// Copyright (C) 2019 Sebastian Dröge // Copyright (C) 2019 Jordan Petridis // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Library General Public // License as published by the Free Software Foundation; either // version 2 of the License, or (at your option) any later version. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Library General Public License for more details. // // You should have received a copy of the GNU Library General Public // License along with this library; if not, write to the // Free Software Foundation, Inc., 51 Franklin Street, Suite 500, // Boston, MA 02110-1335, USA. use glib::subclass::prelude::*; use gst::prelude::*; use gst::subclass::prelude::*; use gst::{ element_error, gst_debug, gst_error, gst_fixme, gst_info, gst_log, gst_trace, gst_warning, loggable_error, }; use std::cmp; use std::convert::TryInto; use std::sync::{Mutex, MutexGuard}; use once_cell::sync::Lazy; use super::parser::{SccLine, SccParser}; use crate::line_reader::LineReader; use crate::parser_utils::TimeCode; static CAT: Lazy = Lazy::new(|| { gst::DebugCategory::new( "sccparse", gst::DebugColorFlags::empty(), Some("Scc Parser Element"), ) }); #[derive(Debug)] struct PullState { need_stream_start: bool, stream_id: String, offset: u64, duration: gst::ClockTime, } impl PullState { fn new(element: &super::SccParse, pad: &gst::Pad) -> Self { Self { need_stream_start: true, stream_id: pad.create_stream_id(element, Some("src")).to_string(), offset: 0, duration: gst::CLOCK_TIME_NONE, } } } #[derive(Debug)] struct State { reader: LineReader>, parser: SccParser, need_segment: bool, pending_events: Vec, framerate: Option, last_position: gst::ClockTime, last_timecode: Option, segment: gst::FormattedSegment, // Pull mode pull: Option, // seeking seeking: bool, discont: bool, seek_seqnum: Option, need_flush_stop: bool, } impl Default for State { fn default() -> Self { Self { reader: LineReader::new(), parser: SccParser::new(), need_segment: true, pending_events: Vec::new(), framerate: None, last_position: gst::CLOCK_TIME_NONE, last_timecode: None, segment: gst::FormattedSegment::::new(), pull: None, seeking: false, discont: false, seek_seqnum: None, need_flush_stop: false, } } } fn parse_timecode( framerate: gst::Fraction, tc: &TimeCode, ) -> Result { use std::convert::TryFrom; let mut tc = tc.clone(); // Workaround for various SCC files having invalid drop frame timecodes: // Every full minute the first two timecodes are skipped, except for every tenth minute. if tc.drop_frame && tc.seconds == 0 && tc.minutes % 10 != 0 && (tc.frames == 0 || tc.frames == 1) { tc.frames = 2; } let timecode = gst_video::VideoTimeCode::new( framerate, None, if tc.drop_frame { gst_video::VideoTimeCodeFlags::DROP_FRAME } else { gst_video::VideoTimeCodeFlags::empty() }, tc.hours, tc.minutes, tc.seconds, tc.frames, 0, ); gst_video::ValidVideoTimeCode::try_from(timecode).map_err(|_| gst::FlowError::Error) } impl State { #[allow(clippy::type_complexity)] fn line(&mut self, drain: bool) -> Result, (&[u8], nom::error::Error<&[u8]>)> { let line = match self.reader.line_with_drain(drain) { None => { return Ok(None); } Some(line) => line, }; self.parser .parse_line(line) .map(Option::Some) .map_err(|err| (line, err)) } fn handle_timecode( &mut self, tc: &TimeCode, framerate: gst::Fraction, element: &super::SccParse, ) -> Result { match parse_timecode(framerate, &tc) { Ok(timecode) => Ok(timecode), Err(err) => { let last_timecode = self.last_timecode .as_ref() .map(Clone::clone) .ok_or_else(|| { element_error!( element, gst::StreamError::Decode, ["Invalid first timecode {:?}", err] ); gst::FlowError::Error })?; gst_warning!( CAT, obj: element, "Invalid timecode {:?}, using previous {:?}", err, last_timecode ); Ok(last_timecode) } } } /// Calculate a timestamp from the timecode and make sure to /// not produce timestamps jumping backwards fn update_timestamp( &mut self, timecode: &gst_video::ValidVideoTimeCode, element: &super::SccParse, ) { let nsecs = gst::ClockTime::from(timecode.nsec_since_daily_jam()); if self.last_position.is_none() || nsecs >= self.last_position { self.last_position = nsecs; } else { gst_fixme!( CAT, obj: element, "New position {} < last position {}", nsecs, self.last_position ); } } fn add_buffer_metadata( &mut self, buffer: &mut gst::buffer::Buffer, timecode: &gst_video::ValidVideoTimeCode, framerate: gst::Fraction, element: &super::SccParse, ) { let buffer = buffer.get_mut().unwrap(); gst_video::VideoTimeCodeMeta::add(buffer, &timecode); self.update_timestamp(timecode, element); buffer.set_pts(self.last_position); buffer.set_duration( gst::SECOND .mul_div_ceil(*framerate.denom() as u64, *framerate.numer() as u64) .unwrap_or(gst::CLOCK_TIME_NONE), ); } fn create_events( &mut self, element: &super::SccParse, framerate: Option, ) -> Vec { let mut events = Vec::new(); if self.need_flush_stop { let mut b = gst::event::FlushStop::builder(true); if let Some(seek_seqnum) = self.seek_seqnum { b = b.seqnum(seek_seqnum); } events.push(b.build()); self.need_flush_stop = false; } if let Some(pull) = &mut self.pull { if pull.need_stream_start { events.push(gst::event::StreamStart::new(&pull.stream_id)); pull.need_stream_start = false; } } if let Some(framerate) = framerate { if self.framerate != Some(framerate) { self.framerate = Some(framerate); let caps = gst::Caps::builder("closedcaption/x-cea-608") .field("format", &"raw") .field("framerate", &framerate) .build(); self.framerate = Some(framerate); events.push(gst::event::Caps::new(&caps)); gst_info!(CAT, obj: element, "Caps changed to {:?}", &caps); } } if self.need_segment { let mut b = gst::event::Segment::builder(&self.segment); if let Some(seek_seqnum) = self.seek_seqnum { b = b.seqnum(seek_seqnum); } events.push(b.build()); self.need_segment = false; } events.extend(self.pending_events.drain(..)); events } } pub struct SccParse { srcpad: gst::Pad, sinkpad: gst::Pad, state: Mutex, } impl SccParse { fn handle_buffer( &self, element: &super::SccParse, buffer: Option, ) -> Result { let mut state = self.state.lock().unwrap(); let drain; if let Some(buffer) = buffer { let buffer = buffer.into_mapped_buffer_readable().map_err(|_| { element_error!( element, gst::ResourceError::Read, ["Failed to map buffer readable"] ); gst::FlowError::Error })?; state.reader.push(buffer); drain = false; } else { drain = true; } loop { let line = state.line(drain); match line { Ok(Some(SccLine::Caption(tc, data))) => { state = self.handle_line(tc, data, element, state)?; } Ok(Some(line)) => { gst_debug!(CAT, obj: element, "Got line '{:?}'", line); } Err((line, err)) => { element_error!( element, gst::StreamError::Decode, ["Couldn't parse line '{:?}': {:?}", line, err] ); break Err(gst::FlowError::Error); } Ok(None) => { if drain && state.pull.is_some() { break Err(gst::FlowError::Eos); } break Ok(gst::FlowSuccess::Ok); } } } } fn handle_line( &self, tc: TimeCode, data: Vec, element: &super::SccParse, mut state: MutexGuard, ) -> Result, gst::FlowError> { gst_trace!( CAT, obj: element, "Got caption buffer with timecode {:?} and size {}", tc, data.len() ); // The framerate is defined as 30 or 30000/1001 according to: // http://www.theneitherworld.com/mcpoodle/SCC_TOOLS/DOCS/SCC_FORMAT.HTML let framerate = if tc.drop_frame { gst::Fraction::new(30000, 1001) } else { gst::Fraction::new(30, 1) }; let mut timecode = state.handle_timecode(&tc, framerate, element)?; let start_time = gst::ClockTime::from(timecode.nsec_since_daily_jam()); let segment_start = state.segment.start(); let clip_buffers = if state.seeking { // If we are in the middle of seeking, check whether this line // contains start frame, and if so, unset seeking flag let num_bufs = (data.len() / 2) as i64; let mut end_timecode = timecode.clone(); // add one more frame here so that add duration of the last frame end_timecode.add_frames(num_bufs + 1); let stop_time = gst::ClockTime::from(end_timecode.nsec_since_daily_jam()); gst_trace!( CAT, obj: element, "Checking inside of segment, line start {} line stop {} segment start {} num bufs {}", start_time, stop_time, segment_start, num_bufs, ); if stop_time > segment_start { state.seeking = false; state.discont = true; state.need_flush_stop = true; } // Still need to scan lines to find the first buffer if state.seeking { drop(state); return Ok(self.state.lock().unwrap()); } true } else { false }; let mut buffers = if clip_buffers { gst::BufferList::new() } else { gst::BufferList::new_sized(data.len() / 2) }; let mut send_eos = false; for d in data.chunks_exact(2) { let mut buffer = gst::Buffer::with_size(d.len()).unwrap(); { let buf_mut = buffer.get_mut().unwrap(); buf_mut.copy_from_slice(0, d).unwrap(); } state.add_buffer_metadata(&mut buffer, &timecode, framerate, element); timecode.increment_frame(); if clip_buffers { let end_time = buffer.pts() + buffer.duration(); if end_time < segment_start { gst_trace!( CAT, obj: element, "Skip segment clipped buffer {:?}", buffer, ); continue; } } send_eos = state.segment.stop().is_some() && buffer.pts() + buffer.duration() >= state.segment.stop(); let buffers = buffers.get_mut().unwrap(); buffers.add(buffer); // Terminate loop once we found EOS boundary buffer if send_eos { break; } } // Update the last_timecode to the current one state.last_timecode = Some(timecode); let events = state.create_events(element, Some(framerate)); // Drop our state mutex while we push out buffers or events drop(state); for event in events { gst_debug!(CAT, obj: element, "Pushing event {:?}", event); self.srcpad.push_event(event); } self.srcpad.push_list(buffers).map_err(|err| { gst_error!(CAT, obj: element, "Pushing buffer returned {:?}", err); err })?; if send_eos { return Err(gst::FlowError::Eos); } Ok(self.state.lock().unwrap()) } fn sink_activate( &self, pad: &gst::Pad, element: &super::SccParse, ) -> Result<(), gst::LoggableError> { let mode = { let mut query = gst::query::Scheduling::new(); let mut state = self.state.lock().unwrap(); state.pull = None; if !pad.peer_query(&mut query) { gst_debug!(CAT, obj: pad, "Scheduling query failed on peer"); gst::PadMode::Push } else if query .has_scheduling_mode_with_flags(gst::PadMode::Pull, gst::SchedulingFlags::SEEKABLE) { gst_debug!(CAT, obj: pad, "Activating in Pull mode"); state.pull = Some(PullState::new(element, &self.srcpad)); gst::PadMode::Pull } else { gst_debug!(CAT, obj: pad, "Activating in Push mode"); gst::PadMode::Push } }; pad.activate_mode(mode, true)?; Ok(()) } fn start_task(&self, element: &super::SccParse) -> Result<(), gst::LoggableError> { let element_weak = element.downgrade(); let pad_weak = self.sinkpad.downgrade(); let res = self.sinkpad.start_task(move || { let element = match element_weak.upgrade() { Some(element) => element, None => { if let Some(pad) = pad_weak.upgrade() { let _ = pad.pause_task(); } return; } }; let parse = Self::from_instance(&element); parse.loop_fn(&element); }); if res.is_err() { return Err(loggable_error!(CAT, "Failed to start pad task")); } Ok(()) } fn sink_activatemode( &self, _pad: &gst::Pad, element: &super::SccParse, mode: gst::PadMode, active: bool, ) -> Result<(), gst::LoggableError> { if mode == gst::PadMode::Pull { if active { self.start_task(element)?; } else { let _ = self.sinkpad.stop_task(); } } Ok(()) } fn scan_duration( &self, element: &super::SccParse, ) -> Result, gst::LoggableError> { gst_debug!(CAT, obj: element, "Scanning duration"); /* First let's query the bytes duration upstream */ let mut q = gst::query::Duration::new(gst::Format::Bytes); if !self.sinkpad.peer_query(&mut q) { return Err(loggable_error!(CAT, "Failed to query upstream duration")); } let size = match q.result().try_into().unwrap() { gst::format::Bytes(Some(size)) => size, gst::format::Bytes(None) => { return Err(loggable_error!(CAT, "Failed to query upstream duration")); } }; let mut offset = size; let mut buffers = Vec::new(); let mut last_tc = None; loop { let scan_size = cmp::min(offset, 4096); offset -= scan_size; match self.sinkpad.pull_range(offset, scan_size as u32) { Ok(buffer) => { buffers.push(buffer); } Err(flow) => { return Err(loggable_error!( CAT, "Failed to pull buffer while scanning duration: {:?}", flow )); } } let mut reader = LineReader::new(); let mut parser = SccParser::new_scan_captions(); for buf in buffers.iter().rev() { let buf = buf .clone() .into_mapped_buffer_readable() .map_err(|_| loggable_error!(CAT, "Failed to map buffer readable"))?; reader.push(buf); } while let Some(line) = reader.line_with_drain(true) { if let Ok(SccLine::Caption(tc, data)) = parser.parse_line(line).map_err(|err| (line, err)) { let framerate = if tc.drop_frame { gst::Fraction::new(30000, 1001) } else { gst::Fraction::new(30, 1) }; if let Ok(mut timecode) = parse_timecode(framerate, &tc) { /* We're looking for the total duration */ timecode.add_frames((data.len() / 2) as i64 + 1); last_tc = Some(timecode); } } } if last_tc.is_some() || offset == 0 { gst_debug!( CAT, obj: element, "Duration scan done, last_tc: {:?}", last_tc ); break (Ok(last_tc)); } } } fn push_eos(&self, element: &super::SccParse) { let mut state = self.state.lock().unwrap(); if state.seeking { state.need_flush_stop = true; } let mut events = state.create_events(element, None); let mut eos_event = gst::event::Eos::builder(); if let Some(seek_seqnum) = state.seek_seqnum { eos_event = eos_event.seqnum(seek_seqnum); } events.push(eos_event.build()); // Drop our state mutex while we push out events drop(state); for event in events { gst_debug!(CAT, obj: element, "Pushing event {:?}", event); self.srcpad.push_event(event); } } fn loop_fn(&self, element: &super::SccParse) { let mut state = self.state.lock().unwrap(); let State { ref framerate, ref mut pull, .. } = *state; let mut pull = pull.as_mut().unwrap(); let scan_duration = framerate.is_none() && pull.duration.is_none(); let offset = pull.offset; pull.offset += 4096; drop(state); let buffer = match self.sinkpad.pull_range(offset, 4096) { Ok(buffer) => Some(buffer), Err(gst::FlowError::Eos) => None, Err(gst::FlowError::Flushing) => { gst_debug!(CAT, obj: &self.sinkpad, "Pausing after pulling buffer, reason: flushing"); let _ = self.sinkpad.pause_task(); return; } Err(flow) => { gst_error!(CAT, obj: &self.sinkpad, "Failed to pull, reason: {:?}", flow); element_error!( element, gst::StreamError::Failed, ["Streaming stopped, failed to pull buffer"] ); let _ = self.sinkpad.pause_task(); return; } }; match self.handle_buffer(element, buffer) { Ok(_) => { if scan_duration { match self.scan_duration(element) { Ok(Some(tc)) => { let mut state = self.state.lock().unwrap(); let mut pull = state.pull.as_mut().unwrap(); pull.duration = tc.nsec_since_daily_jam().into(); } Ok(None) => { let mut state = self.state.lock().unwrap(); let mut pull = state.pull.as_mut().unwrap(); pull.duration = 0.into(); } Err(err) => { err.log(); element_error!( element, gst::StreamError::Decode, ["Failed to scan duration"] ); let _ = self.sinkpad.pause_task(); } } } } Err(flow) => { match flow { gst::FlowError::Flushing => { gst_debug!(CAT, obj: element, "Pausing after flow {:?}", flow); } gst::FlowError::Eos => { self.push_eos(element); gst_debug!(CAT, obj: element, "Pausing after flow {:?}", flow); } _ => { self.push_eos(element); gst_error!(CAT, obj: element, "Pausing after flow {:?}", flow); element_error!( element, gst::StreamError::Failed, ["Streaming stopped, reason: {:?}", flow] ); } } let _ = self.sinkpad.pause_task(); } } } fn sink_chain( &self, pad: &gst::Pad, element: &super::SccParse, buffer: gst::Buffer, ) -> Result { gst_log!(CAT, obj: pad, "Handling buffer {:?}", buffer); self.handle_buffer(element, Some(buffer)) } fn flush(&self, mut state: MutexGuard) -> MutexGuard { state.reader.clear(); state.parser.reset(); if let Some(pull) = &mut state.pull { pull.offset = 0; } state.segment = gst::FormattedSegment::::new(); state.need_segment = true; state.pending_events.clear(); state.last_position = 0.into(); state.last_timecode = None; drop(state); self.state.lock().unwrap() } fn sink_event(&self, pad: &gst::Pad, element: &super::SccParse, event: gst::Event) -> bool { use gst::EventView; gst_log!(CAT, obj: pad, "Handling event {:?}", event); match event.view() { EventView::Caps(_) => { // We send a proper caps event from the chain function later gst_log!(CAT, obj: pad, "Dropping caps event"); true } EventView::Segment(_) => { // We send a gst::Format::Time segment event later when needed gst_log!(CAT, obj: pad, "Dropping segment event"); true } EventView::FlushStop(_) => { let state = self.state.lock().unwrap(); let state = self.flush(state); drop(state); pad.event_default(Some(element), event) } EventView::Eos(_) => { gst_log!(CAT, obj: pad, "Draining"); if let Err(err) = self.handle_buffer(element, None) { gst_error!(CAT, obj: pad, "Failed to drain parser: {:?}", err); } pad.event_default(Some(element), event) } _ => { if event.is_sticky() && !self.srcpad.has_current_caps() && event.type_() > gst::EventType::Caps { gst_log!(CAT, obj: pad, "Deferring sticky event until we have caps"); let mut state = self.state.lock().unwrap(); state.pending_events.push(event); true } else { pad.event_default(Some(element), event) } } } } fn perform_seek(&self, event: &gst::event::Seek, element: &super::SccParse) -> bool { if self.state.lock().unwrap().pull.is_none() { gst_error!(CAT, obj: element, "seeking is only supported in pull mode"); return false; } let (rate, flags, start_type, start, stop_type, stop) = event.get(); let mut start: gst::ClockTime = match start.try_into() { Ok(start) => start, Err(_) => { gst_error!(CAT, obj: element, "seek has invalid format"); return false; } }; let mut stop: gst::ClockTime = match stop.try_into() { Ok(stop) => stop, Err(_) => { gst_error!(CAT, obj: element, "seek has invalid format"); return false; } }; if !flags.contains(gst::SeekFlags::FLUSH) { gst_error!(CAT, obj: element, "only flushing seeks are supported"); return false; } if start_type == gst::SeekType::End || stop_type == gst::SeekType::End { gst_error!(CAT, obj: element, "Relative seeks are not supported"); return false; } let seek_seqnum = event.seqnum(); let event = gst::event::FlushStart::builder() .seqnum(seek_seqnum) .build(); gst_debug!(CAT, obj: element, "Sending event {:?} upstream", event); self.sinkpad.push_event(event); let event = gst::event::FlushStart::builder() .seqnum(seek_seqnum) .build(); gst_debug!(CAT, obj: element, "Pushing event {:?}", event); self.srcpad.push_event(event); let _ = self.sinkpad.pause_task(); let mut state = self.state.lock().unwrap(); let pull = state.pull.as_ref().unwrap(); if start_type == gst::SeekType::Set { start = start.min(pull.duration).unwrap_or(start); } if stop_type == gst::SeekType::Set { stop = stop.min(pull.duration).unwrap_or(stop); } state.seeking = true; state.seek_seqnum = Some(seek_seqnum); state = self.flush(state); let event = gst::event::FlushStop::builder(true) .seqnum(seek_seqnum) .build(); /* Drop our state while we push a serialized event upstream */ drop(state); gst_debug!(CAT, obj: element, "Sending event {:?} upstream", event); self.sinkpad.push_event(event); state = self.state.lock().unwrap(); state .segment .do_seek(rate, flags, start_type, start, stop_type, stop); match self.start_task(element) { Err(error) => { error.log(); false } _ => true, } } fn src_event(&self, pad: &gst::Pad, element: &super::SccParse, event: gst::Event) -> bool { use gst::EventView; gst_log!(CAT, obj: pad, "Handling event {:?}", event); match event.view() { EventView::Seek(e) => self.perform_seek(&e, element), _ => pad.event_default(Some(element), event), } } fn src_query( &self, pad: &gst::Pad, element: &super::SccParse, query: &mut gst::QueryRef, ) -> bool { use gst::QueryView; gst_log!(CAT, obj: pad, "Handling query {:?}", query); match query.view_mut() { QueryView::Seeking(mut q) => { let state = self.state.lock().unwrap(); let fmt = q.format(); if fmt == gst::Format::Time { if let Some(pull) = state.pull.as_ref() { q.set( true, gst::GenericFormattedValue::Time(0.into()), gst::GenericFormattedValue::Time(pull.duration), ); true } else { false } } else { false } } QueryView::Position(ref mut q) => { // For Time answer ourselfs, otherwise forward if q.format() == gst::Format::Time { let state = self.state.lock().unwrap(); q.set(state.last_position); true } else { self.sinkpad.peer_query(query) } } QueryView::Duration(ref mut q) => { // For Time answer ourselfs, otherwise forward let state = self.state.lock().unwrap(); if q.format() == gst::Format::Time { if let Some(pull) = state.pull.as_ref() { if pull.duration.is_some() { q.set(state.pull.as_ref().unwrap().duration); true } else { false } } else { false } } else { self.sinkpad.peer_query(query) } } _ => pad.query_default(Some(element), query), } } } #[glib::object_subclass] impl ObjectSubclass for SccParse { const NAME: &'static str = "RsSccParse"; type Type = super::SccParse; type ParentType = gst::Element; fn with_class(klass: &Self::Class) -> Self { let templ = klass.pad_template("sink").unwrap(); let sinkpad = gst::Pad::builder_with_template(&templ, Some("sink")) .activate_function(|pad, parent| { SccParse::catch_panic_pad_function( parent, || Err(loggable_error!(CAT, "Panic activating sink pad")), |parse, element| parse.sink_activate(pad, element), ) }) .activatemode_function(|pad, parent, mode, active| { SccParse::catch_panic_pad_function( parent, || Err(loggable_error!(CAT, "Panic activating sink pad with mode")), |parse, element| parse.sink_activatemode(pad, element, mode, active), ) }) .chain_function(|pad, parent, buffer| { SccParse::catch_panic_pad_function( parent, || Err(gst::FlowError::Error), |parse, element| parse.sink_chain(pad, element, buffer), ) }) .event_function(|pad, parent, event| { SccParse::catch_panic_pad_function( parent, || false, |parse, element| parse.sink_event(pad, element, event), ) }) .build(); let templ = klass.pad_template("src").unwrap(); let srcpad = gst::Pad::builder_with_template(&templ, Some("src")) .event_function(|pad, parent, event| { SccParse::catch_panic_pad_function( parent, || false, |parse, element| parse.src_event(pad, element, event), ) }) .query_function(|pad, parent, query| { SccParse::catch_panic_pad_function( parent, || false, |parse, element| parse.src_query(pad, element, query), ) }) .build(); Self { srcpad, sinkpad, state: Mutex::new(State::default()), } } } impl ObjectImpl for SccParse { fn constructed(&self, obj: &Self::Type) { self.parent_constructed(obj); obj.add_pad(&self.sinkpad).unwrap(); obj.add_pad(&self.srcpad).unwrap(); } } impl ElementImpl for SccParse { fn metadata() -> Option<&'static gst::subclass::ElementMetadata> { static ELEMENT_METADATA: Lazy = Lazy::new(|| { gst::subclass::ElementMetadata::new( "Scc Parse", "Parser/ClosedCaption", "Parses SCC Closed Caption Files", "Sebastian Dröge , Jordan Petridis ", ) }); Some(&*ELEMENT_METADATA) } fn pad_templates() -> &'static [gst::PadTemplate] { static PAD_TEMPLATES: Lazy> = Lazy::new(|| { let caps = gst::Caps::builder("closedcaption/x-cea-608") .field("format", &"raw") .field( "framerate", &gst::List::new(&[ &gst::Fraction::new(30000, 1001), &gst::Fraction::new(30, 1), ]), ) .build(); let src_pad_template = gst::PadTemplate::new( "src", gst::PadDirection::Src, gst::PadPresence::Always, &caps, ) .unwrap(); let caps = gst::Caps::builder("application/x-scc").build(); let sink_pad_template = gst::PadTemplate::new( "sink", gst::PadDirection::Sink, gst::PadPresence::Always, &caps, ) .unwrap(); vec![src_pad_template, sink_pad_template] }); PAD_TEMPLATES.as_ref() } fn change_state( &self, element: &Self::Type, transition: gst::StateChange, ) -> Result { gst_trace!(CAT, obj: element, "Changing state {:?}", transition); match transition { gst::StateChange::ReadyToPaused | gst::StateChange::PausedToReady => { // Reset the whole state let mut state = self.state.lock().unwrap(); *state = State::default(); } _ => (), } self.parent_change_state(element, transition) } }