ (0x0) // CHECK: ] // CHECK: Value: 0x2 // CHECK: } // CHECK: Symbol { // CHECK: Name: _g1 (14) // CHECK: Type: Section (0xE) // CHECK: Section: __text (0x1) // CHECK: RefType: UndefinedNonLazy (0x0) // CHECK: Flags [ (0x0) // CHECK: ] // CHECK: Value: 0x5A // CHECK: } // CHECK: Symbol { // CHECK: Name: _g2 (10) // CHECK: Type: Section (0xE) // CHECK: Section: __data (0x2) // CHECK: RefType: UndefinedNonLazy (0x0) // CHECK: Flags [ (0x0) // CHECK: ] // CHECK: Value: 0x5E // CHECK: } // CHECK: Symbol { // CHECK: Name: _g3 (6) // CHECK: Type: Section (0xE) // CHECK: Section: __data (0x2) // CHECK: RefType: UndefinedNonLazy (0x0) // CHECK: Flags [ (0x0) // CHECK: ] // CHECK: Value: 0xE8 // CHECK: } // CHECK: ] // CHECK: Indirect Symbols { // CHECK: Number: 0 // CHECK: Symbols [ // CHECK: ] // CHECK: } // CHECK: Segment { // CHECK: Cmd: LC_SEGMENT_64 // CHECK: Name: // CHECK: Size: 232 // CHECK: vmaddr: 0x0 // CHECK: vmsize: 0xEC // CHECK: fileoff: 384 // CHECK: filesize: 236 // CHECK: maxprot: rwx // CHECK: initprot: rwx // CHECK: nsects: 2 // CHECK: flags: 0x0 // CHECK: } // CHECK: Dysymtab { // CHECK: ilocalsym: 0 // CHECK: nlocalsym: 5 // CHECK: iextdefsym: 5 // CHECK: nextdefsym: 0 // CHECK: iundefsym: 5 // CHECK: nundefsym: 0 // CHECK: tocoff: 0 // CHECK: ntoc: 0 // CHECK: modtaboff: 0 // CHECK: nmodtab: 0 // CHECK: extrefsymoff: 0 // CHECK: nextrefsyms: 0 // CHECK: indirectsymoff: 0 // CHECK: nindirectsyms: 0 // CHECK: extreloff: 0 // CHECK: nextrel: 0 // CHECK: locreloff: 0 // CHECK: nlocrel: 0 // CHECK: }