//===-- Unittests for a freestore -------------------------------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include #include "src/__support/freestore.h" #include "test/UnitTest/Test.h" using LIBC_NAMESPACE::Block; using LIBC_NAMESPACE::FreeList; using LIBC_NAMESPACE::FreeStore; using LIBC_NAMESPACE::FreeTrie; using LIBC_NAMESPACE::cpp::byte; using LIBC_NAMESPACE::cpp::optional; // Inserting or removing blocks too small to be tracked does nothing. TEST(LlvmLibcFreeStore, TooSmall) { byte mem[1024]; optional maybeBlock = Block::init(mem); ASSERT_TRUE(maybeBlock.has_value()); Block *too_small = *maybeBlock; maybeBlock = too_small->split(Block::PREV_FIELD_SIZE); ASSERT_TRUE(maybeBlock.has_value()); // On platforms with high alignment the smallest legal block may be large // enough for a node. if (too_small->outer_size() >= sizeof(Block) + sizeof(FreeList::Node)) return; Block *remainder = *maybeBlock; FreeStore store; store.set_range({0, 4096}); store.insert(too_small); store.insert(remainder); EXPECT_EQ(store.remove_best_fit(too_small->inner_size()), remainder); store.remove(too_small); } TEST(LlvmLibcFreeStore, RemoveBestFit) { byte mem[1024]; optional maybeBlock = Block::init(mem); ASSERT_TRUE(maybeBlock.has_value()); Block *smallest = *maybeBlock; maybeBlock = smallest->split(sizeof(FreeList::Node) + Block::PREV_FIELD_SIZE); ASSERT_TRUE(maybeBlock.has_value()); Block *largest_small = *maybeBlock; maybeBlock = largest_small->split( sizeof(FreeTrie::Node) + Block::PREV_FIELD_SIZE - alignof(max_align_t)); ASSERT_TRUE(maybeBlock.has_value()); if (largest_small->inner_size() == smallest->inner_size()) largest_small = smallest; ASSERT_GE(largest_small->inner_size(), smallest->inner_size()); Block *remainder = *maybeBlock; FreeStore store; store.set_range({0, 4096}); store.insert(smallest); if (largest_small != smallest) store.insert(largest_small); store.insert(remainder); // Find exact match for smallest. ASSERT_EQ(store.remove_best_fit(smallest->inner_size()), smallest); store.insert(smallest); // Find exact match for largest. ASSERT_EQ(store.remove_best_fit(largest_small->inner_size()), largest_small); store.insert(largest_small); // Search small list for best fit. Block *next_smallest = largest_small == smallest ? remainder : largest_small; ASSERT_EQ(store.remove_best_fit(smallest->inner_size() + 1), next_smallest); store.insert(next_smallest); // Continue search for best fit to large blocks. EXPECT_EQ(store.remove_best_fit(largest_small->inner_size() + 1), remainder); } TEST(LlvmLibcFreeStore, Remove) { byte mem[1024]; optional maybeBlock = Block::init(mem); ASSERT_TRUE(maybeBlock.has_value()); Block *small = *maybeBlock; maybeBlock = small->split(sizeof(FreeList::Node) + Block::PREV_FIELD_SIZE); ASSERT_TRUE(maybeBlock.has_value()); Block *remainder = *maybeBlock; FreeStore store; store.set_range({0, 4096}); store.insert(small); store.insert(remainder); store.remove(remainder); ASSERT_EQ(store.remove_best_fit(remainder->inner_size()), static_cast(nullptr)); store.remove(small); ASSERT_EQ(store.remove_best_fit(small->inner_size()), static_cast(nullptr)); }