llvm/test/Instrumentation/DataFlowSanitizer/struct.ll - llvm-project - Git at Google

 ; RUN: opt < %s -dfsan -dfsan-event-callbacks=true -S | FileCheck %s --check-prefixes=CHECK,EVENT_CALLBACKS
 ; RUN: opt < %s -dfsan -S | FileCheck %s --check-prefixes=CHECK,FAST
 ; RUN: opt < %s -dfsan -dfsan-combine-pointer-labels-on-load=false -S | FileCheck %s --check-prefixes=CHECK,NO_COMBINE_LOAD_PTR
 ; RUN: opt < %s -dfsan -dfsan-combine-pointer-labels-on-store=true -S | FileCheck %s --check-prefixes=CHECK,COMBINE_STORE_PTR
 ; RUN: opt < %s -dfsan -dfsan-track-select-control-flow=false -S | FileCheck %s --check-prefixes=CHECK,NO_SELECT_CONTROL
 ; RUN: opt < %s -dfsan -dfsan-debug-nonzero-labels -S | FileCheck %s --check-prefixes=CHECK,DEBUG_NONZERO_LABELS
 target datalayout = "e-p:64:64:64-i1:8:8-i8:8:8-i16:16:16-i32:32:32-i64:64:64-f32:32:32-f64:64:64-v64:64:64-v128:128:128-a0:0:64-s0:64:64-f80:128:128-n8:16:32:64-S128"
 target triple = "x86_64-unknown-linux-gnu"

 ; CHECK: @__dfsan_arg_tls = external thread_local(initialexec) global [[TLS_ARR:\[100 x i64\]]]
 ; CHECK: @__dfsan_retval_tls = external thread_local(initialexec) global [[TLS_ARR]]
 ; CHECK: @__dfsan_shadow_width_bits = weak_odr constant i32 [[#SBITS:]]
 ; CHECK: @__dfsan_shadow_width_bytes = weak_odr constant i32 [[#SBYTES:]]

 define {i8*, i32} @pass_struct({i8*, i32} %s) {
   ; NO_COMBINE_LOAD_PTR: @pass_struct.dfsan
   ; NO_COMBINE_LOAD_PTR: [[L:%.*]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN:2]]
   ; NO_COMBINE_LOAD_PTR: store { i[[#SBITS]], i[[#SBITS]] } [[L]], { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]

   ; DEBUG_NONZERO_LABELS: @pass_struct.dfsan
   ; DEBUG_NONZERO_LABELS: [[L:%.*]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN:2]]
   ; DEBUG_NONZERO_LABELS: [[L0:%.*]] = extractvalue { i[[#SBITS]], i[[#SBITS]] } [[L]], 0
   ; DEBUG_NONZERO_LABELS: [[L1:%.*]] = extractvalue { i[[#SBITS]], i[[#SBITS]] } [[L]], 1
   ; DEBUG_NONZERO_LABELS: [[L01:%.*]] = or i[[#SBITS]] [[L0]], [[L1]]
   ; DEBUG_NONZERO_LABELS: {{.*}} = icmp ne i[[#SBITS]] [[L01]], 0
   ; DEBUG_NONZERO_LABELS: call void @__dfsan_nonzero_label()
   ; DEBUG_NONZERO_LABELS: store { i[[#SBITS]], i[[#SBITS]] } [[L]], { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]

   ret {i8*, i32} %s
 }

 %StructOfAggr = type {i8*, [4 x i2], <4 x i3>, {i1, i1}}

 define %StructOfAggr @pass_struct_of_aggregate(%StructOfAggr %s) {
   ; NO_COMBINE_LOAD_PTR: @pass_struct_of_aggregate.dfsan
   ; NO_COMBINE_LOAD_PTR: %1 = load { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN:2]]
   ; NO_COMBINE_LOAD_PTR: store { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } %1, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN]]

   ret %StructOfAggr %s
 }

 define {} @load_empty_struct({}* %p) {
   ; NO_COMBINE_LOAD_PTR: @load_empty_struct.dfsan
   ; NO_COMBINE_LOAD_PTR: store {} zeroinitializer, {}* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to {}*), align 2

   %a = load {}, {}* %p
   ret {} %a
 }

 @Y = constant {i1, i32} {i1 1, i32 1}

 define {i1, i32} @load_global_struct() {
   ; NO_COMBINE_LOAD_PTR: @load_global_struct.dfsan
   ; NO_COMBINE_LOAD_PTR: store { i[[#SBITS]], i[[#SBITS]] } zeroinitializer, { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align 2

   %a = load {i1, i32}, {i1, i32}* @Y
   ret {i1, i32} %a
 }

 define {i1, i32} @select_struct(i1 %c, {i1, i32} %a, {i1, i32} %b) {
   ; NO_SELECT_CONTROL: @select_struct.dfsan
   ; NO_SELECT_CONTROL: [[B:%.*]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] }* inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 [[#mul(2, SBYTES) + 2]]) to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN:2]]
   ; NO_SELECT_CONTROL: [[A:%.*]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] }* inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 2) to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]
   ; NO_SELECT_CONTROL: [[C:%.*]] = load i[[#SBITS]], i[[#SBITS]]* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to i[[#SBITS]]*), align [[ALIGN]]
   ; NO_SELECT_CONTROL: [[S:%.*]] = select i1 %c, { i[[#SBITS]], i[[#SBITS]] } [[A]], { i[[#SBITS]], i[[#SBITS]] } [[B]]
   ; NO_SELECT_CONTROL: store { i[[#SBITS]], i[[#SBITS]] } [[S]], { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]

   ; FAST: @select_struct.dfsan
   ; FAST: %[[#R:]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] }* inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 [[#mul(2, SBYTES) + 2]]) to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN:2]]
   ; FAST: %[[#R+1]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] }* inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 2) to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]
   ; FAST: %[[#R+2]] = load i[[#SBITS]], i[[#SBITS]]* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to i[[#SBITS]]*), align [[ALIGN]]
   ; FAST: %[[#R+3]] = select i1 %c, { i[[#SBITS]], i[[#SBITS]] } %[[#R+1]], { i[[#SBITS]], i[[#SBITS]] } %[[#R]]
   ; FAST: %[[#R+4]] = extractvalue { i[[#SBITS]], i[[#SBITS]] } %[[#R+3]], 0
   ; FAST: %[[#R+5]] = extractvalue { i[[#SBITS]], i[[#SBITS]] } %[[#R+3]], 1
   ; FAST: %[[#R+6]] = or i[[#SBITS]] %[[#R+4]], %[[#R+5]]
   ; FAST: %[[#R+7]] = or i[[#SBITS]] %[[#R+2]], %[[#R+6]]
   ; FAST: %[[#R+8]] = insertvalue { i[[#SBITS]], i[[#SBITS]] } undef, i[[#SBITS]] %[[#R+7]], 0
   ; FAST: %[[#R+9]] = insertvalue { i[[#SBITS]], i[[#SBITS]] } %[[#R+8]], i[[#SBITS]] %[[#R+7]], 1
   ; FAST: store { i[[#SBITS]], i[[#SBITS]] } %[[#R+9]], { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]

   %s = select i1 %c, {i1, i32} %a, {i1, i32} %b
   ret {i1, i32} %s
 }

 define { i32, i32 } @asm_struct(i32 %0, i32 %1) {
   ; FAST: @asm_struct.dfsan
   ; FAST: [[E1:%.*]] = load i[[#SBITS]], i[[#SBITS]]* inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 2) to i[[#SBITS]]*), align [[ALIGN:2]]
   ; FAST: [[E0:%.*]] = load i[[#SBITS]], i[[#SBITS]]* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to i[[#SBITS]]*), align [[ALIGN]]
   ; FAST: [[E01:%.*]] = or i[[#SBITS]] [[E0]], [[E1]]
   ; FAST: [[S0:%.*]] = insertvalue { i[[#SBITS]], i[[#SBITS]] } undef, i[[#SBITS]] [[E01]], 0
   ; FAST: [[S1:%.*]] = insertvalue { i[[#SBITS]], i[[#SBITS]] } [[S0]], i[[#SBITS]] [[E01]], 1
   ; FAST: store { i[[#SBITS]], i[[#SBITS]] } [[S1]], { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]

 entry:
   %a = call { i32, i32 } asm "", "=r,=r,r,r,~{dirflag},~{fpsr},~{flags}"(i32 %0, i32 %1)
   ret { i32, i32 } %a
 }

 define {i32, i32} @const_struct() {
   ; FAST: @const_struct.dfsan
   ; FAST: store { i[[#SBITS]], i[[#SBITS]] } zeroinitializer, { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align 2
   ret {i32, i32} { i32 42, i32 11 }
 }

 define i1 @extract_struct({i1, i5} %s) {
   ; FAST: @extract_struct.dfsan
   ; FAST: [[SM:%.*]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN:2]]
   ; FAST: [[EM:%.*]] = extractvalue { i[[#SBITS]], i[[#SBITS]] } [[SM]], 0
   ; FAST: store i[[#SBITS]] [[EM]], i[[#SBITS]]* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to i[[#SBITS]]*), align [[ALIGN]]

   %e2 = extractvalue {i1, i5} %s, 0
   ret i1 %e2
 }

 define {i1, i5} @insert_struct({i1, i5} %s, i5 %e1) {
   ; FAST: @insert_struct.dfsan
   ; FAST: [[EM:%.*]] = load i[[#SBITS]], i[[#SBITS]]* inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 [[#mul(2, SBYTES)]]) to i[[#SBITS]]*), align [[ALIGN:2]]
   ; FAST: [[SM:%.*]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]
   ; FAST: [[SM1:%.*]] = insertvalue { i[[#SBITS]], i[[#SBITS]] } [[SM]], i[[#SBITS]] [[EM]], 1
   ; FAST: store { i[[#SBITS]], i[[#SBITS]] } [[SM1]], { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]
   %s1 = insertvalue {i1, i5} %s, i5 %e1, 1
   ret {i1, i5} %s1
 }

 define {i1, i1} @load_struct({i1, i1}* %p) {
   ; NO_COMBINE_LOAD_PTR: @load_struct.dfsan
   ; NO_COMBINE_LOAD_PTR: [[OL:%.*]] = or i[[#SBITS]]
   ; NO_COMBINE_LOAD_PTR: [[S0:%.*]] = insertvalue { i[[#SBITS]], i[[#SBITS]] } undef, i[[#SBITS]] [[OL]], 0
   ; NO_COMBINE_LOAD_PTR: [[S1:%.*]] = insertvalue { i[[#SBITS]], i[[#SBITS]] } [[S0]], i[[#SBITS]] [[OL]], 1
   ; NO_COMBINE_LOAD_PTR: store { i[[#SBITS]], i[[#SBITS]] } [[S1]], { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align 2

   ; EVENT_CALLBACKS: @load_struct.dfsan
   ; EVENT_CALLBACKS: [[OL0:%.*]] = or i[[#SBITS]]
   ; EVENT_CALLBACKS: [[OL1:%.*]] = or i[[#SBITS]] [[OL0]],
   ; EVENT_CALLBACKS: [[S0:%.*]] = insertvalue { i[[#SBITS]], i[[#SBITS]] } undef, i[[#SBITS]] [[OL1]], 0
   ; EVENT_CALLBACKS: call void @__dfsan_load_callback(i[[#SBITS]] [[OL1]]

   %s = load {i1, i1}, {i1, i1}* %p
   ret {i1, i1} %s
 }

 define void @store_struct({i1, i1}* %p, {i1, i1} %s) {
   ; FAST: @store_struct.dfsan
   ; FAST: [[S:%.*]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] }* inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 2) to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN:2]]
   ; FAST: [[E0:%.*]] = extractvalue { i[[#SBITS]], i[[#SBITS]] } [[S]], 0
   ; FAST: [[E1:%.*]] = extractvalue { i[[#SBITS]], i[[#SBITS]] } [[S]], 1
   ; FAST: [[E:%.*]] = or i[[#SBITS]] [[E0]], [[E1]]
   ; FAST: [[P0:%.*]] = getelementptr i[[#SBITS]], i[[#SBITS]]* [[P:%.*]], i32 0
   ; FAST: store i[[#SBITS]] [[E]], i[[#SBITS]]* [[P0]], align [[#SBYTES]]
   ; FAST: [[P1:%.*]] = getelementptr i[[#SBITS]], i[[#SBITS]]* [[P]], i32 1
   ; FAST: store i[[#SBITS]] [[E]], i[[#SBITS]]* [[P1]], align [[#SBYTES]]

   ; EVENT_CALLBACKS: @store_struct.dfsan
   ; EVENT_CALLBACKS: [[OL:%.*]] = or i[[#SBITS]]
   ; EVENT_CALLBACKS: call void @__dfsan_store_callback(i[[#SBITS]] [[OL]]

   ; COMBINE_STORE_PTR: @store_struct.dfsan
   ; COMBINE_STORE_PTR: [[PL:%.*]] = load i[[#SBITS]], i[[#SBITS]]* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to i[[#SBITS]]*), align [[ALIGN:2]]
   ; COMBINE_STORE_PTR: [[SL:%.*]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] }* inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 2) to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]
   ; COMBINE_STORE_PTR: [[SL0:%.*]] = extractvalue { i[[#SBITS]], i[[#SBITS]] } [[SL]], 0
   ; COMBINE_STORE_PTR: [[SL1:%.*]] = extractvalue { i[[#SBITS]], i[[#SBITS]] } [[SL]], 1
   ; COMBINE_STORE_PTR: [[SL01:%.*]] = or i[[#SBITS]] [[SL0]], [[SL1]]
   ; COMBINE_STORE_PTR: [[E:%.*]] = or i[[#SBITS]] [[SL01]], [[PL]]
   ; COMBINE_STORE_PTR: [[P0:%.*]] = getelementptr i[[#SBITS]], i[[#SBITS]]* [[P:%.*]], i32 0
   ; COMBINE_STORE_PTR: store i[[#SBITS]] [[E]], i[[#SBITS]]* [[P0]], align [[#SBYTES]]
   ; COMBINE_STORE_PTR: [[P1:%.*]] = getelementptr i[[#SBITS]], i[[#SBITS]]* [[P]], i32 1
   ; COMBINE_STORE_PTR: store i[[#SBITS]] [[E]], i[[#SBITS]]* [[P1]], align [[#SBYTES]]

   store {i1, i1} %s, {i1, i1}* %p
   ret void
 }

 define i2 @extract_struct_of_aggregate11(%StructOfAggr %s) {
   ; FAST: @extract_struct_of_aggregate11.dfsan
   ; FAST: [[E:%.*]] = load { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN:2]]
   ; FAST: [[E11:%.*]] = extractvalue { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } [[E]], 1, 1
   ; FAST: store i[[#SBITS]] [[E11]], i[[#SBITS]]* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to i[[#SBITS]]*), align [[ALIGN]]

   %e11 = extractvalue %StructOfAggr %s, 1, 1
   ret i2 %e11
 }

 define [4 x i2] @extract_struct_of_aggregate1(%StructOfAggr %s) {
   ; FAST: @extract_struct_of_aggregate1.dfsan
   ; FAST: [[E:%.*]] = load { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN:2]]
   ; FAST: [[E1:%.*]] = extractvalue { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } [[E]], 1
   ; FAST: store [4 x i[[#SBITS]]] [[E1]], [4 x i[[#SBITS]]]* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to [4 x i[[#SBITS]]]*), align [[ALIGN]]
   %e1 = extractvalue %StructOfAggr %s, 1
   ret [4 x i2] %e1
 }

 define <4 x i3> @extract_struct_of_aggregate2(%StructOfAggr %s) {
   ; FAST: @extract_struct_of_aggregate2.dfsan
   ; FAST: [[E:%.*]] = load { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN:2]]
   ; FAST: [[E2:%.*]] = extractvalue { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } [[E]], 2
   ; FAST: store i[[#SBITS]] [[E2]], i[[#SBITS]]* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to i[[#SBITS]]*), align [[ALIGN]]
   %e2 = extractvalue %StructOfAggr %s, 2
   ret <4 x i3> %e2
 }

 define { i1, i1 } @extract_struct_of_aggregate3(%StructOfAggr %s) {
   ; FAST: @extract_struct_of_aggregate3.dfsan
   ; FAST: [[E:%.*]] = load { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN:2]]
   ; FAST: [[E3:%.*]] = extractvalue { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } [[E]], 3
   ; FAST: store { i[[#SBITS]], i[[#SBITS]] } [[E3]], { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]
   %e3 = extractvalue %StructOfAggr %s, 3
   ret { i1, i1 } %e3
 }

 define i1 @extract_struct_of_aggregate31(%StructOfAggr %s) {
   ; FAST: @extract_struct_of_aggregate31.dfsan
   ; FAST: [[E:%.*]] = load { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN:2]]
   ; FAST: [[E31:%.*]] = extractvalue { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } [[E]], 3, 1
   ; FAST: store i[[#SBITS]] [[E31]], i[[#SBITS]]* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to i[[#SBITS]]*), align [[ALIGN]]
   %e31 = extractvalue %StructOfAggr %s, 3, 1
   ret i1 %e31
 }

 define %StructOfAggr @insert_struct_of_aggregate11(%StructOfAggr %s, i2 %e11) {
   ; FAST: @insert_struct_of_aggregate11.dfsan
   ; FAST: [[E11:%.*]]  = load i[[#SBITS]], i[[#SBITS]]* inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 [[#mul(8, SBYTES)]]) to i[[#SBITS]]*), align [[ALIGN:2]]
   ; FAST: [[S:%.*]] = load { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN]]
   ; FAST: [[S1:%.*]] = insertvalue { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } [[S]], i[[#SBITS]] [[E11]], 1, 1
   ; FAST: store { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } [[S1]], { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN]]

   %s1 = insertvalue %StructOfAggr %s, i2 %e11, 1, 1
   ret %StructOfAggr %s1
 }

 define {i8*, i32} @call_struct({i8*, i32} %s) {
   ; FAST: @call_struct.dfsan
   ; FAST: [[S:%.*]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN:2]]
   ; FAST: store { i[[#SBITS]], i[[#SBITS]] } [[S]], { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]
   ; FAST: %_dfsret = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]
   ; FAST: store { i[[#SBITS]], i[[#SBITS]] } %_dfsret, { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]

   %r = call {i8*, i32} @pass_struct({i8*, i32} %s)
   ret {i8*, i32} %r
 }

 declare %StructOfAggr @fun_with_many_aggr_args(<2 x i7> %v, [2 x i5] %a, {i3, i3} %s)

 define %StructOfAggr @call_many_aggr_args(<2 x i7> %v, [2 x i5] %a, {i3, i3} %s) {
   ; FAST: @call_many_aggr_args.dfsan
   ; FAST: [[S:%.*]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] }* inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 [[#mul(2, SBYTES) + 2]]) to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN:2]]
   ; FAST: [[A:%.*]] = load [2 x i[[#SBITS]]], [2 x i[[#SBITS]]]* inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 2) to [2 x i[[#SBITS]]]*), align [[ALIGN]]
   ; FAST: [[V:%.*]] = load i[[#SBITS]], i[[#SBITS]]* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to i[[#SBITS]]*), align [[ALIGN]]
   ; FAST: store i[[#SBITS]] [[V]], i[[#SBITS]]* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to i[[#SBITS]]*), align [[ALIGN]]
   ; FAST: store [2 x i[[#SBITS]]] [[A]], [2 x i[[#SBITS]]]* inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 2) to [2 x i[[#SBITS]]]*), align [[ALIGN]]
   ; FAST: store { i[[#SBITS]], i[[#SBITS]] } [[S]], { i[[#SBITS]], i[[#SBITS]] }* inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 [[#mul(2, SBYTES) + 2]]) to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]
   ; FAST: %_dfsret = load { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN]]
   ; FAST: store { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } %_dfsret, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN]]

   %r = call %StructOfAggr @fun_with_many_aggr_args(<2 x i7> %v, [2 x i5] %a, {i3, i3} %s)
   ret %StructOfAggr %r
 }
	; RUN: opt < %s -dfsan -dfsan-event-callbacks=true -S \| FileCheck %s --check-prefixes=CHECK,EVENT_CALLBACKS
	; RUN: opt < %s -dfsan -S \| FileCheck %s --check-prefixes=CHECK,FAST
	; RUN: opt < %s -dfsan -dfsan-combine-pointer-labels-on-load=false -S \| FileCheck %s --check-prefixes=CHECK,NO_COMBINE_LOAD_PTR
	; RUN: opt < %s -dfsan -dfsan-combine-pointer-labels-on-store=true -S \| FileCheck %s --check-prefixes=CHECK,COMBINE_STORE_PTR
	; RUN: opt < %s -dfsan -dfsan-track-select-control-flow=false -S \| FileCheck %s --check-prefixes=CHECK,NO_SELECT_CONTROL
	; RUN: opt < %s -dfsan -dfsan-debug-nonzero-labels -S \| FileCheck %s --check-prefixes=CHECK,DEBUG_NONZERO_LABELS
	target datalayout = "e-p:64:64:64-i1:8:8-i8:8:8-i16:16:16-i32:32:32-i64:64:64-f32:32:32-f64:64:64-v64:64:64-v128:128:128-a0:0:64-s0:64:64-f80:128:128-n8:16:32:64-S128"
	target triple = "x86_64-unknown-linux-gnu"

	; CHECK: @__dfsan_arg_tls = external thread_local(initialexec) global [[TLS_ARR:\[100 x i64\]]]
	; CHECK: @__dfsan_retval_tls = external thread_local(initialexec) global [[TLS_ARR]]
	; CHECK: @__dfsan_shadow_width_bits = weak_odr constant i32 [[#SBITS:]]
	; CHECK: @__dfsan_shadow_width_bytes = weak_odr constant i32 [[#SBYTES:]]

	define {i8, i32} @pass_struct({i8, i32} %s) {
	; NO_COMBINE_LOAD_PTR: @pass_struct.dfsan
	; NO_COMBINE_LOAD_PTR: [[L:%.]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] } bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN:2]]
	; NO_COMBINE_LOAD_PTR: store { i[[#SBITS]], i[[#SBITS]] } [[L]], { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]

	; DEBUG_NONZERO_LABELS: @pass_struct.dfsan
	; DEBUG_NONZERO_LABELS: [[L:%.]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] } bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN:2]]
	; DEBUG_NONZERO_LABELS: [[L0:%.*]] = extractvalue { i[[#SBITS]], i[[#SBITS]] } [[L]], 0
	; DEBUG_NONZERO_LABELS: [[L1:%.*]] = extractvalue { i[[#SBITS]], i[[#SBITS]] } [[L]], 1
	; DEBUG_NONZERO_LABELS: [[L01:%.*]] = or i[[#SBITS]] [[L0]], [[L1]]
	; DEBUG_NONZERO_LABELS: {{.*}} = icmp ne i[[#SBITS]] [[L01]], 0
	; DEBUG_NONZERO_LABELS: call void @__dfsan_nonzero_label()
	; DEBUG_NONZERO_LABELS: store { i[[#SBITS]], i[[#SBITS]] } [[L]], { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]

	ret {i8*, i32} %s
	}

	%StructOfAggr = type {i8*, [4 x i2], <4 x i3>, {i1, i1}}

	define %StructOfAggr @pass_struct_of_aggregate(%StructOfAggr %s) {
	; NO_COMBINE_LOAD_PTR: @pass_struct_of_aggregate.dfsan
	; NO_COMBINE_LOAD_PTR: %1 = load { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN:2]]
	; NO_COMBINE_LOAD_PTR: store { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } %1, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN]]

	ret %StructOfAggr %s
	}

	define {} @load_empty_struct({}* %p) {
	; NO_COMBINE_LOAD_PTR: @load_empty_struct.dfsan
	; NO_COMBINE_LOAD_PTR: store {} zeroinitializer, {}* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to {}*), align 2

	%a = load {}, {}* %p
	ret {} %a
	}

	@Y = constant {i1, i32} {i1 1, i32 1}

	define {i1, i32} @load_global_struct() {
	; NO_COMBINE_LOAD_PTR: @load_global_struct.dfsan
	; NO_COMBINE_LOAD_PTR: store { i[[#SBITS]], i[[#SBITS]] } zeroinitializer, { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align 2

	%a = load {i1, i32}, {i1, i32}* @Y
	ret {i1, i32} %a
	}

	define {i1, i32} @select_struct(i1 %c, {i1, i32} %a, {i1, i32} %b) {
	; NO_SELECT_CONTROL: @select_struct.dfsan
	; NO_SELECT_CONTROL: [[B:%.]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] } inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 [[#mul(2, SBYTES) + 2]]) to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN:2]]
	; NO_SELECT_CONTROL: [[A:%.]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] } inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 2) to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]
	; NO_SELECT_CONTROL: [[C:%.]] = load i[[#SBITS]], i[[#SBITS]] bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to i[[#SBITS]]*), align [[ALIGN]]
	; NO_SELECT_CONTROL: [[S:%.*]] = select i1 %c, { i[[#SBITS]], i[[#SBITS]] } [[A]], { i[[#SBITS]], i[[#SBITS]] } [[B]]
	; NO_SELECT_CONTROL: store { i[[#SBITS]], i[[#SBITS]] } [[S]], { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]

	; FAST: @select_struct.dfsan
	; FAST: %[[#R:]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] }* inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 [[#mul(2, SBYTES) + 2]]) to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN:2]]
	; FAST: %[[#R+1]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] }* inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 2) to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]
	; FAST: %[[#R+2]] = load i[[#SBITS]], i[[#SBITS]]* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to i[[#SBITS]]*), align [[ALIGN]]
	; FAST: %[[#R+3]] = select i1 %c, { i[[#SBITS]], i[[#SBITS]] } %[[#R+1]], { i[[#SBITS]], i[[#SBITS]] } %[[#R]]
	; FAST: %[[#R+4]] = extractvalue { i[[#SBITS]], i[[#SBITS]] } %[[#R+3]], 0
	; FAST: %[[#R+5]] = extractvalue { i[[#SBITS]], i[[#SBITS]] } %[[#R+3]], 1
	; FAST: %[[#R+6]] = or i[[#SBITS]] %[[#R+4]], %[[#R+5]]
	; FAST: %[[#R+7]] = or i[[#SBITS]] %[[#R+2]], %[[#R+6]]
	; FAST: %[[#R+8]] = insertvalue { i[[#SBITS]], i[[#SBITS]] } undef, i[[#SBITS]] %[[#R+7]], 0
	; FAST: %[[#R+9]] = insertvalue { i[[#SBITS]], i[[#SBITS]] } %[[#R+8]], i[[#SBITS]] %[[#R+7]], 1
	; FAST: store { i[[#SBITS]], i[[#SBITS]] } %[[#R+9]], { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]

	%s = select i1 %c, {i1, i32} %a, {i1, i32} %b
	ret {i1, i32} %s
	}

	define { i32, i32 } @asm_struct(i32 %0, i32 %1) {
	; FAST: @asm_struct.dfsan
	; FAST: [[E1:%.]] = load i[[#SBITS]], i[[#SBITS]] inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 2) to i[[#SBITS]]*), align [[ALIGN:2]]
	; FAST: [[E0:%.]] = load i[[#SBITS]], i[[#SBITS]] bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to i[[#SBITS]]*), align [[ALIGN]]
	; FAST: [[E01:%.*]] = or i[[#SBITS]] [[E0]], [[E1]]
	; FAST: [[S0:%.*]] = insertvalue { i[[#SBITS]], i[[#SBITS]] } undef, i[[#SBITS]] [[E01]], 0
	; FAST: [[S1:%.*]] = insertvalue { i[[#SBITS]], i[[#SBITS]] } [[S0]], i[[#SBITS]] [[E01]], 1
	; FAST: store { i[[#SBITS]], i[[#SBITS]] } [[S1]], { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]

	entry:
	%a = call { i32, i32 } asm "", "=r,=r,r,r,~{dirflag},~{fpsr},~{flags}"(i32 %0, i32 %1)
	ret { i32, i32 } %a
	}

	define {i32, i32} @const_struct() {
	; FAST: @const_struct.dfsan
	; FAST: store { i[[#SBITS]], i[[#SBITS]] } zeroinitializer, { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align 2
	ret {i32, i32} { i32 42, i32 11 }
	}

	define i1 @extract_struct({i1, i5} %s) {
	; FAST: @extract_struct.dfsan
	; FAST: [[SM:%.]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] } bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN:2]]
	; FAST: [[EM:%.*]] = extractvalue { i[[#SBITS]], i[[#SBITS]] } [[SM]], 0
	; FAST: store i[[#SBITS]] [[EM]], i[[#SBITS]]* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to i[[#SBITS]]*), align [[ALIGN]]

	%e2 = extractvalue {i1, i5} %s, 0
	ret i1 %e2
	}

	define {i1, i5} @insert_struct({i1, i5} %s, i5 %e1) {
	; FAST: @insert_struct.dfsan
	; FAST: [[EM:%.]] = load i[[#SBITS]], i[[#SBITS]] inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 [[#mul(2, SBYTES)]]) to i[[#SBITS]]*), align [[ALIGN:2]]
	; FAST: [[SM:%.]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] } bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]
	; FAST: [[SM1:%.*]] = insertvalue { i[[#SBITS]], i[[#SBITS]] } [[SM]], i[[#SBITS]] [[EM]], 1
	; FAST: store { i[[#SBITS]], i[[#SBITS]] } [[SM1]], { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]
	%s1 = insertvalue {i1, i5} %s, i5 %e1, 1
	ret {i1, i5} %s1
	}

	define {i1, i1} @load_struct({i1, i1}* %p) {
	; NO_COMBINE_LOAD_PTR: @load_struct.dfsan
	; NO_COMBINE_LOAD_PTR: [[OL:%.*]] = or i[[#SBITS]]
	; NO_COMBINE_LOAD_PTR: [[S0:%.*]] = insertvalue { i[[#SBITS]], i[[#SBITS]] } undef, i[[#SBITS]] [[OL]], 0
	; NO_COMBINE_LOAD_PTR: [[S1:%.*]] = insertvalue { i[[#SBITS]], i[[#SBITS]] } [[S0]], i[[#SBITS]] [[OL]], 1
	; NO_COMBINE_LOAD_PTR: store { i[[#SBITS]], i[[#SBITS]] } [[S1]], { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align 2

	; EVENT_CALLBACKS: @load_struct.dfsan
	; EVENT_CALLBACKS: [[OL0:%.*]] = or i[[#SBITS]]
	; EVENT_CALLBACKS: [[OL1:%.*]] = or i[[#SBITS]] [[OL0]],
	; EVENT_CALLBACKS: [[S0:%.*]] = insertvalue { i[[#SBITS]], i[[#SBITS]] } undef, i[[#SBITS]] [[OL1]], 0
	; EVENT_CALLBACKS: call void @__dfsan_load_callback(i[[#SBITS]] [[OL1]]

	%s = load {i1, i1}, {i1, i1}* %p
	ret {i1, i1} %s
	}

	define void @store_struct({i1, i1}* %p, {i1, i1} %s) {
	; FAST: @store_struct.dfsan
	; FAST: [[S:%.]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] } inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 2) to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN:2]]
	; FAST: [[E0:%.*]] = extractvalue { i[[#SBITS]], i[[#SBITS]] } [[S]], 0
	; FAST: [[E1:%.*]] = extractvalue { i[[#SBITS]], i[[#SBITS]] } [[S]], 1
	; FAST: [[E:%.*]] = or i[[#SBITS]] [[E0]], [[E1]]
	; FAST: [[P0:%.]] = getelementptr i[[#SBITS]], i[[#SBITS]] [[P:%.*]], i32 0
	; FAST: store i[[#SBITS]] [[E]], i[[#SBITS]]* [[P0]], align [[#SBYTES]]
	; FAST: [[P1:%.]] = getelementptr i[[#SBITS]], i[[#SBITS]] [[P]], i32 1
	; FAST: store i[[#SBITS]] [[E]], i[[#SBITS]]* [[P1]], align [[#SBYTES]]

	; EVENT_CALLBACKS: @store_struct.dfsan
	; EVENT_CALLBACKS: [[OL:%.*]] = or i[[#SBITS]]
	; EVENT_CALLBACKS: call void @__dfsan_store_callback(i[[#SBITS]] [[OL]]

	; COMBINE_STORE_PTR: @store_struct.dfsan
	; COMBINE_STORE_PTR: [[PL:%.]] = load i[[#SBITS]], i[[#SBITS]] bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to i[[#SBITS]]*), align [[ALIGN:2]]
	; COMBINE_STORE_PTR: [[SL:%.]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] } inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 2) to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]
	; COMBINE_STORE_PTR: [[SL0:%.*]] = extractvalue { i[[#SBITS]], i[[#SBITS]] } [[SL]], 0
	; COMBINE_STORE_PTR: [[SL1:%.*]] = extractvalue { i[[#SBITS]], i[[#SBITS]] } [[SL]], 1
	; COMBINE_STORE_PTR: [[SL01:%.*]] = or i[[#SBITS]] [[SL0]], [[SL1]]
	; COMBINE_STORE_PTR: [[E:%.*]] = or i[[#SBITS]] [[SL01]], [[PL]]
	; COMBINE_STORE_PTR: [[P0:%.]] = getelementptr i[[#SBITS]], i[[#SBITS]] [[P:%.*]], i32 0
	; COMBINE_STORE_PTR: store i[[#SBITS]] [[E]], i[[#SBITS]]* [[P0]], align [[#SBYTES]]
	; COMBINE_STORE_PTR: [[P1:%.]] = getelementptr i[[#SBITS]], i[[#SBITS]] [[P]], i32 1
	; COMBINE_STORE_PTR: store i[[#SBITS]] [[E]], i[[#SBITS]]* [[P1]], align [[#SBYTES]]

	store {i1, i1} %s, {i1, i1}* %p
	ret void
	}

	define i2 @extract_struct_of_aggregate11(%StructOfAggr %s) {
	; FAST: @extract_struct_of_aggregate11.dfsan
	; FAST: [[E:%.]] = load { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN:2]]
	; FAST: [[E11:%.*]] = extractvalue { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } [[E]], 1, 1
	; FAST: store i[[#SBITS]] [[E11]], i[[#SBITS]]* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to i[[#SBITS]]*), align [[ALIGN]]

	%e11 = extractvalue %StructOfAggr %s, 1, 1
	ret i2 %e11
	}

	define [4 x i2] @extract_struct_of_aggregate1(%StructOfAggr %s) {
	; FAST: @extract_struct_of_aggregate1.dfsan
	; FAST: [[E:%.]] = load { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN:2]]
	; FAST: [[E1:%.*]] = extractvalue { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } [[E]], 1
	; FAST: store [4 x i[[#SBITS]]] [[E1]], [4 x i[[#SBITS]]]* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to [4 x i[[#SBITS]]]*), align [[ALIGN]]
	%e1 = extractvalue %StructOfAggr %s, 1
	ret [4 x i2] %e1
	}

	define <4 x i3> @extract_struct_of_aggregate2(%StructOfAggr %s) {
	; FAST: @extract_struct_of_aggregate2.dfsan
	; FAST: [[E:%.]] = load { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN:2]]
	; FAST: [[E2:%.*]] = extractvalue { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } [[E]], 2
	; FAST: store i[[#SBITS]] [[E2]], i[[#SBITS]]* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to i[[#SBITS]]*), align [[ALIGN]]
	%e2 = extractvalue %StructOfAggr %s, 2
	ret <4 x i3> %e2
	}

	define { i1, i1 } @extract_struct_of_aggregate3(%StructOfAggr %s) {
	; FAST: @extract_struct_of_aggregate3.dfsan
	; FAST: [[E:%.]] = load { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN:2]]
	; FAST: [[E3:%.*]] = extractvalue { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } [[E]], 3
	; FAST: store { i[[#SBITS]], i[[#SBITS]] } [[E3]], { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]
	%e3 = extractvalue %StructOfAggr %s, 3
	ret { i1, i1 } %e3
	}

	define i1 @extract_struct_of_aggregate31(%StructOfAggr %s) {
	; FAST: @extract_struct_of_aggregate31.dfsan
	; FAST: [[E:%.]] = load { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN:2]]
	; FAST: [[E31:%.*]] = extractvalue { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } [[E]], 3, 1
	; FAST: store i[[#SBITS]] [[E31]], i[[#SBITS]]* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to i[[#SBITS]]*), align [[ALIGN]]
	%e31 = extractvalue %StructOfAggr %s, 3, 1
	ret i1 %e31
	}

	define %StructOfAggr @insert_struct_of_aggregate11(%StructOfAggr %s, i2 %e11) {
	; FAST: @insert_struct_of_aggregate11.dfsan
	; FAST: [[E11:%.]] = load i[[#SBITS]], i[[#SBITS]] inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 [[#mul(8, SBYTES)]]) to i[[#SBITS]]*), align [[ALIGN:2]]
	; FAST: [[S:%.]] = load { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN]]
	; FAST: [[S1:%.*]] = insertvalue { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } [[S]], i[[#SBITS]] [[E11]], 1, 1
	; FAST: store { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } [[S1]], { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN]]

	%s1 = insertvalue %StructOfAggr %s, i2 %e11, 1, 1
	ret %StructOfAggr %s1
	}

	define {i8, i32} @call_struct({i8, i32} %s) {
	; FAST: @call_struct.dfsan
	; FAST: [[S:%.]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] } bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN:2]]
	; FAST: store { i[[#SBITS]], i[[#SBITS]] } [[S]], { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]
	; FAST: %_dfsret = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]
	; FAST: store { i[[#SBITS]], i[[#SBITS]] } %_dfsret, { i[[#SBITS]], i[[#SBITS]] }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]

	%r = call {i8, i32} @pass_struct({i8, i32} %s)
	ret {i8*, i32} %r
	}

	declare %StructOfAggr @fun_with_many_aggr_args(<2 x i7> %v, [2 x i5] %a, {i3, i3} %s)

	define %StructOfAggr @call_many_aggr_args(<2 x i7> %v, [2 x i5] %a, {i3, i3} %s) {
	; FAST: @call_many_aggr_args.dfsan
	; FAST: [[S:%.]] = load { i[[#SBITS]], i[[#SBITS]] }, { i[[#SBITS]], i[[#SBITS]] } inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 [[#mul(2, SBYTES) + 2]]) to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN:2]]
	; FAST: [[A:%.]] = load [2 x i[[#SBITS]]], [2 x i[[#SBITS]]] inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 2) to [2 x i[[#SBITS]]]*), align [[ALIGN]]
	; FAST: [[V:%.]] = load i[[#SBITS]], i[[#SBITS]] bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to i[[#SBITS]]*), align [[ALIGN]]
	; FAST: store i[[#SBITS]] [[V]], i[[#SBITS]]* bitcast ([[TLS_ARR]]* @__dfsan_arg_tls to i[[#SBITS]]*), align [[ALIGN]]
	; FAST: store [2 x i[[#SBITS]]] [[A]], [2 x i[[#SBITS]]]* inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 2) to [2 x i[[#SBITS]]]*), align [[ALIGN]]
	; FAST: store { i[[#SBITS]], i[[#SBITS]] } [[S]], { i[[#SBITS]], i[[#SBITS]] }* inttoptr (i64 add (i64 ptrtoint ([[TLS_ARR]]* @__dfsan_arg_tls to i64), i64 [[#mul(2, SBYTES) + 2]]) to { i[[#SBITS]], i[[#SBITS]] }*), align [[ALIGN]]
	; FAST: %_dfsret = load { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN]]
	; FAST: store { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } } %_dfsret, { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }* bitcast ([[TLS_ARR]]* @__dfsan_retval_tls to { i[[#SBITS]], [4 x i[[#SBITS]]], i[[#SBITS]], { i[[#SBITS]], i[[#SBITS]] } }*), align [[ALIGN]]

	%r = call %StructOfAggr @fun_with_many_aggr_args(<2 x i7> %v, [2 x i5] %a, {i3, i3} %s)
	ret %StructOfAggr %r
	}