; RUN: llc < %s -mtriple=x86_64-pc-windows-msvc | FileCheck %s
; RUN: llc < %s -mtriple=x86_64-w64-windows-gnu | FileCheck %s
; Control Flow Guard is currently only available on Windows
declare dllimport i32 @target_func1()
declare dllimport i32 @target_func2()
declare dllimport i32 @target_func3()
@ptrs = dso_local local_unnamed_addr global [2 x ptr] [ptr @target_func2, ptr @target_func3], align 16
; Test address-taken functions from imported DLLs are correctly added to the
; Guard Address-Taken IAT Entry (.giats) and Guard Function ID (.gfids) sections.
define i32 @func_cf_giats1() {
entry:
; Since it is a dllimport, target_func1 will be represented as "__imp_target_func1" when it is
; stored in the function pointer. Therefore, the .giats section must contain "__imp_target_func1".
; Unlike MSVC, we also have "target_func1" in the .gfids section, since this is not a security risk.
%func_ptr = alloca ptr, align 8
store ptr @target_func1, ptr %func_ptr, align 8
%0 = load ptr, ptr %func_ptr, align 8
%1 = call i32 %0()
; target_func2 is called directly from a global array, so should only appear in the .gfids section.
%2 = load ptr, ptr @ptrs, align 8
%3 = call i32 %2()
; target_func3 is called both via a stored function pointer (as with target_func1) and via a gloabl
; array (as with target_func2), so "target_func3" must appear in .gfids and "__imp_target_func3" in .giats.
store ptr @target_func3, ptr %func_ptr, align 8
%4 = load ptr, ptr %func_ptr, align 8
%5 = call i32 %4()
%6 = load ptr, ptr getelementptr inbounds ([2 x ptr], ptr @ptrs, i64 0, i64 1), align 8
%7 = call i32 %6()
ret i32 %5
}
; CHECK-LABEL: .section .gfids$y,"dr"
; CHECK-NEXT: .symidx target_func1
; CHECK-NEXT: .symidx target_func2
; CHECK-NEXT: .symidx target_func3
; CHECK-NOT: .symidx
; CHECK-LABEL: .section .giats$y,"dr"
; CHECK-NEXT: .symidx __imp_target_func1
; CHECK-NEXT: .symidx __imp_target_func3
; CHECK-NOT: .symidx
!llvm.module.flags = !{!0}
!0 = !{i32 2, !"cfguard", i32 2}