use formats::*;
use std::io::SeekFrom;
use std::mem;
+use std::fmt;
macro_rules! mktag {
($a:expr, $b:expr, $c:expr, $d:expr) => ({
});
}
+const RM_SIPRO_BLOCK_SIZES: [usize; 4] = [ 29, 19, 37, 20 ];
+const RM_SIPRO_SWAPS: [[u8; 2]; 38] = [
+ [ 0, 63 ], [ 1, 22 ], [ 2, 44 ], [ 3, 90 ],
+ [ 5, 81 ], [ 7, 31 ], [ 8, 86 ], [ 9, 58 ],
+ [ 10, 36 ], [ 12, 68 ], [ 13, 39 ], [ 14, 73 ],
+ [ 15, 53 ], [ 16, 69 ], [ 17, 57 ], [ 19, 88 ],
+ [ 20, 34 ], [ 21, 71 ], [ 24, 46 ], [ 25, 94 ],
+ [ 26, 54 ], [ 28, 75 ], [ 29, 50 ], [ 32, 70 ],
+ [ 33, 92 ], [ 35, 74 ], [ 38, 85 ], [ 40, 56 ],
+ [ 42, 87 ], [ 43, 65 ], [ 45, 59 ], [ 48, 79 ],
+ [ 49, 93 ], [ 51, 89 ], [ 55, 95 ], [ 61, 76 ],
+ [ 67, 83 ], [ 77, 80 ]
+];
+
struct RMVideoStream {
frame: Vec<u8>,
hdr_size: usize,
}
}
-#[allow(dead_code)]
#[derive(Clone,Copy,PartialEq)]
enum Deinterleaver {
None,
+ RA28_8,
Generic,
Sipro,
VBR,
}
-#[allow(dead_code)]
struct RMAudioStream {
deint: Deinterleaver,
+ iinfo: Option<InterleaveInfo>,
+ buf: Vec<u8>,
+ sub_packet: usize,
}
+const RM_ILEAVE_INT0: u32 = mktag!(b"Int0");
+const RM_ILEAVE_INT4: u32 = mktag!(b"Int4");
+const RM_ILEAVE_GENR: u32 = mktag!(b"genr");
+const RM_ILEAVE_SIPR: u32 = mktag!(b"sipr");
+const RM_ILEAVE_VBRF: u32 = mktag!(b"vbrf");
+const RM_ILEAVE_VBRS: u32 = mktag!(b"vbrs");
+
impl RMAudioStream {
- fn new(deint: Deinterleaver) -> Self {
- RMAudioStream { deint: deint }
+ fn new(iinfo: Option<InterleaveInfo>) -> Self {
+ let deint;
+ let mut buf: Vec<u8>;
+ if let Some(info) = iinfo {
+ deint = match info.id {
+ RM_ILEAVE_INT0 => Deinterleaver::None,
+ RM_ILEAVE_INT4 => Deinterleaver::RA28_8,
+ RM_ILEAVE_GENR => Deinterleaver::Generic,
+ RM_ILEAVE_SIPR => Deinterleaver::Sipro,
+ RM_ILEAVE_VBRF => Deinterleaver::VBR,
+ RM_ILEAVE_VBRS => Deinterleaver::VBR,
+ _ => {println!("unknown deint {:X}", info.id); Deinterleaver::None },
+ };
+ match deint {
+ Deinterleaver::None => { buf = Vec::new(); },
+ Deinterleaver::RA28_8 |
+ Deinterleaver::Generic |
+ Deinterleaver::Sipro => {
+ let bsize = (info.frame_size as usize) * (info.factor as usize);
+ buf = Vec::with_capacity(bsize);
+ buf.resize(bsize, 0u8);
+ },
+ Deinterleaver::VBR => {
+ buf = Vec::new();
+ },
+ };
+ } else {
+ deint = Deinterleaver::None;
+ buf = Vec::new();
+ }
+ RMAudioStream { deint: deint, iinfo: iinfo, buf: buf, sub_packet: 0 }
+ }
+ fn read_apackets(&mut self, queued_packets: &mut Vec<NAPacket>, src: &mut ByteReader, stream: Rc<NAStream>, ts: u32, keyframe: bool, payload_size: usize) -> DemuxerResult<NAPacket> {
+ let (tb_num, tb_den) = stream.get_timebase();
+ let ts = NATimeInfo::new(Some(ts as u64), None, None, tb_num, tb_den);
+
+ if keyframe {
+ self.sub_packet = 0;
+ }
+ match self.deint {
+ Deinterleaver::None => { return src.read_packet(stream, ts, keyframe, payload_size); },
+ Deinterleaver::RA28_8 => {
+ let iinfo = self.iinfo.unwrap();
+ let factor = iinfo.factor as usize;
+ let halffact = factor >> 1;
+ let fsize = iinfo.frame_size as usize;
+ let bsize = iinfo.block_size as usize;
+ let ppos = self.sub_packet;
+ for sb in 0..halffact {
+ let mut dst = &mut self.buf[sb * 2 * fsize + ppos * bsize..][..bsize];
+ src.read_buf(&mut dst)?;
+ }
+ self.sub_packet += 1;
+ if self.sub_packet == factor {
+ self.sub_packet = 0;
+ return Ok(NAPacket::new(stream, ts, true, self.buf.clone()));
+ } else {
+ return Err(DemuxerError::TryAgain);
+ }
+ },
+ Deinterleaver::Generic => {
+ let iinfo = self.iinfo.unwrap();
+ let factor = iinfo.factor as usize;
+ let fsize = iinfo.frame_size as usize;
+ let bsize = iinfo.block_size as usize;
+ let factor2 = fsize / bsize;
+ let ppos = self.sub_packet;
+
+ for sb in 0..factor2 {
+ let sb_pos = factor * sb + ((factor + 1) >> 1) * (ppos & 1) + (ppos >> 1);
+ let mut dst = &mut self.buf[bsize * sb_pos..][..bsize];
+ src.read_buf(&mut dst)?;
+ }
+ },
+ Deinterleaver::Sipro => {
+ let iinfo = self.iinfo.unwrap();
+ let fsize = iinfo.frame_size as usize;
+ let ppos = self.sub_packet;
+
+ let mut dst = &mut self.buf[fsize * ppos..][..fsize];
+ src.read_buf(&mut dst)?;
+ },
+ Deinterleaver::VBR => {
+ validate!(payload_size >= 5);
+ let hdrsizesize = src.read_u16be()?;
+ let num_entries = (hdrsizesize / 16) as usize;
+ validate!(payload_size >= num_entries * 3 + 2);
+ let mut sizes: Vec<usize> = Vec::with_capacity(num_entries);
+ let mut tot_size = 0;
+ for _ in 0..num_entries {
+ let sz = src.read_u16be()? as usize;
+ tot_size += sz;
+ sizes.push(sz);
+ }
+ validate!(tot_size + num_entries * 2 + 2 == payload_size);
+ let pkt_ts = NATimeInfo::new(None, None, None, tb_num, tb_den);
+ let mut first = true;
+ for size in sizes.iter() {
+ let cur_ts = if first { ts } else { pkt_ts };
+ first = false;
+ let pkt = src.read_packet(stream.clone(), cur_ts, true, *size)?;
+ queued_packets.push(pkt);
+ }
+ queued_packets.reverse();
+ let pkt0 = queued_packets.pop().unwrap();
+ return Ok(pkt0);
+ },
+ };
+
+ let iinfo = self.iinfo.unwrap();
+ let factor = iinfo.factor as usize;
+ let fsize = if iinfo.block_size != 0 { iinfo.block_size } else { iinfo.frame_size } as usize;
+
+ self.sub_packet += 1;
+ if self.sub_packet < factor {
+ return Err(DemuxerError::TryAgain);
+ }
+
+ self.sub_packet = 0;
+
+ if self.deint == Deinterleaver::Sipro {
+ sipro_restore(&mut self.buf, factor, fsize);
+ }
+
+ let mut frames_iter = self.buf.chunks(fsize);
+ let pkt0 = frames_iter.next().unwrap();
+
+ let pkt_ts = NATimeInfo::new(None, None, None, tb_num, tb_den);
+ for pkts in frames_iter {
+ let pkt = NAPacket::new(stream.clone(), pkt_ts, true, pkts.to_vec());
+ queued_packets.push(pkt);
+ }
+ queued_packets.reverse();
+ Ok(NAPacket::new(stream, ts, true, pkt0.to_vec()))
+ }
+}
+
+fn sipro_restore(buf: &mut [u8], factor: usize, fsize: usize) {
+ let stride = factor * fsize * 2 / 96;
+ for i in 0..38 {
+ let mut sidx = (RM_SIPRO_SWAPS[i][0] as usize) * stride;
+ let mut didx = (RM_SIPRO_SWAPS[i][1] as usize) * stride;
+ for _ in 0..stride {
+ let in0 = buf[sidx >> 1];
+ let in1 = buf[didx >> 1];
+ let nib0 = (in0 >> ((sidx & 1) * 4)) & 0xF;
+ let nib1 = (in1 >> ((didx & 1) * 4)) & 0xF;
+
+ buf[didx >> 1] = (nib0 << (4 * (didx & 1))) | (in1 & (0xF << (4 * (!didx & 1))));
+ buf[sidx >> 1] = (nib1 << (4 * (sidx & 1))) | (in0 & (0xF << (4 * (!sidx & 1))));
+
+ sidx += 1;
+ didx += 1;
+ }
+ }
+}
+
+struct SubstreamInfo {
+ id: u32,
+ map: Vec<u16>,
+ str_ids: Vec<u32>,
+}
+
+struct MLTIMapper {
+ sub_info: Vec<SubstreamInfo>,
+ sstr_id: u32,
+}
+
+impl MLTIMapper {
+ fn new() -> Self {
+ MLTIMapper {
+ sub_info: Vec::new(),
+ sstr_id: 0x10000,
+ }
+ }
+ fn add_stream(&mut self, stream_no: u32) {
+ let ssinfo = SubstreamInfo { id: stream_no, map: Vec::new(), str_ids: Vec::new() };
+ self.sub_info.push(ssinfo);
+ }
+ fn get_substream_no(&self) -> u32 {
+ self.sstr_id - 1
+ }
+ fn find_idx(&self, stream_no: u32) -> Option<usize> {
+ self.sub_info.iter().position(|x| x.id == stream_no)
+ }
+ fn add_map_rule(&mut self, map_ss: u16) {
+ let idx = self.sub_info.len() - 1;
+ self.sub_info[idx].map.push(map_ss);
+ }
+ fn add_substream(&mut self) {
+ let idx = self.sub_info.len() - 1;
+ self.sub_info[idx].str_ids.push(self.sstr_id);
+ self.sstr_id += 1;
+ }
+ fn is_mlti_stream(&self, stream_no: u32) -> bool {
+ self.find_idx(stream_no).is_some()
+ }
+ fn find_substream(&self, stream_no: u32, grp: u16) -> Option<u32> {
+ if let Some(idx) = self.find_idx(stream_no) {
+ if (grp as usize) < self.sub_info[idx].map.len() {
+ let sub_id = self.sub_info[idx].map[grp as usize] as usize;
+ if sub_id < self.sub_info[idx].str_ids.len() {
+ return Some(self.sub_info[idx].str_ids[sub_id]);
+ }
+ }
+ }
+ None
}
}
Unknown,
}
+struct CommonStreamData {
+ streams: Vec<RMStreamType>,
+ str_ids: Vec<u32>,
+ mlti_mapper: MLTIMapper,
+}
+
+impl CommonStreamData {
+ fn new() -> Self {
+ CommonStreamData {
+ streams: Vec::new(),
+ str_ids: Vec::new(),
+ mlti_mapper: MLTIMapper::new(),
+ }
+ }
+ fn get_stream_id(&self, str_no: u32, pkt_grp: u16) -> u32 {
+ if !self.mlti_mapper.is_mlti_stream(str_no) {
+ str_no
+ } else {
+ self.mlti_mapper.find_substream(str_no, pkt_grp).unwrap()
+ }
+ }
+ fn find_stream(&self, stream_id: u32) -> Option<usize> {
+ self.str_ids.iter().position(|x| *x == stream_id)
+ }
+}
+
struct RealMediaDemuxer<'a> {
src: &'a mut ByteReader<'a>,
data_pos: u64,
+ next_data: u64,
+ data_ver: u16,
num_packets: u32,
cur_packet: u32,
- streams: Vec<RMStreamType>,
- str_ids: Vec<u16>,
+ str_data: CommonStreamData,
queued_pkts: Vec<NAPacket>,
slice_buf: Vec<u8>,
}
let (_, frame_size) = read_14or30(src)?;
let (_, timestamp) = read_14or30(src)?;
- let seq_no = src.read_byte()?;
-println!(" multiple frame size {} ts {} seq {}", frame_size, timestamp, seq_no);
+ let _seq_no = src.read_byte()?;
+//println!(" multiple frame size {} ts {} seq {}", frame_size, timestamp, seq_no);
read_video_buf(src, stream, timestamp, keyframe, frame_size as usize)
}
+struct RMDemuxCommon {}
+
+impl RMDemuxCommon {
+ fn parse_stream_info(str_data: &mut CommonStreamData, strmgr: &mut StreamManager, stream_no: u32, edata: &Vec<u8>) -> DemuxerResult<bool> {
+ let mut is_mlti = false;
+ let mut mr = MemoryReader::new_read(edata.as_slice());
+ let mut src = ByteReader::new(&mut mr);
+ let tag = src.read_u32be()?;
+ let tag2 = src.peek_u32be()?;
+//println!("tag1 {:X} tag2 {:X}", tag, tag2);
+ if tag == mktag!('.', 'r', 'a', 0xFD) {
+ Self::parse_audio_stream(strmgr, &mut str_data.streams, stream_no, &mut src, edata.as_slice())?;
+ } else if ((tag2 == mktag!('V', 'I', 'D', 'O')) || (tag2 == mktag!('I', 'M', 'A', 'G'))) && ((tag as usize) <= edata.len()) {
+ Self::parse_video_stream(strmgr, &mut str_data.streams, stream_no, &mut src, edata.as_slice(), tag2)?;
+ } else if tag == mktag!(b"LSD:") {
+ let extradata = Some(edata.clone());
+
+ src.read_skip(4)?; //version
+ let channels = src.read_u16be()?;
+ let samp_size = src.read_u16be()?;
+ let sample_rate = src.read_u32be()?;
+
+ println!("LSD sr {}, {} ch", sample_rate, channels);
+ let soniton = NASoniton::new(samp_size as u8, SONITON_FLAG_SIGNED);
+ let ahdr = NAAudioInfo::new(sample_rate, channels as u8, soniton, 1);
+ let nainfo = NACodecInfo::new("ralf", NACodecTypeInfo::Audio(ahdr), extradata);
+ let res = strmgr.add_stream(NAStream::new(StreamType::Audio, stream_no as u32, nainfo, 1, sample_rate));
+ if res.is_none() { return Err(MemoryError); }
+ let astr = RMAudioStream::new(None);
+ str_data.streams.push(RMStreamType::Audio(astr));
+ } else if tag == mktag!(b"MLTI") {
+ is_mlti = true;
+ let num_rules = src.read_u16be()? as usize;
+ let mut max_sub = 0;
+ str_data.mlti_mapper.add_stream(stream_no);
+ for _ in 0..num_rules {
+ let substr = src.read_u16be()?;
+ max_sub = max_sub.max(substr);
+ str_data.mlti_mapper.add_map_rule(substr);
+ }
+ let num_substreams = src.read_u16be()? as usize;
+ validate!(num_substreams > (max_sub as usize));
+ for _ in 0..num_substreams {
+ let hdr_size = src.read_u32be()? as usize;
+ validate!(hdr_size > 8);
+ let pos = src.tell() as usize;
+ src.read_skip(hdr_size)?;
+ str_data.mlti_mapper.add_substream();
+ {
+ let hdrsrc = &edata[pos..][..hdr_size];
+ let mut mr = MemoryReader::new_read(hdrsrc);
+ let mut hsrc = ByteReader::new(&mut mr);
+
+ let tag = hsrc.read_u32be()?;
+ let tag2 = hsrc.peek_u32be()?;
+ let stream_no = str_data.mlti_mapper.get_substream_no();
+//todo check that all substreams are of the same type");
+ if tag == mktag!('.', 'r', 'a', 0xFD) {
+ Self::parse_audio_stream(strmgr, &mut str_data.streams, stream_no, &mut hsrc, hdrsrc)?;
+ } else if (tag2 == mktag!('V', 'I', 'D', 'O')) && ((tag as usize) <= hdr_size) {
+ Self::parse_video_stream(strmgr, &mut str_data.streams, stream_no, &mut hsrc, hdrsrc, tag2)?;
+ } else {
+println!("unknown MLTI substream {:08X} / {:08X}", tag, tag2);
+ return Err(DemuxerError::InvalidData);
+ }
+ str_data.str_ids.push(stream_no);
+ }
+ }
+ } else {
+ str_data.streams.push(RMStreamType::Logical);
+ }
+ Ok(is_mlti)
+ }
+ fn parse_audio_stream(strmgr: &mut StreamManager, streams: &mut Vec<RMStreamType>, stream_no: u32, src: &mut ByteReader, edata_: &[u8]) -> DemuxerResult<()> {
+ let ver = src.read_u16be()?;
+ let ainfo = match ver {
+ 3 => {
+ parse_aformat3(src)?
+ },
+ 4 => {
+ parse_aformat4(src)?
+ },
+ 5 => {
+ parse_aformat5(src)?
+ },
+ _ => {
+ println!("unknown version {}", ver);
+ return Err(DemuxerError::InvalidData);
+ },
+ };
+println!(" got ainfo {:?}", ainfo);
+ let cname = find_codec_name(RM_AUDIO_CODEC_REGISTER, ainfo.fcc);
+ let blk_size = if ainfo.fcc != mktag!(b"sipr") {
+ ainfo.granularity as usize
+ } else {
+ validate!(ainfo.flavor <= 3);
+ RM_SIPRO_BLOCK_SIZES[ainfo.flavor as usize]
+ };
+ let srate = ainfo.sample_rate;
+ let soniton = NASoniton::new(ainfo.sample_size as u8, SONITON_FLAG_SIGNED);
+ let ahdr = NAAudioInfo::new(srate, ainfo.channels as u8, soniton, blk_size);
+ let extradata = if ainfo.edata_size == 0 {
+ None
+ } else {
+ let eslice = &edata_[(src.tell() as usize)..];
+ Some(eslice.to_vec())
+ };
+ let nainfo = NACodecInfo::new(cname, NACodecTypeInfo::Audio(ahdr), extradata);
+ let res = strmgr.add_stream(NAStream::new(StreamType::Audio, stream_no as u32, nainfo, 1, srate));
+ if res.is_none() { return Err(MemoryError); }
+
+ let astr = RMAudioStream::new(ainfo.ileave_info);
+ streams.push(RMStreamType::Audio(astr));
+ Ok(())
+ }
+#[allow(unused_variables)]
+ fn parse_video_stream(strmgr: &mut StreamManager, streams: &mut Vec<RMStreamType>, stream_no: u32, src: &mut ByteReader, edata_: &[u8], tag2: u32) -> DemuxerResult<()> {
+ src.read_skip(4)?;
+ let fcc = src.read_u32be()?;
+ let width = src.read_u16be()? as usize;
+ let height = src.read_u16be()? as usize;
+ let bpp = src.read_u16be()?;
+ let pad_w = src.read_u16be()?;
+ let pad_h = src.read_u16be()?;
+ let fps;
+ if tag2 == mktag!('V', 'I', 'D', 'O') {
+ fps = src.read_u32be()?;
+ } else {
+ fps = 0x10000;
+ }
+ let extradata: Option<Vec<u8>>;
+ if src.left() > 0 {
+ let eslice = &edata_[(src.tell() as usize)..];
+ extradata = Some(eslice.to_vec());
+ } else {
+ extradata = None;
+ }
+ let cname = find_codec_name(RM_VIDEO_CODEC_REGISTER, fcc);
+
+ let vhdr = NAVideoInfo::new(width, height, false, RGB24_FORMAT);
+ let vinfo = NACodecInfo::new(cname, NACodecTypeInfo::Video(vhdr), extradata);
+ let res = strmgr.add_stream(NAStream::new(StreamType::Video, stream_no as u32, vinfo, 0x10000, fps));
+ if res.is_none() { return Err(DemuxerError::MemoryError); }
+
+ let vstr = RMVideoStream::new();
+ streams.push(RMStreamType::Video(vstr));
+ Ok(())
+ }
+#[allow(unused_variables)]
+ fn parse_packet_payload(src: &mut ByteReader, rmstream: &mut RMStreamType, stream: Rc<NAStream>, slice_buf: &mut Vec<u8>, queued_pkts: &mut Vec<NAPacket>, keyframe: bool, ts: u32, payload_size: usize) -> DemuxerResult<NAPacket> {
+ match rmstream {
+ RMStreamType::Video(ref mut vstr) => {
+
+ let pos = src.tell();
+ let b0 = src.read_byte()?;
+ match b0 >> 6 {
+ 0 => { // partial frame
+ let b1 = src.read_byte()?;
+ let hdr1 = ((b0 as u16) << 8) | (b1 as u16);
+ let num_pkts = ((hdr1 >> 7) & 0x7F) as usize;
+ let packet_num = hdr1 & 0x7F;
+ let (_, frame_size) = read_14or30(src)?;
+ let (_, off) = read_14or30(src)?;
+ let seq_no = src.read_byte()?;
+//println!(" mode 0 pkt {}/{} off {}/{} seq {}", packet_num, num_pkts, off, frame_size, seq_no);
+ let hdr_skip = (src.tell() - pos) as usize;
+
+ let slice_size = (payload_size - hdr_skip) as usize;
+ slice_buf.resize(slice_size, 0);
+ src.read_buf(slice_buf.as_mut_slice())?;
+ if packet_num == 1 {
+ vstr.start_slice(num_pkts, frame_size as usize, slice_buf.as_slice());
+ } else {
+ vstr.add_slice(packet_num as usize, slice_buf.as_slice());
+ }
+ if (packet_num as usize) < num_pkts {
+ return Err(DemuxerError::TryAgain);
+ }
+ //todo: check if full frame is received
+ let (tb_num, tb_den) = stream.get_timebase();
+ let ts = NATimeInfo::new(Some(ts as u64), None, None, tb_num, tb_den);
+ let pkt = NAPacket::new(stream, ts, keyframe, vstr.get_frame_data());
+ Ok(pkt)
+ },
+ 1 => { // whole frame
+ let seq_no = src.read_byte()?;
+//println!(" mode 1 seq {}", seq_no);
+ read_video_buf(src, stream, ts, keyframe, payload_size - 2)
+ },
+ 2 => { // last partial frame
+ let b1 = src.read_byte()?;
+ let hdr1 = ((b0 as u16) << 8) | (b1 as u16);
+ let num_pkts = ((hdr1 >> 7) & 0x7F) as usize;
+ let packet_num = hdr1 & 0x7F;
+ let (_, frame_size) = read_14or30(src)?;
+ let (_, tail_size) = read_14or30(src)?;
+ let seq_no = src.read_byte()?;
+//println!(" mode 2 pkt {}/{} tail {}/{} seq {}", packet_num, num_pkts, tail_size, frame_size, seq_no);
+ slice_buf.resize(tail_size as usize, 0);
+ src.read_buf(slice_buf.as_mut_slice())?;
+ if packet_num == 1 && frame_size == tail_size {
+ vstr.start_slice(num_pkts, frame_size as usize, slice_buf.as_slice());
+ } else {
+ vstr.add_slice(packet_num as usize, slice_buf.as_slice());
+ }
+
+ while src.tell() < pos + (payload_size as u64) {
+ let res = read_multiple_frame(src, stream.clone(), false, false);
+ if res.is_err() { break; }
+ queued_pkts.push(res.unwrap());
+ }
+ queued_pkts.reverse();
+ let (tb_num, tb_den) = stream.get_timebase();
+ let ts = NATimeInfo::new(Some(ts as u64), None, None, tb_num, tb_den);
+ let pkt = NAPacket::new(stream, ts, keyframe, vstr.get_frame_data());
+ Ok(pkt)
+ },
+ _ => { // multiple frames
+//println!(" mode 3");
+ let res = read_multiple_frame(src, stream.clone(), keyframe, true);
+ if res.is_err() { return res; }
+ while src.tell() < pos + (payload_size as u64) {
+ let res = read_multiple_frame(src, stream.clone(), false, false);
+ if res.is_err() { break; }
+ queued_pkts.push(res.unwrap());
+ }
+ queued_pkts.reverse();
+ res
+ },
+ }
+ },
+ RMStreamType::Audio(ref mut astr) => {
+ astr.read_apackets(queued_pkts, src, stream, ts, keyframe, payload_size)
+ },
+ _ => {
+ src.read_skip(payload_size)?;
+ Err(DemuxerError::InvalidData)
+ },
+ }
+ }
+}
+
impl<'a> DemuxCore<'a> for RealMediaDemuxer<'a> {
#[allow(unused_variables)]
fn open(&mut self, strmgr: &mut StreamManager) -> DemuxerResult<()> {
return Ok(pkt);
}
loop {
- if self.cur_packet >= self.num_packets { return Err(DemuxerError::EOF); }
+ if self.cur_packet >= self.num_packets {
+ if (self.next_data != 0) && (self.next_data == self.src.tell()) {
+ let res = read_chunk(self.src);
+ if let Ok((id, size, ver)) = res {
+ self.data_pos = self.src.tell();
+ self.data_ver = ver;
+ if self.parse_data_start().is_ok() {
+ continue;
+ }
+ }
+ }
+ return Err(DemuxerError::EOF);
+ }
let pkt_start = self.src.tell();
- let ver = self.src.read_u16le()?;
+ let ver = self.src.read_u16be()?;
validate!(ver <= 1);
let len = self.src.read_u16be()? as usize;
- let str_no = self.src.read_u16be()?;
+ let str_no = self.src.read_u16be()? as u32;
let ts = self.src.read_u32be()?;
let pkt_grp;
+ let flags;
if ver == 0 {
- pkt_grp = self.src.read_byte()?;
+ pkt_grp = self.src.read_byte()? as u16;
+ flags = self.src.read_byte()?;
} else {
- //asm_rule = self.src.read_u16le()?;
+ //asm_rule = self.src.read_u16be()?;
+ //asm_flags = self.src.read_byte()?;
self.src.read_skip(2)?;
pkt_grp = 0;
+ self.src.read_skip(1)?;
+ flags = 0;
}
- let flags = self.src.read_byte()?;
let hdr_size = self.src.tell() - pkt_start;
-println!("packet @{:X} size {} for {} ts {} grp {} flags {:X}", pkt_start, len, str_no, ts, pkt_grp, flags);
+//println!("packet @{:X} size {} for {} ts {} grp {} flags {:X}", pkt_start, len, str_no, ts, pkt_grp, flags);
self.cur_packet += 1;
let payload_size = len - (hdr_size as usize);
- let sr = self.str_ids.iter().position(|x| *x == str_no);
+ let stream_id = self.str_data.get_stream_id(str_no as u32, pkt_grp);
+ let sr = self.str_data.find_stream(stream_id);
if sr.is_none() {
-println!("stream {} not found", str_no);
+//println!("stream {} not found", str_no);
self.src.read_skip(payload_size)?;
return Err(DemuxerError::InvalidData);
}
let str_id = sr.unwrap();
- let stream = strmgr.get_stream_by_id(str_no as u32).unwrap();
-println!(" stream {}", str_id);
- if strmgr.is_ignored_id(str_no as u32) {
+
+ let streamres = strmgr.get_stream_by_id(stream_id);
+ if streamres.is_none() {
+ self.src.read_skip(payload_size)?;
+ continue;
+ }
+ let stream = streamres.unwrap();
+//println!(" stream {}", str_id);
+ if strmgr.is_ignored_id(stream_id) {
self.src.read_skip(payload_size)?;
continue;
}
//todo skip unwanted packet
let keyframe = (flags & KEYFRAME_FLAG) != 0;
- let result = match self.streams[str_id] {
- RMStreamType::Video(ref mut vstr) => {
-
- let pos = self.src.tell();
- let b0 = self.src.read_byte()?;
- match b0 >> 6 {
- 0 => { // partial frame
- let b1 = self.src.read_byte()?;
- let hdr1 = ((b0 as u16) << 8) | (b1 as u16);
- let num_pkts = ((hdr1 >> 7) & 0x7F) as usize;
- let packet_num = hdr1 & 0x7F;
- let (_, frame_size) = read_14or30(self.src)?;
- let (_, off) = read_14or30(self.src)?;
- let seq_no = self.src.read_byte()?;
-println!(" mode 0 pkt {}/{} off {}/{} seq {}", packet_num, num_pkts, off, frame_size, seq_no);
- let hdr_skip = (self.src.tell() - pos) as usize;
-
- let slice_size = (payload_size - hdr_skip) as usize;
- self.slice_buf.resize(slice_size, 0);
- self.src.read_buf(self.slice_buf.as_mut_slice())?;
- if packet_num == 1 {
- vstr.start_slice(num_pkts, frame_size as usize, self.slice_buf.as_slice());
- } else {
- vstr.add_slice(packet_num as usize, self.slice_buf.as_slice());
- }
- if (packet_num as usize) < num_pkts {
- continue;
- }
- //todo: check if full frame is received
- let (tb_num, tb_den) = stream.get_timebase();
- let ts = NATimeInfo::new(Some(ts as u64), None, None, tb_num, tb_den);
- let pkt = NAPacket::new(stream, ts, keyframe, vstr.get_frame_data());
- Ok(pkt)
- },
- 1 => { // whole frame
- let seq_no = self.src.read_byte()?;
-println!(" mode 1 seq {}", seq_no);
- read_video_buf(self.src, stream, ts, keyframe, payload_size - 1)
- },
- 2 => { // last partial frame
- let b1 = self.src.read_byte()?;
- let hdr1 = ((b0 as u16) << 8) | (b1 as u16);
- let num_pkts = ((hdr1 >> 7) & 0x7F) as usize;
- let packet_num = hdr1 & 0x7F;
- let (_, frame_size) = read_14or30(self.src)?;
- let (_, tail_size) = read_14or30(self.src)?;
- let seq_no = self.src.read_byte()?;
-println!(" mode 2 pkt {}/{} tail {}/{} seq {}", packet_num, num_pkts, tail_size, frame_size, seq_no);
- self.slice_buf.resize(tail_size as usize, 0);
- self.src.read_buf(self.slice_buf.as_mut_slice())?;
- vstr.add_slice(packet_num as usize, self.slice_buf.as_slice());
-
- while self.src.tell() < pos + (payload_size as u64) {
- let res = read_multiple_frame(self.src, stream.clone(), false, false);
- if res.is_err() { break; }
- self.queued_pkts.push(res.unwrap());
- }
- self.queued_pkts.reverse();
- let (tb_num, tb_den) = stream.get_timebase();
- let ts = NATimeInfo::new(Some(ts as u64), None, None, tb_num, tb_den);
- let pkt = NAPacket::new(stream, ts, keyframe, vstr.get_frame_data());
- Ok(pkt)
- },
- _ => { // multiple frames
-println!(" mode 3");
- let res = read_multiple_frame(self.src, stream.clone(), keyframe, true);
- if res.is_err() { return res; }
- while self.src.tell() < pos + (payload_size as u64) {
- let res = read_multiple_frame(self.src, stream.clone(), false, false);
- if res.is_err() { break; }
- self.queued_pkts.push(res.unwrap());
- }
- self.queued_pkts.reverse();
- res
- },
- }
- },
- RMStreamType::Audio(ref mut astr) => {
- let (tb_num, tb_den) = stream.get_timebase();
- let ts = NATimeInfo::new(Some(ts as u64), None, None, tb_num, tb_den);
- self.src.read_packet(stream, ts, keyframe, payload_size)
- },
- _ => {
-// self.src.read_skip(payload_size)?;
- Err(DemuxerError::InvalidData)
- },
- };
- return result;
+ let ret = RMDemuxCommon::parse_packet_payload(&mut self.src, &mut self.str_data.streams[str_id], stream, &mut self.slice_buf, &mut self.queued_pkts, keyframe, ts, payload_size);
+ if let Err(DemuxerError::TryAgain) = ret {
+ continue;
+ } else {
+ return ret;
+ }
}
}
let id = src.read_u32be()?;
if id == 0 { return Ok((0, 0, 0)); }
let size = src.read_u32be()?;
+if size == 0 {
+ let ver = src.read_u16be()?;
+ validate!(ver <= 2);
+ return Ok((id, 0x0FFFFFFF, ver));
+}
validate!(size >= 10);
let ver = src.read_u16be()?;
- validate!(ver <= 1);
+ validate!(ver <= 2);
Ok((id, size, ver))
}
+#[derive(Clone,Copy,Debug)]
+struct InterleaveInfo {
+ id: u32,
+ factor: u16,
+ block_size: u16,
+ frame_size: u16,
+}
+
+#[derive(Clone,Copy,Debug)]
+struct RealAudioInfo {
+ fcc: u32,
+ sample_rate: u32,
+ sample_size: u16,
+ flavor: u16,
+ channels: u16,
+ channel_mask: u32,
+ granularity: u32,
+ bytes_per_minute: u32,
+ total_bytes: u32,
+ edata_size: u32,
+ ileave_info: Option<InterleaveInfo>
+}
+
+fn skip_ra_metadata(src: &mut ByteReader) -> DemuxerResult<()> {
+ let title_len = src.read_byte()? as usize;
+ src.read_skip(title_len)?;
+ let author_len = src.read_byte()? as usize;
+ src.read_skip(author_len)?;
+ let copywrong_len = src.read_byte()? as usize;
+ src.read_skip(copywrong_len)?;
+ let comment_len = src.read_byte()? as usize;
+ src.read_skip(comment_len)?;
+ Ok(())
+}
+
+#[allow(unused_variables)]
+fn parse_aformat3(src: &mut ByteReader) -> DemuxerResult<RealAudioInfo> {
+ let start = src.tell();
+ let header_len = src.read_u16be()?;
+ validate!(header_len >= 24);
+ let flavor = src.read_u16be()?;
+ let granularity = src.read_u32be()?;
+ let bytes_per_minute = src.read_u32be()?;
+ let total_bytes = src.read_u32be()?;
+
+ skip_ra_metadata(src)?;
+
+ let _can_copy = src.read_byte()?;
+ let fcc_len = src.read_byte()?;
+ validate!(fcc_len == 4);
+ let fcc = src.read_u32be()?;
+
+ let end = src.tell();
+ validate!(end - start <= (header_len as u64) + 2);
+
+ Ok(RealAudioInfo {
+ fcc: fcc, flavor: flavor,
+ sample_rate: 8000, sample_size: 16, channels: 1, channel_mask: 0,
+ granularity: granularity, bytes_per_minute: bytes_per_minute,
+ total_bytes: total_bytes, edata_size: 0,
+ ileave_info: None,
+ })
+}
+
+#[allow(unused_variables)]
+fn parse_aformat4(src: &mut ByteReader) -> DemuxerResult<RealAudioInfo> {
+ let start = src.tell();
+ src.read_skip(2)?; // zeroes
+ let id = src.read_u32be()?;
+ validate!(id == mktag!(b".ra4"));
+ let data_size = src.read_u32be()?;
+ let _ver4 = src.read_u16be()?; // should be 4
+ let header_size = src.read_u32be()?;
+ let flavor = src.read_u16be()?;
+ let granularity = src.read_u32be()?;
+ let total_bytes = src.read_u32be()?;
+ let bytes_per_minute = src.read_u32be()?;
+ let _bytes_per_minute2 = src.read_u32be()?;
+ let ileave_factor = src.read_u16be()?;
+ let ileave_block_size = src.read_u16be()?;
+ let _user_data = src.read_u16be()?;
+ let sample_rate = src.read_u32be()?;
+ let sample_size = src.read_u32be()?;
+ let channels = src.read_u16be()?;
+ let interleaver_id_len = src.read_byte()?;
+ validate!(interleaver_id_len == 4);
+ let interleaver_id = src.read_u32be()?;
+ let fcc_len = src.read_byte()?;
+ validate!(fcc_len == 4);
+ let fcc = src.read_u32be()?;
+ let is_interleaved = src.read_byte()?;
+ let _can_copy = src.read_byte()?;
+ let _stream_type = src.read_byte()?;
+
+ skip_ra_metadata(src)?;
+
+ let end = src.tell();
+ validate!(end - start <= (header_size as u64) + 10);
+
+ let ileave_info = if is_interleaved != 0 {
+ Some(InterleaveInfo {
+ id: interleaver_id, factor: ileave_factor, block_size: granularity as u16,
+ frame_size: ileave_block_size,
+ })
+ } else {
+ None
+ };
+
+ Ok(RealAudioInfo {
+ fcc: fcc, flavor: flavor,
+ sample_rate: sample_rate, sample_size: sample_size as u16, channels: channels, channel_mask: 0,
+ granularity: granularity, bytes_per_minute: bytes_per_minute,
+ total_bytes: total_bytes & 0xFFFFFF, edata_size: 0,
+ ileave_info: ileave_info,
+ })
+}
+
+#[allow(unused_variables)]
+fn parse_aformat5(src: &mut ByteReader) -> DemuxerResult<RealAudioInfo> {
+ let start = src.tell();
+ src.read_skip(2)?; // zeroes
+ let id = src.read_u32be()?;
+ validate!((id == mktag!(b".ra5")) || (id == mktag!(b".ra4")));
+ let data_size = src.read_u32be()?;
+ let _ver5 = src.read_u16be()?; // should be 5
+ let header_size = src.read_u32be()?;
+ let flavor = src.read_u16be()?;
+ let granularity = src.read_u32be()?;
+ let total_bytes = src.read_u32be()?;
+ let bytes_per_minute = src.read_u32be()?;
+ let _bytes_per_minute2 = src.read_u32be()?;
+ let ileave_factor = src.read_u16be()?;
+ let frame_size = src.read_u16be()?;
+ let ileave_block_size = src.read_u16be()?;
+ let user_data = src.read_u32be()?;
+ let _sample_rate1 = src.read_u16be()?;
+ let sample_rate = src.read_u32be()?;
+ let sample_size = src.read_u32be()?;
+ let channels = src.read_u16be()?;
+ let interleaver_id = src.read_u32be()?;
+ let fcc = src.read_u32be()?;
+ let is_interleaved = src.read_byte()?;
+ let _can_copy = src.read_byte()?;
+ let _stream_type = src.read_byte()?;
+ let has_ileave_pattern = src.read_byte()?;
+ if has_ileave_pattern != 0 {
+unimplemented!("ra5 interleave pattern");
+ }
+ let mut edata_size = src.read_u32be()?;
+ let end = src.tell();
+ if id == mktag!(b".ra5") {
+ validate!(end - start <= (header_size as u64) + 10);
+// src.read_skip(((end - start) as usize) - (header_size as usize) - 10)?;
+ } else {
+ validate!(end - start <= (header_size as u64) + 15);
+ }
+
+ let ileave_info = if is_interleaved != 0 {
+ Some(InterleaveInfo {
+ id: interleaver_id, factor: ileave_factor, block_size: ileave_block_size, frame_size: frame_size,
+ })
+ } else {
+ None
+ };
+ if (fcc == mktag!(b"raac")) || (fcc == mktag!(b"racp")) {
+ validate!(edata_size > 1);
+ edata_size -= 1;
+ src.read_skip(1)?;
+ }
+
+ Ok(RealAudioInfo {
+ fcc: fcc, flavor: flavor,
+ sample_rate: sample_rate, sample_size: sample_size as u16, channels: channels, channel_mask: 0,
+ granularity: granularity, bytes_per_minute: bytes_per_minute,
+ total_bytes: total_bytes & 0xFFFFFF, edata_size: edata_size,
+ ileave_info: ileave_info,
+ })
+}
+
const RMVB_HDR_SIZE: u32 = 18;
const RMVB_PROP_SIZE: u32 = 50;
const KEYFRAME_FLAG: u8 = 0x02;
RealMediaDemuxer {
src: io,
data_pos: 0,
+ next_data: 0,
+ data_ver: 0,
num_packets: 0,
cur_packet: 0,
- streams: Vec::new(),
- str_ids: Vec::new(),
+ str_data: CommonStreamData::new(),
queued_pkts: Vec::new(),
slice_buf: Vec::new(),
}
#[allow(unused_variables)]
fn read_header(&mut self, strmgr: &mut StreamManager) -> DemuxerResult<()> {
let (id, size, ver) = read_chunk(self.src)?;
- validate!(id == mktag!(b".RMF"));
+ validate!((id == mktag!(b".RMF")) || (id == mktag!(b".RMP")));
validate!(size >= RMVB_HDR_SIZE);
let fver = self.src.read_u32be()?;
validate!(fver <= 1);
}
let (id, size, ver) = read_chunk(self.src)?;
- validate!(size >= RMVB_PROP_SIZE);
- validate!(ver == 0);
+ let prop_size = if ver == 0 { RMVB_PROP_SIZE } else { RMVB_PROP_SIZE + 4 };
+ validate!(size >= prop_size);
+ validate!((ver == 0) || (ver == 2));
let maxbr = self.src.read_u32be()?;
let avgbr = self.src.read_u32be()?;
let maxps = self.src.read_u32be()?;
let num_pkt = self.src.read_u32be()? as usize;
let duration = self.src.read_u32be()?;
let preroll = self.src.read_u32be()?;
+ if ver == 2 {
+ self.src.read_skip(4)?;
+ }
let idx_off = self.src.read_u32be()?;
let data_off = self.src.read_u32be()?;
let num_streams = self.src.read_u16be()? as usize;
let flags = self.src.read_u16be()?;
- if size > RMVB_PROP_SIZE {
- self.src.read_skip((size - RMVB_PROP_SIZE) as usize)?;
+ if size > prop_size {
+ self.src.read_skip((size - prop_size) as usize)?;
}
for _ in 0..num_hdr {
- let last = self.parse_chunk(strmgr)?;
- if last { break; }
+ if self.src.is_eof() {
+ //warn maybe?
+ break;
+ }
+ let res = self.parse_chunk(strmgr);
+ match res {
+ Ok(last) => { if last { break; } },
+ Err(DemuxerError::IOError) => { break; },
+ Err(etype) => {
+ if self.data_pos == 0 { // data is not found, report error
+ return Err(etype);
+ }
+ },
+ };
}
-println!("now @ {:X} / {}", self.src.tell(), self.data_pos);
+//println!("now @ {:X} / {}", self.src.tell(), self.data_pos);
validate!(self.data_pos > 0);
self.src.seek(SeekFrom::Start(self.data_pos))?;
+ self.parse_data_start()?;
+ Ok(())
+ }
+ fn parse_data_start(&mut self) -> DemuxerResult<()> {
let num_packets = self.src.read_u32be()?;
+ if self.data_ver == 2 {
+ self.src.read_skip(12)?; // zeroes?
+ }
let next_data_hdr = self.src.read_u32be()?;
- self.num_packets = num_packets;
+ self.num_packets = if num_packets > 0 { num_packets } else { 0xFFFFFF };
self.cur_packet = 0;
+ self.next_data = next_data_hdr as u64;
Ok(())
}
fn parse_chunk(&mut self, strmgr: &mut StreamManager) -> DemuxerResult<bool> {
let (id, size, ver) = read_chunk(self.src)?;
let end_pos = self.src.tell() - 10 + (size as u64);
- validate!(ver == 0);
+ validate!((ver == 0) || (ver == 2));
if id == mktag!(b"CONT") { self.parse_content_desc()?; }
else if id == mktag!(b"MDPR") { self.parse_mdpr(strmgr)?; }
- else if id == mktag!(b"DATA") { if self.data_pos == 0 { self.data_pos = self.src.tell(); } }
+ else if id == mktag!(b"DATA") { if self.data_pos == 0 { self.data_ver = ver; self.data_pos = self.src.tell(); } }
else if id == mktag!(b"INDX") { /* do nothing for now */ }
else if id == 0 { return Ok(true); }
else { println!("unknown chunk type {:08X}", id); }
}
#[allow(unused_variables)]
fn parse_mdpr(&mut self, strmgr: &mut StreamManager) -> DemuxerResult<()> {
- let stream_no = self.src.read_u16be()?;
+ let stream_no = self.src.read_u16be()? as u32;
//todo check stream_no for duplicates
let maxbr = self.src.read_u32be()?;
let avgbr = self.src.read_u32be()?;
let duration = self.src.read_u32be()?;
let sname_size = self.src.read_byte()? as usize;
let sname = read_string_size(self.src, sname_size)?;
-println!("str #{} sname = {} pkts {}/{} start {} preroll {}", stream_no, sname, maxps, avgps, start, preroll);
+//println!("str #{} sname = {} pkts {}/{} start {} preroll {}", stream_no, sname, maxps, avgps, start, preroll);
let mime_size = self.src.read_byte()? as usize;
let mime = read_string_size(self.src, mime_size)?;
-println!("mime = {}", mime);
+//println!("mime = {}", mime);
let edata_size = self.src.read_u32be()? as usize;
let edata: Option<Vec<u8>> = if edata_size == 0 { None } else {
let mut edvec: Vec<u8> = Vec::with_capacity(edata_size);
self.src.read_buf(&mut edvec)?;
Some(edvec)
};
- self.str_ids.push(stream_no);
+ let mut is_mlti = false;
if edata_size > 8 {
if let Some(edata_) = edata {
- let mut mr = MemoryReader::new_read(edata_.as_slice());
- let mut src = ByteReader::new(&mut mr);
-
- let tag = src.read_u32be()?;
- let tag2 = src.peek_u32be()?;
-println!("tag1 {:X} tag2 {:X}", tag, tag2);
- if tag == mktag!('.', 'r', 'a', 0xFD) {
- //todo audio
- let cname = "unknown";//find_codec_name(RM_AUDIO_CODEC_REGISTER, fcc);
- let soniton = NASoniton::new(16, SONITON_FLAG_SIGNED);
- let ahdr = NAAudioInfo::new(44100, 2, soniton, 1/*block_align as usize*/);
- let extradata = None;
- let ainfo = NACodecInfo::new(cname, NACodecTypeInfo::Audio(ahdr), extradata);
- let res = strmgr.add_stream(NAStream::new(StreamType::Audio, stream_no as u32, ainfo, 1, 44100));
- if res.is_none() { return Err(MemoryError); }
-
- let astr = RMAudioStream::new(Deinterleaver::None);
- self.streams.push(RMStreamType::Audio(astr));
- } else if ((tag2 == mktag!('V', 'I', 'D', 'O')) || (tag2 == mktag!('I', 'M', 'A', 'G'))) && ((tag as usize) <= edata_size) {
- src.read_skip(4)?;
- let fcc = src.read_u32be()?;
- let width = src.read_u16be()? as usize;
- let height = src.read_u16be()? as usize;
- let bpp = src.read_u16be()?;
- let pad_w = src.read_u16be()?;
- let pad_h = src.read_u16be()?;
- let fps;
- if tag2 == mktag!('V', 'I', 'D', 'O') {
- fps = src.read_u32be()?;
- } else {
- fps = 0x10000;
- }
- let extradata: Option<Vec<u8>>;
- if src.left() > 0 {
- let eslice = &edata_[(src.tell() as usize)..];
- extradata = Some(eslice.to_vec());
- } else {
- extradata = None;
- }
- let cname = find_codec_name(RM_VIDEO_CODEC_REGISTER, fcc);
-
- let vhdr = NAVideoInfo::new(width, height, false, RGB24_FORMAT);
- let vinfo = NACodecInfo::new(cname, NACodecTypeInfo::Video(vhdr), extradata);
- let res = strmgr.add_stream(NAStream::new(StreamType::Video, stream_no as u32, vinfo, 0x10000, fps));
- if res.is_none() { return Err(DemuxerError::MemoryError); }
-
- let vstr = RMVideoStream::new();
- self.streams.push(RMStreamType::Video(vstr));
- } else {
- self.streams.push(RMStreamType::Logical);
- }
+ is_mlti = RMDemuxCommon::parse_stream_info(&mut self.str_data, strmgr, stream_no, &edata_)?;
}
} else {
- self.streams.push(RMStreamType::Unknown);
+ self.str_data.streams.push(RMStreamType::Unknown);
+ }
+ if !is_mlti {
+ self.str_data.str_ids.push(stream_no);
}
Ok(())
}
-/*#[allow(unused_variables)]
- fn read_pkt_header(&mut self) -> DemuxerResult<()> {
- let ver = self.src.read_u16be()?;
- validate!(ver <= 1);
- let str_no = self.src.read_u16be()?;
- let timestamp = self.src.read_u32be()?;
- if ver == 0 {
- let pkt_group = self.src.read_byte()?;
- let pkt_flags = self.src.read_byte()?;
- } else {
- let asm_rule = self.src.read_u16be()?;
- let asm_flags = self.src.read_byte()?;
- }
- Ok(())
- }*/
}
-fn read_string(src: &mut ByteReader) -> DemuxerResult<String> {
+fn read_string_size(src: &mut ByteReader, size: usize) -> DemuxerResult<String> {
let mut vec: Vec<u8> = Vec::new();
- loop {
+ for _ in 0..size {
let c = src.read_byte()?;
- if c == 0 { break; }
vec.push(c);
}
let str = String::from_utf8(vec);
}
}
-fn read_string_size(src: &mut ByteReader, size: usize) -> DemuxerResult<String> {
- let mut vec: Vec<u8> = Vec::new();
- for _ in 0..size {
- let c = src.read_byte()?;
- vec.push(c);
+struct RealAudioDemuxer<'a> {
+ src: &'a mut ByteReader<'a>,
+ stream: Option<RMAudioStream>,
+ data_start: u64,
+ data_end: u64,
+ blk_size: usize,
+ queued_pkts: Vec<NAPacket>,
+}
+
+impl<'a> DemuxCore<'a> for RealAudioDemuxer<'a> {
+ #[allow(unused_variables)]
+ fn open(&mut self, strmgr: &mut StreamManager) -> DemuxerResult<()> {
+ let magic = self.src.read_u32be()?;
+ validate!(magic == mktag!(b".ra\xFD"));
+ let ver = self.src.read_u16be()?;
+ let ainfo = match ver {
+ 3 => {
+ parse_aformat3(&mut self.src)?
+ },
+ 4 => {
+ parse_aformat4(&mut self.src)?
+ },
+ 5 => {
+ parse_aformat5(&mut self.src)?
+ },
+ _ => {
+ println!("unknown version {}", ver);
+ return Err(DemuxerError::InvalidData);
+ },
+ };
+println!(" got ainfo {:?}", ainfo);
+ let cname = find_codec_name(RM_AUDIO_CODEC_REGISTER, ainfo.fcc);
+ let blk_size = if ainfo.fcc != mktag!(b"sipr") {
+ ainfo.granularity as usize
+ } else {
+ validate!(ainfo.flavor <= 3);
+ RM_SIPRO_BLOCK_SIZES[ainfo.flavor as usize]
+ };
+ let srate = ainfo.sample_rate;
+ let soniton = NASoniton::new(ainfo.sample_size as u8, SONITON_FLAG_SIGNED);
+ let ahdr = NAAudioInfo::new(srate, ainfo.channels as u8, soniton, blk_size);
+ let extradata = if ainfo.edata_size == 0 {
+ None
+ } else {
+ let mut dta: Vec<u8> = Vec::with_capacity(ainfo.edata_size as usize);
+ dta.resize(ainfo.edata_size as usize, 0);
+ self.src.read_buf(dta.as_mut_slice())?;
+ Some(dta)
+ };
+ let nainfo = NACodecInfo::new(cname, NACodecTypeInfo::Audio(ahdr), extradata);
+ let res = strmgr.add_stream(NAStream::new(StreamType::Audio, 0, nainfo, 1, srate));
+ if res.is_none() { return Err(MemoryError); }
+
+ let astr = RMAudioStream::new(ainfo.ileave_info);
+ self.data_start = self.src.tell();
+ self.data_end = if ainfo.total_bytes > 0 { self.src.tell() + (ainfo.total_bytes as u64) } else { 0 };
+ self.blk_size = blk_size;
+ self.stream = Some(astr);
+
+ Ok(())
}
- let str = String::from_utf8(vec);
- if str.is_ok() {
- Ok(str.unwrap())
- } else {
- Ok(String::new())
+
+ fn get_frame(&mut self, strmgr: &mut StreamManager) -> DemuxerResult<NAPacket> {
+ if !self.queued_pkts.is_empty() {
+ let pkt = self.queued_pkts.pop().unwrap();
+ return Ok(pkt);
+ }
+ if (self.data_end != 0) && (self.src.tell() >= self.data_end) {
+ return Err(DemuxerError::EOF);
+ }
+ let streamres = strmgr.get_stream_by_id(0);
+ let stream = streamres.unwrap();
+ if let Some(ref mut astr) = self.stream {
+ loop {
+ let ret = astr.read_apackets(&mut self.queued_pkts, &mut self.src, stream.clone(), 0, false, self.blk_size);
+ if let Err(DemuxerError::TryAgain) = ret {
+ continue;
+ }
+ return ret;
+ }
+ }
+ Err(DemuxerError::NoSuchInput)
+ }
+
+ #[allow(unused_variables)]
+ fn seek(&mut self, time: u64) -> DemuxerResult<()> {
+ Err(NotImplemented)
}
}
-#[allow(dead_code)]
-#[allow(unused_variables)]
-fn parse_rm_stream(io: &mut ByteReader) -> DemuxerResult<NAStream> {
- let mimetype = read_string(io)?;
- let strname = read_string(io)?;
- let strnum = io.read_u32le()?;
- let maxbr = io.read_u32le()?;
- let avgbr = io.read_u32le()?;
- let maxsize = io.read_u32le()?;
- let avgsize = io.read_u32le()?;
- let duration = io.read_u32le()?;
- let preroll = io.read_u32le()?;
- let start = io.read_u32le()?;
- let edatalen = io.read_u32le()? as usize;
- let mut edata: Vec<u8> = Vec::with_capacity(edatalen);
- edata.resize(edatalen, 0);
- io.read_buf(&mut edata)?;
- let numprops = io.read_u32le()? as usize;
- //read properties
- unimplemented!();
-}
-
-#[allow(dead_code)]
-#[allow(unused_variables)]
-fn read_ra_vbr_stream(io: &mut ByteReader) -> DemuxerResult<NAPacket> {
- let hdrsizesize = io.read_u16le()?;
- let num_entries = (hdrsizesize / 16) as usize;
- let mut sizes: Vec<usize> = Vec::with_capacity(num_entries);
- for _ in 0..num_entries {
- let sz = io.read_u16le()? as usize;
- sizes.push(sz);
+impl<'a> RealAudioDemuxer<'a> {
+ fn new(io: &'a mut ByteReader<'a>) -> Self {
+ RealAudioDemuxer {
+ src: io,
+ data_start: 0,
+ data_end: 0,
+ blk_size: 0,
+ stream: None,
+ queued_pkts: Vec::new(),
+ }
+ }
+}
+
+enum IVRRecord {
+ Invalid(u8),
+ StreamProperties(usize),
+ Packet { ts: u32, str: u32, flags: u32, len: usize, checksum: u32 },
+ IntValue(Vec<u8>, u32),
+ BinaryData(Vec<u8>, Vec<u8>),
+ StringData(Vec<u8>, Vec<u8>),
+ HeaderEnd,
+ DataStart,
+ DataEnd,
+}
+
+impl IVRRecord {
+ fn read_string(src: &mut ByteReader) -> DemuxerResult<Vec<u8>> {
+ let len = src.read_u32be()? as usize;
+ let mut val = Vec::with_capacity(len);
+ val.resize(len, 0);
+ src.read_buf(val.as_mut_slice())?;
+ Ok(val)
+ }
+
+ fn read(src: &mut ByteReader) -> DemuxerResult<Self> {
+ let code = src.read_byte()?;
+ match code {
+ 1 => {
+ let val = src.read_u32be()? as usize;
+ Ok(IVRRecord::StreamProperties(val))
+ },
+ 2 => {
+ let ts = src.read_u32be()?;
+ let str = src.read_u16be()? as u32;
+ let flags = src.read_u32be()?;
+ let len = src.read_u32be()? as usize;
+ let chk = src.read_u32be()?;
+ Ok(IVRRecord::Packet { ts, str, flags, len, checksum: chk })
+ },
+ 3 => {
+ let name = Self::read_string(src)?;
+ let len = src.read_u32be()?;
+ validate!(len == 4);
+ let val = src.read_u32be()?;
+ Ok(IVRRecord::IntValue(name, val))
+ },
+ 4 => {
+ let name = Self::read_string(src)?;
+ let len = src.read_u32be()? as usize;
+ let mut val = Vec::with_capacity(len);
+ val.resize(len, 0);
+ src.read_buf(val.as_mut_slice())?;
+ Ok(IVRRecord::BinaryData(name, val))
+ },
+ 5 => {
+ let name = Self::read_string(src)?;
+ let val = Self::read_string(src)?;
+ Ok(IVRRecord::StringData(name, val))
+ },
+ 6 => Ok(IVRRecord::HeaderEnd),
+ 7 => {
+ src.read_skip(8)?; // always zero?
+ Ok(IVRRecord::DataEnd)
+ },
+ 8 => {
+ src.read_skip(8)?; // always zero?
+ Ok(IVRRecord::DataStart)
+ },
+ _ => Ok(IVRRecord::Invalid(code)),
+ }
+ }
+ fn is_data_start(&self) -> bool {
+ match *self {
+ IVRRecord::DataStart => true,
+ _ => false,
+ }
+ }
+}
+
+impl fmt::Display for IVRRecord {
+ fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
+ match *self {
+ IVRRecord::Invalid(typ) => write!(f, "Invalid({:02X})", typ),
+ IVRRecord::StreamProperties(num) =>
+ write!(f, "({} stream properties)", num),
+ IVRRecord::Packet { ts, str, flags, len, checksum } =>
+ write!(f, "paket({}, {}, {:X}, {}, {})", ts, str, flags, len, checksum),
+ IVRRecord::IntValue(ref name, val) =>
+ write!(f, "({} = {})", String::from_utf8_lossy(name), val),
+ IVRRecord::BinaryData(ref name, ref val) =>
+ write!(f, "({} = {} bytes)", String::from_utf8_lossy(name), val.len()),
+ IVRRecord::StringData(ref name, ref val) =>
+ write!(f, "({} = {})", String::from_utf8_lossy(name), String::from_utf8_lossy(val)),
+ IVRRecord::HeaderEnd => write!(f, "header end"),
+ IVRRecord::DataEnd => write!(f, "data end"),
+ IVRRecord::DataStart => write!(f, "data start"),
+ }
+ }
+}
+
+struct RecordDemuxer {
+ start_pos: u64,
+ cur_pos: u64,
+ start_str: u32,
+ remap_ids: Vec<u32>,
+}
+
+impl RecordDemuxer {
+ fn new(pos: u64, start_str: u32) -> Self {
+ RecordDemuxer {
+ start_pos: pos,
+ cur_pos: pos,
+ start_str: start_str,
+ remap_ids: Vec::new(),
+ }
+ }
+ fn parse_header(&mut self, src: &mut ByteReader, strmgr: &mut StreamManager, str_data: &mut CommonStreamData) -> DemuxerResult<()> {
+ src.seek(SeekFrom::Start(self.cur_pos))?;
+ let magic = src.read_u32be()?;
+ validate!(magic == mktag!(b".REC"));
+ let _smth = src.read_byte()?;
+ let num_entries = src.read_u32be()? as usize;
+ for _ in 0..num_entries {
+ let _rec = IVRRecord::read(src)?;
+//println!(" header rec {}", _rec);
+ }
+ let mut has_seek_table = false;
+ let mut cur_str_no = 0;
+ loop {
+ let rec = IVRRecord::read(src)?;
+ match rec {
+ IVRRecord::HeaderEnd => { break; },
+ IVRRecord::StreamProperties(num) => {
+ let stream_no = cur_str_no + self.start_str;
+ cur_str_no += 1;
+ let mut parsed = false;
+ let mut real_stream_no = 0;
+ for _ in 0..num {
+ let rec = IVRRecord::read(src)?;
+//println!(" strm property {}", rec);
+ match rec {
+ IVRRecord::IntValue(ref name, val) => {
+ if name == b"StreamNumber\0" {
+ real_stream_no = val;
+ }
+ },
+ IVRRecord::BinaryData(ref name, ref val) => {
+ if name == b"OpaqueData\0" {
+ validate!(!parsed);
+ let is_mlti = RMDemuxCommon::parse_stream_info(str_data, strmgr, stream_no, val)?;
+ if !is_mlti {
+ str_data.str_ids.push(stream_no);
+ }
+ parsed = true;
+ }
+ },
+ IVRRecord::StringData(ref name, ref val) => {
+ if (name == b"SeekType\0") && (val != b"None\0") {
+ has_seek_table = true;
+ }
+ },
+ _ => { return Err(DemuxerError::InvalidData); }
+ };
+ }
+ if !parsed {
+ str_data.streams.push(RMStreamType::Unknown);
+ str_data.str_ids.push(stream_no);
+ }
+ self.remap_ids.push(real_stream_no);
+ },
+ _ => {println!(" unexpected {}", rec); return Err(DemuxerError::InvalidData); }
+ };
+ }
+ println!(" now @ {:X}", src.tell());
+ let off0 = src.read_u32be()? as u64;
+ let _off1 = src.read_u32be()?;
+ let _off2 = src.read_u32be()?;
+ validate!(off0 + self.start_pos == src.tell());
+ println!(" has seek tab: {}", has_seek_table);
+ if has_seek_table {
+ src.read_skip(4)?;
+ let data_off = src.read_u32be()? as u64;
+ println!(" new off {:X}", data_off);
+ let pos = src.tell();
+ validate!(data_off + self.start_pos > pos);
+ src.read_skip((data_off + self.start_pos - pos) as usize)?;
+ let rec = IVRRecord::read(src)?;
+ validate!(rec.is_data_start());
+ } else {
+ let ntype = src.peek_byte()?;
+ validate!((ntype == 2) || (ntype == 7)); // packet or data end, no start
+ }
+
+ self.cur_pos = src.tell();
+
+ Ok(())
}
- for i in 0..num_entries {
-//read packet of sizes[i]
+ fn get_packet(&mut self, src: &mut ByteReader, str_data: &mut CommonStreamData, strmgr: &StreamManager, queued_pkts: &mut Vec<NAPacket>, slice_buf: &mut Vec<u8>) -> DemuxerResult<NAPacket> {
+ src.seek(SeekFrom::Start(self.cur_pos))?;
+ loop {
+ let rec = IVRRecord::read(src)?;
+ match rec {
+ IVRRecord::Packet { ts, str, flags: _, len, checksum: _ } => {
+ let payload_size = len;
+ let sr = self.remap_ids.iter().position(|x| *x == str);
+ validate!(sr.is_some());
+ let str_no = self.start_str + (sr.unwrap() as u32);
+ let stream_id = str_data.get_stream_id(str_no as u32, 0/*pkt_grp*/);
+ let sr = str_data.find_stream(stream_id);
+ if sr.is_none() {
+ src.read_skip(payload_size)?;
+ return Err(DemuxerError::InvalidData);
+ }
+ let str_id = sr.unwrap();
+
+ let streamres = strmgr.get_stream_by_id(stream_id);
+ if streamres.is_none() {
+ src.read_skip(payload_size)?;
+ continue;
+ }
+ let stream = streamres.unwrap();
+ if strmgr.is_ignored_id(stream_id) {
+ src.read_skip(payload_size)?;
+ continue;
+ }
+ let keyframe = false;
+ let ret = RMDemuxCommon::parse_packet_payload(src, &mut str_data.streams[str_id], stream, slice_buf, queued_pkts, keyframe, ts, payload_size);
+ if let Err(DemuxerError::TryAgain) = ret {
+ continue;
+ } else {
+ self.cur_pos = src.tell();
+ return ret;
+ }
+ },
+ IVRRecord::DataEnd => return Err(DemuxerError::EOF),
+ _ => return Err(DemuxerError::InvalidData),
+ }
+ }
}
- unimplemented!();
}
-//todo interleavers
+struct RealIVRDemuxer<'a> {
+ src: &'a mut ByteReader<'a>,
+ recs: Vec<RecordDemuxer>,
+ cur_rec: usize,
+ queued_pkts: Vec<NAPacket>,
+ slice_buf: Vec<u8>,
+ str_data: CommonStreamData,
+}
+
+impl<'a> DemuxCore<'a> for RealIVRDemuxer<'a> {
+ #[allow(unused_variables)]
+ fn open(&mut self, strmgr: &mut StreamManager) -> DemuxerResult<()> {
+ let magic = self.src.peek_u32be()?;
+ if magic == mktag!(b".REC") {
+ let mut rec = RecordDemuxer::new(0, 0);
+ rec.parse_header(&mut self.src, strmgr, &mut self.str_data)?;
+ self.recs.push(rec);
+ } else if magic == mktag!(b".R1M") {
+println!("R1M kind");
+ self.src.read_skip(4)?; // magic
+ self.src.read_skip(3)?; // always 0, 1, 1 ?
+ let _name = IVRRecord::read_string(&mut self.src)?;
+ self.src.read_skip(1)?; // always 0?
+ let len1 = self.src.read_u32be()? as u64;
+ let off1 = self.src.read_u64be()?;
+ let cpos = self.src.tell();
+ validate!(off1 == len1 + cpos - 8);
+ self.src.read_skip((off1 - cpos) as usize)?;
+ loop {
+ let typ = self.src.read_byte()?;
+ println!(" at {:X} type {:02X}", self.src.tell(), typ);
+ match typ {
+ 1 => {
+ let len = self.src.read_u32be()?;
+ self.src.read_skip(len as usize)?;
+ },
+ 2 => {
+ let len = self.src.read_u32be()? as u64;
+ let pos = self.src.tell();
+ let num_streams = self.str_data.streams.len() as u32;
+ let mut rec = RecordDemuxer::new(pos + 12, num_streams);
+ rec.parse_header(&mut self.src, strmgr, &mut self.str_data)?;
+ self.recs.push(rec);
+ self.src.seek(SeekFrom::Start(pos + len))?;
+ },
+ b'R' => {
+ let mut buf: [u8; 2] = [0; 2];
+ self.src.peek_buf(&mut buf)?;
+ if (buf[0] == b'J') && (buf[1] == b'M') { // RJMx markers at the end of file
+ break;
+ } else {
+ return Err(DemuxerError::InvalidData);
+ }
+ },
+ _ => { return Err(DemuxerError::InvalidData); },
+ };
+ }
+ } else {
+ return Err(DemuxerError::InvalidData);
+ }
+
+ Ok(())
+ }
+
+ fn get_frame(&mut self, strmgr: &mut StreamManager) -> DemuxerResult<NAPacket> {
+ if !self.queued_pkts.is_empty() {
+ let pkt = self.queued_pkts.pop().unwrap();
+ return Ok(pkt);
+ }
+ loop {
+ if self.cur_rec >= self.recs.len() { return Err(DemuxerError::EOF); }
+ let res = self.recs[self.cur_rec].get_packet(&mut self.src, &mut self.str_data, strmgr, &mut self.queued_pkts, &mut self.slice_buf);
+ if let Err(DemuxerError::EOF) = res {
+ self.cur_rec += 1;
+ } else {
+ return res;
+ }
+ }
+ }
-//todo opaque data
+ #[allow(unused_variables)]
+ fn seek(&mut self, time: u64) -> DemuxerResult<()> {
+ Err(NotImplemented)
+ }
+}
+impl<'a> RealIVRDemuxer<'a> {
+ fn new(io: &'a mut ByteReader<'a>) -> Self {
+ RealIVRDemuxer {
+ src: io,
+ recs: Vec::new(),
+ cur_rec: 0,
+ queued_pkts: Vec::new(),
+ slice_buf: Vec::new(),
+ str_data: CommonStreamData::new(),
+ }
+ }
+}
static RM_VIDEO_CODEC_REGISTER: &'static [(&[u8;4], &str)] = &[
(b"RV10", "realvideo1"),
(b"RVTR", "realvideo2"),
(b"RV30", "realvideo3"),
(b"RV40", "realvideo4"),
+ (b"RV60", "realvideo6"),
(b"CLV1", "clearvideo_rm"),
];
-#[allow(dead_code)]
static RM_AUDIO_CODEC_REGISTER: &'static [(&[u8;4], &str)] = &[
(b"lpcJ", "ra14.4"),
(b"28_8", "ra28.8"),
fn get_name(&self) -> &'static str { "realmedia" }
}
+pub struct RealAudioDemuxerCreator { }
+
+impl DemuxerCreator for RealAudioDemuxerCreator {
+ fn new_demuxer<'a>(&self, br: &'a mut ByteReader<'a>) -> Box<DemuxCore<'a> + 'a> {
+ Box::new(RealAudioDemuxer::new(br))
+ }
+ fn get_name(&self) -> &'static str { "realaudio" }
+}
+
+pub struct RealIVRDemuxerCreator { }
+
+impl DemuxerCreator for RealIVRDemuxerCreator {
+ fn new_demuxer<'a>(&self, br: &'a mut ByteReader<'a>) -> Box<DemuxCore<'a> + 'a> {
+ Box::new(RealIVRDemuxer::new(br))
+ }
+ fn get_name(&self) -> &'static str { "real_ivr" }
+}
+
#[cfg(test)]
mod test {
use super::*;
}
//panic!("the end");
}
+ #[test]
+ fn test_ra_demux() {
+ let mut file =
+// File::open("assets/RV/welcome288.ra").unwrap();
+ File::open("assets/RV/diemusik.ra").unwrap();
+ let mut fr = FileReader::new_read(&mut file);
+ let mut br = ByteReader::new(&mut fr);
+ let mut dmx = RealAudioDemuxer::new(&mut br);
+ let mut sm = StreamManager::new();
+ dmx.open(&mut sm).unwrap();
+
+ loop {
+ let pktres = dmx.get_frame(&mut sm);
+ if let Err(e) = pktres {
+ if e == DemuxerError::EOF { break; }
+ panic!("error");
+ }
+ let pkt = pktres.unwrap();
+ println!("Got {}", pkt);
+ }
+ }
+ #[test]
+ fn test_ivr_demux() {
+ let mut file =
+ File::open("assets/RV/Opener_rm_hi.ivr").unwrap();
+// File::open("assets/RV/SherwinWilliamsCommercial.ivr").unwrap();
+ let mut fr = FileReader::new_read(&mut file);
+ let mut br = ByteReader::new(&mut fr);
+ let mut dmx = RealIVRDemuxer::new(&mut br);
+ let mut sm = StreamManager::new();
+ dmx.open(&mut sm).unwrap();
+
+ loop {
+ let pktres = dmx.get_frame(&mut sm);
+ if let Err(e) = pktres {
+ if e == DemuxerError::EOF { break; }
+ panic!("error");
+ }
+ let pkt = pktres.unwrap();
+ println!("Got {}", pkt);
+ }
+ }
}