out-of-order.s
1.63 KB
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# REQUIRES: x86
# RUN: llvm-mc -filetype=obj -triple=x86_64-linux %s -o %t.o
# RUN: echo "SECTIONS { .data 0x4000 : {*(.data)} .dynsym 0x2000 : {*(.dynsym)} .dynstr : {*(.dynstr)} }" > %t.script
# RUN: ld.lld --hash-style=sysv -o %t.so --script %t.script %t.o -shared
# RUN: llvm-objdump -section-headers %t.so | FileCheck %s
# Note: how the layout is done:
# we need to layout 2 segments, each contains sections:
# seg1: .data .dynamic
# seg2: .dynsym .dynstr .text .hash
# for each segment, we start from the first section, regardless
# whether it is an orphan or not (sections that are not listed in the
# linkerscript are orphans):
# for seg1, we assign address: .data(0x4000), .dynamic(0x4008)
# for seg2, we assign address: .dynsym(0x2000), .dynstr(0x2018) ...
# .dynsym is not an orphan, so we take address from script, we assign
# .dynstr current address cursor, which is the end # of .dynsym and so
# on for later sections.
# Also note, it is absolutely *illegal* to have section addresses of
# the same segment in none-increasing order, authors of linker scripts
# must take responsibility to make sure this does not happen.
# CHECK: Sections:
# CHECK-NEXT: Idx Name Size VMA Type
# CHECK-NEXT: 0 00000000 0000000000000000
# CHECK-NEXT: 1 .dynamic 00000060 0000000000000000
# CHECK-NEXT: 2 .data 00000008 0000000000004000
# CHECK-NEXT: 3 .dynsym 00000018 0000000000002000
# CHECK-NEXT: 4 .dynstr 00000001 0000000000002018
# CHECK-NEXT: 5 .hash 00000010 000000000000201c
# CHECK-NEXT: 6 .text 00000008 000000000000202c
.quad 0
.data
.quad 0