mirror of
https://github.com/c64scene-ar/llvm-6502.git
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c299ad32c8
The current PowerPC MC back end distinguishes between fixup_ppc_ha16 and fixup_ppc_lo16, which are determined by the instruction the fixup applies to, and uses this distinction to decide whether a fixup ought to resolve to the high or the low part of a symbol address. This isn't quite correct, however. It is valid -if unusual- assembler to use, e.g. li 1, symbol@ha or lis 1, symbol@l Whether the high or the low part of the address is used depends solely on the @ suffix, not on the instruction. In addition, both li 1, symbol and lis 1, symbol are valid, assuming the symbol address fits into 16 bits; again, both will then refer to the actual symbol value (so li will load the value itself, while lis will load the value shifted by 16). To fix this, two places need to be adapted. If the fixup cannot be resolved at assembler time, a relocation needs to be emitted via PPCELFObjectWriter::getRelocType. This routine already looks at the VK_ type to determine the relocation. The only problem is that will reject any _LO modifier in a ha16 fixup and vice versa. This is simply incorrect; any of those modifiers ought to be accepted for either fixup type. If the fixup *can* be resolved at assembler time, adjustFixupValue currently selects the high bits of the symbol value if the fixup type is ha16. Again, this is incorrect; see the above example lis 1, symbol Now, in theory we'd have to respect a VK_ modifier here. However, in fact common code never even attempts to resolve symbol references using any nontrivial VK_ modifier at assembler time; it will always fall back to emitting a reloc and letting the linker handle it. If this ever changes, presumably there'd have to be a target callback to resolve VK_ modifiers. We'd then have to handle @ha etc. there. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@182091 91177308-0d34-0410-b5e6-96231b3b80d8
65 lines
1.4 KiB
ArmAsm
65 lines
1.4 KiB
ArmAsm
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# RUN: llvm-mc -triple powerpc64-unknown-unknown -filetype=obj %s | \
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# RUN: llvm-readobj -s -sd | FileCheck %s
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# This checks that fixups that can be resolved within the same
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# object file are applied correctly.
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.text
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addi 1, 1, target
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addis 1, 1, target
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.set target, 0x1234
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.data
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.quad v1
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.word v2
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.short v3
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.byte v4
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.set v1, 0x123456789abcdef0
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.set v2, 0x87654321
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.set v3, 0xbeef
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.set v4, 0x42
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# CHECK: Section {
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# CHECK: Name: .text
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# CHECK-NEXT: Type: SHT_PROGBITS
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# CHECK-NEXT: Flags [
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# CHECK-NEXT: SHF_ALLOC
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# CHECK-NEXT: SHF_EXECINSTR
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# CHECK-NEXT: ]
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# CHECK-NEXT: Address: 0x0
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# CHECK-NEXT: Offset:
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# CHECK-NEXT: Size: 8
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# CHECK-NEXT: Link: 0
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# CHECK-NEXT: Info: 0
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# CHECK-NEXT: AddressAlignment: 4
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# CHECK-NEXT: EntrySize: 0
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# CHECK-NEXT: SectionData (
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# CHECK-NEXT: 0000: 38211234 3C211234
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# CHECK-NEXT: )
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# CHECK-NEXT: }
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# CHECK: Section {
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# CHECK: Name: .data
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# CHECK-NEXT: Type: SHT_PROGBITS
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# CHECK-NEXT: Flags [
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# CHECK-NEXT: SHF_ALLOC
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# CHECK-NEXT: SHF_WRITE
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# CHECK-NEXT: ]
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# CHECK-NEXT: Address: 0x0
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# CHECK-NEXT: Offset:
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# CHECK-NEXT: Size: 15
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# CHECK-NEXT: Link: 0
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# CHECK-NEXT: Info: 0
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# CHECK-NEXT: AddressAlignment: 4
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# CHECK-NEXT: EntrySize: 0
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# CHECK-NEXT: SectionData (
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# CHECK-NEXT: 0000: 12345678 9ABCDEF0 87654321 BEEF42
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# CHECK-NEXT: )
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# CHECK-NEXT: }
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