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llvm-mirror/test/CodeGen/X86/tls.ll
David Majnemer 263bcdd3a9 [X86] Implement the local-exec TLS model for Windows targets
We know that _tls_index is zero for local-exec TLS variables because
they are always defined in the executable.

llvm-svn: 237772
2015-05-20 04:45:26 +00:00

441 lines
12 KiB
LLVM

; RUN: llc < %s -march=x86 -mtriple=i386-linux-gnu | FileCheck -check-prefix=X32_LINUX %s
; RUN: llc < %s -march=x86-64 -mtriple=x86_64-linux-gnu | FileCheck -check-prefix=X64_LINUX %s
; RUN: llc < %s -march=x86 -mtriple=x86-pc-win32 | FileCheck -check-prefix=X32_WIN %s
; RUN: llc < %s -march=x86-64 -mtriple=x86_64-pc-win32 | FileCheck -check-prefix=X64_WIN %s
; RUN: llc < %s -march=x86 -mtriple=x86-pc-windows-gnu | FileCheck -check-prefix=MINGW32 %s
; RUN: llc < %s -march=x86-64 -mtriple=x86_64-pc-windows-gnu | FileCheck -check-prefix=X64_WIN %s
@i1 = thread_local global i32 15
@i2 = external thread_local global i32
@i3 = internal thread_local global i32 15
@i4 = hidden thread_local global i32 15
@i5 = external hidden thread_local global i32
@s1 = thread_local global i16 15
@b1 = thread_local global i8 0
@b2 = thread_local(localexec) global i8 0
define i32 @f1() {
; X32_LINUX-LABEL: f1:
; X32_LINUX: movl %gs:i1@NTPOFF, %eax
; X32_LINUX-NEXT: ret
; X64_LINUX-LABEL: f1:
; X64_LINUX: movl %fs:i1@TPOFF, %eax
; X64_LINUX-NEXT: ret
; X32_WIN-LABEL: f1:
; X32_WIN: movl __tls_index, %eax
; X32_WIN-NEXT: movl %fs:__tls_array, %ecx
; X32_WIN-NEXT: movl (%ecx,%eax,4), %eax
; X32_WIN-NEXT: movl _i1@SECREL32(%eax), %eax
; X32_WIN-NEXT: ret
; X64_WIN-LABEL: f1:
; X64_WIN: movl _tls_index(%rip), %eax
; X64_WIN-NEXT: movq %gs:88, %rcx
; X64_WIN-NEXT: movq (%rcx,%rax,8), %rax
; X64_WIN-NEXT: movl i1@SECREL32(%rax), %eax
; X64_WIN-NEXT: ret
; MINGW32-LABEL: _f1:
; MINGW32: movl __tls_index, %eax
; MINGW32-NEXT: movl %fs:44, %ecx
; MINGW32-NEXT: movl (%ecx,%eax,4), %eax
; MINGW32-NEXT: movl _i1@SECREL32(%eax), %eax
; MINGW32-NEXT: retl
entry:
%tmp1 = load i32, i32* @i1
ret i32 %tmp1
}
define i32* @f2() {
; X32_LINUX-LABEL: f2:
; X32_LINUX: movl %gs:0, %eax
; X32_LINUX-NEXT: leal i1@NTPOFF(%eax), %eax
; X32_LINUX-NEXT: ret
; X64_LINUX-LABEL: f2:
; X64_LINUX: movq %fs:0, %rax
; X64_LINUX-NEXT: leaq i1@TPOFF(%rax), %rax
; X64_LINUX-NEXT: ret
; X32_WIN-LABEL: f2:
; X32_WIN: movl __tls_index, %eax
; X32_WIN-NEXT: movl %fs:__tls_array, %ecx
; X32_WIN-NEXT: movl (%ecx,%eax,4), %eax
; X32_WIN-NEXT: leal _i1@SECREL32(%eax), %eax
; X32_WIN-NEXT: ret
; X64_WIN-LABEL: f2:
; X64_WIN: movl _tls_index(%rip), %eax
; X64_WIN-NEXT: movq %gs:88, %rcx
; X64_WIN-NEXT: movq (%rcx,%rax,8), %rax
; X64_WIN-NEXT: leaq i1@SECREL32(%rax), %rax
; X64_WIN-NEXT: ret
; MINGW32-LABEL: _f2:
; MINGW32: movl __tls_index, %eax
; MINGW32-NEXT: movl %fs:44, %ecx
; MINGW32-NEXT: movl (%ecx,%eax,4), %eax
; MINGW32-NEXT: leal _i1@SECREL32(%eax), %eax
; MINGW32-NEXT: retl
entry:
ret i32* @i1
}
define i32 @f3() nounwind {
; X32_LINUX-LABEL: f3:
; X32_LINUX: movl i2@INDNTPOFF, %eax
; X32_LINUX-NEXT: movl %gs:(%eax), %eax
; X32_LINUX-NEXT: ret
; X64_LINUX-LABEL: f3:
; X64_LINUX: movq i2@GOTTPOFF(%rip), %rax
; X64_LINUX-NEXT: movl %fs:(%rax), %eax
; X64_LINUX-NEXT: ret
; X32_WIN-LABEL: f3:
; X32_WIN: movl __tls_index, %eax
; X32_WIN-NEXT: movl %fs:__tls_array, %ecx
; X32_WIN-NEXT: movl (%ecx,%eax,4), %eax
; X32_WIN-NEXT: movl _i2@SECREL32(%eax), %eax
; X32_WIN-NEXT: ret
; X64_WIN-LABEL: f3:
; X64_WIN: movl _tls_index(%rip), %eax
; X64_WIN-NEXT: movq %gs:88, %rcx
; X64_WIN-NEXT: movq (%rcx,%rax,8), %rax
; X64_WIN-NEXT: movl i2@SECREL32(%rax), %eax
; X64_WIN-NEXT: ret
; MINGW32-LABEL: _f3:
; MINGW32: movl __tls_index, %eax
; MINGW32-NEXT: movl %fs:44, %ecx
; MINGW32-NEXT: movl (%ecx,%eax,4), %eax
; MINGW32-NEXT: movl _i2@SECREL32(%eax), %eax
; MINGW32-NEXT: retl
entry:
%tmp1 = load i32, i32* @i2
ret i32 %tmp1
}
define i32* @f4() {
; X32_LINUX-LABEL: f4:
; X32_LINUX: movl %gs:0, %eax
; X32_LINUX-NEXT: addl i2@INDNTPOFF, %eax
; X32_LINUX-NEXT: ret
; X64_LINUX-LABEL: f4:
; X64_LINUX: movq %fs:0, %rax
; X64_LINUX-NEXT: addq i2@GOTTPOFF(%rip), %rax
; X64_LINUX-NEXT: ret
; X32_WIN-LABEL: f4:
; X32_WIN: movl __tls_index, %eax
; X32_WIN-NEXT: movl %fs:__tls_array, %ecx
; X32_WIN-NEXT: movl (%ecx,%eax,4), %eax
; X32_WIN-NEXT: leal _i2@SECREL32(%eax), %eax
; X32_WIN-NEXT: ret
; X64_WIN-LABEL: f4:
; X64_WIN: movl _tls_index(%rip), %eax
; X64_WIN-NEXT: movq %gs:88, %rcx
; X64_WIN-NEXT: movq (%rcx,%rax,8), %rax
; X64_WIN-NEXT: leaq i2@SECREL32(%rax), %rax
; X64_WIN-NEXT: ret
; MINGW32-LABEL: _f4:
; MINGW32: movl __tls_index, %eax
; MINGW32-NEXT: movl %fs:44, %ecx
; MINGW32-NEXT: movl (%ecx,%eax,4), %eax
; MINGW32-NEXT: leal _i2@SECREL32(%eax), %eax
; MINGW32-NEXT: retl
entry:
ret i32* @i2
}
define i32 @f5() nounwind {
; X32_LINUX-LABEL: f5:
; X32_LINUX: movl %gs:i3@NTPOFF, %eax
; X32_LINUX-NEXT: ret
; X64_LINUX-LABEL: f5:
; X64_LINUX: movl %fs:i3@TPOFF, %eax
; X64_LINUX-NEXT: ret
; X32_WIN-LABEL: f5:
; X32_WIN: movl __tls_index, %eax
; X32_WIN-NEXT: movl %fs:__tls_array, %ecx
; X32_WIN-NEXT: movl (%ecx,%eax,4), %eax
; X32_WIN-NEXT: movl _i3@SECREL32(%eax), %eax
; X32_WIN-NEXT: ret
; X64_WIN-LABEL: f5:
; X64_WIN: movl _tls_index(%rip), %eax
; X64_WIN-NEXT: movq %gs:88, %rcx
; X64_WIN-NEXT: movq (%rcx,%rax,8), %rax
; X64_WIN-NEXT: movl i3@SECREL32(%rax), %eax
; X64_WIN-NEXT: ret
; MINGW32-LABEL: _f5:
; MINGW32: movl __tls_index, %eax
; MINGW32-NEXT: movl %fs:44, %ecx
; MINGW32-NEXT: movl (%ecx,%eax,4), %eax
; MINGW32-NEXT: movl _i3@SECREL32(%eax), %eax
; MINGW32-NEXT: retl
entry:
%tmp1 = load i32, i32* @i3
ret i32 %tmp1
}
define i32* @f6() {
; X32_LINUX-LABEL: f6:
; X32_LINUX: movl %gs:0, %eax
; X32_LINUX-NEXT: leal i3@NTPOFF(%eax), %eax
; X32_LINUX-NEXT: ret
; X64_LINUX-LABEL: f6:
; X64_LINUX: movq %fs:0, %rax
; X64_LINUX-NEXT: leaq i3@TPOFF(%rax), %rax
; X64_LINUX-NEXT: ret
; X32_WIN-LABEL: f6:
; X32_WIN: movl __tls_index, %eax
; X32_WIN-NEXT: movl %fs:__tls_array, %ecx
; X32_WIN-NEXT: movl (%ecx,%eax,4), %eax
; X32_WIN-NEXT: leal _i3@SECREL32(%eax), %eax
; X32_WIN-NEXT: ret
; X64_WIN-LABEL: f6:
; X64_WIN: movl _tls_index(%rip), %eax
; X64_WIN-NEXT: movq %gs:88, %rcx
; X64_WIN-NEXT: movq (%rcx,%rax,8), %rax
; X64_WIN-NEXT: leaq i3@SECREL32(%rax), %rax
; X64_WIN-NEXT: ret
; MINGW32-LABEL: _f6:
; MINGW32: movl __tls_index, %eax
; MINGW32-NEXT: movl %fs:44, %ecx
; MINGW32-NEXT: movl (%ecx,%eax,4), %eax
; MINGW32-NEXT: leal _i3@SECREL32(%eax), %eax
; MINGW32-NEXT: retl
entry:
ret i32* @i3
}
define i32 @f7() {
; X32_LINUX-LABEL: f7:
; X32_LINUX: movl %gs:i4@NTPOFF, %eax
; X32_LINUX-NEXT: ret
; X64_LINUX-LABEL: f7:
; X64_LINUX: movl %fs:i4@TPOFF, %eax
; X64_LINUX-NEXT: ret
; MINGW32-LABEL: _f7:
; MINGW32: movl __tls_index, %eax
; MINGW32-NEXT: movl %fs:44, %ecx
; MINGW32-NEXT: movl (%ecx,%eax,4), %eax
; MINGW32-NEXT: movl _i4@SECREL32(%eax), %eax
; MINGW32-NEXT: retl
entry:
%tmp1 = load i32, i32* @i4
ret i32 %tmp1
}
define i32* @f8() {
; X32_LINUX-LABEL: f8:
; X32_LINUX: movl %gs:0, %eax
; X32_LINUX-NEXT: leal i4@NTPOFF(%eax), %eax
; X32_LINUX-NEXT: ret
; X64_LINUX-LABEL: f8:
; X64_LINUX: movq %fs:0, %rax
; X64_LINUX-NEXT: leaq i4@TPOFF(%rax), %rax
; X64_LINUX-NEXT: ret
; MINGW32-LABEL: _f8:
; MINGW32: movl __tls_index, %eax
; MINGW32-NEXT: movl %fs:44, %ecx
; MINGW32-NEXT: movl (%ecx,%eax,4), %eax
; MINGW32-NEXT: leal _i4@SECREL32(%eax), %eax
; MINGW32-NEXT: retl
entry:
ret i32* @i4
}
define i32 @f9() {
; X32_LINUX-LABEL: f9:
; X32_LINUX: movl %gs:i5@NTPOFF, %eax
; X32_LINUX-NEXT: ret
; X64_LINUX-LABEL: f9:
; X64_LINUX: movl %fs:i5@TPOFF, %eax
; X64_LINUX-NEXT: ret
; MINGW32-LABEL: _f9:
; MINGW32: movl __tls_index, %eax
; MINGW32-NEXT: movl %fs:44, %ecx
; MINGW32-NEXT: movl (%ecx,%eax,4), %eax
; MINGW32-NEXT: movl _i5@SECREL32(%eax), %eax
; MINGW32-NEXT: retl
entry:
%tmp1 = load i32, i32* @i5
ret i32 %tmp1
}
define i32* @f10() {
; X32_LINUX-LABEL: f10:
; X32_LINUX: movl %gs:0, %eax
; X32_LINUX-NEXT: leal i5@NTPOFF(%eax), %eax
; X32_LINUX-NEXT: ret
; X64_LINUX-LABEL: f10:
; X64_LINUX: movq %fs:0, %rax
; X64_LINUX-NEXT: leaq i5@TPOFF(%rax), %rax
; X64_LINUX-NEXT: ret
; MINGW32-LABEL: _f10:
; MINGW32: movl __tls_index, %eax
; MINGW32-NEXT: movl %fs:44, %ecx
; MINGW32-NEXT: movl (%ecx,%eax,4), %eax
; MINGW32-NEXT: leal _i5@SECREL32(%eax), %eax
; MINGW32-NEXT: retl
entry:
ret i32* @i5
}
define i16 @f11() {
; X32_LINUX-LABEL: f11:
; X32_LINUX: movzwl %gs:s1@NTPOFF, %eax
; X32_LINUX: ret
; X64_LINUX-LABEL: f11:
; X64_LINUX: movzwl %fs:s1@TPOFF, %eax
; X64_LINUX: ret
; X32_WIN-LABEL: f11:
; X32_WIN: movl __tls_index, %eax
; X32_WIN-NEXT: movl %fs:__tls_array, %ecx
; X32_WIN-NEXT: movl (%ecx,%eax,4), %eax
; X32_WIN-NEXT: movzwl _s1@SECREL32(%eax), %eax
; X32_WIN: ret
; X64_WIN-LABEL: f11:
; X64_WIN: movl _tls_index(%rip), %eax
; X64_WIN-NEXT: movq %gs:88, %rcx
; X64_WIN-NEXT: movq (%rcx,%rax,8), %rax
; X64_WIN-NEXT: movzwl s1@SECREL32(%rax), %eax
; X64_WIN: ret
; MINGW32-LABEL: _f11:
; MINGW32: movl __tls_index, %eax
; MINGW32-NEXT: movl %fs:44, %ecx
; MINGW32-NEXT: movl (%ecx,%eax,4), %eax
; MINGW32-NEXT: movzwl _s1@SECREL32(%eax), %eax
; MINGW32: retl
entry:
%tmp1 = load i16, i16* @s1
ret i16 %tmp1
}
define i32 @f12() {
; X32_LINUX-LABEL: f12:
; X32_LINUX: movswl %gs:s1@NTPOFF, %eax
; X32_LINUX-NEXT: ret
; X64_LINUX-LABEL: f12:
; X64_LINUX: movswl %fs:s1@TPOFF, %eax
; X64_LINUX-NEXT: ret
; X32_WIN-LABEL: f12:
; X32_WIN: movl __tls_index, %eax
; X32_WIN-NEXT: movl %fs:__tls_array, %ecx
; X32_WIN-NEXT: movl (%ecx,%eax,4), %eax
; X32_WIN-NEXT: movswl _s1@SECREL32(%eax), %eax
; X32_WIN-NEXT: ret
; X64_WIN-LABEL: f12:
; X64_WIN: movl _tls_index(%rip), %eax
; X64_WIN-NEXT: movq %gs:88, %rcx
; X64_WIN-NEXT: movq (%rcx,%rax,8), %rax
; X64_WIN-NEXT: movswl s1@SECREL32(%rax), %eax
; X64_WIN-NEXT: ret
; MINGW32-LABEL: _f12:
; MINGW32: movl __tls_index, %eax
; MINGW32-NEXT: movl %fs:44, %ecx
; MINGW32-NEXT: movl (%ecx,%eax,4), %eax
; MINGW32-NEXT: movswl _s1@SECREL32(%eax), %eax
; MINGW32-NEXT: retl
entry:
%tmp1 = load i16, i16* @s1
%tmp2 = sext i16 %tmp1 to i32
ret i32 %tmp2
}
define i8 @f13() {
; X32_LINUX-LABEL: f13:
; X32_LINUX: movb %gs:b1@NTPOFF, %al
; X32_LINUX-NEXT: ret
; X64_LINUX-LABEL: f13:
; X64_LINUX: movb %fs:b1@TPOFF, %al
; X64_LINUX-NEXT: ret
; X32_WIN-LABEL: f13:
; X32_WIN: movl __tls_index, %eax
; X32_WIN-NEXT: movl %fs:__tls_array, %ecx
; X32_WIN-NEXT: movl (%ecx,%eax,4), %eax
; X32_WIN-NEXT: movb _b1@SECREL32(%eax), %al
; X32_WIN-NEXT: ret
; X64_WIN-LABEL: f13:
; X64_WIN: movl _tls_index(%rip), %eax
; X64_WIN-NEXT: movq %gs:88, %rcx
; X64_WIN-NEXT: movq (%rcx,%rax,8), %rax
; X64_WIN-NEXT: movb b1@SECREL32(%rax), %al
; X64_WIN-NEXT: ret
; MINGW32-LABEL: _f13:
; MINGW32: movl __tls_index, %eax
; MINGW32-NEXT: movl %fs:44, %ecx
; MINGW32-NEXT: movl (%ecx,%eax,4), %eax
; MINGW32-NEXT: movb _b1@SECREL32(%eax), %al
; MINGW32-NEXT: retl
entry:
%tmp1 = load i8, i8* @b1
ret i8 %tmp1
}
define i32 @f14() {
; X32_LINUX-LABEL: f14:
; X32_LINUX: movsbl %gs:b1@NTPOFF, %eax
; X32_LINUX-NEXT: ret
; X64_LINUX-LABEL: f14:
; X64_LINUX: movsbl %fs:b1@TPOFF, %eax
; X64_LINUX-NEXT: ret
; X32_WIN-LABEL: f14:
; X32_WIN: movl __tls_index, %eax
; X32_WIN-NEXT: movl %fs:__tls_array, %ecx
; X32_WIN-NEXT: movl (%ecx,%eax,4), %eax
; X32_WIN-NEXT: movsbl _b1@SECREL32(%eax), %eax
; X32_WIN-NEXT: ret
; X64_WIN-LABEL: f14:
; X64_WIN: movl _tls_index(%rip), %eax
; X64_WIN-NEXT: movq %gs:88, %rcx
; X64_WIN-NEXT: movq (%rcx,%rax,8), %rax
; X64_WIN-NEXT: movsbl b1@SECREL32(%rax), %eax
; X64_WIN-NEXT: ret
; MINGW32-LABEL: _f14:
; MINGW32: movl __tls_index, %eax
; MINGW32-NEXT: movl %fs:44, %ecx
; MINGW32-NEXT: movl (%ecx,%eax,4), %eax
; MINGW32-NEXT: movsbl _b1@SECREL32(%eax), %eax
; MINGW32-NEXT: retl
entry:
%tmp1 = load i8, i8* @b1
%tmp2 = sext i8 %tmp1 to i32
ret i32 %tmp2
}
define i8* @f15() {
; X32_LINUX-LABEL: f15:
; X32_LINUX: movl %gs:0, %eax
; X32_LINUX-NEXT: leal b2@NTPOFF(%eax), %eax
; X32_LINUX-NEXT: ret
; X64_LINUX-LABEL: f15:
; X64_LINUX: movq %fs:0, %rax
; X64_LINUX-NEXT: leaq b2@TPOFF(%rax), %rax
; X64_LINUX-NEXT: ret
; X32_WIN-LABEL: f15:
; X32_WIN: movl %fs:__tls_array, %eax
; X32_WIN-NEXT: movl (%eax), %eax
; X32_WIN-NEXT: leal _b2@SECREL32(%eax), %eax
; X32_WIN-NEXT: ret
; X64_WIN-LABEL: f15:
; X64_WIN: movq %gs:88, %rax
; X64_WIN-NEXT: movq (%rax), %rax
; X64_WIN-NEXT: leaq b2@SECREL32(%rax), %rax
; X64_WIN-NEXT: ret
; MINGW32-LABEL: f15:
; MINGW32: movl %fs:44, %eax
; MINGW32-NEXT: movl (%eax), %eax
; MINGW32-NEXT: leal _b2@SECREL32(%eax), %eax
; MINGW32-NEXT: ret
entry:
ret i8* @b2
}