mimalloc/test/main-override.cpp

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#include <stdlib.h>
#include <stdio.h>
#include <assert.h>
#include <string.h>
#include <stdint.h>
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#include <mimalloc.h>
#include <new>
#include <vector>
#include <future>
#include <iostream>
#include <thread>
#include <mimalloc.h>
#include <assert.h>
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#ifdef _WIN32
#include <mimalloc-new-delete.h>
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#endif
#ifdef _WIN32
#include <Windows.h>
static void msleep(unsigned long msecs) { Sleep(msecs); }
#else
#include <unistd.h>
static void msleep(unsigned long msecs) { usleep(msecs * 1000UL); }
#endif
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static void heap_thread_free_large(); // issue #221
static void heap_no_delete(); // issue #202
static void heap_late_free(); // issue #204
static void padding_shrink(); // issue #209
static void various_tests();
static void test_mt_shutdown();
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static void large_alloc(void); // issue #363
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static void fail_aslr(); // issue #372
static void tsan_numa_test(); // issue #414
static void strdup_test(); // issue #445
static void bench_alloc_large(void); // issue #xxx
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//static void test_large_migrate(void); // issue #691
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static void heap_thread_free_huge();
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static void test_std_string(); // issue #697
static void test_stl_allocators();
int main() {
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// mi_stats_reset(); // ignore earlier allocations
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// test_std_string();
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// heap_thread_free_huge();
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/*
heap_thread_free_huge();
heap_thread_free_large();
heap_no_delete();
heap_late_free();
padding_shrink();
various_tests();
large_alloc();
tsan_numa_test();
strdup_test();
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*/
// test_stl_allocators();
// test_mt_shutdown();
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// test_large_migrate();
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//fail_aslr();
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// bench_alloc_large();
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// mi_stats_print(NULL);
return 0;
}
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static void* p = malloc(8);
void free_p() {
free(p);
return;
}
class Test {
private:
int i;
public:
Test(int x) { i = x; }
~Test() { }
};
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static void various_tests() {
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atexit(free_p);
void* p1 = malloc(78);
void* p2 = mi_malloc_aligned(24, 16);
free(p1);
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p1 = malloc(8);
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char* s = mi_strdup("hello\n");
mi_free(p2);
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p2 = malloc(16);
p1 = realloc(p1, 32);
free(p1);
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free(p2);
mi_free(s);
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Test* t = new Test(42);
delete t;
t = new (std::nothrow) Test(42);
delete t;
auto tbuf = new unsigned char[sizeof(Test)];
t = new (tbuf) Test(42);
t->~Test();
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delete[] tbuf;
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}
class Static {
private:
void* p;
public:
Static() {
p = malloc(64);
return;
}
~Static() {
free(p);
return;
}
};
static Static s = Static();
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static bool test_stl_allocator1() {
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std::vector<int, mi_stl_allocator<int> > vec;
vec.push_back(1);
vec.pop_back();
return vec.size() == 0;
}
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struct some_struct { int i; int j; double z; };
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static bool test_stl_allocator2() {
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std::vector<some_struct, mi_stl_allocator<some_struct> > vec;
vec.push_back(some_struct());
vec.pop_back();
return vec.size() == 0;
}
#if MI_HAS_HEAP_STL_ALLOCATOR
static bool test_stl_allocator3() {
std::vector<int, mi_heap_stl_allocator<int> > vec;
vec.push_back(1);
vec.pop_back();
return vec.size() == 0;
}
static bool test_stl_allocator4() {
std::vector<some_struct, mi_heap_stl_allocator<some_struct> > vec;
vec.push_back(some_struct());
vec.pop_back();
return vec.size() == 0;
}
static bool test_stl_allocator5() {
std::vector<int, mi_heap_destroy_stl_allocator<int> > vec;
vec.push_back(1);
vec.pop_back();
return vec.size() == 0;
}
static bool test_stl_allocator6() {
std::vector<some_struct, mi_heap_destroy_stl_allocator<some_struct> > vec;
vec.push_back(some_struct());
vec.pop_back();
return vec.size() == 0;
}
#endif
static void test_stl_allocators() {
test_stl_allocator1();
test_stl_allocator2();
#if MI_HAS_HEAP_STL_ALLOCATOR
test_stl_allocator3();
test_stl_allocator4();
test_stl_allocator5();
test_stl_allocator6();
#endif
}
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#if 0
// issue #691
static char* cptr;
static void* thread1_allocate()
{
cptr = mi_calloc_tp(char,22085632);
return NULL;
}
static void* thread2_free()
{
assert(cptr);
mi_free(cptr);
cptr = NULL;
return NULL;
}
static void test_large_migrate(void) {
auto t1 = std::thread(thread1_allocate);
t1.join();
auto t2 = std::thread(thread2_free);
t2.join();
/*
pthread_t thread1, thread2;
pthread_create(&thread1, NULL, &thread1_allocate, NULL);
pthread_join(thread1, NULL);
pthread_create(&thread2, NULL, &thread2_free, NULL);
pthread_join(thread2, NULL);
*/
return;
}
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#endif
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// issue 445
static void strdup_test() {
#ifdef _MSC_VER
char* s = _strdup("hello\n");
char* buf = NULL;
size_t len;
_dupenv_s(&buf, &len, "MIMALLOC_VERBOSE");
mi_free(buf);
mi_free(s);
#endif
}
// Issue #202
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static void heap_no_delete_worker() {
mi_heap_t* heap = mi_heap_new();
void* q = mi_heap_malloc(heap, 1024); (void)(q);
// mi_heap_delete(heap); // uncomment to prevent assertion
}
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static void heap_no_delete() {
auto t1 = std::thread(heap_no_delete_worker);
t1.join();
}
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// Issue #697
static void test_std_string() {
std::string path = "/Users/xxxx/Library/Developer/Xcode/DerivedData/xxxxxxxxxx/Build/Intermediates.noindex/xxxxxxxxxxx/arm64/XX_lto.o/0.arm64.lto.o";
std::string path1 = "/Users/xxxx/Library/Developer/Xcode/DerivedData/xxxxxxxxxx/Build/Intermediates.noindex/xxxxxxxxxxx/arm64/XX_lto.o/1.arm64.lto.o";
std::cout << path + "\n>>> " + path1 + "\n>>> " << std::endl;
}
// Issue #204
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static volatile void* global_p;
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static void t1main() {
mi_heap_t* heap = mi_heap_new();
global_p = mi_heap_malloc(heap, 1024);
mi_heap_delete(heap);
}
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static void heap_late_free() {
auto t1 = std::thread(t1main);
msleep(2000);
assert(global_p);
mi_free((void*)global_p);
t1.join();
}
// issue #209
static void* shared_p;
static void alloc0(/* void* arg */)
{
shared_p = mi_malloc(8);
}
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static void padding_shrink(void)
{
auto t1 = std::thread(alloc0);
t1.join();
mi_free(shared_p);
}
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// Issue #221
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static void heap_thread_free_large_worker() {
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mi_free(shared_p);
}
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static void heap_thread_free_large() {
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for (int i = 0; i < 100; i++) {
shared_p = mi_malloc_aligned(2 * 1024 * 1024 + 1, 8);
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auto t1 = std::thread(heap_thread_free_large_worker);
t1.join();
}
}
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static void heap_thread_free_huge_worker() {
mi_free(shared_p);
}
static void heap_thread_free_huge() {
for (int i = 0; i < 100; i++) {
shared_p = mi_malloc(1024 * 1024 * 1024);
auto t1 = std::thread(heap_thread_free_huge_worker);
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t1.join();
}
}
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static void test_mt_shutdown()
{
const int threads = 5;
std::vector< std::future< std::vector< char* > > > ts;
auto fn = [&]()
{
std::vector< char* > ps;
ps.reserve(1000);
for (int i = 0; i < 1000; i++)
ps.emplace_back(new char[1]);
return ps;
};
for (int i = 0; i < threads; i++)
ts.emplace_back(std::async(std::launch::async, fn));
for (auto& f : ts)
for (auto& p : f.get())
delete[] p;
std::cout << "done" << std::endl;
}
// issue #363
using namespace std;
void large_alloc(void)
{
char* a = new char[1ull << 25];
thread th([&] {
delete[] a;
});
th.join();
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}
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// issue #372
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static void fail_aslr() {
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size_t sz = (4ULL << 40); // 4TiB
void* p = malloc(sz);
printf("pointer p: %p: area up to %p\n", p, (uint8_t*)p + sz);
*(int*)0x5FFFFFFF000 = 0; // should segfault
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}
// issues #414
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static void dummy_worker() {
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void* p = mi_malloc(0);
mi_free(p);
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}
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static void tsan_numa_test() {
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auto t1 = std::thread(dummy_worker);
dummy_worker();
t1.join();
}
// issue #?
#include <chrono>
#include <random>
#include <iostream>
static void bench_alloc_large(void) {
static constexpr int kNumBuffers = 20;
static constexpr size_t kMinBufferSize = 5 * 1024 * 1024;
static constexpr size_t kMaxBufferSize = 25 * 1024 * 1024;
std::unique_ptr<char[]> buffers[kNumBuffers];
std::random_device rd;
std::mt19937 gen(42); //rd());
std::uniform_int_distribution<> size_distribution(kMinBufferSize, kMaxBufferSize);
std::uniform_int_distribution<> buf_number_distribution(0, kNumBuffers - 1);
static constexpr int kNumIterations = 2000;
const auto start = std::chrono::steady_clock::now();
for (int i = 0; i < kNumIterations; ++i) {
int buffer_idx = buf_number_distribution(gen);
size_t new_size = size_distribution(gen);
buffers[buffer_idx] = std::make_unique<char[]>(new_size);
}
const auto end = std::chrono::steady_clock::now();
const auto num_ms = std::chrono::duration_cast<std::chrono::milliseconds>(end - start).count();
const auto us_per_allocation = std::chrono::duration_cast<std::chrono::microseconds>(end - start).count() / kNumIterations;
std::cout << kNumIterations << " allocations Done in " << num_ms << "ms." << std::endl;
std::cout << "Avg " << us_per_allocation << " us per allocation" << std::endl;
}