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ladybird/Userland/Libraries/LibAudio/WavLoader.cpp
Idan Horowitz 00f1cb924b LibAudio: decrease WavLoader's size limit to a more reasonable size 
A 4 GiB wav (current size limit) is very unreasonable, and larger
than oss-fuzz's 2.5 GiB per-process memory limit.
2021-03-16 18:40:42 +01:00

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8.4 KiB
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/*
* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <AK/Debug.h>
#include <AK/NumericLimits.h>
#include <AK/OwnPtr.h>
#include <LibAudio/Buffer.h>
#include <LibAudio/WavLoader.h>
#include <LibCore/File.h>
#include <LibCore/IODeviceStreamReader.h>
namespace Audio {
static constexpr size_t maximum_wav_size = 1 * GiB; // FIXME: is there a more appropriate size limit?
WavLoaderPlugin::WavLoaderPlugin(const StringView& path)
: m_file(Core::File::construct(path))
{
if (!m_file->open(Core::IODevice::ReadOnly)) {
m_error_string = String::formatted("Can't open file: {}", m_file->error_string());
return;
}
valid = parse_header();
if (!valid)
return;
m_resampler = make<ResampleHelper>(m_sample_rate, 44100);
}
WavLoaderPlugin::WavLoaderPlugin(const ByteBuffer& buffer)
{
m_stream = make<InputMemoryStream>(buffer);
if (!m_stream) {
m_error_string = String::formatted("Can't open memory stream");
return;
}
valid = parse_header();
if (!valid)
return;
m_resampler = make<ResampleHelper>(m_sample_rate, 44100);
}
bool WavLoaderPlugin::sniff()
{
return valid;
}
RefPtr<Buffer> WavLoaderPlugin::get_more_samples(size_t max_bytes_to_read_from_input)
{
#if AWAVLOADER_DEBUG
dbgln("Read WAV of format PCM with num_channels {} sample rate {}, bits per sample {}", m_num_channels, m_sample_rate, m_bits_per_sample);
#endif
size_t samples_to_read = static_cast<int>(max_bytes_to_read_from_input) / (m_num_channels * (m_bits_per_sample / 8));
RefPtr<Buffer> buffer;
if (m_file) {
auto raw_samples = m_file->read(max_bytes_to_read_from_input);
if (raw_samples.is_empty())
return nullptr;
buffer = Buffer::from_pcm_data(raw_samples, *m_resampler, m_num_channels, m_bits_per_sample);
} else {
buffer = Buffer::from_pcm_stream(*m_stream, *m_resampler, m_num_channels, m_bits_per_sample, samples_to_read);
}
//Buffer contains normalized samples, but m_loaded_samples should contain the amount of actually loaded samples
m_loaded_samples += samples_to_read;
m_loaded_samples = min(m_total_samples, m_loaded_samples);
return buffer;
}
void WavLoaderPlugin::seek(const int position)
{
if (position < 0 || position > m_total_samples)
return;
m_loaded_samples = position;
size_t byte_position = position * m_num_channels * (m_bits_per_sample / 8);
if (m_file)
m_file->seek(byte_position);
else
m_stream->seek(byte_position);
}
void WavLoaderPlugin::reset()
{
seek(0);
}
bool WavLoaderPlugin::parse_header()
{
OwnPtr<Core::IODeviceStreamReader> file_stream;
bool ok = true;
if (m_file)
file_stream = make<Core::IODeviceStreamReader>(*m_file);
auto read_u8 = [&]() -> u8 {
u8 value;
if (m_file) {
*file_stream >> value;
if (file_stream->handle_read_failure())
ok = false;
} else {
*m_stream >> value;
if (m_stream->handle_any_error())
ok = false;
}
return value;
};
auto read_u16 = [&]() -> u16 {
u16 value;
if (m_file) {
*file_stream >> value;
if (file_stream->handle_read_failure())
ok = false;
} else {
*m_stream >> value;
if (m_stream->handle_any_error())
ok = false;
}
return value;
};
auto read_u32 = [&]() -> u32 {
u32 value;
if (m_file) {
*file_stream >> value;
if (file_stream->handle_read_failure())
ok = false;
} else {
*m_stream >> value;
if (m_stream->handle_any_error())
ok = false;
}
return value;
};
#define CHECK_OK(msg) \
do { \
if (!ok) { \
m_error_string = String::formatted("Parsing failed: {}", msg); \
return {}; \
} \
} while (0);
u32 riff = read_u32();
ok = ok && riff == 0x46464952; // "RIFF"
CHECK_OK("RIFF header");
u32 sz = read_u32();
ok = ok && sz < 1024 * 1024 * 1024; // arbitrary
CHECK_OK("File size");
VERIFY(sz < 1024 * 1024 * 1024);
u32 wave = read_u32();
ok = ok && wave == 0x45564157; // "WAVE"
CHECK_OK("WAVE header");
u32 fmt_id = read_u32();
ok = ok && fmt_id == 0x20746D66; // "FMT"
CHECK_OK("FMT header");
u32 fmt_size = read_u32();
ok = ok && fmt_size == 16;
CHECK_OK("FMT size");
VERIFY(fmt_size == 16);
u16 audio_format = read_u16();
CHECK_OK("Audio format"); // incomplete read check
ok = ok && audio_format == 1; // WAVE_FORMAT_PCM
CHECK_OK("Audio format"); // value check
VERIFY(audio_format == 1);
m_num_channels = read_u16();
ok = ok && (m_num_channels == 1 || m_num_channels == 2);
CHECK_OK("Channel count");
m_sample_rate = read_u32();
CHECK_OK("Sample rate");
read_u32();
CHECK_OK("Byte rate");
read_u16();
CHECK_OK("Block align");
m_bits_per_sample = read_u16();
CHECK_OK("Bits per sample"); // incomplete read check
ok = ok && (m_bits_per_sample == 8 || m_bits_per_sample == 16 || m_bits_per_sample == 24);
CHECK_OK("Bits per sample"); // value check
VERIFY(m_bits_per_sample == 8 || m_bits_per_sample == 16 || m_bits_per_sample == 24);
// Read chunks until we find DATA
bool found_data = false;
u32 data_sz = 0;
u8 search_byte = 0;
while (true) {
search_byte = read_u8();
CHECK_OK("Reading byte searching for data");
if (search_byte != 0x64) //D
continue;
search_byte = read_u8();
CHECK_OK("Reading next byte searching for data");
if (search_byte != 0x61) //A
continue;
u16 search_remaining = read_u16();
CHECK_OK("Reading remaining bytes searching for data");
if (search_remaining != 0x6174) //TA
continue;
data_sz = read_u32();
found_data = true;
break;
}
ok = ok && found_data;
CHECK_OK("Found no data chunk");
VERIFY(found_data);
ok = ok && data_sz < maximum_wav_size;
CHECK_OK("Data was too large");
int bytes_per_sample = (m_bits_per_sample / 8) * m_num_channels;
m_total_samples = data_sz / bytes_per_sample;
return true;
}
ResampleHelper::ResampleHelper(double source, double target)
: m_ratio(source / target)
{
}
void ResampleHelper::process_sample(double sample_l, double sample_r)
{
m_last_sample_l = sample_l;
m_last_sample_r = sample_r;
m_current_ratio += 1;
}
bool ResampleHelper::read_sample(double& next_l, double& next_r)
{
if (m_current_ratio > 0) {
m_current_ratio -= m_ratio;
next_l = m_last_sample_l;
next_r = m_last_sample_r;
return true;
}
return false;
}
}
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