// Copyright (C) 2021 Mathieu Duponchelle // // This Source Code Form is subject to the terms of the Mozilla Public License, v2.0. // If a copy of the MPL was not distributed with this file, You can obtain one at // . // // SPDX-License-Identifier: MPL-2.0 use crate::ttutils::Cea608Mode; use anyhow::Error; use gst::glib; use gst::prelude::*; use gst::subclass::prelude::*; use std::sync::Mutex; use once_cell::sync::Lazy; use super::CaptionSource; static CAT: Lazy = Lazy::new(|| { gst::DebugCategory::new( "transcriberbin", gst::DebugColorFlags::empty(), Some("Transcribe and inject closed captions"), ) }); const DEFAULT_PASSTHROUGH: bool = false; const DEFAULT_LATENCY: gst::ClockTime = gst::ClockTime::from_seconds(4); const DEFAULT_ACCUMULATE: gst::ClockTime = gst::ClockTime::ZERO; const DEFAULT_MODE: Cea608Mode = Cea608Mode::RollUp2; const DEFAULT_CAPTION_SOURCE: CaptionSource = CaptionSource::Both; struct State { framerate: Option, tearing_down: bool, internal_bin: gst::Bin, audio_queue_passthrough: gst::Element, video_queue: gst::Element, audio_tee: gst::Element, transcriber_aconv: gst::Element, transcriber: gst::Element, transcriber_queue: gst::Element, cccombiner: gst::Element, transcription_bin: gst::Bin, textwrap: gst::Element, tttocea608: gst::Element, cccapsfilter: gst::Element, transcription_valve: gst::Element, } struct Settings { cc_caps: gst::Caps, latency: gst::ClockTime, passthrough: bool, accumulate_time: gst::ClockTime, mode: Cea608Mode, caption_source: CaptionSource, } impl Default for Settings { fn default() -> Self { Self { cc_caps: gst::Caps::builder("closedcaption/x-cea-608") .field("format", "raw") .build(), passthrough: DEFAULT_PASSTHROUGH, latency: DEFAULT_LATENCY, accumulate_time: DEFAULT_ACCUMULATE, mode: DEFAULT_MODE, caption_source: DEFAULT_CAPTION_SOURCE, } } } // Struct containing all the element data pub struct TranscriberBin { audio_srcpad: gst::GhostPad, video_srcpad: gst::GhostPad, audio_sinkpad: gst::GhostPad, video_sinkpad: gst::GhostPad, state: Mutex>, settings: Mutex, } impl TranscriberBin { fn construct_transcription_bin(&self, state: &mut State) -> Result<(), Error> { gst::debug!(CAT, imp: self, "Building transcription bin"); let aqueue_transcription = gst::ElementFactory::make("queue") .name("transqueue") .property("max-size-buffers", 0u32) .property("max-size-bytes", 0u32) .property("max-size-time", 5_000_000_000u64) .property_from_str("leaky", "downstream") .build()?; let ccconverter = gst::ElementFactory::make("ccconverter").build()?; state.transcription_bin.add_many(&[ &aqueue_transcription, &state.transcriber_aconv, &state.transcriber, &state.transcriber_queue, &state.textwrap, &state.tttocea608, &ccconverter, &state.cccapsfilter, &state.transcription_valve, ])?; gst::Element::link_many(&[ &aqueue_transcription, &state.transcriber_aconv, &state.transcriber, &state.transcriber_queue, &state.textwrap, &state.tttocea608, &ccconverter, &state.cccapsfilter, &state.transcription_valve, ])?; let transcription_audio_sinkpad = gst::GhostPad::with_target( Some("sink"), &aqueue_transcription.static_pad("sink").unwrap(), )?; let transcription_audio_srcpad = gst::GhostPad::with_target( Some("src"), &state.transcription_valve.static_pad("src").unwrap(), )?; state .transcription_bin .add_pad(&transcription_audio_sinkpad)?; state .transcription_bin .add_pad(&transcription_audio_srcpad)?; state .transcriber_queue .set_property("max-size-buffers", 0u32); state.transcriber_queue.set_property("max-size-time", 0u64); state.internal_bin.add(&state.transcription_bin)?; state.textwrap.set_property("lines", 2u32); state.transcription_bin.set_locked_state(true); Ok(()) } fn construct_internal_bin(&self, state: &mut State) -> Result<(), Error> { let aclocksync = gst::ElementFactory::make("clocksync").build()?; let vclocksync = gst::ElementFactory::make("clocksync").build()?; state.internal_bin.add_many(&[ &aclocksync, &state.audio_tee, &state.audio_queue_passthrough, &vclocksync, &state.video_queue, &state.cccombiner, ])?; aclocksync.link(&state.audio_tee)?; state .audio_tee .link_pads(Some("src_%u"), &state.audio_queue_passthrough, Some("sink"))?; vclocksync.link(&state.video_queue)?; state .video_queue .link_pads(Some("src"), &state.cccombiner, Some("sink"))?; let internal_audio_sinkpad = gst::GhostPad::with_target( Some("audio_sink"), &aclocksync.static_pad("sink").unwrap(), )?; let internal_audio_srcpad = gst::GhostPad::with_target( Some("audio_src"), &state.audio_queue_passthrough.static_pad("src").unwrap(), )?; let internal_video_sinkpad = gst::GhostPad::with_target( Some("video_sink"), &vclocksync.static_pad("sink").unwrap(), )?; let internal_video_srcpad = gst::GhostPad::with_target( Some("video_src"), &state.cccombiner.static_pad("src").unwrap(), )?; state.internal_bin.add_pad(&internal_audio_sinkpad)?; state.internal_bin.add_pad(&internal_audio_srcpad)?; state.internal_bin.add_pad(&internal_video_sinkpad)?; state.internal_bin.add_pad(&internal_video_srcpad)?; let imp_weak = self.downgrade(); let comp_sinkpad = &state.cccombiner.static_pad("sink").unwrap(); // Drop caption meta from video buffer if user preference is transcription comp_sinkpad.add_probe(gst::PadProbeType::BUFFER, move |_, probe_info| { let imp = match imp_weak.upgrade() { None => return gst::PadProbeReturn::Remove, Some(imp) => imp, }; let settings = imp.settings.lock().unwrap(); if settings.caption_source != CaptionSource::Transcription { return gst::PadProbeReturn::Pass; } if let Some(gst::PadProbeData::Buffer(buffer)) = &mut probe_info.data { let buffer = buffer.make_mut(); while let Some(meta) = buffer.meta_mut::() { meta.remove().unwrap(); } } gst::PadProbeReturn::Ok }); self.obj().add(&state.internal_bin)?; state.cccombiner.set_property("latency", 100.mseconds()); self.audio_sinkpad .set_target(Some(&state.internal_bin.static_pad("audio_sink").unwrap()))?; self.audio_srcpad .set_target(Some(&state.internal_bin.static_pad("audio_src").unwrap()))?; self.video_sinkpad .set_target(Some(&state.internal_bin.static_pad("video_sink").unwrap()))?; self.video_srcpad .set_target(Some(&state.internal_bin.static_pad("video_src").unwrap()))?; self.construct_transcription_bin(state)?; Ok(()) } fn setup_transcription(&self, state: &State) { let settings = self.settings.lock().unwrap(); let mut cc_caps = settings.cc_caps.clone(); let cc_caps_mut = cc_caps.make_mut(); let s = cc_caps_mut.structure_mut(0).unwrap(); s.set("framerate", state.framerate.unwrap()); state.cccapsfilter.set_property("caps", &cc_caps); let max_size_time = settings.latency + settings.accumulate_time; for queue in [&state.audio_queue_passthrough, &state.video_queue] { queue.set_property("max-size-bytes", 0u32); queue.set_property("max-size-buffers", 0u32); queue.set_property("max-size-time", max_size_time); } let latency_ms = settings.latency.mseconds() as u32; state.transcriber.set_property("latency", latency_ms); if !settings.passthrough { let audio_tee_pad = state.audio_tee.request_pad_simple("src_%u").unwrap(); let transcription_sink_pad = state.transcription_bin.static_pad("sink").unwrap(); audio_tee_pad.link(&transcription_sink_pad).unwrap(); state .transcription_bin .link_pads(Some("src"), &state.cccombiner, Some("caption")) .unwrap(); state.transcription_bin.set_locked_state(false); state.transcription_bin.sync_state_with_parent().unwrap(); } drop(settings); self.setup_cc_mode(state); } fn disable_transcription_bin(&self) { let mut state = self.state.lock().unwrap(); if let Some(ref mut state) = state.as_mut() { state.tearing_down = false; // At this point, we want to check whether passthrough // has been unset in the meantime let passthrough = self.settings.lock().unwrap().passthrough; if passthrough { gst::debug!(CAT, imp: self, "disabling transcription bin"); let bin_sink_pad = state.transcription_bin.static_pad("sink").unwrap(); if let Some(audio_tee_pad) = bin_sink_pad.peer() { audio_tee_pad.unlink(&bin_sink_pad).unwrap(); state.audio_tee.release_request_pad(&audio_tee_pad); } let bin_src_pad = state.transcription_bin.static_pad("src").unwrap(); if let Some(cccombiner_pad) = bin_src_pad.peer() { bin_src_pad.unlink(&cccombiner_pad).unwrap(); state.cccombiner.release_request_pad(&cccombiner_pad); } state.transcription_bin.set_locked_state(true); state.transcription_bin.set_state(gst::State::Null).unwrap(); } } } fn block_and_update(&self, passthrough: bool) { let mut s = self.state.lock().unwrap(); if let Some(ref mut state) = s.as_mut() { if passthrough { let sinkpad = state.transcription_bin.static_pad("sink").unwrap(); let imp_weak = self.downgrade(); state.tearing_down = true; drop(s); let _ = sinkpad.add_probe( gst::PadProbeType::IDLE | gst::PadProbeType::BUFFER | gst::PadProbeType::EVENT_DOWNSTREAM, move |_pad, _info| { let imp = match imp_weak.upgrade() { None => return gst::PadProbeReturn::Pass, Some(imp) => imp, }; imp.disable_transcription_bin(); gst::PadProbeReturn::Remove }, ); } else if state.tearing_down { // Do nothing, wait for the previous transcription bin // to finish tearing down } else { state .transcription_bin .link_pads(Some("src"), &state.cccombiner, Some("caption")) .unwrap(); state.transcription_bin.set_locked_state(false); state.transcription_bin.sync_state_with_parent().unwrap(); let audio_tee_pad = state.audio_tee.request_pad_simple("src_%u").unwrap(); let transcription_sink_pad = state.transcription_bin.static_pad("sink").unwrap(); audio_tee_pad.link(&transcription_sink_pad).unwrap(); } } } fn setup_cc_mode(&self, state: &State) { let mode = self.settings.lock().unwrap().mode; gst::debug!(CAT, imp: self, "setting CC mode {:?}", mode); state.tttocea608.set_property("mode", mode); if mode.is_rollup() { state.textwrap.set_property("accumulate-time", 0u64); } else { let accumulate_time = self.settings.lock().unwrap().accumulate_time; state .textwrap .set_property("accumulate-time", accumulate_time); } } /* We make no ceremonies here because the function can only * be called in READY */ fn relink_transcriber( &self, state: &mut State, old_transcriber: &gst::Element, ) -> Result<(), Error> { gst::error!( CAT, imp: self, "Relinking transcriber, old: {:?}, new: {:?}", old_transcriber, state.transcriber ); state.transcriber_aconv.unlink(old_transcriber); old_transcriber.unlink(&state.transcriber_queue); state.transcription_bin.remove(old_transcriber).unwrap(); old_transcriber.set_state(gst::State::Null).unwrap(); state.transcription_bin.add(&state.transcriber)?; state.transcriber.sync_state_with_parent().unwrap(); gst::Element::link_many(&[ &state.transcriber_aconv, &state.transcriber, &state.transcriber_queue, ])?; Ok(()) } #[allow(clippy::single_match)] fn src_query(&self, pad: &gst::Pad, query: &mut gst::QueryRef) -> bool { use gst::QueryViewMut; gst::log!(CAT, obj: pad, "Handling query {:?}", query); match query.view_mut() { QueryViewMut::Latency(q) => { let mut upstream_query = gst::query::Latency::new(); let ret = gst::Pad::query_default(pad, Some(&*self.obj()), &mut upstream_query); if ret { let (_, mut min, _) = upstream_query.result(); let received_framerate = { let state = self.state.lock().unwrap(); if let Some(state) = state.as_ref() { state.framerate.is_some() } else { false } }; let settings = self.settings.lock().unwrap(); if settings.passthrough || !received_framerate { min += settings.latency + settings.accumulate_time; } else if settings.mode.is_rollup() { min += settings.accumulate_time; } q.set(true, min, gst::ClockTime::NONE); } ret } _ => gst::Pad::query_default(pad, Some(&*self.obj()), query), } } fn build_state(&self) -> Result { let internal_bin = gst::Bin::builder().name("internal").build(); let transcription_bin = gst::Bin::builder().name("transcription-bin").build(); let audio_tee = gst::ElementFactory::make("tee") // Protect passthrough enable (and resulting dynamic reconfigure) // from non-streaming thread .property("allow-not-linked", true) .build()?; let cccombiner = gst::ElementFactory::make("cccombiner") .name("cccombiner") .build()?; let textwrap = gst::ElementFactory::make("textwrap") .name("textwrap") .build()?; let tttocea608 = gst::ElementFactory::make("tttocea608") .name("tttocea608") .build()?; let transcriber_aconv = gst::ElementFactory::make("audioconvert").build()?; let transcriber = gst::ElementFactory::make("awstranscriber") .name("transcriber") .build()?; let transcriber_queue = gst::ElementFactory::make("queue").build()?; let audio_queue_passthrough = gst::ElementFactory::make("queue").build()?; let video_queue = gst::ElementFactory::make("queue").build()?; let cccapsfilter = gst::ElementFactory::make("capsfilter").build()?; let transcription_valve = gst::ElementFactory::make("valve") .property_from_str("drop-mode", "transform-to-gap") .build()?; Ok(State { framerate: None, internal_bin, audio_queue_passthrough, video_queue, transcriber_aconv, transcriber, transcriber_queue, audio_tee, cccombiner, transcription_bin, textwrap, tttocea608, cccapsfilter, transcription_valve, tearing_down: false, }) } #[allow(clippy::single_match)] fn video_sink_event(&self, pad: &gst::Pad, event: gst::Event) -> bool { use gst::EventView; gst::log!(CAT, obj: pad, "Handling event {:?}", event); match event.view() { EventView::Caps(e) => { let mut state = self.state.lock().unwrap(); if let Some(ref mut state) = state.as_mut() { let caps = e.caps(); let s = caps.structure(0).unwrap(); let had_framerate = state.framerate.is_some(); if let Ok(framerate) = s.get::("framerate") { state.framerate = Some(framerate); } else { state.framerate = Some(gst::Fraction::new(30, 1)); } if !had_framerate { gst::info!( CAT, imp: self, "Received video caps, setting up transcription" ); self.setup_transcription(state); } } gst::Pad::event_default(pad, Some(&*self.obj()), event) } _ => gst::Pad::event_default(pad, Some(&*self.obj()), event), } } } #[glib::object_subclass] impl ObjectSubclass for TranscriberBin { const NAME: &'static str = "GstTranscriberBin"; type Type = super::TranscriberBin; type ParentType = gst::Bin; fn with_class(klass: &Self::Class) -> Self { let templ = klass.pad_template("sink_audio").unwrap(); let audio_sinkpad = gst::GhostPad::from_template(&templ, Some("sink_audio")); let templ = klass.pad_template("src_audio").unwrap(); let audio_srcpad = gst::GhostPad::builder_with_template(&templ, Some("src_audio")) .query_function(|pad, parent, query| { TranscriberBin::catch_panic_pad_function( parent, || false, |transcriber| transcriber.src_query(pad.upcast_ref(), query), ) }) .build(); let templ = klass.pad_template("sink_video").unwrap(); let video_sinkpad = gst::GhostPad::builder_with_template(&templ, Some("sink_video")) .event_function(|pad, parent, event| { TranscriberBin::catch_panic_pad_function( parent, || false, |transcriber| transcriber.video_sink_event(pad.upcast_ref(), event), ) }) .build(); let templ = klass.pad_template("src_video").unwrap(); let video_srcpad = gst::GhostPad::builder_with_template(&templ, Some("src_video")) .query_function(|pad, parent, query| { TranscriberBin::catch_panic_pad_function( parent, || false, |transcriber| transcriber.src_query(pad.upcast_ref(), query), ) }) .build(); Self { audio_srcpad, video_srcpad, audio_sinkpad, video_sinkpad, state: Mutex::new(None), settings: Mutex::new(Settings::default()), } } } impl ObjectImpl for TranscriberBin { fn properties() -> &'static [glib::ParamSpec] { static PROPERTIES: Lazy> = Lazy::new(|| { vec![ glib::ParamSpecBoolean::builder("passthrough") .nick("Passthrough") .blurb("Whether transcription should occur") .default_value(DEFAULT_PASSTHROUGH) .mutable_playing() .build(), glib::ParamSpecUInt::builder("latency") .nick("Latency") .blurb("Amount of milliseconds to allow the transcriber") .default_value(DEFAULT_LATENCY.mseconds() as u32) .mutable_ready() .build(), glib::ParamSpecUInt::builder("accumulate-time") .nick("accumulate-time") .blurb("Cut-off time for textwrap accumulation, in milliseconds (0=do not accumulate). \ Set this to a non-default value if you plan to switch to pop-on mode") .default_value(DEFAULT_ACCUMULATE.mseconds() as u32) .mutable_ready() .build(), glib::ParamSpecEnum::builder::("mode", DEFAULT_MODE) .nick("Mode") .blurb("Which closed caption mode to operate in") .mutable_playing() .build(), glib::ParamSpecBoxed::builder::("cc-caps") .nick("Closed Caption caps") .blurb("The expected format of the closed captions") .mutable_ready() .build(), glib::ParamSpecObject::builder::("transcriber") .nick("Transcriber") .blurb("The transcriber element to use") .mutable_ready() .build(), glib::ParamSpecEnum::builder::("caption-source", DEFAULT_CAPTION_SOURCE) .nick("Caption source") .blurb("Caption source to use. \ If \"Transcription\" or \"Inband\" is selected, the caption meta \ of the other source will be dropped by transcriberbin") .mutable_playing() .build(), ] }); PROPERTIES.as_ref() } fn set_property(&self, _id: usize, value: &glib::Value, pspec: &glib::ParamSpec) { match pspec.name() { "passthrough" => { let mut settings = self.settings.lock().unwrap(); let old_passthrough = settings.passthrough; let new_passthrough = value.get().expect("type checked upstream"); settings.passthrough = new_passthrough; if old_passthrough != new_passthrough { drop(settings); self.block_and_update(new_passthrough); } } "latency" => { let mut settings = self.settings.lock().unwrap(); settings.latency = gst::ClockTime::from_mseconds( value.get::().expect("type checked upstream").into(), ); } "accumulate-time" => { let mut settings = self.settings.lock().unwrap(); settings.accumulate_time = gst::ClockTime::from_mseconds( value.get::().expect("type checked upstream").into(), ); } "mode" => { let mut settings = self.settings.lock().unwrap(); let old_mode = settings.mode; let new_mode = value.get().expect("type checked upstream"); settings.mode = new_mode; if old_mode != new_mode { drop(settings); self.setup_cc_mode(self.state.lock().unwrap().as_ref().unwrap()); } } "cc-caps" => { let mut settings = self.settings.lock().unwrap(); settings.cc_caps = value.get().expect("type checked upstream"); } "transcriber" => { let mut s = self.state.lock().unwrap(); if let Some(ref mut state) = s.as_mut() { let old_transcriber = state.transcriber.clone(); state.transcriber = value.get().expect("type checked upstream"); if old_transcriber != state.transcriber { match self.relink_transcriber(state, &old_transcriber) { Ok(()) => (), Err(err) => { gst::error!(CAT, "invalid transcriber: {}", err); drop(s); *self.state.lock().unwrap() = None; } } } } } "caption-source" => { let mut settings = self.settings.lock().unwrap(); settings.caption_source = value.get().expect("type checked upstream"); let s = self.state.lock().unwrap(); if let Some(state) = s.as_ref() { if settings.caption_source == CaptionSource::Inband { gst::debug!(CAT, imp: self, "Use inband caption, dropping transcription"); state.transcription_valve.set_property("drop", true); } else { gst::debug!(CAT, imp: self, "Stop dropping transcription"); state.transcription_valve.set_property("drop", false); } } } _ => unimplemented!(), } } fn property(&self, _id: usize, pspec: &glib::ParamSpec) -> glib::Value { match pspec.name() { "passthrough" => { let settings = self.settings.lock().unwrap(); settings.passthrough.to_value() } "latency" => { let settings = self.settings.lock().unwrap(); (settings.latency.mseconds() as u32).to_value() } "accumulate-time" => { let settings = self.settings.lock().unwrap(); (settings.accumulate_time.mseconds() as u32).to_value() } "mode" => { let settings = self.settings.lock().unwrap(); settings.mode.to_value() } "cc-caps" => { let settings = self.settings.lock().unwrap(); settings.cc_caps.to_value() } "transcriber" => { let state = self.state.lock().unwrap(); if let Some(state) = state.as_ref() { state.transcriber.to_value() } else { let ret: Option = None; ret.to_value() } } "caption-source" => { let settings = self.settings.lock().unwrap(); settings.caption_source.to_value() } _ => unimplemented!(), } } fn constructed(&self) { self.parent_constructed(); let obj = self.obj(); obj.add_pad(&self.audio_srcpad).unwrap(); obj.add_pad(&self.audio_sinkpad).unwrap(); obj.add_pad(&self.video_srcpad).unwrap(); obj.add_pad(&self.video_sinkpad).unwrap(); *self.state.lock().unwrap() = match self.build_state() { Ok(mut state) => match self.construct_internal_bin(&mut state) { Ok(()) => Some(state), Err(err) => { gst::error!(CAT, "Failed to build internal bin: {}", err); None } }, Err(err) => { gst::error!(CAT, "Failed to build state: {}", err); None } } } } impl GstObjectImpl for TranscriberBin {} impl ElementImpl for TranscriberBin { fn metadata() -> Option<&'static gst::subclass::ElementMetadata> { static ELEMENT_METADATA: Lazy = Lazy::new(|| { gst::subclass::ElementMetadata::new( "TranscriberBin", "Audio / Video / Text", "Transcribes audio and adds it as closed captions", "Mathieu Duponchelle ", ) }); Some(&*ELEMENT_METADATA) } fn pad_templates() -> &'static [gst::PadTemplate] { static PAD_TEMPLATES: Lazy> = Lazy::new(|| { let caps = gst::Caps::builder("video/x-raw").build(); let video_src_pad_template = gst::PadTemplate::new( "src_video", gst::PadDirection::Src, gst::PadPresence::Always, &caps, ) .unwrap(); let video_sink_pad_template = gst::PadTemplate::new( "sink_video", gst::PadDirection::Sink, gst::PadPresence::Always, &caps, ) .unwrap(); let caps = gst::Caps::builder("audio/x-raw").build(); let audio_src_pad_template = gst::PadTemplate::new( "src_audio", gst::PadDirection::Src, gst::PadPresence::Always, &caps, ) .unwrap(); let audio_sink_pad_template = gst::PadTemplate::new( "sink_audio", gst::PadDirection::Sink, gst::PadPresence::Always, &caps, ) .unwrap(); vec![ video_src_pad_template, video_sink_pad_template, audio_src_pad_template, audio_sink_pad_template, ] }); PAD_TEMPLATES.as_ref() } #[allow(clippy::single_match)] fn change_state( &self, transition: gst::StateChange, ) -> Result { gst::trace!(CAT, imp: self, "Changing state {:?}", transition); match transition { gst::StateChange::ReadyToPaused => { let mut state = self.state.lock().unwrap(); if let Some(ref mut state) = state.as_mut() { if state.framerate.is_some() { gst::info!( CAT, imp: self, "Received video caps, setting up transcription" ); self.setup_transcription(state); } } else { gst::element_imp_error!( self, gst::StreamError::Failed, ["Can't change state with no state"] ); return Err(gst::StateChangeError); } } _ => (), } self.parent_change_state(transition) } } impl BinImpl for TranscriberBin { fn handle_message(&self, msg: gst::Message) { use gst::MessageView; match msg.view() { MessageView::Error(m) => { /* We must have a state here */ let s = self.state.lock().unwrap(); if let Some(state) = s.as_ref() { if msg.src().as_ref() == Some(state.transcriber.upcast_ref()) { gst::error!( CAT, imp: self, "Transcriber has posted an error ({:?}), going back to passthrough", m ); drop(s); let mut settings = self.settings.lock().unwrap(); settings.passthrough = true; drop(settings); self.obj().notify("passthrough"); self.obj().call_async(move |bin| { let thiz = bin.imp(); thiz.block_and_update(true); }); } else { drop(s); self.parent_handle_message(msg); } } else { drop(s); self.parent_handle_message(msg); } } _ => self.parent_handle_message(msg), } } }