5058a005b8
New 3.8 clang/llvm can compile TLS code now. * For x86_64, still disable clang due to f128 bug. * For b/25643775, arm and arm64, disable clang in unit tests. * Fix thread_local_test.cpp to compile with clang and limit gcc workaround only to arm and aarch64. BUG: 25643775 Change-Id: Iecd006bf1fc417dbcce2c63343a59c4bf1fa77ea
260 lines
7.7 KiB
C++
260 lines
7.7 KiB
C++
/*
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* Copyright (C) 2015 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include <gtest/gtest.h>
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#include <stdint.h>
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#include <string.h>
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#if defined(__GNUC__) && !defined(__clang__) && \
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(defined(__arm__) || defined(__aarch64__))
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// Gcc has a bug with -O -fdata-section for the arm target: http://b/22772147.
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// Until that bug is fixed, disable optimization since
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// it is not essential for this test.
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#pragma GCC optimize("-O0")
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#endif
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__thread int local_var = 100;
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int shared_var = 200;
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static void reset_vars() {
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local_var = 1000;
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shared_var = 2000;
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// local_var should be reset by threads
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}
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typedef void* (*MyThread)(void*);
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static void* inc_shared_var(void* p) {
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int *data = reinterpret_cast<int*>(p);
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shared_var++;
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*data = shared_var;
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return nullptr;
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}
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static void* inc_local_var(void* p) {
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int *data = reinterpret_cast<int*>(p);
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local_var++;
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*data = local_var;
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return nullptr;
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}
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static int run_one_thread(MyThread foo) {
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pthread_t t;
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int data;
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int error = pthread_create(&t, nullptr, foo, &data);
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if (!error)
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error = pthread_join(t, nullptr);
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return error ? error : data;
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}
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TEST(thread_local_storage, shared) {
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reset_vars();
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ASSERT_EQ(local_var, 1000);
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ASSERT_EQ(shared_var, 2000);
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// Update shared_var, local_var remains 1000.
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ASSERT_EQ(run_one_thread(inc_shared_var), 2001);
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ASSERT_EQ(local_var, 1000);
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ASSERT_EQ(shared_var, 2001);
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ASSERT_EQ(run_one_thread(inc_shared_var), 2002);
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ASSERT_EQ(local_var, 1000);
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ASSERT_EQ(shared_var, 2002);
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ASSERT_EQ(run_one_thread(inc_shared_var), 2003);
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ASSERT_EQ(local_var, 1000);
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ASSERT_EQ(shared_var, 2003);
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}
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TEST(thread_local_storage, local) {
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reset_vars();
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ASSERT_EQ(local_var, 1000);
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ASSERT_EQ(shared_var, 2000);
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// When a child thread updates its own TLS variable,
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// this thread's local_var and shared_var are not changed.
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// TLS local_var is initialized to 100 in a thread.
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ASSERT_EQ(run_one_thread(inc_local_var), 101);
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ASSERT_EQ(local_var, 1000);
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ASSERT_EQ(shared_var, 2000);
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ASSERT_EQ(run_one_thread(inc_local_var), 101);
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ASSERT_EQ(local_var, 1000);
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ASSERT_EQ(shared_var, 2000);
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ASSERT_EQ(run_one_thread(inc_local_var), 101);
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ASSERT_EQ(local_var, 1000);
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ASSERT_EQ(shared_var, 2000);
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}
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// Test TLS initialization of more complicated type, array of struct.
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struct Point {
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int x, y;
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};
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typedef Point Triangle[3];
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__thread Triangle local_triangle = {{10,10}, {20,20}, {30,30}};
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Triangle shared_triangle = {{1,1}, {2,2}, {3,3}};
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static void reset_triangle() {
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static const Triangle t1 = {{3,3}, {4,4}, {5,5}};
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static const Triangle t2 = {{2,2}, {3,3}, {4,4}};
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memcpy(local_triangle, t1, sizeof(local_triangle));
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memcpy(shared_triangle, t2, sizeof(shared_triangle));
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}
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static void* move_shared_triangle(void* p) {
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int *data = reinterpret_cast<int*>(p);
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shared_triangle[1].y++;
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*data = shared_triangle[1].y;
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return nullptr;
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}
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static void* move_local_triangle(void* p) {
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int *data = reinterpret_cast<int*>(p);
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local_triangle[1].y++;
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*data = local_triangle[1].y;
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return nullptr;
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}
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TEST(thread_local_storage, shared_triangle) {
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reset_triangle();
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ASSERT_EQ(local_triangle[1].y, 4);
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ASSERT_EQ(shared_triangle[1].y, 3);
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// Update shared_triangle, local_triangle remains 1000.
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ASSERT_EQ(run_one_thread(move_shared_triangle), 4);
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ASSERT_EQ(local_triangle[1].y, 4);
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ASSERT_EQ(shared_triangle[1].y, 4);
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ASSERT_EQ(run_one_thread(move_shared_triangle), 5);
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ASSERT_EQ(local_triangle[1].y, 4);
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ASSERT_EQ(shared_triangle[1].y, 5);
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ASSERT_EQ(run_one_thread(move_shared_triangle), 6);
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ASSERT_EQ(local_triangle[1].y, 4);
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ASSERT_EQ(shared_triangle[1].y, 6);
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}
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TEST(thread_local_storage, local_triangle) {
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reset_triangle();
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ASSERT_EQ(local_triangle[1].y, 4);
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ASSERT_EQ(shared_triangle[1].y, 3);
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// Update local_triangle, parent thread's
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// shared_triangle and local_triangle are unchanged.
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ASSERT_EQ(run_one_thread(move_local_triangle), 21);
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ASSERT_EQ(local_triangle[1].y, 4);
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ASSERT_EQ(shared_triangle[1].y, 3);
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ASSERT_EQ(run_one_thread(move_local_triangle), 21);
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ASSERT_EQ(local_triangle[1].y, 4);
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ASSERT_EQ(shared_triangle[1].y, 3);
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ASSERT_EQ(run_one_thread(move_local_triangle), 21);
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ASSERT_EQ(local_triangle[1].y, 4);
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ASSERT_EQ(shared_triangle[1].y, 3);
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}
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// Test emutls runtime data structures and __emutls_get_address function.
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typedef unsigned int gcc_word __attribute__((mode(word)));
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typedef unsigned int gcc_pointer __attribute__((mode(pointer)));
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struct gcc_emutls_object { // for libgcc
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gcc_word size;
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gcc_word align;
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union {
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gcc_pointer offset;
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void* ptr;
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} loc;
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void* templ;
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};
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typedef struct __emutls_control { // for clang/llvm
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size_t size;
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size_t align;
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union {
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uintptr_t index;
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void* address;
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} object;
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void* value;
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} __emutls_control;
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TEST(thread_local_storage, type_size) {
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static_assert(sizeof(size_t) == sizeof(gcc_word),
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"size_t != gcc_word");
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static_assert(sizeof(uintptr_t) == sizeof(gcc_pointer),
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"uintptr_t != gcc_pointer");
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static_assert(sizeof(uintptr_t) == sizeof(void*),
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"sizoeof(uintptr_t) != sizeof(void*)");
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static_assert(sizeof(__emutls_control) == sizeof(struct gcc_emutls_object),
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"sizeof(__emutls_control) != sizeof(struct gcc_emutls_object)");
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}
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extern "C" void* __emutls_get_address(__emutls_control*);
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TEST(thread_local_storage, init_value) {
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char tls_value1[] = "123456789";
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char tls_value2[] = "abcdefghi";
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constexpr size_t num_saved_values = 10;
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__emutls_control tls_var[num_saved_values];
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size_t prev_index = 0;
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void* saved_gap[num_saved_values];
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void* saved_p[num_saved_values];
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ASSERT_TRUE(strlen(tls_value2) <= strlen(tls_value1));
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__emutls_control c =
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{strlen(tls_value1) + 1, 1, {0}, tls_value1};
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for (size_t n = 0; n < num_saved_values; n++) {
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memcpy(&tls_var[n], &c, sizeof(c));
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tls_var[n].align = (1 << n);
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}
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for (size_t n = 0; n < num_saved_values; n++) {
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// Try to mess up malloc space so that the next malloc will not have the
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// required alignment, but __emutls_get_address should still return an
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// aligned address.
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saved_gap[n] = malloc(1);
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void* p = __emutls_get_address(&tls_var[n]);
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saved_p[n] = p;
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ASSERT_TRUE(p != nullptr);
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ASSERT_TRUE(tls_var[n].object.index != 0);
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// check if p is a new object.
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if (n > 0) {
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// In single-thread environment, object.address == p.
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// In multi-threads environment, object.index is increased.
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ASSERT_TRUE(prev_index + 1 == tls_var[n].object.index ||
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p == tls_var[n].object.address);
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ASSERT_TRUE(p != saved_p[n - 1]);
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}
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prev_index = tls_var[n].object.index;
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// check if p is aligned
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uintptr_t align = (1 << n);
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uintptr_t address= reinterpret_cast<uintptr_t>(p);
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ASSERT_EQ((address & ~(align - 1)), address);
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// check if *p is initialized
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ASSERT_STREQ(tls_value1, static_cast<char*>(p));
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// change value in *p
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memcpy(p, tls_value2, strlen(tls_value2) + 1);
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}
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for (size_t n = 0; n < num_saved_values; n++) {
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free(saved_gap[n]);
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}
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for (size_t n = 0; n < num_saved_values; n++) {
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void* p = __emutls_get_address(&tls_var[n]);
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ASSERT_EQ(p, saved_p[n]);
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// check if *p has the new value
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ASSERT_STREQ(tls_value2, static_cast<char*>(p));
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}
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}
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