/* * Copyright (c) 2018-2020, Andreas Kling * Copyright (c) 2021, kleines Filmröllchen * * SPDX-License-Identifier: BSD-2-Clause */ #include "WavLoader.h" #include "LoaderError.h" #include #include #include #include #include #include #include namespace Audio { static constexpr size_t const maximum_wav_size = 1 * GiB; // FIXME: is there a more appropriate size limit? WavLoaderPlugin::WavLoaderPlugin(NonnullOwnPtr stream) : LoaderPlugin(move(stream)) { } Result, LoaderError> WavLoaderPlugin::create(StringView path) { auto stream = LOADER_TRY(Core::BufferedFile::create(LOADER_TRY(Core::File::open(path, Core::File::OpenMode::Read)))); auto loader = make(move(stream)); LOADER_TRY(loader->initialize()); return loader; } Result, LoaderError> WavLoaderPlugin::create(Bytes buffer) { auto stream = LOADER_TRY(try_make(buffer)); auto loader = make(move(stream)); LOADER_TRY(loader->initialize()); return loader; } MaybeLoaderError WavLoaderPlugin::initialize() { LOADER_TRY(parse_header()); return {}; } template MaybeLoaderError WavLoaderPlugin::read_samples_from_stream(Stream& stream, SampleReader read_sample, FixedArray& samples) const { switch (m_num_channels) { case 1: for (auto& sample : samples) sample = Sample(LOADER_TRY(read_sample(stream))); break; case 2: for (auto& sample : samples) { auto left_channel_sample = LOADER_TRY(read_sample(stream)); auto right_channel_sample = LOADER_TRY(read_sample(stream)); sample = Sample(left_channel_sample, right_channel_sample); } break; default: VERIFY_NOT_REACHED(); } return {}; } // There's no i24 type + we need to do the endianness conversion manually anyways. static ErrorOr read_sample_int24(Stream& stream) { u8 byte = 0; TRY(stream.read(Bytes { &byte, 1 })); i32 sample1 = byte; TRY(stream.read(Bytes { &byte, 1 })); i32 sample2 = byte; TRY(stream.read(Bytes { &byte, 1 })); i32 sample3 = byte; i32 value = 0; value = sample1; value |= sample2 << 8; value |= sample3 << 16; // Sign extend the value, as it can currently not have the correct sign. value = (value << 8) >> 8; // Range of value is now -2^23 to 2^23-1 and we can rescale normally. return static_cast(value) / static_cast((1 << 23) - 1); } template static ErrorOr read_sample(Stream& stream) { T sample { 0 }; TRY(stream.read(Bytes { &sample, sizeof(T) })); // Remap integer samples to normalized floating-point range of -1 to 1. if constexpr (IsIntegral) { if constexpr (NumericLimits::is_signed()) { // Signed integer samples are centered around zero, so this division is enough. return static_cast(AK::convert_between_host_and_little_endian(sample)) / static_cast(NumericLimits::max()); } else { // Unsigned integer samples, on the other hand, need to be shifted to center them around zero. // The first division therefore remaps to the range 0 to 2. return static_cast(AK::convert_between_host_and_little_endian(sample)) / (static_cast(NumericLimits::max()) / 2.0) - 1.0; } } else { return static_cast(AK::convert_between_host_and_little_endian(sample)); } } LoaderSamples WavLoaderPlugin::samples_from_pcm_data(Bytes const& data, size_t samples_to_read) const { FixedArray samples = LOADER_TRY(FixedArray::create(samples_to_read)); FixedMemoryStream stream { data }; switch (m_sample_format) { case PcmSampleFormat::Uint8: TRY(read_samples_from_stream(stream, read_sample, samples)); break; case PcmSampleFormat::Int16: TRY(read_samples_from_stream(stream, read_sample, samples)); break; case PcmSampleFormat::Int24: TRY(read_samples_from_stream(stream, read_sample_int24, samples)); break; case PcmSampleFormat::Float32: TRY(read_samples_from_stream(stream, read_sample, samples)); break; case PcmSampleFormat::Float64: TRY(read_samples_from_stream(stream, read_sample, samples)); break; default: VERIFY_NOT_REACHED(); } return samples; } LoaderSamples WavLoaderPlugin::get_more_samples(size_t max_samples_to_read_from_input) { auto remaining_samples = m_total_samples - m_loaded_samples; if (remaining_samples <= 0) return FixedArray {}; // One "sample" contains data from all channels. // In the Wave spec, this is also called a block. size_t bytes_per_sample = m_num_channels * pcm_bits_per_sample(m_sample_format) / 8; // Might truncate if not evenly divisible by the sample size auto max_samples_to_read = max_samples_to_read_from_input / bytes_per_sample; auto samples_to_read = min(max_samples_to_read, remaining_samples); auto bytes_to_read = samples_to_read * bytes_per_sample; dbgln_if(AWAVLOADER_DEBUG, "Read {} bytes WAV with num_channels {} sample rate {}, " "bits per sample {}, sample format {}", bytes_to_read, m_num_channels, m_sample_rate, pcm_bits_per_sample(m_sample_format), sample_format_name(m_sample_format)); auto sample_data = LOADER_TRY(ByteBuffer::create_zeroed(bytes_to_read)); LOADER_TRY(m_stream->read(sample_data.bytes())); // m_loaded_samples should contain the amount of actually loaded samples m_loaded_samples += samples_to_read; return samples_from_pcm_data(sample_data.bytes(), samples_to_read); } MaybeLoaderError WavLoaderPlugin::seek(int sample_index) { dbgln_if(AWAVLOADER_DEBUG, "seek sample_index {}", sample_index); if (sample_index < 0 || sample_index >= static_cast(m_total_samples)) return LoaderError { LoaderError::Category::Internal, m_loaded_samples, "Seek outside the sample range" }; size_t sample_offset = m_byte_offset_of_data_samples + static_cast(sample_index * m_num_channels * (pcm_bits_per_sample(m_sample_format) / 8)); LOADER_TRY(m_stream->seek(sample_offset, SeekMode::SetPosition)); m_loaded_samples = sample_index; return {}; } // Specification reference: http://www-mmsp.ece.mcgill.ca/Documents/AudioFormats/WAVE/WAVE.html MaybeLoaderError WavLoaderPlugin::parse_header() { bool ok = true; size_t bytes_read = 0; auto read_u8 = [&]() -> ErrorOr { u8 value; LOADER_TRY(m_stream->read(Bytes { &value, 1 })); bytes_read += 1; return value; }; auto read_u16 = [&]() -> ErrorOr { u16 value; LOADER_TRY(m_stream->read(Bytes { &value, 2 })); bytes_read += 2; return value; }; auto read_u32 = [&]() -> ErrorOr { u32 value; LOADER_TRY(m_stream->read(Bytes { &value, 4 })); bytes_read += 4; return value; }; #define CHECK_OK(category, msg) \ do { \ if (!ok) \ return LoaderError { category, DeprecatedString::formatted("Parsing failed: {}", msg) }; \ } while (0) u32 riff = TRY(read_u32()); ok = ok && riff == 0x46464952; // "RIFF" CHECK_OK(LoaderError::Category::Format, "RIFF header"); u32 sz = TRY(read_u32()); ok = ok && sz < maximum_wav_size; CHECK_OK(LoaderError::Category::Format, "File size"); u32 wave = TRY(read_u32()); ok = ok && wave == 0x45564157; // "WAVE" CHECK_OK(LoaderError::Category::Format, "WAVE header"); u32 fmt_id = TRY(read_u32()); ok = ok && fmt_id == 0x20746D66; // "fmt " CHECK_OK(LoaderError::Category::Format, "FMT header"); u32 fmt_size = TRY(read_u32()); ok = ok && (fmt_size == 16 || fmt_size == 18 || fmt_size == 40); CHECK_OK(LoaderError::Category::Format, "FMT size"); u16 audio_format = TRY(read_u16()); CHECK_OK(LoaderError::Category::Format, "Audio format"); // incomplete read check 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()); ok = ok && (m_num_channels == 1 || m_num_channels == 2); CHECK_OK(LoaderError::Category::Unimplemented, "Channel count"); m_sample_rate = TRY(read_u32()); CHECK_OK(LoaderError::Category::IO, "Sample rate"); TRY(read_u32()); CHECK_OK(LoaderError::Category::IO, "Data rate"); 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. // We've already read 16 bytes from the stream. The GUID starts in another 8 bytes. TRY(read_u32()); TRY(read_u32()); CHECK_OK(LoaderError::Category::IO, "Discard until GUID"); // Get the underlying audio format from the first two bytes of GUID u16 guid_subformat = TRY(read_u16()); ok = ok && (guid_subformat == WAVE_FORMAT_PCM || guid_subformat == WAVE_FORMAT_IEEE_FLOAT); CHECK_OK(LoaderError::Category::Unimplemented, "GUID SubFormat"); audio_format = guid_subformat; } if (audio_format == WAVE_FORMAT_PCM) { ok = ok && (bits_per_sample == 8 || bits_per_sample == 16 || bits_per_sample == 24); 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 if (bits_per_sample == 8) { m_sample_format = PcmSampleFormat::Uint8; } else if (bits_per_sample == 16) { m_sample_format = PcmSampleFormat::Int16; } else if (bits_per_sample == 24) { m_sample_format = PcmSampleFormat::Int24; } } else if (audio_format == WAVE_FORMAT_IEEE_FLOAT) { ok = ok && (bits_per_sample == 32 || bits_per_sample == 64); CHECK_OK(LoaderError::Category::Unimplemented, "Bits per sample (Float)"); // value check // Again, only the common 32 and 64 bit if (bits_per_sample == 32) { m_sample_format = PcmSampleFormat::Float32; } else if (bits_per_sample == 64) { m_sample_format = PcmSampleFormat::Float64; } } ok = ok && (block_size_bytes == (m_num_channels * (bits_per_sample / 8))); CHECK_OK(LoaderError::Category::Format, "Block size sanity check"); 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); // Read chunks until we find DATA bool found_data = false; u32 data_size = 0; u8 search_byte = 0; while (true) { search_byte = TRY(read_u8()); CHECK_OK(LoaderError::Category::IO, "Reading byte searching for data"); if (search_byte != 0x64) // D continue; search_byte = TRY(read_u8()); 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; CHECK_OK(LoaderError::Category::Format, "Found no data chunk"); ok = ok && data_size < maximum_wav_size; CHECK_OK(LoaderError::Category::Format, "Data was too large"); m_total_samples = data_size / block_size_bytes; dbgln_if(AWAVLOADER_DEBUG, "WAV data size {}, bytes per sample {}, total samples {}", data_size, block_size_bytes, m_total_samples); m_byte_offset_of_data_samples = bytes_read; return {}; } }