ladybird/Tests/AK/TestMemoryStream.cpp

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/*
* Copyright (c) 2021, sin-ack <sin-ack@protonmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/BufferedStream.h>
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#include <AK/MemoryStream.h>
#include <AK/String.h>
#include <LibTest/TestCase.h>
TEST_CASE(allocating_memory_stream_empty)
{
AllocatingMemoryStream stream;
EXPECT_EQ(stream.used_buffer_size(), 0ul);
{
Array<u8, 32> array;
auto read_bytes = MUST(stream.read_some(array));
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EXPECT_EQ(read_bytes.size(), 0ul);
}
{
auto offset = MUST(stream.offset_of("test"sv.bytes()));
EXPECT(!offset.has_value());
}
}
TEST_CASE(allocating_memory_stream_offset_of)
{
AllocatingMemoryStream stream;
MUST(stream.write_until_depleted("Well Hello Friends! :^)"sv.bytes()));
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{
auto offset = MUST(stream.offset_of(" "sv.bytes()));
EXPECT(offset.has_value());
EXPECT_EQ(offset.value(), 4ul);
}
{
auto offset = MUST(stream.offset_of("W"sv.bytes()));
EXPECT(offset.has_value());
EXPECT_EQ(offset.value(), 0ul);
}
{
auto offset = MUST(stream.offset_of(")"sv.bytes()));
EXPECT(offset.has_value());
EXPECT_EQ(offset.value(), 22ul);
}
{
auto offset = MUST(stream.offset_of("-"sv.bytes()));
EXPECT(!offset.has_value());
}
MUST(stream.discard(1));
{
auto offset = MUST(stream.offset_of("W"sv.bytes()));
EXPECT(!offset.has_value());
}
{
auto offset = MUST(stream.offset_of("e"sv.bytes()));
EXPECT(offset.has_value());
EXPECT_EQ(offset.value(), 0ul);
}
}
TEST_CASE(allocating_memory_stream_offset_of_oob)
{
AllocatingMemoryStream stream;
// NOTE: This test is to make sure that offset_of() doesn't read past the end of the "initialized" data.
// So we have to assume some things about the behavior of this class:
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// - A chunk is moved to the end when it's fully read from
// - A free chunk is used as-is, no new ones are allocated if one exists.
// First, fill exactly one chunk (in groups of 16 bytes).
for (size_t i = 0; i < AllocatingMemoryStream::CHUNK_SIZE / 16; ++i)
MUST(stream.write_until_depleted("AAAAAAAAAAAAAAAA"sv.bytes()));
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// Then discard it all.
MUST(stream.discard(AllocatingMemoryStream::CHUNK_SIZE));
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// Now we can write into this chunk again, knowing that it's initialized to all 'A's.
MUST(stream.write_until_depleted("Well Hello Friends! :^)"sv.bytes()));
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{
auto offset = MUST(stream.offset_of("A"sv.bytes()));
EXPECT(!offset.has_value());
}
}
TEST_CASE(allocating_memory_stream_offset_of_after_chunk_reorder)
{
AllocatingMemoryStream stream;
// First, fill exactly one chunk (in groups of 16 bytes). This chunk will be reordered.
for (size_t i = 0; i < AllocatingMemoryStream::CHUNK_SIZE / 16; ++i)
MUST(stream.write_until_depleted("AAAAAAAAAAAAAAAA"sv.bytes()));
// Append a few additional bytes to create a second chunk.
MUST(stream.write_until_depleted("BCDEFGHIJKLMNOPQ"sv.bytes()));
// Read back the first chunk, which should reorder it to the end of the list.
// The chunk that we wrote to the second time is now the first one.
MUST(stream.discard(AllocatingMemoryStream::CHUNK_SIZE));
{
auto offset = MUST(stream.offset_of("A"sv.bytes()));
EXPECT(!offset.has_value());
}
{
auto offset = MUST(stream.offset_of("B"sv.bytes()));
EXPECT(offset.has_value());
EXPECT_EQ(offset.value(), 0ul);
}
{
auto offset = MUST(stream.offset_of("Q"sv.bytes()));
EXPECT(offset.has_value());
EXPECT_EQ(offset.value(), 15ul);
}
}
TEST_CASE(allocating_memory_stream_offset_of_with_write_offset_multiple_of_chunk_size)
{
// This tests a specific edge case where we would erroneously trim the last searched block
// to size 0 if the current write offset is a multiple of the chunk size.
AllocatingMemoryStream stream;
// First, fill exactly one chunk (in groups of 16 bytes).
for (size_t i = 0; i < (AllocatingMemoryStream::CHUNK_SIZE / 16) - 1; ++i)
MUST(stream.write_until_depleted("AAAAAAAAAAAAAAAA"sv.bytes()));
MUST(stream.write_until_depleted("BCDEFGHIJKLMNOPQ"sv.bytes()));
// Read a few bytes from the beginning to ensure that we are trying to slice into the zero-sized block.
MUST(stream.discard(32));
{
auto offset = MUST(stream.offset_of("B"sv.bytes()));
EXPECT(offset.has_value());
EXPECT_EQ(offset.value(), AllocatingMemoryStream::CHUNK_SIZE - 32 - 16);
}
{
auto offset = MUST(stream.offset_of("Q"sv.bytes()));
EXPECT(offset.has_value());
EXPECT_EQ(offset.value(), AllocatingMemoryStream::CHUNK_SIZE - 32 - 1);
}
}
TEST_CASE(fixed_memory_read_write)
{
constexpr auto some_words = "These are some words"sv;
auto empty = TRY_OR_FAIL(ByteBuffer::create_uninitialized(some_words.length()));
FixedMemoryStream stream { empty.bytes() };
ReadonlyBytes buffer { some_words.characters_without_null_termination(), some_words.length() };
TRY_OR_FAIL(stream.write_some(buffer));
EXPECT_EQ(TRY_OR_FAIL(stream.tell()), some_words.length());
EXPECT(stream.is_eof());
TRY_OR_FAIL(stream.seek(0));
auto contents = TRY_OR_FAIL(stream.read_until_eof());
EXPECT_EQ(contents.bytes(), some_words.bytes());
}
TEST_CASE(fixed_memory_close)
{
auto empty = TRY_OR_FAIL(ByteBuffer::create_uninitialized(64));
FixedMemoryStream stream { empty.bytes() };
EXPECT(stream.is_open());
stream.close();
EXPECT(stream.is_open());
}
TEST_CASE(fixed_memory_read_only)
{
constexpr auto some_words = "These are some words"sv;
FixedMemoryStream stream { ReadonlyBytes { some_words.bytes() } };
auto contents = TRY_OR_FAIL(stream.read_until_eof());
EXPECT_EQ(contents.bytes(), some_words.bytes());
TRY_OR_FAIL(stream.seek(0));
ReadonlyBytes buffer { some_words.characters_without_null_termination(), some_words.length() };
EXPECT(stream.write_some(buffer).is_error());
EXPECT_EQ(TRY_OR_FAIL(stream.tell()), 0ull);
EXPECT(!stream.is_eof());
}
TEST_CASE(fixed_memory_seeking_around)
{
auto stream_buffer = TRY_OR_FAIL(ByteBuffer::create_uninitialized(8702ul));
FixedMemoryStream stream { ReadonlyBytes { stream_buffer.bytes() } };
auto buffer = TRY_OR_FAIL(ByteBuffer::create_uninitialized(16));
TRY_OR_FAIL(stream.seek(500, SeekMode::SetPosition));
EXPECT_EQ(stream.tell().release_value(), 500ul);
TRY_OR_FAIL(stream.read_until_filled(buffer));
TRY_OR_FAIL(stream.seek(234, SeekMode::FromCurrentPosition));
EXPECT_EQ(stream.tell().release_value(), 750ul);
TRY_OR_FAIL(stream.read_until_filled(buffer));
TRY_OR_FAIL(stream.seek(-105, SeekMode::FromEndPosition));
EXPECT_EQ(stream.tell().release_value(), 8597ul);
TRY_OR_FAIL(stream.read_until_filled(buffer));
}
BENCHMARK_CASE(fixed_memory_tell)
{
auto stream_buffer = TRY_OR_FAIL(ByteBuffer::create_uninitialized(10 * KiB));
FixedMemoryStream stream { ReadonlyBytes { stream_buffer.bytes() } };
auto expected_fixed_memory_offset = 0u;
auto ten_byte_buffer = TRY_OR_FAIL(ByteBuffer::create_uninitialized(1));
for (auto i = 0u; i < 4000; ++i) {
TRY_OR_FAIL(stream.read_until_filled(ten_byte_buffer));
expected_fixed_memory_offset += 1u;
EXPECT_EQ(expected_fixed_memory_offset, TRY_OR_FAIL(stream.tell()));
}
for (auto i = 0u; i < 4000; ++i) {
auto seek_fixed_memory_offset = TRY_OR_FAIL(stream.seek(-1, SeekMode::FromCurrentPosition));
expected_fixed_memory_offset -= 1;
EXPECT_EQ(seek_fixed_memory_offset, TRY_OR_FAIL(stream.tell()));
EXPECT_EQ(expected_fixed_memory_offset, TRY_OR_FAIL(stream.tell()));
}
}
TEST_CASE(fixed_memory_truncate)
{
auto stream_buffer = TRY_OR_FAIL(ByteBuffer::create_uninitialized(10 * KiB));
FixedMemoryStream stream { ReadonlyBytes { stream_buffer.bytes() } };
EXPECT(stream.truncate(999).is_error());
}
TEST_CASE(fixed_memory_read_in_place)
{
constexpr auto some_words = "These are some words"sv;
FixedMemoryStream readonly_stream { ReadonlyBytes { some_words.bytes() } };
// Trying to read mutable values from a read-only stream should fail.
EXPECT(readonly_stream.read_in_place<u8>(1).is_error());
EXPECT_EQ(readonly_stream.offset(), 0u);
// Reading const values should succeed.
auto characters = TRY_OR_FAIL(readonly_stream.read_in_place<u8 const>(20));
EXPECT_EQ(characters, some_words.bytes());
EXPECT(readonly_stream.is_eof());
FixedMemoryStream mutable_stream { Bytes { const_cast<u8*>(some_words.bytes().data()), some_words.bytes().size() }, FixedMemoryStream::Mode::ReadWrite };
// Trying to read mutable values from a mutable stream should succeed.
TRY_OR_FAIL(mutable_stream.read_in_place<u8>(1));
EXPECT_EQ(mutable_stream.offset(), 1u);
TRY_OR_FAIL(mutable_stream.seek(0));
// Reading const values should succeed.
auto characters_again = TRY_OR_FAIL(mutable_stream.read_in_place<u8 const>(20));
EXPECT_EQ(characters_again, some_words.bytes());
EXPECT(mutable_stream.is_eof());
}
TEST_CASE(buffered_memory_stream_read_line)
{
auto array = Array<u8, 32> {};
// First line: 8 bytes, second line: 24 bytes
array.fill('A');
array[7] = '\n';
array[31] = '\n';
auto memory_stream = make<FixedMemoryStream>(array.span(), FixedMemoryStream::Mode::ReadOnly);
// Buffer for buffered seekable is larger than the stream, so stream goes EOF immediately on read
auto buffered_stream = TRY_OR_FAIL(InputBufferedSeekable<FixedMemoryStream>::create(move(memory_stream), 64));
// Buffer is only 16 bytes, first read succeeds, second fails
auto buffer = TRY_OR_FAIL(ByteBuffer::create_zeroed(16));
auto read_bytes = TRY_OR_FAIL(buffered_stream->read_line(buffer));
EXPECT_EQ(read_bytes, "AAAAAAA"sv);
auto read_or_error = buffered_stream->read_line(buffer);
EXPECT(read_or_error.is_error());
EXPECT_EQ(read_or_error.error().code(), EMSGSIZE);
}
TEST_CASE(buffered_memory_stream_read_line_with_resizing_where_stream_buffer_is_sufficient)
{
auto array = Array<u8, 24> {};
// The first line is 8 A's, the second line is 14 A's, two bytes are newline characters.
array.fill('A');
array[8] = '\n';
array[23] = '\n';
auto memory_stream = make<FixedMemoryStream>(array.span(), FixedMemoryStream::Mode::ReadOnly);
auto buffered_stream = TRY_OR_FAIL(InputBufferedSeekable<FixedMemoryStream>::create(move(memory_stream), 64));
size_t initial_buffer_size = 4;
auto buffer = TRY_OR_FAIL(ByteBuffer::create_zeroed(initial_buffer_size));
auto read_bytes = TRY_OR_FAIL(buffered_stream->read_line_with_resize(buffer));
// The first line, which is 8 A's, should be read in.
EXPECT_EQ(read_bytes, "AAAAAAAA"sv);
read_bytes = TRY_OR_FAIL(buffered_stream->read_line_with_resize(buffer));
// The second line, which is 14 A's, should be read in.
EXPECT_EQ(read_bytes, "AAAAAAAAAAAAAA"sv);
// A resize should have happened because the user supplied buffer was too small.
EXPECT(buffer.size() > initial_buffer_size);
// Reading from the stream again should return an empty StringView.
read_bytes = TRY_OR_FAIL(buffered_stream->read_line_with_resize(buffer));
EXPECT(read_bytes.is_empty());
}
TEST_CASE(buffered_memory_stream_read_line_with_resizing_where_stream_buffer_is_not_sufficient)
{
// This is the same as "buffered_memory_stream_read_line_with_resizing_where_stream_buffer_is_sufficient"
// but with a smaller stream buffer, meaning that the line must be read into the user supplied
// buffer in chunks. All assertions and invariants should remain unchanged.
auto array = Array<u8, 24> {};
// The first line is 8 A's, the second line is 14 A's, two bytes are newline characters.
array.fill('A');
array[8] = '\n';
array[23] = '\n';
auto memory_stream = make<FixedMemoryStream>(array.span(), FixedMemoryStream::Mode::ReadOnly);
auto buffered_stream = TRY_OR_FAIL(InputBufferedSeekable<FixedMemoryStream>::create(move(memory_stream), 6));
size_t initial_buffer_size = 4;
auto buffer = TRY_OR_FAIL(ByteBuffer::create_zeroed(initial_buffer_size));
auto read_bytes = TRY_OR_FAIL(buffered_stream->read_line_with_resize(buffer));
// The first line, which is 8 A's, should be read in.
EXPECT_EQ(read_bytes, "AAAAAAAA"sv);
read_bytes = TRY_OR_FAIL(buffered_stream->read_line_with_resize(buffer));
// The second line, which is 14 A's, should be read in.
EXPECT_EQ(read_bytes, "AAAAAAAAAAAAAA"sv);
// A resize should have happened because the user supplied buffer was too small.
EXPECT(buffer.size() > initial_buffer_size);
// Reading from the stream again should return an empty StringView.
read_bytes = TRY_OR_FAIL(buffered_stream->read_line_with_resize(buffer));
EXPECT(read_bytes.is_empty());
}
TEST_CASE(buffered_memory_stream_read_line_with_resizing_with_no_newline_where_stream_buffer_is_sufficient)
{
auto array = Array<u8, 24> {};
array.fill('A');
auto memory_stream = make<FixedMemoryStream>(array.span(), FixedMemoryStream::Mode::ReadOnly);
auto buffered_stream = TRY_OR_FAIL(InputBufferedSeekable<FixedMemoryStream>::create(move(memory_stream), 64));
size_t initial_buffer_size = 4;
auto buffer = TRY_OR_FAIL(ByteBuffer::create_zeroed(initial_buffer_size));
auto read_bytes = TRY_OR_FAIL(buffered_stream->read_line_with_resize(buffer));
// All the contents of the buffer should have been read in.
EXPECT_EQ(read_bytes.length(), array.size());
// Reading from the stream again should return an empty StringView.
read_bytes = TRY_OR_FAIL(buffered_stream->read_line_with_resize(buffer));
EXPECT(read_bytes.is_empty());
}
TEST_CASE(buffered_memory_stream_read_line_with_resizing_with_no_newline_where_stream_buffer_is_not_sufficient)
{
// This should behave as buffered_memory_stream_read_line_with_resizing_with_no_newline_where_stream_buffer_is_sufficient
// but the internal buffer of the stream must be copied over in chunks.
auto array = Array<u8, 24> {};
array.fill('A');
auto memory_stream = make<FixedMemoryStream>(array.span(), FixedMemoryStream::Mode::ReadOnly);
auto buffered_stream = TRY_OR_FAIL(InputBufferedSeekable<FixedMemoryStream>::create(move(memory_stream), 6));
size_t initial_buffer_size = 4;
auto buffer = TRY_OR_FAIL(ByteBuffer::create_zeroed(initial_buffer_size));
auto read_bytes = TRY_OR_FAIL(buffered_stream->read_line_with_resize(buffer));
// All the contents of the buffer should have been read in.
EXPECT_EQ(read_bytes.length(), array.size());
// Reading from the stream again should return an empty StringView.
read_bytes = TRY_OR_FAIL(buffered_stream->read_line_with_resize(buffer));
EXPECT(read_bytes.is_empty());
}