// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // // Copyright (c) 2011 The LevelDB Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. See the AUTHORS file for names of contributors. #include "util/arena.h" #include "util/random.h" #include "util/testharness.h" namespace rocksdb { namespace { const size_t kHugePageSize = 2 * 1024 * 1024; } // namespace class ArenaTest : public testing::Test {}; TEST_F(ArenaTest, Empty) { Arena arena0; } namespace { bool CheckMemoryAllocated(size_t allocated, size_t expected) { // The value returned by Arena::MemoryAllocatedBytes() may be greater than // the requested memory. We choose a somewhat arbitrary upper bound of // max_expected = expected * 1.1 to detect critical overallocation. size_t max_expected = expected + expected / 10; return allocated >= expected && allocated <= max_expected; } void MemoryAllocatedBytesTest(size_t huge_page_size) { const int N = 17; size_t req_sz; // requested size size_t bsz = 32 * 1024; // block size size_t expected_memory_allocated; Arena arena(bsz, huge_page_size); // requested size > quarter of a block: // allocate requested size separately req_sz = 12 * 1024; for (int i = 0; i < N; i++) { arena.Allocate(req_sz); } expected_memory_allocated = req_sz * N + Arena::kInlineSize; ASSERT_PRED2(CheckMemoryAllocated, arena.MemoryAllocatedBytes(), expected_memory_allocated); arena.Allocate(Arena::kInlineSize - 1); // requested size < quarter of a block: // allocate a block with the default size, then try to use unused part // of the block. So one new block will be allocated for the first // Allocate(99) call. All the remaining calls won't lead to new allocation. req_sz = 99; for (int i = 0; i < N; i++) { arena.Allocate(req_sz); } if (huge_page_size) { ASSERT_TRUE( CheckMemoryAllocated(arena.MemoryAllocatedBytes(), expected_memory_allocated + bsz) || CheckMemoryAllocated(arena.MemoryAllocatedBytes(), expected_memory_allocated + huge_page_size)); } else { expected_memory_allocated += bsz; ASSERT_PRED2(CheckMemoryAllocated, arena.MemoryAllocatedBytes(), expected_memory_allocated); } // requested size > size of a block: // allocate requested size separately expected_memory_allocated = arena.MemoryAllocatedBytes(); req_sz = 8 * 1024 * 1024; for (int i = 0; i < N; i++) { arena.Allocate(req_sz); } expected_memory_allocated += req_sz * N; ASSERT_PRED2(CheckMemoryAllocated, arena.MemoryAllocatedBytes(), expected_memory_allocated); } // Make sure we didn't count the allocate but not used memory space in // Arena::ApproximateMemoryUsage() static void ApproximateMemoryUsageTest(size_t huge_page_size) { const size_t kBlockSize = 4096; const size_t kEntrySize = kBlockSize / 8; const size_t kZero = 0; Arena arena(kBlockSize, huge_page_size); ASSERT_EQ(kZero, arena.ApproximateMemoryUsage()); // allocate inline bytes arena.AllocateAligned(8); arena.AllocateAligned(Arena::kInlineSize / 2 - 16); arena.AllocateAligned(Arena::kInlineSize / 2); ASSERT_EQ(arena.ApproximateMemoryUsage(), Arena::kInlineSize - 8); ASSERT_PRED2(CheckMemoryAllocated, arena.MemoryAllocatedBytes(), Arena::kInlineSize); auto num_blocks = kBlockSize / kEntrySize; // first allocation arena.AllocateAligned(kEntrySize); auto mem_usage = arena.MemoryAllocatedBytes(); if (huge_page_size) { ASSERT_TRUE( CheckMemoryAllocated(mem_usage, kBlockSize + Arena::kInlineSize) || CheckMemoryAllocated(mem_usage, huge_page_size + Arena::kInlineSize)); } else { ASSERT_PRED2(CheckMemoryAllocated, mem_usage, kBlockSize + Arena::kInlineSize); } auto usage = arena.ApproximateMemoryUsage(); ASSERT_LT(usage, mem_usage); for (size_t i = 1; i < num_blocks; ++i) { arena.AllocateAligned(kEntrySize); ASSERT_EQ(mem_usage, arena.MemoryAllocatedBytes()); ASSERT_EQ(arena.ApproximateMemoryUsage(), usage + kEntrySize); usage = arena.ApproximateMemoryUsage(); } if (huge_page_size) { ASSERT_TRUE(usage > mem_usage || usage + huge_page_size - kBlockSize == mem_usage); } else { ASSERT_GT(usage, mem_usage); } } static void SimpleTest(size_t huge_page_size) { std::vector> allocated; Arena arena(Arena::kMinBlockSize, huge_page_size); const int N = 100000; size_t bytes = 0; Random rnd(301); for (int i = 0; i < N; i++) { size_t s; if (i % (N / 10) == 0) { s = i; } else { s = rnd.OneIn(4000) ? rnd.Uniform(6000) : (rnd.OneIn(10) ? rnd.Uniform(100) : rnd.Uniform(20)); } if (s == 0) { // Our arena disallows size 0 allocations. s = 1; } char* r; if (rnd.OneIn(10)) { r = arena.AllocateAligned(s); } else { r = arena.Allocate(s); } for (unsigned int b = 0; b < s; b++) { // Fill the "i"th allocation with a known bit pattern r[b] = i % 256; } bytes += s; allocated.push_back(std::make_pair(s, r)); ASSERT_GE(arena.ApproximateMemoryUsage(), bytes); if (i > N / 10) { ASSERT_LE(arena.ApproximateMemoryUsage(), bytes * 1.10); } } for (unsigned int i = 0; i < allocated.size(); i++) { size_t num_bytes = allocated[i].first; const char* p = allocated[i].second; for (unsigned int b = 0; b < num_bytes; b++) { // Check the "i"th allocation for the known bit pattern ASSERT_EQ(int(p[b]) & 0xff, (int)(i % 256)); } } } } // namespace TEST_F(ArenaTest, MemoryAllocatedBytes) { MemoryAllocatedBytesTest(0); MemoryAllocatedBytesTest(kHugePageSize); } TEST_F(ArenaTest, ApproximateMemoryUsage) { ApproximateMemoryUsageTest(0); ApproximateMemoryUsageTest(kHugePageSize); } TEST_F(ArenaTest, Simple) { SimpleTest(0); SimpleTest(kHugePageSize); } } // namespace rocksdb int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); }