; RUN: llc -mtriple=x86_64-unknown < %s | FileCheck %s --implicit-check-not="jmp.*\*" --implicit-check-not="call.*\*" --check-prefix=X64 ; RUN: llc -mtriple=x86_64-unknown -O0 < %s | FileCheck %s --implicit-check-not="jmp.*\*" --implicit-check-not="call.*\*" --check-prefix=X64FAST ; RUN: llc -mtriple=i686-unknown < %s | FileCheck %s --implicit-check-not="jmp.*\*" --implicit-check-not="call.*\*" --check-prefix=X86 ; RUN: llc -mtriple=i686-unknown -O0 < %s | FileCheck %s --implicit-check-not="jmp.*\*" --implicit-check-not="call.*\*" --check-prefix=X86FAST declare void @bar(i32) ; Test a simple indirect call and tail call. define void @icall_reg(void (i32)* %fp, i32 %x) #0 { entry: tail call void @bar(i32 %x) tail call void %fp(i32 %x) tail call void @bar(i32 %x) tail call void %fp(i32 %x) ret void } ; X64-LABEL: icall_reg: ; X64-DAG: movq %rdi, %[[fp:[^ ]*]] ; X64-DAG: movl %esi, %[[x:[^ ]*]] ; X64: movl %[[x]], %edi ; X64: callq bar ; X64-DAG: movl %[[x]], %edi ; X64-DAG: movq %[[fp]], %r11 ; X64: callq __llvm_retpoline_r11 ; X64: movl %[[x]], %edi ; X64: callq bar ; X64-DAG: movl %[[x]], %edi ; X64-DAG: movq %[[fp]], %r11 ; X64: jmp __llvm_retpoline_r11 # TAILCALL ; X64FAST-LABEL: icall_reg: ; X64FAST: callq bar ; X64FAST: callq __llvm_retpoline_r11 ; X64FAST: callq bar ; X64FAST: jmp __llvm_retpoline_r11 # TAILCALL ; X86-LABEL: icall_reg: ; X86-DAG: movl 12(%esp), %[[fp:[^ ]*]] ; X86-DAG: movl 16(%esp), %[[x:[^ ]*]] ; X86: pushl %[[x]] ; X86: calll bar ; X86: movl %[[fp]], %eax ; X86: pushl %[[x]] ; X86: calll __llvm_retpoline_eax ; X86: pushl %[[x]] ; X86: calll bar ; X86: movl %[[fp]], %eax ; X86: pushl %[[x]] ; X86: calll __llvm_retpoline_eax ; X86-NOT: # TAILCALL ; X86FAST-LABEL: icall_reg: ; X86FAST: calll bar ; X86FAST: calll __llvm_retpoline_eax ; X86FAST: calll bar ; X86FAST: calll __llvm_retpoline_eax @global_fp = external global void (i32)* ; Test an indirect call through a global variable. define void @icall_global_fp(i32 %x, void (i32)** %fpp) #0 { %fp1 = load void (i32)*, void (i32)** @global_fp call void %fp1(i32 %x) %fp2 = load void (i32)*, void (i32)** @global_fp tail call void %fp2(i32 %x) ret void } ; X64-LABEL: icall_global_fp: ; X64-DAG: movl %edi, %[[x:[^ ]*]] ; X64-DAG: movq global_fp(%rip), %r11 ; X64: callq __llvm_retpoline_r11 ; X64-DAG: movl %[[x]], %edi ; X64-DAG: movq global_fp(%rip), %r11 ; X64: jmp __llvm_retpoline_r11 # TAILCALL ; X64FAST-LABEL: icall_global_fp: ; X64FAST: movq global_fp(%rip), %r11 ; X64FAST: callq __llvm_retpoline_r11 ; X64FAST: movq global_fp(%rip), %r11 ; X64FAST: jmp __llvm_retpoline_r11 # TAILCALL ; X86-LABEL: icall_global_fp: ; X86: movl global_fp, %eax ; X86: pushl 4(%esp) ; X86: calll __llvm_retpoline_eax ; X86: addl $4, %esp ; X86: movl global_fp, %eax ; X86: jmp __llvm_retpoline_eax # TAILCALL ; X86FAST-LABEL: icall_global_fp: ; X86FAST: calll __llvm_retpoline_eax ; X86FAST: jmp __llvm_retpoline_eax # TAILCALL %struct.Foo = type { void (%struct.Foo*)** } ; Test an indirect call through a vtable. define void @vcall(%struct.Foo* %obj) #0 { %vptr_field = getelementptr %struct.Foo, %struct.Foo* %obj, i32 0, i32 0 %vptr = load void (%struct.Foo*)**, void (%struct.Foo*)*** %vptr_field %vslot = getelementptr void(%struct.Foo*)*, void(%struct.Foo*)** %vptr, i32 1 %fp = load void(%struct.Foo*)*, void(%struct.Foo*)** %vslot tail call void %fp(%struct.Foo* %obj) tail call void %fp(%struct.Foo* %obj) ret void } ; X64-LABEL: vcall: ; X64: movq %rdi, %[[obj:[^ ]*]] ; X64: movq (%[[obj]]), %[[vptr:[^ ]*]] ; X64: movq 8(%[[vptr]]), %[[fp:[^ ]*]] ; X64: movq %[[fp]], %r11 ; X64: callq __llvm_retpoline_r11 ; X64-DAG: movq %[[obj]], %rdi ; X64-DAG: movq %[[fp]], %r11 ; X64: jmp __llvm_retpoline_r11 # TAILCALL ; X64FAST-LABEL: vcall: ; X64FAST: callq __llvm_retpoline_r11 ; X64FAST: jmp __llvm_retpoline_r11 # TAILCALL ; X86-LABEL: vcall: ; X86: movl 8(%esp), %[[obj:[^ ]*]] ; X86: movl (%[[obj]]), %[[vptr:[^ ]*]] ; X86: movl 4(%[[vptr]]), %[[fp:[^ ]*]] ; X86: movl %[[fp]], %eax ; X86: pushl %[[obj]] ; X86: calll __llvm_retpoline_eax ; X86: addl $4, %esp ; X86: movl %[[fp]], %eax ; X86: jmp __llvm_retpoline_eax # TAILCALL ; X86FAST-LABEL: vcall: ; X86FAST: calll __llvm_retpoline_eax ; X86FAST: jmp __llvm_retpoline_eax # TAILCALL declare void @direct_callee() define void @direct_tail() #0 { tail call void @direct_callee() ret void } ; X64-LABEL: direct_tail: ; X64: jmp direct_callee # TAILCALL ; X64FAST-LABEL: direct_tail: ; X64FAST: jmp direct_callee # TAILCALL ; X86-LABEL: direct_tail: ; X86: jmp direct_callee # TAILCALL ; X86FAST-LABEL: direct_tail: ; X86FAST: jmp direct_callee # TAILCALL declare void @nonlazybind_callee() #1 define void @nonlazybind_caller() #0 { call void @nonlazybind_callee() tail call void @nonlazybind_callee() ret void } ; X64-LABEL: nonlazybind_caller: ; X64: movq nonlazybind_callee@GOTPCREL(%rip), %[[REG:.*]] ; X64: movq %[[REG]], %r11 ; X64: callq __llvm_retpoline_r11 ; X64: movq %[[REG]], %r11 ; X64: jmp __llvm_retpoline_r11 # TAILCALL ; X64FAST-LABEL: nonlazybind_caller: ; X64FAST: movq nonlazybind_callee@GOTPCREL(%rip), %r11 ; X64FAST: callq __llvm_retpoline_r11 ; X64FAST: movq nonlazybind_callee@GOTPCREL(%rip), %r11 ; X64FAST: jmp __llvm_retpoline_r11 # TAILCALL ; X86-LABEL: nonlazybind_caller: ; X86: calll nonlazybind_callee@PLT ; X86: jmp nonlazybind_callee@PLT # TAILCALL ; X86FAST-LABEL: nonlazybind_caller: ; X86FAST: calll nonlazybind_callee@PLT ; X86FAST: jmp nonlazybind_callee@PLT # TAILCALL @indirectbr_rewrite.targets = constant [10 x i8*] [i8* blockaddress(@indirectbr_rewrite, %bb0), i8* blockaddress(@indirectbr_rewrite, %bb1), i8* blockaddress(@indirectbr_rewrite, %bb2), i8* blockaddress(@indirectbr_rewrite, %bb3), i8* blockaddress(@indirectbr_rewrite, %bb4), i8* blockaddress(@indirectbr_rewrite, %bb5), i8* blockaddress(@indirectbr_rewrite, %bb6), i8* blockaddress(@indirectbr_rewrite, %bb7), i8* blockaddress(@indirectbr_rewrite, %bb8), i8* blockaddress(@indirectbr_rewrite, %bb9)] ; Check that when retpolines are enabled a function with indirectbr gets ; rewritten to use switch, and that in turn doesn't get lowered as a jump ; table. define void @indirectbr_rewrite(i64* readonly %p, i64* %sink) #0 { ; X64-LABEL: indirectbr_rewrite: ; X64-NOT: jmpq ; X86-LABEL: indirectbr_rewrite: ; X86-NOT: jmpl entry: %i0 = load i64, i64* %p %target.i0 = getelementptr [10 x i8*], [10 x i8*]* @indirectbr_rewrite.targets, i64 0, i64 %i0 %target0 = load i8*, i8** %target.i0 indirectbr i8* %target0, [label %bb1, label %bb3] bb0: store volatile i64 0, i64* %sink br label %latch bb1: store volatile i64 1, i64* %sink br label %latch bb2: store volatile i64 2, i64* %sink br label %latch bb3: store volatile i64 3, i64* %sink br label %latch bb4: store volatile i64 4, i64* %sink br label %latch bb5: store volatile i64 5, i64* %sink br label %latch bb6: store volatile i64 6, i64* %sink br label %latch bb7: store volatile i64 7, i64* %sink br label %latch bb8: store volatile i64 8, i64* %sink br label %latch bb9: store volatile i64 9, i64* %sink br label %latch latch: %i.next = load i64, i64* %p %target.i.next = getelementptr [10 x i8*], [10 x i8*]* @indirectbr_rewrite.targets, i64 0, i64 %i.next %target.next = load i8*, i8** %target.i.next ; Potentially hit a full 10 successors here so that even if we rewrite as ; a switch it will try to be lowered with a jump table. indirectbr i8* %target.next, [label %bb0, label %bb1, label %bb2, label %bb3, label %bb4, label %bb5, label %bb6, label %bb7, label %bb8, label %bb9] } ; Lastly check that the necessary thunks were emitted. ; ; X64-LABEL: .section .text.__llvm_retpoline_r11,{{.*}},__llvm_retpoline_r11,comdat ; X64-NEXT: .hidden __llvm_retpoline_r11 ; X64-NEXT: .weak __llvm_retpoline_r11 ; X64: __llvm_retpoline_r11: ; X64-NEXT: # {{.*}} # %entry ; X64-NEXT: callq [[CALL_TARGET:.*]] ; X64-NEXT: [[CAPTURE_SPEC:.*]]: # Block address taken ; X64-NEXT: # %entry ; X64-NEXT: # =>This Inner Loop Header: Depth=1 ; X64-NEXT: pause ; X64-NEXT: lfence ; X64-NEXT: jmp [[CAPTURE_SPEC]] ; X64-NEXT: .p2align 4, 0x90 ; X64-NEXT: [[CALL_TARGET]]: # Block address taken ; X64-NEXT: # %entry ; X64-NEXT: movq %r11, (%rsp) ; X64-NEXT: retq ; ; X86-LABEL: .section .text.__llvm_retpoline_eax,{{.*}},__llvm_retpoline_eax,comdat ; X86-NEXT: .hidden __llvm_retpoline_eax ; X86-NEXT: .weak __llvm_retpoline_eax ; X86: __llvm_retpoline_eax: ; X86-NEXT: # {{.*}} # %entry ; X86-NEXT: calll [[CALL_TARGET:.*]] ; X86-NEXT: [[CAPTURE_SPEC:.*]]: # Block address taken ; X86-NEXT: # %entry ; X86-NEXT: # =>This Inner Loop Header: Depth=1 ; X86-NEXT: pause ; X86-NEXT: lfence ; X86-NEXT: jmp [[CAPTURE_SPEC]] ; X86-NEXT: .p2align 4, 0x90 ; X86-NEXT: [[CALL_TARGET]]: # Block address taken ; X86-NEXT: # %entry ; X86-NEXT: movl %eax, (%esp) ; X86-NEXT: retl ; ; X86-LABEL: .section .text.__llvm_retpoline_ecx,{{.*}},__llvm_retpoline_ecx,comdat ; X86-NEXT: .hidden __llvm_retpoline_ecx ; X86-NEXT: .weak __llvm_retpoline_ecx ; X86: __llvm_retpoline_ecx: ; X86-NEXT: # {{.*}} # %entry ; X86-NEXT: calll [[CALL_TARGET:.*]] ; X86-NEXT: [[CAPTURE_SPEC:.*]]: # Block address taken ; X86-NEXT: # %entry ; X86-NEXT: # =>This Inner Loop Header: Depth=1 ; X86-NEXT: pause ; X86-NEXT: lfence ; X86-NEXT: jmp [[CAPTURE_SPEC]] ; X86-NEXT: .p2align 4, 0x90 ; X86-NEXT: [[CALL_TARGET]]: # Block address taken ; X86-NEXT: # %entry ; X86-NEXT: movl %ecx, (%esp) ; X86-NEXT: retl ; ; X86-LABEL: .section .text.__llvm_retpoline_edx,{{.*}},__llvm_retpoline_edx,comdat ; X86-NEXT: .hidden __llvm_retpoline_edx ; X86-NEXT: .weak __llvm_retpoline_edx ; X86: __llvm_retpoline_edx: ; X86-NEXT: # {{.*}} # %entry ; X86-NEXT: calll [[CALL_TARGET:.*]] ; X86-NEXT: [[CAPTURE_SPEC:.*]]: # Block address taken ; X86-NEXT: # %entry ; X86-NEXT: # =>This Inner Loop Header: Depth=1 ; X86-NEXT: pause ; X86-NEXT: lfence ; X86-NEXT: jmp [[CAPTURE_SPEC]] ; X86-NEXT: .p2align 4, 0x90 ; X86-NEXT: [[CALL_TARGET]]: # Block address taken ; X86-NEXT: # %entry ; X86-NEXT: movl %edx, (%esp) ; X86-NEXT: retl ; ; X86-LABEL: .section .text.__llvm_retpoline_edi,{{.*}},__llvm_retpoline_edi,comdat ; X86-NEXT: .hidden __llvm_retpoline_edi ; X86-NEXT: .weak __llvm_retpoline_edi ; X86: __llvm_retpoline_edi: ; X86-NEXT: # {{.*}} # %entry ; X86-NEXT: calll [[CALL_TARGET:.*]] ; X86-NEXT: [[CAPTURE_SPEC:.*]]: # Block address taken ; X86-NEXT: # %entry ; X86-NEXT: # =>This Inner Loop Header: Depth=1 ; X86-NEXT: pause ; X86-NEXT: lfence ; X86-NEXT: jmp [[CAPTURE_SPEC]] ; X86-NEXT: .p2align 4, 0x90 ; X86-NEXT: [[CALL_TARGET]]: # Block address taken ; X86-NEXT: # %entry ; X86-NEXT: movl %edi, (%esp) ; X86-NEXT: retl attributes #0 = { "target-features"="+retpoline" } attributes #1 = { nonlazybind }