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LibAudio: Modernize WAV loader

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With this, the WAV loader is a completely modern LibAudio loader:
- Own type header for RIFF data structures
- custom stream read functions for the types
- Final removal of legacy I/O error checking
- clearer error messages
- clean handling of header chunks

The latter will allow proper handling of other chunks (before "data") in
the future, such as metadata :^)
This commit is contained in:
kleines Filmröllchen 2023-03-15 22:44:32 +01:00 committed by Jelle Raaijmakers
parent 830a3a25dc
commit 70970b2fa9
5 changed files with 163 additions and 112 deletions
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1
Userland/Libraries/LibAudio/CMakeLists.txt
View file

@ -2,6 +2,7 @@ set(SOURCES
GenericTypes.cpp GenericTypes.cpp
SampleFormats.cpp SampleFormats.cpp
Loader.cpp Loader.cpp
RIFFTypes.cpp
WavLoader.cpp WavLoader.cpp
FlacLoader.cpp FlacLoader.cpp
WavWriter.cpp WavWriter.cpp

51
Userland/Libraries/LibAudio/RIFFTypes.cpp Normal file
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@ -0,0 +1,51 @@
/*
* Copyright (c) 2023, kleines Filmröllchen <filmroellchen@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include "RIFFTypes.h"
#include <AK/Endian.h>
#include <AK/Stream.h>
#include <AK/Try.h>
namespace Audio::RIFF {
ErrorOr<ChunkID> ChunkID::read_from_stream(Stream& stream)
{
Array<u8, chunk_id_size> id;
TRY(stream.read_until_filled(id.span()));
return ChunkID { id };
}
ErrorOr<Chunk> Chunk::read_from_stream(Stream& stream)
{
auto id = TRY(stream.read_value<ChunkID>());
u32 size = TRY(stream.read_value<LittleEndian<u32>>());
auto data = TRY(FixedArray<u8>::create(size));
TRY(stream.read_until_filled(data.span()));
return Chunk {
id,
size,
move(data),
};
}
StringView ChunkID::as_ascii_string() const
{
return StringView { id_data.span() };
}
bool ChunkID::operator==(StringView const& other_string) const
{
return as_ascii_string() == other_string;
}
FixedMemoryStream Chunk::data_stream()
{
return FixedMemoryStream { data.span() };
}
}

55
Userland/Libraries/LibAudio/RIFFTypes.h Normal file
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@ -0,0 +1,55 @@
/*
* Copyright (c) 2018-2023, the SerenityOS developers.
* Copyright (c) 2023, kleines Filmröllchen <filmroellchen@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/FixedArray.h>
#include <AK/Forward.h>
#include <AK/MemoryStream.h>
#include <AK/Types.h>
// RIFF-specific type definitions necessary for handling WAVE files.
namespace Audio::RIFF {
static constexpr StringView const riff_magic = "RIFF"sv;
static constexpr StringView const wave_subformat_id = "WAVE"sv;
static constexpr StringView const data_chunk_id = "data"sv;
static constexpr StringView const list_chunk_id = "LIST"sv;
static constexpr StringView const info_chunk_id = "INFO"sv;
static constexpr StringView const format_chunk_id = "fmt "sv;
// Constants for handling WAVE header data.
enum class WaveFormat : u32 {
Pcm = 0x0001, // WAVE_FORMAT_PCM
IEEEFloat = 0x0003, // WAVE_FORMAT_IEEE_FLOAT
ALaw = 0x0006, // 8-bit ITU-T G.711 A-law
MuLaw = 0x0007, // 8-bit ITU-T G.711 µ-law
Extensible = 0xFFFE, // Determined by SubFormat
};
static constexpr size_t const chunk_id_size = 4;
struct ChunkID {
static ErrorOr<ChunkID> read_from_stream(Stream& stream);
StringView as_ascii_string() const;
bool operator==(ChunkID const&) const = default;
bool operator==(StringView const&) const;
Array<u8, chunk_id_size> id_data;
};
// http://www-mmsp.ece.mcgill.ca/Documents/AudioFormats/WAVE/Docs/riffmci.pdf page 11 (Chunks)
struct Chunk {
static ErrorOr<Chunk> read_from_stream(Stream& stream);
FixedMemoryStream data_stream();
ChunkID id;
u32 size;
FixedArray<u8> data;
};
}

156
Userland/Libraries/LibAudio/WavLoader.cpp
View file

@ -1,12 +1,13 @@
/* /*
* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org> * Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2021, kleines Filmröllchen <filmroellchen@serenityos.org> * Copyright (c) 2021-2023, kleines Filmröllchen <filmroellchen@serenityos.org>
* *
* SPDX-License-Identifier: BSD-2-Clause * SPDX-License-Identifier: BSD-2-Clause
*/ */
#include "WavLoader.h" #include "WavLoader.h"
#include "LoaderError.h" #include "LoaderError.h"
#include "RIFFTypes.h"
#include <AK/Debug.h> #include <AK/Debug.h>
#include <AK/Endian.h> #include <AK/Endian.h>
#include <AK/FixedArray.h> #include <AK/FixedArray.h>
@ -183,95 +184,56 @@ MaybeLoaderError WavLoaderPlugin::seek(int sample_index)
// Specification reference: http://www-mmsp.ece.mcgill.ca/Documents/AudioFormats/WAVE/WAVE.html // Specification reference: http://www-mmsp.ece.mcgill.ca/Documents/AudioFormats/WAVE/WAVE.html
MaybeLoaderError WavLoaderPlugin::parse_header() MaybeLoaderError WavLoaderPlugin::parse_header()
{ {
bool ok = true; #define CHECK(check, category, msg) \
size_t bytes_read = 0; do { \
if (!(check)) { \
auto read_u8 = [&]() -> ErrorOr<u8, LoaderError> { return LoaderError { category, static_cast<size_t>(LOADER_TRY(m_stream->tell())), DeprecatedString::formatted("WAV header: {}", msg) }; \
u8 value = LOADER_TRY(m_stream->read_value<LittleEndian<u8>>()); } \
bytes_read += 1;
return value;
};
auto read_u16 = [&]() -> ErrorOr<u16, LoaderError> {
u16 value = LOADER_TRY(m_stream->read_value<LittleEndian<u16>>());
bytes_read += 2;
return value;
};
auto read_u32 = [&]() -> ErrorOr<u32, LoaderError> {
u32 value = LOADER_TRY(m_stream->read_value<LittleEndian<u32>>());
bytes_read += 4;
return value;
};
#define CHECK_OK(category, msg) \
do { \
if (!ok) \
return LoaderError { category, DeprecatedString::formatted("Parsing failed: {}", msg) }; \
} while (0) } while (0)
u32 riff = TRY(read_u32()); auto riff = TRY(m_stream->read_value<RIFF::ChunkID>());
ok = ok && riff == 0x46464952; // "RIFF" CHECK(riff == RIFF::riff_magic, LoaderError::Category::Format, "RIFF header magic invalid");
CHECK_OK(LoaderError::Category::Format, "RIFF header");
u32 sz = TRY(read_u32()); u32 size = TRY(m_stream->read_value<LittleEndian<u32>>());
ok = ok && sz < maximum_wav_size; CHECK(size < maximum_wav_size, LoaderError::Category::Format, "File size too large");
CHECK_OK(LoaderError::Category::Format, "File size");
u32 wave = TRY(read_u32()); auto wave = TRY(m_stream->read_value<RIFF::ChunkID>());
ok = ok && wave == 0x45564157; // "WAVE" CHECK(wave == RIFF::wave_subformat_id, LoaderError::Category::Format, "WAVE subformat id invalid");
CHECK_OK(LoaderError::Category::Format, "WAVE header");
u32 fmt_id = TRY(read_u32()); auto format_chunk = TRY(m_stream->read_value<RIFF::Chunk>());
ok = ok && fmt_id == 0x20746D66; // "fmt " CHECK(format_chunk.id.as_ascii_string() == RIFF::format_chunk_id, LoaderError::Category::Format, "FMT chunk id invalid");
CHECK_OK(LoaderError::Category::Format, "FMT header");
u32 fmt_size = TRY(read_u32()); auto format_stream = format_chunk.data_stream();
ok = ok && (fmt_size == 16 || fmt_size == 18 || fmt_size == 40); u16 audio_format = TRY(format_stream.read_value<LittleEndian<u16>>());
CHECK_OK(LoaderError::Category::Format, "FMT size"); CHECK(audio_format == to_underlying(RIFF::WaveFormat::Pcm) || audio_format == to_underlying(RIFF::WaveFormat::IEEEFloat) || audio_format == to_underlying(RIFF::WaveFormat::Extensible),
LoaderError::Category::Unimplemented, "Audio format not supported");
u16 audio_format = TRY(read_u16()); m_num_channels = TRY(format_stream.read_value<LittleEndian<u16>>());
CHECK_OK(LoaderError::Category::Format, "Audio format"); // incomplete read check CHECK(m_num_channels == 1 || m_num_channels == 2, LoaderError::Category::Unimplemented, "Channel count");
ok = ok && (audio_format == WAVE_FORMAT_PCM || audio_format == WAVE_FORMAT_IEEE_FLOAT || audio_format == WAVE_FORMAT_EXTENSIBLE);
CHECK_OK(LoaderError::Category::Unimplemented, "Audio format PCM/Float"); // value check
m_num_channels = TRY(read_u16()); m_sample_rate = TRY(format_stream.read_value<LittleEndian<u32>>());
ok = ok && (m_num_channels == 1 || m_num_channels == 2); // Data rate; can be ignored.
CHECK_OK(LoaderError::Category::Unimplemented, "Channel count"); TRY(format_stream.read_value<LittleEndian<u32>>());
u16 block_size_bytes = TRY(format_stream.read_value<LittleEndian<u16>>());
m_sample_rate = TRY(read_u32()); u16 bits_per_sample = TRY(format_stream.read_value<LittleEndian<u16>>());
CHECK_OK(LoaderError::Category::IO, "Sample rate");
TRY(read_u32()); if (audio_format == to_underlying(RIFF::WaveFormat::Extensible)) {
CHECK_OK(LoaderError::Category::IO, "Data rate"); CHECK(format_chunk.size == 40, LoaderError::Category::Format, "Extensible fmt size is not 40 bytes");
u16 block_size_bytes = TRY(read_u16());
CHECK_OK(LoaderError::Category::IO, "Block size");
u16 bits_per_sample = TRY(read_u16());
CHECK_OK(LoaderError::Category::IO, "Bits per sample");
if (audio_format == WAVE_FORMAT_EXTENSIBLE) {
ok = ok && (fmt_size == 40);
CHECK_OK(LoaderError::Category::Format, "Extensible fmt size"); // value check
// Discard everything until the GUID. // Discard everything until the GUID.
// We've already read 16 bytes from the stream. The GUID starts in another 8 bytes. // We've already read 16 bytes from the stream. The GUID starts in another 8 bytes.
TRY(read_u32()); TRY(format_stream.read_value<LittleEndian<u64>>());
TRY(read_u32());
CHECK_OK(LoaderError::Category::IO, "Discard until GUID");
// Get the underlying audio format from the first two bytes of GUID // Get the underlying audio format from the first two bytes of GUID
u16 guid_subformat = TRY(read_u16()); u16 guid_subformat = TRY(format_stream.read_value<LittleEndian<u16>>());
ok = ok && (guid_subformat == WAVE_FORMAT_PCM || guid_subformat == WAVE_FORMAT_IEEE_FLOAT); CHECK(guid_subformat == to_underlying(RIFF::WaveFormat::Pcm) || guid_subformat == to_underlying(RIFF::WaveFormat::IEEEFloat), LoaderError::Category::Unimplemented, "GUID SubFormat not supported");
CHECK_OK(LoaderError::Category::Unimplemented, "GUID SubFormat");
audio_format = guid_subformat; audio_format = guid_subformat;
} }
if (audio_format == WAVE_FORMAT_PCM) { if (audio_format == to_underlying(RIFF::WaveFormat::Pcm)) {
ok = ok && (bits_per_sample == 8 || bits_per_sample == 16 || bits_per_sample == 24); CHECK(bits_per_sample == 8 || bits_per_sample == 16 || bits_per_sample == 24, LoaderError::Category::Unimplemented, "PCM bits per sample not supported");
CHECK_OK(LoaderError::Category::Unimplemented, "Bits per sample (PCM)"); // value check
// We only support 8-24 bit audio right now because other formats are uncommon // We only support 8-24 bit audio right now because other formats are uncommon
if (bits_per_sample == 8) { if (bits_per_sample == 8) {
@ -281,9 +243,8 @@ MaybeLoaderError WavLoaderPlugin::parse_header()
} else if (bits_per_sample == 24) { } else if (bits_per_sample == 24) {
m_sample_format = PcmSampleFormat::Int24; m_sample_format = PcmSampleFormat::Int24;
} }
} else if (audio_format == WAVE_FORMAT_IEEE_FLOAT) { } else if (audio_format == to_underlying(RIFF::WaveFormat::IEEEFloat)) {
ok = ok && (bits_per_sample == 32 || bits_per_sample == 64); CHECK(bits_per_sample == 32 || bits_per_sample == 64, LoaderError::Category::Unimplemented, "Float bits per sample not supported");
CHECK_OK(LoaderError::Category::Unimplemented, "Bits per sample (Float)"); // value check
// Again, only the common 32 and 64 bit // Again, only the common 32 and 64 bit
if (bits_per_sample == 32) { if (bits_per_sample == 32) {
@ -293,42 +254,28 @@ MaybeLoaderError WavLoaderPlugin::parse_header()
} }
} }
ok = ok && (block_size_bytes == (m_num_channels * (bits_per_sample / 8))); CHECK(block_size_bytes == (m_num_channels * (bits_per_sample / 8)), LoaderError::Category::Format, "Block size invalid");
CHECK_OK(LoaderError::Category::Format, "Block size sanity check");
dbgln_if(AWAVLOADER_DEBUG, "WAV format {} at {} bit, {} channels, rate {}Hz ", dbgln_if(AWAVLOADER_DEBUG, "WAV format {} at {} bit, {} channels, rate {}Hz ",
sample_format_name(m_sample_format), pcm_bits_per_sample(m_sample_format), m_num_channels, m_sample_rate); sample_format_name(m_sample_format), pcm_bits_per_sample(m_sample_format), m_num_channels, m_sample_rate);
// Read chunks until we find DATA // Read all chunks before DATA.
bool found_data = false; bool found_data = false;
u32 data_size = 0; while (!found_data) {
u8 search_byte = 0; auto chunk_header = TRY(m_stream->read_value<RIFF::ChunkID>());
while (true) { if (chunk_header == RIFF::data_chunk_id) {
search_byte = TRY(read_u8()); found_data = true;
CHECK_OK(LoaderError::Category::IO, "Reading byte searching for data"); } else {
if (search_byte != 0x64) // D TRY(m_stream->seek(-RIFF::chunk_id_size, SeekMode::FromCurrentPosition));
continue; auto chunk = TRY(m_stream->read_value<RIFF::Chunk>());
dbgln_if(AWAVLOADER_DEBUG, "Unhandled WAV chunk of type {}, size {} bytes", chunk.id.as_ascii_string(), chunk.size);
search_byte = TRY(read_u8()); // TODO: Handle LIST INFO chunks.
CHECK_OK(LoaderError::Category::IO, "Reading next byte searching for data"); }
if (search_byte != 0x61) // A
continue;
u16 search_remaining = TRY(read_u16());
CHECK_OK(LoaderError::Category::IO, "Reading remaining bytes searching for data");
if (search_remaining != 0x6174) // TA
continue;
data_size = TRY(read_u32());
found_data = true;
break;
} }
ok = ok && found_data; u32 data_size = TRY(m_stream->read_value<LittleEndian<u32>>());
CHECK_OK(LoaderError::Category::Format, "Found no data chunk"); CHECK(found_data, LoaderError::Category::Format, "Found no data chunk");
CHECK(data_size < maximum_wav_size, LoaderError::Category::Format, "Data too large");
ok = ok && data_size < maximum_wav_size;
CHECK_OK(LoaderError::Category::Format, "Data was too large");
m_total_samples = data_size / block_size_bytes; m_total_samples = data_size / block_size_bytes;
@ -337,7 +284,8 @@ MaybeLoaderError WavLoaderPlugin::parse_header()
block_size_bytes, block_size_bytes,
m_total_samples); m_total_samples);
m_byte_offset_of_data_samples = bytes_read; m_byte_offset_of_data_samples = TRY(m_stream->tell());
return {}; return {};
} }
} }

12
Userland/Libraries/LibAudio/WavLoader.h
View file

@ -17,14 +17,10 @@
namespace Audio { namespace Audio {
// constants for handling the WAV header data // Loader for the WAVE (file extension .wav) uncompressed audio file format.
static constexpr unsigned const WAVE_FORMAT_PCM = 0x0001; // PCM // WAVE uses the Microsoft RIFF container.
static constexpr unsigned const WAVE_FORMAT_IEEE_FLOAT = 0x0003; // IEEE float // Original RIFF Spec, without later extensions: https://www.aelius.com/njh/wavemetatools/doc/riffmci.pdf
static constexpr unsigned const WAVE_FORMAT_ALAW = 0x0006; // 8-bit ITU-T G.711 A-law // More concise WAVE information plus various spec links: http://www-mmsp.ece.mcgill.ca/Documents/AudioFormats/WAVE/WAVE.html
static constexpr unsigned const WAVE_FORMAT_MULAW = 0x0007; // 8-bit ITU-T G.711 µ-law
static constexpr unsigned const WAVE_FORMAT_EXTENSIBLE = 0xFFFE; // Determined by SubFormat
// Parses and reads audio data from a WAV file.
class WavLoaderPlugin : public LoaderPlugin { class WavLoaderPlugin : public LoaderPlugin {
public: public:
explicit WavLoaderPlugin(NonnullOwnPtr<SeekableStream> stream); explicit WavLoaderPlugin(NonnullOwnPtr<SeekableStream> stream);