ladybird/Tests/LibSQL/TestSqlHeap.cpp
Timothy Flynn 4a04438e43 LibSQL: Remove Core::EventReceiver parent from SQL::Heap
This relationship was only used to provide a name and factory methods
for the heap.
2023-08-07 14:38:38 -04:00

194 lines
7.6 KiB
C++

/*
* Copyright (c) 2023, Jelle Raaijmakers <jelle@gmta.nl>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/ScopeGuard.h>
#include <AK/StringBuilder.h>
#include <LibCore/System.h>
#include <LibSQL/Heap.h>
#include <LibTest/TestCase.h>
static constexpr auto db_path = "/tmp/test.db"sv;
static NonnullRefPtr<SQL::Heap> create_heap()
{
auto heap = MUST(SQL::Heap::create(db_path));
MUST(heap->open());
return heap;
}
TEST_CASE(heap_write_large_storage_without_flush)
{
ScopeGuard guard([]() { MUST(Core::System::unlink(db_path)); });
auto heap = create_heap();
auto storage_block_id = heap->request_new_block_index();
// Write large storage spanning multiple blocks
StringBuilder builder;
MUST(builder.try_append_repeated('x', SQL::Block::DATA_SIZE * 4));
auto long_string = builder.string_view();
TRY_OR_FAIL(heap->write_storage(storage_block_id, long_string.bytes()));
// Read back
auto stored_long_string = TRY_OR_FAIL(heap->read_storage(storage_block_id));
EXPECT_EQ(long_string.bytes(), stored_long_string.bytes());
}
TEST_CASE(heap_write_large_storage_with_flush)
{
ScopeGuard guard([]() { MUST(Core::System::unlink(db_path)); });
auto heap = create_heap();
auto storage_block_id = heap->request_new_block_index();
// Write large storage spanning multiple blocks
StringBuilder builder;
MUST(builder.try_append_repeated('x', SQL::Block::DATA_SIZE * 4));
auto long_string = builder.string_view();
TRY_OR_FAIL(heap->write_storage(storage_block_id, long_string.bytes()));
MUST(heap->flush());
// Read back
auto stored_long_string = TRY_OR_FAIL(heap->read_storage(storage_block_id));
EXPECT_EQ(long_string.bytes(), stored_long_string.bytes());
}
TEST_CASE(heap_overwrite_large_storage)
{
ScopeGuard guard([]() { MUST(Core::System::unlink(db_path)); });
auto heap = create_heap();
auto storage_block_id = heap->request_new_block_index();
// Write large storage spanning multiple blocks
StringBuilder builder;
MUST(builder.try_append_repeated('x', SQL::Block::DATA_SIZE * 4));
auto long_string = builder.string_view();
TRY_OR_FAIL(heap->write_storage(storage_block_id, long_string.bytes()));
MUST(heap->flush());
auto heap_size = MUST(heap->file_size_in_bytes());
// Let's write it again and check whether the Heap reused the same extended blocks
TRY_OR_FAIL(heap->write_storage(storage_block_id, long_string.bytes()));
MUST(heap->flush());
auto new_heap_size = MUST(heap->file_size_in_bytes());
EXPECT_EQ(heap_size, new_heap_size);
// Write a smaller string and read back - heap size should be at most the previous size
builder.clear();
MUST(builder.try_append_repeated('y', SQL::Block::DATA_SIZE * 2));
auto shorter_string = builder.string_view();
TRY_OR_FAIL(heap->write_storage(storage_block_id, shorter_string.bytes()));
MUST(heap->flush());
new_heap_size = MUST(heap->file_size_in_bytes());
EXPECT(new_heap_size <= heap_size);
auto stored_shorter_string = TRY_OR_FAIL(heap->read_storage(storage_block_id));
EXPECT_EQ(shorter_string.bytes(), stored_shorter_string.bytes());
// Write a longer string and read back - heap size is expected to grow
builder.clear();
MUST(builder.try_append_repeated('z', SQL::Block::DATA_SIZE * 6));
auto longest_string = builder.string_view();
TRY_OR_FAIL(heap->write_storage(storage_block_id, longest_string.bytes()));
MUST(heap->flush());
new_heap_size = MUST(heap->file_size_in_bytes());
EXPECT(new_heap_size > heap_size);
auto stored_longest_string = TRY_OR_FAIL(heap->read_storage(storage_block_id));
EXPECT_EQ(longest_string.bytes(), stored_longest_string.bytes());
}
TEST_CASE(heap_reuse_freed_blocks_after_storage_trim)
{
ScopeGuard guard([]() { MUST(Core::System::unlink(db_path)); });
auto heap = create_heap();
// First, write storage spanning 4 blocks
auto first_index = heap->request_new_block_index();
StringBuilder builder;
MUST(builder.try_append_repeated('x', SQL::Block::DATA_SIZE * 4));
auto long_string = builder.string_view();
TRY_OR_FAIL(heap->write_storage(first_index, long_string.bytes()));
MUST(heap->flush());
auto original_heap_size = MUST(heap->file_size_in_bytes());
// Then, overwrite the first storage and reduce it to 2 blocks
builder.clear();
MUST(builder.try_append_repeated('x', SQL::Block::DATA_SIZE * 2));
long_string = builder.string_view();
TRY_OR_FAIL(heap->write_storage(first_index, long_string.bytes()));
MUST(heap->flush());
auto heap_size_after_reduction = MUST(heap->file_size_in_bytes());
EXPECT(heap_size_after_reduction <= original_heap_size);
// Now add the second storage spanning 2 blocks - heap should not have grown compared to the original storage
auto second_index = heap->request_new_block_index();
TRY_OR_FAIL(heap->write_storage(second_index, long_string.bytes()));
MUST(heap->flush());
auto heap_size_after_second_storage = MUST(heap->file_size_in_bytes());
EXPECT(heap_size_after_second_storage <= original_heap_size);
}
TEST_CASE(heap_reuse_freed_blocks_after_reopening_file)
{
ScopeGuard guard([]() { MUST(Core::System::unlink(db_path)); });
size_t original_heap_size = 0;
StringBuilder builder;
MUST(builder.try_append_repeated('x', SQL::Block::DATA_SIZE * 4));
auto long_string = builder.string_view();
{
auto heap = create_heap();
// First, write storage spanning 4 blocks
auto first_index = heap->request_new_block_index();
TRY_OR_FAIL(heap->write_storage(first_index, long_string.bytes()));
MUST(heap->flush());
original_heap_size = MUST(heap->file_size_in_bytes());
// Then, overwrite the first storage and reduce it to 2 blocks
builder.clear();
MUST(builder.try_append_repeated('x', SQL::Block::DATA_SIZE * 2));
long_string = builder.string_view();
TRY_OR_FAIL(heap->write_storage(first_index, long_string.bytes()));
MUST(heap->flush());
auto heap_size_after_reduction = MUST(heap->file_size_in_bytes());
EXPECT(heap_size_after_reduction <= original_heap_size);
}
// Reopen the database file; we expect the heap to support reading back free blocks somehow.
// Add the second storage spanning 2 blocks - heap should not have grown compared to the original storage.
{
auto heap = create_heap();
auto second_index = heap->request_new_block_index();
TRY_OR_FAIL(heap->write_storage(second_index, long_string.bytes()));
MUST(heap->flush());
auto heap_size_after_second_storage = MUST(heap->file_size_in_bytes());
EXPECT(heap_size_after_second_storage <= original_heap_size);
}
}
TEST_CASE(heap_free_storage)
{
ScopeGuard guard([]() { MUST(Core::System::unlink(db_path)); });
auto heap = create_heap();
auto storage_block_id = heap->request_new_block_index();
// Write large storage spanning multiple blocks
StringBuilder builder;
MUST(builder.try_append_repeated('x', SQL::Block::DATA_SIZE * 4));
auto long_string = builder.string_view();
TRY_OR_FAIL(heap->write_storage(storage_block_id, long_string.bytes()));
MUST(heap->flush());
auto heap_size = MUST(heap->file_size_in_bytes());
// Free the storage
TRY_OR_FAIL(heap->free_storage(storage_block_id));
// Again, write some large storage spanning multiple blocks
storage_block_id = heap->request_new_block_index();
TRY_OR_FAIL(heap->write_storage(storage_block_id, long_string.bytes()));
MUST(heap->flush());
auto new_heap_size = MUST(heap->file_size_in_bytes());
EXPECT(new_heap_size <= heap_size);
}