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oxideav_basic/
wav.rs

1//! Minimal pure-Rust RIFF/WAVE container.
2//!
3//! Supports reading and writing linear PCM streams via the `pcm_*` codecs.
4
5use oxideav_codec as _;
6use oxideav_container::{ContainerRegistry, Demuxer, Muxer, ReadSeek, WriteSeek};
7use oxideav_core::{
8    CodecId, CodecParameters, Error, MediaType, Packet, Result, SampleFormat, StreamInfo, TimeBase,
9};
10use std::io::{Read, Seek, SeekFrom, Write};
11
12pub fn register(reg: &mut ContainerRegistry) {
13    reg.register_demuxer("wav", open_demuxer);
14    reg.register_muxer("wav", open_muxer);
15    reg.register_extension("wav", "wav");
16    reg.register_extension("wave", "wav");
17    reg.register_probe("wav", probe);
18}
19
20/// `RIFF....WAVE` — unambiguous when present.
21fn probe(p: &oxideav_container::ProbeData) -> u8 {
22    if p.buf.len() < 12 {
23        return 0;
24    }
25    if &p.buf[0..4] == b"RIFF" && &p.buf[8..12] == b"WAVE" {
26        100
27    } else {
28        0
29    }
30}
31
32const FMT_PCM: u16 = 0x0001;
33const FMT_IEEE_FLOAT: u16 = 0x0003;
34const FMT_EXTENSIBLE: u16 = 0xFFFE;
35
36// Data GUIDs for WAVE_FORMAT_EXTENSIBLE subformats.
37const GUID_PCM: [u8; 16] = [
38    0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x10, 0x00, 0x80, 0x00, 0x00, 0xAA, 0x00, 0x38, 0x9B, 0x71,
39];
40const GUID_IEEE_FLOAT: [u8; 16] = [
41    0x03, 0x00, 0x00, 0x00, 0x00, 0x00, 0x10, 0x00, 0x80, 0x00, 0x00, 0xAA, 0x00, 0x38, 0x9B, 0x71,
42];
43
44// --- Demuxer ---------------------------------------------------------------
45
46fn open_demuxer(mut input: Box<dyn ReadSeek>) -> Result<Box<dyn Demuxer>> {
47    let mut hdr = [0u8; 12];
48    input.read_exact(&mut hdr)?;
49    if &hdr[0..4] != b"RIFF" || &hdr[8..12] != b"WAVE" {
50        return Err(Error::invalid("not a RIFF/WAVE file"));
51    }
52
53    // Walk chunks until we hit "data"; parse "fmt " and "LIST" along the way.
54    let mut fmt: Option<WaveFmt> = None;
55    let mut metadata: Vec<(String, String)> = Vec::new();
56    let data_offset: u64;
57    let data_size: u64;
58    loop {
59        let mut chdr = [0u8; 8];
60        input.read_exact(&mut chdr)?;
61        let id = &chdr[0..4];
62        let size = u32::from_le_bytes([chdr[4], chdr[5], chdr[6], chdr[7]]) as u64;
63        match id {
64            b"fmt " => {
65                let mut buf = vec![0u8; size as usize];
66                input.read_exact(&mut buf)?;
67                fmt = Some(parse_fmt(&buf)?);
68                if size % 2 == 1 {
69                    input.seek(SeekFrom::Current(1))?;
70                }
71            }
72            b"LIST" => {
73                let mut buf = vec![0u8; size as usize];
74                input.read_exact(&mut buf)?;
75                parse_list_chunk(&buf, &mut metadata);
76                if size % 2 == 1 {
77                    input.seek(SeekFrom::Current(1))?;
78                }
79            }
80            b"data" => {
81                data_offset = input.stream_position()?;
82                data_size = size;
83                break;
84            }
85            _ => {
86                let pad = size + (size % 2);
87                input.seek(SeekFrom::Current(pad as i64))?;
88            }
89        }
90    }
91    let fmt = fmt.ok_or_else(|| Error::invalid("WAV missing fmt chunk"))?;
92
93    let codec_id = resolve_codec(&fmt)?;
94    let sample_fmt = super::pcm::sample_format_for(&codec_id)
95        .ok_or_else(|| Error::unsupported(format!("unsupported WAV codec {}", codec_id)))?;
96
97    let time_base = TimeBase::new(1, fmt.sample_rate as i64);
98    let block_align = fmt.block_align.max(1) as u64;
99    let total_samples = data_size / block_align;
100    let duration_micros: i64 = if fmt.sample_rate > 0 {
101        (total_samples as i128 * 1_000_000 / fmt.sample_rate as i128) as i64
102    } else {
103        0
104    };
105
106    let mut params = CodecParameters::audio(codec_id);
107    params.channels = Some(fmt.channels);
108    params.sample_rate = Some(fmt.sample_rate);
109    params.sample_format = Some(sample_fmt);
110    params.bit_rate = Some(
111        (sample_fmt.bytes_per_sample() as u64)
112            * 8
113            * (fmt.channels as u64)
114            * (fmt.sample_rate as u64),
115    );
116
117    let stream = StreamInfo {
118        index: 0,
119        time_base,
120        duration: Some(total_samples as i64),
121        start_time: Some(0),
122        params,
123    };
124
125    Ok(Box::new(WavDemuxer {
126        input,
127        streams: vec![stream],
128        data_offset,
129        data_end: data_offset + data_size,
130        cursor: data_offset,
131        block_align,
132        chunk_frames: 1024,
133        samples_emitted: 0,
134        metadata,
135        duration_micros,
136    }))
137}
138
139/// Parse a RIFF LIST chunk body. If the list type is `INFO`, map its
140/// `IART`/`INAM`/... subchunks to standard key names (`artist`, `title`,
141/// …) and append to `out`.
142fn parse_list_chunk(buf: &[u8], out: &mut Vec<(String, String)>) {
143    if buf.len() < 4 {
144        return;
145    }
146    if &buf[0..4] != b"INFO" {
147        return;
148    }
149    let mut i = 4usize;
150    while i + 8 <= buf.len() {
151        let id: [u8; 4] = [buf[i], buf[i + 1], buf[i + 2], buf[i + 3]];
152        let size = u32::from_le_bytes([buf[i + 4], buf[i + 5], buf[i + 6], buf[i + 7]]) as usize;
153        i += 8;
154        if i + size > buf.len() {
155            break;
156        }
157        let raw = &buf[i..i + size];
158        let end = raw.iter().position(|&b| b == 0).unwrap_or(raw.len());
159        let value = String::from_utf8_lossy(&raw[..end]).trim().to_string();
160        let key = info_id_to_key(&id);
161        if !value.is_empty() {
162            if let Some(k) = key {
163                out.push((k.to_string(), value));
164            }
165        }
166        i += size;
167        if size % 2 == 1 {
168            i += 1;
169        }
170    }
171}
172
173fn info_id_to_key(id: &[u8; 4]) -> Option<&'static str> {
174    match id {
175        b"INAM" => Some("title"),
176        b"IART" => Some("artist"),
177        b"IPRD" => Some("album"),
178        b"ICMT" => Some("comment"),
179        b"ICRD" => Some("date"),
180        b"IGNR" => Some("genre"),
181        b"ICOP" => Some("copyright"),
182        b"IENG" => Some("engineer"),
183        b"ITCH" => Some("technician"),
184        b"ISFT" => Some("encoder"),
185        b"ISBJ" => Some("subject"),
186        b"ITRK" => Some("track"),
187        _ => None,
188    }
189}
190
191#[derive(Clone, Debug)]
192struct WaveFmt {
193    format_tag: u16,
194    channels: u16,
195    sample_rate: u32,
196    #[allow(dead_code)]
197    byte_rate: u32,
198    block_align: u16,
199    bits_per_sample: u16,
200    subformat: Option<[u8; 16]>,
201}
202
203fn parse_fmt(buf: &[u8]) -> Result<WaveFmt> {
204    if buf.len() < 16 {
205        return Err(Error::invalid("fmt chunk too small"));
206    }
207    let format_tag = u16::from_le_bytes([buf[0], buf[1]]);
208    let channels = u16::from_le_bytes([buf[2], buf[3]]);
209    let sample_rate = u32::from_le_bytes([buf[4], buf[5], buf[6], buf[7]]);
210    let byte_rate = u32::from_le_bytes([buf[8], buf[9], buf[10], buf[11]]);
211    let block_align = u16::from_le_bytes([buf[12], buf[13]]);
212    let bits_per_sample = u16::from_le_bytes([buf[14], buf[15]]);
213    let mut subformat = None;
214    if format_tag == FMT_EXTENSIBLE && buf.len() >= 40 {
215        let mut g = [0u8; 16];
216        g.copy_from_slice(&buf[24..40]);
217        subformat = Some(g);
218    }
219    Ok(WaveFmt {
220        format_tag,
221        channels,
222        sample_rate,
223        byte_rate,
224        block_align,
225        bits_per_sample,
226        subformat,
227    })
228}
229
230fn resolve_codec(fmt: &WaveFmt) -> Result<CodecId> {
231    let (is_float, bits) = match fmt.format_tag {
232        FMT_PCM => (false, fmt.bits_per_sample),
233        FMT_IEEE_FLOAT => (true, fmt.bits_per_sample),
234        FMT_EXTENSIBLE => {
235            let sub = fmt
236                .subformat
237                .ok_or_else(|| Error::invalid("extensible WAV missing subformat"))?;
238            let is_float = match sub {
239                GUID_PCM => false,
240                GUID_IEEE_FLOAT => true,
241                _ => {
242                    return Err(Error::unsupported(
243                        "unsupported WAVE_FORMAT_EXTENSIBLE subformat",
244                    ));
245                }
246            };
247            (is_float, fmt.bits_per_sample)
248        }
249        other => {
250            return Err(Error::unsupported(format!(
251                "unsupported WAV format tag 0x{:04x}",
252                other
253            )));
254        }
255    };
256    let name = match (is_float, bits) {
257        (false, 8) => "pcm_u8",
258        (false, 16) => "pcm_s16le",
259        (false, 24) => "pcm_s24le",
260        (false, 32) => "pcm_s32le",
261        (true, 32) => "pcm_f32le",
262        (true, 64) => "pcm_f64le",
263        (f, b) => {
264            return Err(Error::unsupported(format!(
265                "unsupported WAV bit depth: float={} bits={}",
266                f, b
267            )));
268        }
269    };
270    Ok(CodecId::new(name))
271}
272
273struct WavDemuxer {
274    input: Box<dyn ReadSeek>,
275    streams: Vec<StreamInfo>,
276    data_offset: u64,
277    data_end: u64,
278    cursor: u64,
279    block_align: u64,
280    chunk_frames: u64,
281    samples_emitted: i64,
282    metadata: Vec<(String, String)>,
283    duration_micros: i64,
284}
285
286impl Demuxer for WavDemuxer {
287    fn format_name(&self) -> &str {
288        "wav"
289    }
290
291    fn streams(&self) -> &[StreamInfo] {
292        &self.streams
293    }
294
295    fn next_packet(&mut self) -> Result<Packet> {
296        if self.cursor >= self.data_end {
297            return Err(Error::Eof);
298        }
299        let remaining = self.data_end - self.cursor;
300        let want_bytes = (self.chunk_frames * self.block_align).min(remaining);
301        let want_bytes = (want_bytes / self.block_align) * self.block_align;
302        if want_bytes == 0 {
303            return Err(Error::Eof);
304        }
305
306        // Ensure we're positioned correctly (if an upstream operation seeked us).
307        self.input.seek(SeekFrom::Start(self.cursor))?;
308        let mut buf = vec![0u8; want_bytes as usize];
309        self.input.read_exact(&mut buf)?;
310        self.cursor += want_bytes;
311
312        let stream = &self.streams[0];
313        let frames = want_bytes / self.block_align;
314        let pts = self.samples_emitted;
315        self.samples_emitted += frames as i64;
316
317        let mut pkt = Packet::new(0, stream.time_base, buf);
318        pkt.pts = Some(pts);
319        pkt.dts = Some(pts);
320        pkt.duration = Some(frames as i64);
321        pkt.flags.keyframe = true;
322        Ok(pkt)
323    }
324
325    fn seek_to(&mut self, stream_index: u32, pts: i64) -> Result<i64> {
326        if stream_index != 0 {
327            return Err(Error::invalid(format!(
328                "WAV: stream index {stream_index} out of range"
329            )));
330        }
331        // PCM is keyframe-only and frame-aligned: the target pts is a
332        // sample-index offset into the data chunk. Clamp to the valid
333        // range and translate to a byte offset.
334        let total_samples = (self.data_end - self.data_offset) / self.block_align;
335        let target = (pts.max(0) as u64).min(total_samples);
336        let new_cursor = self.data_offset + target * self.block_align;
337
338        self.input.seek(SeekFrom::Start(new_cursor))?;
339        self.cursor = new_cursor;
340        self.samples_emitted = target as i64;
341        Ok(target as i64)
342    }
343
344    fn metadata(&self) -> &[(String, String)] {
345        &self.metadata
346    }
347
348    fn duration_micros(&self) -> Option<i64> {
349        if self.duration_micros > 0 {
350            Some(self.duration_micros)
351        } else {
352            None
353        }
354    }
355}
356
357// --- Muxer -----------------------------------------------------------------
358
359fn open_muxer(output: Box<dyn WriteSeek>, streams: &[StreamInfo]) -> Result<Box<dyn Muxer>> {
360    if streams.len() != 1 {
361        return Err(Error::unsupported("WAV supports exactly one audio stream"));
362    }
363    let s = &streams[0];
364    if s.params.media_type != MediaType::Audio {
365        return Err(Error::invalid("WAV stream must be audio"));
366    }
367    let fmt = sample_format_for_params(&s.params)?;
368    let channels = s
369        .params
370        .channels
371        .ok_or_else(|| Error::invalid("WAV muxer: missing channels"))?;
372    let sample_rate = s
373        .params
374        .sample_rate
375        .ok_or_else(|| Error::invalid("WAV muxer: missing sample rate"))?;
376    Ok(Box::new(WavMuxer {
377        output,
378        channels,
379        sample_rate,
380        sample_format: fmt,
381        riff_size_offset: 0,
382        data_size_offset: 0,
383        data_bytes: 0,
384        header_written: false,
385        trailer_written: false,
386    }))
387}
388
389fn sample_format_for_params(p: &CodecParameters) -> Result<SampleFormat> {
390    p.sample_format
391        .or_else(|| super::pcm::sample_format_for(&p.codec_id))
392        .ok_or_else(|| Error::unsupported(format!("WAV: unknown PCM codec {}", p.codec_id)))
393}
394
395struct WavMuxer {
396    output: Box<dyn WriteSeek>,
397    channels: u16,
398    sample_rate: u32,
399    sample_format: SampleFormat,
400    riff_size_offset: u64,
401    data_size_offset: u64,
402    data_bytes: u64,
403    header_written: bool,
404    trailer_written: bool,
405}
406
407impl Muxer for WavMuxer {
408    fn format_name(&self) -> &str {
409        "wav"
410    }
411
412    fn write_header(&mut self) -> Result<()> {
413        if self.header_written {
414            return Err(Error::other("WAV header already written"));
415        }
416        let (format_tag, bits_per_sample) = match self.sample_format {
417            SampleFormat::U8 => (FMT_PCM, 8u16),
418            SampleFormat::S16 => (FMT_PCM, 16),
419            SampleFormat::S24 => (FMT_PCM, 24),
420            SampleFormat::S32 => (FMT_PCM, 32),
421            SampleFormat::F32 => (FMT_IEEE_FLOAT, 32),
422            SampleFormat::F64 => (FMT_IEEE_FLOAT, 64),
423            other => {
424                return Err(Error::unsupported(format!(
425                    "WAV muxer cannot write sample format {:?}",
426                    other
427                )));
428            }
429        };
430        let block_align = (bits_per_sample / 8) * self.channels;
431        let byte_rate = self.sample_rate * block_align as u32;
432
433        self.output.write_all(b"RIFF")?;
434        self.riff_size_offset = self.output.stream_position()?;
435        self.output.write_all(&0u32.to_le_bytes())?; // placeholder
436        self.output.write_all(b"WAVE")?;
437
438        self.output.write_all(b"fmt ")?;
439        self.output.write_all(&16u32.to_le_bytes())?;
440        self.output.write_all(&format_tag.to_le_bytes())?;
441        self.output.write_all(&self.channels.to_le_bytes())?;
442        self.output.write_all(&self.sample_rate.to_le_bytes())?;
443        self.output.write_all(&byte_rate.to_le_bytes())?;
444        self.output.write_all(&block_align.to_le_bytes())?;
445        self.output.write_all(&bits_per_sample.to_le_bytes())?;
446
447        self.output.write_all(b"data")?;
448        self.data_size_offset = self.output.stream_position()?;
449        self.output.write_all(&0u32.to_le_bytes())?; // placeholder
450
451        self.header_written = true;
452        Ok(())
453    }
454
455    fn write_packet(&mut self, packet: &Packet) -> Result<()> {
456        if !self.header_written {
457            return Err(Error::other("WAV muxer: write_header not called"));
458        }
459        self.output.write_all(&packet.data)?;
460        self.data_bytes += packet.data.len() as u64;
461        Ok(())
462    }
463
464    fn write_trailer(&mut self) -> Result<()> {
465        if self.trailer_written {
466            return Ok(());
467        }
468        // Pad data chunk to even length.
469        if self.data_bytes % 2 == 1 {
470            self.output.write_all(&[0u8])?;
471        }
472        let end = self.output.stream_position()?;
473
474        // Patch "data" chunk size.
475        let data_size_u32: u32 = self
476            .data_bytes
477            .try_into()
478            .map_err(|_| Error::other("WAV data chunk exceeds 4 GiB"))?;
479        self.output.seek(SeekFrom::Start(self.data_size_offset))?;
480        self.output.write_all(&data_size_u32.to_le_bytes())?;
481
482        // Patch "RIFF" size: total file size minus 8 (RIFF + size fields).
483        let riff_size_u32: u32 = (end - 8)
484            .try_into()
485            .map_err(|_| Error::other("WAV RIFF size exceeds 4 GiB"))?;
486        self.output.seek(SeekFrom::Start(self.riff_size_offset))?;
487        self.output.write_all(&riff_size_u32.to_le_bytes())?;
488
489        self.output.seek(SeekFrom::Start(end))?;
490        self.output.flush()?;
491        self.trailer_written = true;
492        Ok(())
493    }
494}
495
496#[cfg(test)]
497mod tests {
498    use super::*;
499    use oxideav_core::{CodecParameters, MediaType};
500
501    fn make_stream(fmt: SampleFormat, ch: u16, sr: u32) -> StreamInfo {
502        let mut params = CodecParameters::audio(super::super::pcm::codec_id_for(fmt).unwrap());
503        params.media_type = MediaType::Audio;
504        params.channels = Some(ch);
505        params.sample_rate = Some(sr);
506        params.sample_format = Some(fmt);
507        StreamInfo {
508            index: 0,
509            time_base: TimeBase::new(1, sr as i64),
510            duration: None,
511            start_time: Some(0),
512            params,
513        }
514    }
515
516    #[test]
517    fn round_trip_s16_mono() {
518        // Write then read back a small S16 mono WAV via the public demuxer/muxer paths.
519        let samples: Vec<i16> = (0..1000).map(|i| ((i * 32) - 16000) as i16).collect();
520        let mut payload = Vec::with_capacity(samples.len() * 2);
521        for s in &samples {
522            payload.extend_from_slice(&s.to_le_bytes());
523        }
524
525        // Mux to a temp file, then demux and compare.
526        let stream = make_stream(SampleFormat::S16, 1, 48_000);
527        let tmp = std::env::temp_dir().join("oxideav-basic-wav-test.wav");
528        {
529            let f = std::fs::File::create(&tmp).unwrap();
530            let ws: Box<dyn WriteSeek> = Box::new(f);
531            let mut mux = open_muxer(ws, std::slice::from_ref(&stream)).unwrap();
532            mux.write_header().unwrap();
533            let pkt = Packet::new(0, stream.time_base, payload.clone());
534            mux.write_packet(&pkt).unwrap();
535            mux.write_trailer().unwrap();
536        }
537        let rs: Box<dyn ReadSeek> = Box::new(std::fs::File::open(&tmp).unwrap());
538        let mut dmx = open_demuxer(rs).unwrap();
539        assert_eq!(dmx.format_name(), "wav");
540        assert_eq!(dmx.streams().len(), 1);
541        assert_eq!(dmx.streams()[0].params.codec_id, CodecId::new("pcm_s16le"));
542        let mut out_bytes = Vec::new();
543        loop {
544            match dmx.next_packet() {
545                Ok(p) => out_bytes.extend_from_slice(&p.data),
546                Err(Error::Eof) => break,
547                Err(e) => panic!("demux error: {e}"),
548            }
549        }
550        assert_eq!(out_bytes, payload);
551    }
552}