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x86-64-intrcc.ll
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x86-64-intrcc.ll
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; RUN: llc -mtriple=x86_64-unknown-unknown < %s | FileCheck %s
; RUN: llc -mtriple=x86_64-unknown-unknown -O0 < %s | FileCheck %s -check-prefix=CHECK0
%struct.interrupt_frame = type { i64, i64, i64, i64, i64 }
@sink_address = dso_local global ptr null
@sink_i32 = dso_local global i64 0
; Spills rax, putting original esp at +8.
; No stack adjustment if declared with no error code
define x86_intrcc void @test_isr_no_ecode(ptr byval(%struct.interrupt_frame) %frame) {
; CHECK-LABEL: test_isr_no_ecode:
; CHECK: pushq %rax
; CHECK: movq 24(%rsp), %rax
; CHECK: popq %rax
; CHECK: iretq
; CHECK0-LABEL: test_isr_no_ecode:
; CHECK0: pushq %rax
; CHECK0: leaq 8(%rsp), %rax
; CHECK0: movq 16(%rax), %rax
; CHECK0: popq %rax
; CHECK0: iretq
%pflags = getelementptr inbounds %struct.interrupt_frame, ptr %frame, i32 0, i32 2
%flags = load i64, ptr %pflags, align 4
call void asm sideeffect "", "r"(i64 %flags)
ret void
}
; Spills rax and rcx, putting original rsp at +16. Stack is adjusted up another 8 bytes
; before return, popping the error code.
define x86_intrcc void @test_isr_ecode(ptr byval(%struct.interrupt_frame) %frame, i64 %ecode) {
; CHECK-LABEL: test_isr_ecode
; CHECK: pushq %rax
; CHECK: pushq %rax
; CHECK: pushq %rcx
; CHECK: movq 24(%rsp), %rax
; CHECK: movq 48(%rsp), %rcx
; CHECK: popq %rcx
; CHECK: popq %rax
; CHECK: addq $16, %rsp
; CHECK: iretq
; CHECK0-LABEL: test_isr_ecode
; CHECK0: pushq %rax
; CHECK0: pushq %rax
; CHECK0: pushq %rcx
; CHECK0: movq 24(%rsp), %rcx
; CHECK0: leaq 32(%rsp), %rax
; CHECK0: movq 16(%rax), %rax
; CHECK0: popq %rcx
; CHECK0: popq %rax
; CHECK0: addq $16, %rsp
; CHECK0: iretq
%pflags = getelementptr inbounds %struct.interrupt_frame, ptr %frame, i32 0, i32 2
%flags = load i64, ptr %pflags, align 4
call void asm sideeffect "", "r,r"(i64 %flags, i64 %ecode)
ret void
}
; All clobbered registers must be saved
define x86_intrcc void @test_isr_clobbers(ptr byval(%struct.interrupt_frame) %frame, i64 %ecode) {
call void asm sideeffect "", "~{rax},~{rbx},~{rbp},~{r11},~{xmm0}"()
; CHECK-LABEL: test_isr_clobbers
; CHECK: pushq %rax
; CHECK: pushq %rbp
; CHECK: pushq %r11
; CHECK: pushq %rbx
; CHECK: movaps %xmm0
; CHECK: movaps {{.*}}, %xmm0
; CHECK: popq %rbx
; CHECK: popq %r11
; CHECK: popq %rbp
; CHECK: popq %rax
; CHECK: addq $16, %rsp
; CHECK: iretq
; CHECK0-LABEL: test_isr_clobbers
; CHECK0: pushq %rax
; CHECK0: pushq %rbp
; CHECK0: pushq %r11
; CHECK0: pushq %rbx
; CHECK0: movaps %xmm0
; CHECK0: movaps {{.*}}, %xmm0
; CHECK0: popq %rbx
; CHECK0: popq %r11
; CHECK0: popq %rbp
; CHECK0: popq %rax
; CHECK0: addq $16, %rsp
; CHECK0: iretq
ret void
}
@f80 = common dso_local global x86_fp80 0xK00000000000000000000, align 4
; Test that the presence of x87 does not crash the FP stackifier
define x86_intrcc void @test_isr_x87(ptr byval(%struct.interrupt_frame) %frame) {
; CHECK-LABEL: test_isr_x87
; CHECK-DAG: fldt f80
; CHECK-DAG: fld1
; CHECK: faddp
; CHECK-NEXT: fstpt f80
; CHECK-NEXT: iretq
entry:
%ld = load x86_fp80, ptr @f80, align 4
%add = fadd x86_fp80 %ld, 0xK3FFF8000000000000000
store x86_fp80 %add, ptr @f80, align 4
ret void
}
; Use a frame pointer to check the offsets. No return address, arguments start
; at RBP+4.
define dso_local x86_intrcc void @test_fp_1(ptr byval(%struct.interrupt_frame) %p) #0 {
; CHECK-LABEL: test_fp_1:
; CHECK: # %bb.0: # %entry
; CHECK-NEXT: pushq %rbp
; CHECK-NEXT: movq %rsp, %rbp
; CHECK: cld
; CHECK-DAG: leaq 8(%rbp), %[[R1:[^ ]*]]
; CHECK-DAG: leaq 40(%rbp), %[[R2:[^ ]*]]
; CHECK: movq %[[R1]], sink_address
; CHECK: movq %[[R2]], sink_address
; CHECK: popq %rbp
; CHECK: iretq
entry:
%arrayidx2 = getelementptr inbounds %struct.interrupt_frame, ptr %p, i64 0, i32 4
store volatile ptr %p, ptr @sink_address
store volatile ptr %arrayidx2, ptr @sink_address
ret void
}
; The error code is between RBP and the interrupt_frame.
define dso_local x86_intrcc void @test_fp_2(ptr byval(%struct.interrupt_frame) %p, i64 %err) #0 {
; CHECK-LABEL: test_fp_2:
; CHECK: # %bb.0: # %entry
; This RAX push is just to align the stack.
; CHECK-NEXT: pushq %rax
; CHECK-NEXT: pushq %rbp
; CHECK-NEXT: movq %rsp, %rbp
; CHECK: cld
; CHECK-DAG: movq 16(%rbp), %[[R3:[^ ]*]]
; CHECK-DAG: leaq 24(%rbp), %[[R1:[^ ]*]]
; CHECK-DAG: leaq 56(%rbp), %[[R2:[^ ]*]]
; CHECK: movq %[[R1]], sink_address(%rip)
; CHECK: movq %[[R2]], sink_address(%rip)
; CHECK: movq %[[R3]], sink_i32(%rip)
; CHECK: popq %rbp
; Pop off both the error code and the 8 byte alignment adjustment from the
; prologue.
; CHECK: addq $16, %rsp
; CHECK: iretq
entry:
%arrayidx2 = getelementptr inbounds %struct.interrupt_frame, ptr %p, i64 0, i32 4
store volatile ptr %p, ptr @sink_address
store volatile ptr %arrayidx2, ptr @sink_address
store volatile i64 %err, ptr @sink_i32
ret void
}
; Test argument copy elision when copied to a local alloca.
define x86_intrcc void @test_copy_elide(ptr byval(%struct.interrupt_frame) %frame, i64 %err) #0 {
; CHECK-LABEL: test_copy_elide:
; CHECK: # %bb.0: # %entry
; This RAX push is just to align the stack.
; CHECK-NEXT: pushq %rax
; CHECK-NEXT: pushq %rbp
; CHECK-NEXT: movq %rsp, %rbp
; CHECK: cld
; CHECK: leaq 16(%rbp), %[[R1:[^ ]*]]
; CHECK: movq %[[R1]], sink_address(%rip)
entry:
%err.addr = alloca i64, align 4
store i64 %err, ptr %err.addr, align 4
store volatile ptr %err.addr, ptr @sink_address
ret void
}
define x86_intrcc void @test_stack_allocation(ptr byval(%struct.interrupt_frame) %frame, i64 %err) #1 {
; CHECK-LABEL: test_stack_allocation:
; CHECK: # %bb.0: # %entry
;; Ensure that STACKALLOC_W_PROBING isn't emitted.
; CHECK-NOT: # fixed size alloca with probing
;; Ensure that stack space is allocated.
; CHECK: subq $280, %rsp
entry:
%some_allocation = alloca i64
;; Call a un-inlineable function to ensure the allocation isn't put in the red zone.
call void @external_function(ptr %some_allocation)
ret void
}
declare void @external_function(ptr)
attributes #0 = { nounwind "frame-pointer"="all" }
attributes #1 = { nounwind "probe-stack"="inline-asm" }