Segmentation descriptor with upid types

2022-05-03 13:40:39 +02:00 · 2022-05-03 13:40:39 +02:00 · fa917dafce
parent 1f1ee312c0
commit fa917dafce
6 changed files with 284 additions and 126 deletions
--- a/Cargo.toml
+++ b/Cargo.toml
@ -14,6 +14,7 @@ thiserror = "1"
 serde = { version = "1", features = ["derive"], optional = true }
 hex = { version = "0.4", default-features = false, features = ["alloc"] }
 anyhow = "1"
 ascii = "1"
 [dev-dependencies]
 serde_json = "1"
--- a/README.md
+++ b/README.md
@ -22,18 +22,15 @@ Implemented parts of the standard are:
   - [x] Splice Null
   - [ ] Splice Insert
   - [ ] Splice Schedule
-   - [ ] Time Signal
+   - [x] Time Signal
   - [ ] Bandwidth Reservation
   - [ ] Splice Time
 - Splice Descriptors:
   - [ ] Avail
   - [ ] DTMF
   - [ ] Segmentation Descriptor
     - [ ] Cablelabs
     - [ ] MPU
     - [ ] MID
     - [ ] ADS
     - [ ] SCR
 - Encryption Information section
     - Encryption Algorithms:
       - [ ] DES – ECB mode
--- a/src/descriptors/mod.rs
+++ b/src/descriptors/mod.rs
@ -42,6 +42,12 @@ impl TransportPacketWrite for SpliceDescriptor {
    }
 }
 impl From<SegmentationDescriptor> for SpliceDescriptor {
    fn from(segmentation: SegmentationDescriptor) -> Self {
        SpliceDescriptor::Segmentation(segmentation)
    }
 }
 #[derive(Copy, Clone, Debug, PartialEq)]
 enum SpliceDescriptorTag {
    Avail,
--- a/src/descriptors/segmentation.rs
+++ b/src/descriptors/segmentation.rs
@ -1,6 +1,7 @@
-use crate::{CueError, TransportPacketWrite};
+use crate::{BytesWritten, CueError, TransportPacketWrite};
 use anyhow::Context;
-use bitstream_io::{BigEndian, BitWrite, BitWriter};
+use ascii::AsciiString;
 use bitstream_io::{BigEndian, BitRecorder, BitWrite, BitWriter};
 use std::ffi::CStr;
 use std::fmt::{Display, Formatter};
 use std::io;
@ -10,7 +11,7 @@ use crate::descriptors::{SpliceDescriptorExt, SpliceDescriptorTag};
 #[cfg(feature = "serde")]
 use serde::Serialize;
-#[derive(Debug, Clone, PartialEq)]
+#[derive(Debug, Clone, PartialEq, Default)]
 #[cfg_attr(feature = "serde", derive(Serialize))]
 pub struct SegmentationDescriptor {
    segmentation_event_id: u32,
@ -32,6 +33,76 @@ pub struct SegmentationDescriptor {
    sub_segments_expected: u8,
 }
 impl SegmentationDescriptor {
    pub fn set_segmentation_event_id(&mut self, segmentation_event_id: u32) {
        self.segmentation_event_id = segmentation_event_id;
    }
    pub fn set_segmentation_event_cancel_indicator(
        &mut self,
        segmentation_event_cancel_indicator: bool,
    ) {
        self.segmentation_event_cancel_indicator = segmentation_event_cancel_indicator;
    }
    pub fn set_program_segmentation_flag(&mut self, program_segmentation_flag: bool) {
        self.program_segmentation_flag = program_segmentation_flag;
    }
    pub fn set_segmentation_duration_flag(&mut self, segmentation_duration_flag: bool) {
        self.segmentation_duration_flag = segmentation_duration_flag;
    }
    pub fn set_delivery_not_restricted_flag(&mut self, delivery_not_restricted_flag: bool) {
        self.delivery_not_restricted_flag = delivery_not_restricted_flag;
    }
    pub fn set_web_delivery_allowed_flag(&mut self, web_delivery_allowed_flag: bool) {
        self.web_delivery_allowed_flag = web_delivery_allowed_flag;
    }
    pub fn set_no_regional_blackout_flag(&mut self, no_regional_blackout_flag: bool) {
        self.no_regional_blackout_flag = no_regional_blackout_flag;
    }
    pub fn set_archive_allowed_flag(&mut self, archive_allowed_flag: bool) {
        self.archive_allowed_flag = archive_allowed_flag;
    }
    pub fn set_device_restrictions(&mut self, device_restrictions: DeviceRestrictions) {
        self.device_restrictions = device_restrictions;
    }
    pub fn set_segmentation_duration(&mut self, segmentation_duration: u64) {
        self.set_segmentation_duration_flag(true);
        self.segmentation_duration = segmentation_duration;
    }
    pub fn set_segmentation_upid(&mut self, segmentation_upid: SegmentationUpid) {
        self.segmentation_upid = segmentation_upid;
    }
    pub fn set_segmentation_type(&mut self, segmentation_type: SegmentationType) {
        self.segmentation_type = segmentation_type;
    }
    pub fn set_segment_num(&mut self, segment_num: u8) {
        self.segment_num = segment_num;
    }
    pub fn set_segments_expected(&mut self, segments_expected: u8) {
        self.segments_expected = segments_expected;
    }
    pub fn set_sub_segment_num(&mut self, sub_segment_num: u8) {
        self.sub_segment_num = sub_segment_num;
    }
    pub fn set_sub_segments_expected(&mut self, sub_segments_expected: u8) {
        self.sub_segments_expected = sub_segments_expected;
    }
 }
 impl TransportPacketWrite for SegmentationDescriptor {
    fn write_to<W>(&self, buffer: &mut W) -> anyhow::Result<()>
    where
@ -39,66 +110,63 @@ impl TransportPacketWrite for SegmentationDescriptor {
    {
        use SegmentationFieldSyntax::*;
-        let mut data = Vec::new();
+        let mut recorder: BitRecorder<u32, BigEndian> = BitRecorder::new();
-        let mut internal_buffer = BitWriter::endian(&mut data, BigEndian);
+        recorder.write(32, self.identifier())?;
-        internal_buffer.write(32, self.identifier())?;
+        recorder.write(32, self.segmentation_event_id)?;
-        internal_buffer.write(32, self.segmentation_event_id)?;
+        recorder.write_bit(self.segmentation_event_cancel_indicator)?;
-        internal_buffer.write_bit(self.segmentation_event_cancel_indicator)?;
+        recorder.write(7, 0x7f)?;
        internal_buffer.write(7, 0x7f)?;
        if !self.segmentation_event_cancel_indicator {
-            internal_buffer.write_bit(self.program_segmentation_flag)?;
+            recorder.write_bit(self.program_segmentation_flag)?;
-            internal_buffer.write_bit(self.segmentation_duration_flag)?;
+            recorder.write_bit(self.segmentation_duration_flag)?;
-            internal_buffer.write_bit(self.delivery_not_restricted_flag)?;
+            recorder.write_bit(self.delivery_not_restricted_flag)?;
            if !self.delivery_not_restricted_flag {
-                internal_buffer.write_bit(self.web_delivery_allowed_flag)?;
+                recorder.write_bit(self.web_delivery_allowed_flag)?;
-                internal_buffer.write_bit(self.no_regional_blackout_flag)?;
+                recorder.write_bit(self.no_regional_blackout_flag)?;
-                internal_buffer.write_bit(self.archive_allowed_flag)?;
+                recorder.write_bit(self.archive_allowed_flag)?;
-                internal_buffer.write(2, self.device_restrictions as u8)?;
+                recorder.write(2, self.device_restrictions as u8)?;
            } else {
-                internal_buffer.write(5, 0x1f)?;
+                recorder.write(5, 0x1f)?;
            }
            if !self.program_segmentation_flag {
-                internal_buffer.write(8, self.components.len() as u8)?;
+                recorder.write(8, self.components.len() as u8)?;
                for component in &self.components {
-                    component.write_to(&mut internal_buffer)?;
+                    component.write_to(&mut recorder)?;
                }
            }
            if self.segmentation_duration_flag {
-                internal_buffer.write(40, self.segmentation_duration)?;
+                recorder.write(40, self.segmentation_duration)?;
            }
-            internal_buffer.write(8, u8::from(self.segmentation_upid.segmentation_upid_type()))?;
+            recorder.write(8, u8::from(self.segmentation_upid.segmentation_upid_type()))?;
-            self.segmentation_upid.write_to(&mut internal_buffer)?;
+            self.segmentation_upid.write_to(&mut recorder)?;
-            internal_buffer.write(8, self.segmentation_type.id())?;
+            recorder.write(8, self.segmentation_type.id())?;
            let s = self.segmentation_type.syntax();
            match s.segment_num {
-                Fixed(n) => internal_buffer.write(8, n)?,
+                Fixed(n) => recorder.write(8, n)?,
-                NonZero | ZeroOrNonZero => internal_buffer.write(8, self.segment_num)?, // needs to check for non-zero
+                NonZero | ZeroOrNonZero => recorder.write(8, self.segment_num)?, // needs to check for non-zero
-                NotUsed => internal_buffer.write(8, 0u8)?,
+                NotUsed => recorder.write(8, 0u8)?,
            }
            match s.segments_expected {
-                Fixed(n) => internal_buffer.write(8, n)?,
+                Fixed(n) => recorder.write(8, n)?,
-                NonZero | ZeroOrNonZero => internal_buffer.write(8, self.segments_expected)?, // needs to check for non-zero
+                NonZero | ZeroOrNonZero => recorder.write(8, self.segments_expected)?, // needs to check for non-zero
-                NotUsed => internal_buffer.write(8, 0u8)?,
+                NotUsed => recorder.write(8, 0u8)?,
            }
            match s.sub_segment_num {
-                Fixed(n) => internal_buffer.write(8, n)?,
+                Fixed(n) => recorder.write(8, n)?,
-                NonZero | ZeroOrNonZero => internal_buffer.write(8, self.sub_segment_num)?, // needs to check for non-zero
+                NonZero | ZeroOrNonZero => recorder.write(8, self.sub_segment_num)?, // needs to check for non-zero
                NotUsed => {}
            }
            match s.sub_segments_expected {
-                Fixed(n) => internal_buffer.write(8, n)?,
+                Fixed(n) => recorder.write(8, n)?,
-                NonZero | ZeroOrNonZero => internal_buffer.write(8, self.sub_segments_expected)?, // needs to check for non-zero
+                NonZero | ZeroOrNonZero => recorder.write(8, self.sub_segments_expected)?, // needs to check for non-zero
                NotUsed => {}
            }
        }
        internal_buffer.flush()?;
        let mut buffer = BitWriter::endian(buffer, BigEndian);
        buffer.write(8, self.splice_descriptor_tag())?;
-        buffer.write(8, data.len() as u8)?;
+        buffer.write(8, recorder.bytes_written() as u8)?;
-        buffer.write_bytes(data.as_slice())?;
+        recorder.playback(&mut buffer)?;
        Ok(())
    }
@ -113,7 +181,7 @@ impl SpliceDescriptorExt for SegmentationDescriptor {
 #[derive(Debug, Clone, Copy, PartialEq)]
 #[cfg_attr(feature = "serde", derive(Serialize))]
 #[repr(u8)]
-enum DeviceRestrictions {
+pub enum DeviceRestrictions {
    /// This Segment is restricted for a class of devices defined by an out of band message that
    /// describes which devices are excluded.
    RestrictGroup0 = 0b00,
@ -130,6 +198,12 @@ enum DeviceRestrictions {
    None = 0b11,
 }
 impl Default for DeviceRestrictions {
    fn default() -> Self {
        DeviceRestrictions::None
    }
 }
 #[derive(Debug, Clone, Copy, PartialEq)]
 #[non_exhaustive]
 pub enum SegmentationUpidType {
@ -154,6 +228,12 @@ pub enum SegmentationUpidType {
    Reserved(u8),
 }
 impl Default for SegmentationUpidType {
    fn default() -> Self {
        SegmentationUpidType::NotUsed
    }
 }
 impl From<SegmentationUpidType> for u8 {
    fn from(s: SegmentationUpidType) -> Self {
        use SegmentationUpidType::*;
@ -213,83 +293,103 @@ impl Display for SegmentationUpidType {
 #[non_exhaustive]
 pub enum SegmentationUpid {
    NotUsed,
-    UserDefinedDeprecated,
+    UserDefinedDeprecated(AsciiString),
-    ISCI,
+    ISCI(AsciiString),
-    AdID,
+    AdID(AsciiString),
-    UMID,
+    UMID(AsciiString),
-    ISANDeprecated,
+    ISANDeprecated(u64),
-    ISAN,
+    ISAN(u128),
-    TID,
+    TID(AsciiString),
    AiringID(u64),
-    ADI,
+    ADI(AsciiString),
-    EIDR,
+    EIDR(u128),
-    ATSCContentIdentifier,
+    ATSCContentIdentifier(AsciiString),
    MPU,
    MID,
-    ADSInformation,
+    ADSInformation(AsciiString),
-    URI,
+    URI(AsciiString),
-    UUID,
+    UUID(u128),
-    SCR,
+    SCR(AsciiString),
    Reserved(u8),
 }
 impl Default for SegmentationUpid {
    fn default() -> Self {
        SegmentationUpid::NotUsed
    }
 }
 impl SegmentationUpid {
    pub fn segmentation_upid_type(&self) -> SegmentationUpidType {
        use SegmentationUpid::*;
        match self {
            NotUsed => SegmentationUpidType::NotUsed,
-            UserDefinedDeprecated => SegmentationUpidType::UserDefinedDeprecated,
+            UserDefinedDeprecated(_) => SegmentationUpidType::UserDefinedDeprecated,
-            ISCI => SegmentationUpidType::ISCI,
+            ISCI(_) => SegmentationUpidType::ISCI,
-            AdID => SegmentationUpidType::AdID,
+            AdID(_) => SegmentationUpidType::AdID,
-            UMID => SegmentationUpidType::UMID,
+            UMID(_) => SegmentationUpidType::UMID,
-            ISANDeprecated => SegmentationUpidType::ISANDeprecated,
+            ISANDeprecated(_) => SegmentationUpidType::ISANDeprecated,
-            ISAN => SegmentationUpidType::ISAN,
+            ISAN(_) => SegmentationUpidType::ISAN,
-            TID => SegmentationUpidType::TID,
+            TID(_) => SegmentationUpidType::TID,
            AiringID(_) => SegmentationUpidType::AiringID,
-            ADI => SegmentationUpidType::ADI,
+            ADI(_) => SegmentationUpidType::ADI,
-            EIDR => SegmentationUpidType::EIDR,
+            EIDR(_) => SegmentationUpidType::EIDR,
-            ATSCContentIdentifier => SegmentationUpidType::ATSCContentIdentifier,
+            ATSCContentIdentifier(_) => SegmentationUpidType::ATSCContentIdentifier,
            MPU => SegmentationUpidType::MPU,
            MID => SegmentationUpidType::MID,
-            ADSInformation => SegmentationUpidType::ADSInformation,
+            ADSInformation(_) => SegmentationUpidType::ADSInformation,
-            URI => SegmentationUpidType::URI,
+            URI(_) => SegmentationUpidType::URI,
-            UUID => SegmentationUpidType::UUID,
+            UUID(_) => SegmentationUpidType::UUID,
-            SCR => SegmentationUpidType::SCR,
+            SCR(_) => SegmentationUpidType::SCR,
            Reserved(r) => SegmentationUpidType::Reserved(*r),
        }
    }
-    fn write_to<W>(&self, out: &mut BitWriter<W, BigEndian>) -> io::Result<()>
+    fn write_to(&self, out: &mut BitRecorder<u32, BigEndian>) -> anyhow::Result<()> {
    where
        W: io::Write,
    {
        use SegmentationUpid::*;
-        let mut data = Vec::new();
+        let mut recorder = BitRecorder::<u32, BigEndian>::new();
        let mut buffer = BitWriter::endian(&mut data, BigEndian);
        match self {
-            // URI(uri) => {
+            AiringID(v) | ISANDeprecated(v) => {
-            //     let raw_value = CStr::from_bytes_with_nul("https://link.com".as_bytes()).unwrap();
+                // 8 byes is 64 bits
-            //     buffer.write_bytes(raw_value.to_bytes())?;
+                recorder.write(64, *v)?
            // }
            AiringID(aid) => {
                // 8 bytes is 64 bits
                buffer.write(64, *aid)?;
            }
-            _ => {}
+            ISAN(value) | EIDR(value) | UUID(value) => {
                recorder.write_bytes(value.to_be_bytes().as_slice())?
            }
            UserDefinedDeprecated(value)
            | ADI(value)
            | ATSCContentIdentifier(value)
            | ADSInformation(value)
            | URI(value)
            | SCR(value) => recorder.write_bytes(value.as_bytes())?,
            ISCI(v) => {
                let buf = v.as_bytes().iter().take(8).copied().collect::<Vec<_>>();
                recorder.write_bytes(buf.as_slice())?;
            }
            AdID(v) | TID(v) => {
                let buf = v.as_bytes().iter().take(12).copied().collect::<Vec<_>>();
                recorder.write_bytes(buf.as_slice())?;
            }
            UMID(v) => {
                let buf = v.as_bytes().iter().take(32).copied().collect::<Vec<_>>();
                recorder.write_bytes(buf.as_slice())?;
            }
            MPU => todo!("Needs to implement MPU() record"),
            MID => todo!("Needs to implement MID() record"),
            NotUsed => {}
            Reserved(_) => {}
        }
        buffer.flush()?;
        match self {
-            // All variants with variable length use the same write logic
+            NotUsed | Reserved(_) => {
-            UserDefinedDeprecated | URI | AiringID(_) => {
+                out.write(8, 0u8)?;
                out.write(8, data.len() as u8)?;
                out.write_bytes(data.as_slice())?;
            }
            // All variants with any contained value use the same logic
            _ => {
-                out.write(8, 0x0)?;
+                out.write(8, recorder.bytes_written() as u8)?;
                recorder.playback(out)?;
            }
        }
@ -305,13 +405,10 @@ struct Component {
 }
 impl Component {
-    fn write_to<W>(&self, buffer: &mut BitWriter<W, BigEndian>) -> io::Result<()>
+    fn write_to(&self, recorder: &mut BitRecorder<u32, BigEndian>) -> io::Result<()> {
-    where
+        recorder.write(8, self.component_tag)?;
-        W: io::Write,
+        recorder.write(7, 0x7f)?;
-    {
+        recorder.write(33, self.pts_offset)
        buffer.write(8, self.component_tag)?;
        buffer.write(7, 0x7f)?;
        buffer.write(33, self.pts_offset)
    }
 }
@ -367,6 +464,12 @@ pub enum SegmentationType {
    NetworkEnd,
 }
 impl Default for SegmentationType {
    fn default() -> Self {
        SegmentationType::NotIndicated
    }
 }
 impl SegmentationType {
    fn id(&self) -> u8 {
        use SegmentationType::*;
@ -787,12 +890,15 @@ mod tests {
    fn write_segmentation_upid_airing_id() -> Result<()> {
        let mut data = Vec::new();
        let mut buffer = BitWriter::endian(&mut data, BigEndian);
        let mut recorder = BitRecorder::<u32, BigEndian>::new();
        let segmentation_upid = SegmentationUpid::AiringID(0x2ca0a18a);
-        segmentation_upid.write_to(&mut buffer)?;
+        segmentation_upid.write_to(&mut recorder)?;
        recorder.playback(&mut buffer)?;
        // length (1 byte) + data (8 bytes)
-        assert_eq!(data.len(), 9);
+        assert_eq!(recorder.bytes_written(), 9);
        let hex = hex::encode(data[1..].to_vec());
        assert_eq!(hex, "000000002ca0a18a".to_string());
@ -803,26 +909,20 @@ mod tests {
    #[test]
    fn write_segmentation_descriptor() -> Result<()> {
        let mut data = Vec::new();
-        let segmentation_descriptor = SegmentationDescriptor {
+        let mut descriptor = SegmentationDescriptor::default();
-            segmentation_event_id: 0x4800008e,
+        descriptor.set_segmentation_event_id(0x4800008e);
-            segmentation_event_cancel_indicator: false,
+        descriptor.set_program_segmentation_flag(true);
-            program_segmentation_flag: true,
+        descriptor.set_segmentation_duration_flag(true);
-            segmentation_duration_flag: true,
+        descriptor.set_no_regional_blackout_flag(true);
-            delivery_not_restricted_flag: false,
+        descriptor.set_archive_allowed_flag(true);
-            web_delivery_allowed_flag: false,
+        descriptor.set_segmentation_duration(27630000);
-            no_regional_blackout_flag: true,
+        descriptor.set_segmentation_upid(SegmentationUpid::AiringID(0x2ca0a18a));
-            archive_allowed_flag: true,
+        descriptor.set_segmentation_type(SegmentationType::ProviderPlacementOpportunityStart);
-            device_restrictions: DeviceRestrictions::None,
+        descriptor.set_segment_num(2);
-            components: vec![],
+        descriptor.set_sub_segment_num(154);
-            segmentation_duration: 27630000,
+        descriptor.set_sub_segments_expected(201);
-            segmentation_upid: SegmentationUpid::AiringID(0x2ca0a18a),
+
-            segmentation_type: SegmentationType::ProviderPlacementOpportunityStart,
+        descriptor.write_to(&mut data)?;
            segment_num: 2,
            segments_expected: 0,
            sub_segment_num: 154,
            sub_segments_expected: 201,
        };
        segmentation_descriptor.write_to(&mut data)?;
        let hex = hex::encode(data.as_slice());
        assert_eq!(
--- a/src/info.rs
+++ b/src/info.rs
@ -340,7 +340,7 @@ mod serde_serialization {
 mod tests {
    use super::*;
    use crate::commands::*;
-    use crate::descriptors::SegmentationDescriptor;
+    use crate::descriptors::{SegmentationDescriptor, SegmentationType, SegmentationUpid};
    use crate::ClockTimeExt;
    use anyhow::Result;
    use assert_json_diff::assert_json_eq;
@ -374,11 +374,25 @@ mod tests {
    fn compliance_spec_14_1_example_time_signal_as_base64() -> Result<()> {
        let mut splice = SpliceInfoSection::new(TimeSignal::from_ticks(0x072bd0050));
        splice.set_cw_index(0xff);
-        // splice.add_descriptor(SegmentationDescriptor::new().into());
+
        let mut descriptor = SegmentationDescriptor::default();
        descriptor.set_segmentation_event_id(0x4800008e);
        descriptor.set_program_segmentation_flag(true);
        descriptor.set_segmentation_duration_flag(true);
        descriptor.set_no_regional_blackout_flag(true);
        descriptor.set_archive_allowed_flag(true);
        descriptor.set_segmentation_duration(27630000);
        descriptor.set_segmentation_upid(SegmentationUpid::AiringID(0x2ca0a18a));
        descriptor.set_segmentation_type(SegmentationType::ProviderPlacementOpportunityStart);
        descriptor.set_segment_num(2);
        descriptor.set_sub_segment_num(154);
        descriptor.set_sub_segments_expected(201);
        splice.add_descriptor(descriptor.into());
        assert_eq!(
            splice.into_encoded()?.to_base64(),
-            "/DA0AAAAAAAA///wBQb+cr0AUAAeAhxDVUVJSAAAjn/PAAGlmbAICAAAAAAsoKGKNAIAmsnRfg=="
+            "/DA2AAAAAAAA///wBQb+cr0AUAAgAh5DVUVJSAAAjn/PAAGlmbAICAAAAAAsoKGKNAIAmsm2waDx"
                .to_string()
        );
        Ok(())
@ -388,11 +402,25 @@ mod tests {
    fn compliance_spec_14_1_example_time_signal_as_hex() -> Result<()> {
        let mut splice = SpliceInfoSection::new(TimeSignal::from_ticks(0x072bd0050));
        splice.set_cw_index(0xff);
-        // splice.add_descriptor(SegmentationDescriptor::new().into());
+
        let mut descriptor = SegmentationDescriptor::default();
        descriptor.set_segmentation_event_id(0x4800008e);
        descriptor.set_program_segmentation_flag(true);
        descriptor.set_segmentation_duration_flag(true);
        descriptor.set_no_regional_blackout_flag(true);
        descriptor.set_archive_allowed_flag(true);
        descriptor.set_segmentation_duration(27630000);
        descriptor.set_segmentation_upid(SegmentationUpid::AiringID(0x2ca0a18a));
        descriptor.set_segmentation_type(SegmentationType::ProviderPlacementOpportunityStart);
        descriptor.set_segment_num(2);
        descriptor.set_sub_segment_num(154);
        descriptor.set_sub_segments_expected(201);
        splice.add_descriptor(descriptor.into());
        assert_eq!(
            splice.into_encoded()?.to_hex(),
-            "0xfc3034000000000000fffff00506fe72bd0050001e021c435545494800008e7fcf0001a599b00808000000002ca0a18a3402009ac9d17e".to_string()
+            "0xfc3036000000000000fffff00506fe72bd00500020021e435545494800008e7fcf0001a599b00808000000002ca0a18a3402009ac9b6c1a0f1".to_string()
        );
        Ok(())
    }
@ -402,7 +430,21 @@ mod tests {
    fn compliance_spec_14_1_example_time_signal_as_json() -> Result<()> {
        let mut splice = SpliceInfoSection::new(TimeSignal::from_ticks(0x072bd0050));
        splice.set_cw_index(0xff);
-        // splice.add_descriptor(SegmentationDescriptor::new().into());
+
        let mut descriptor = SegmentationDescriptor::default();
        descriptor.set_segmentation_event_id(0x4800008e);
        descriptor.set_program_segmentation_flag(true);
        descriptor.set_segmentation_duration_flag(true);
        descriptor.set_no_regional_blackout_flag(true);
        descriptor.set_archive_allowed_flag(true);
        descriptor.set_segmentation_duration(27630000);
        descriptor.set_segmentation_upid(SegmentationUpid::AiringID(0x2ca0a18a));
        descriptor.set_segmentation_type(SegmentationType::ProviderPlacementOpportunityStart);
        descriptor.set_segment_num(2);
        descriptor.set_sub_segment_num(154);
        descriptor.set_sub_segments_expected(201);
        splice.add_descriptor(descriptor.into());
        assert_json_eq!(
            serde_json::to_value(&splice.into_encoded()?)?,
--- a/src/lib.rs
+++ b/src/lib.rs
@ -1,3 +1,4 @@
 use bitstream_io::{BigEndian, BitRecorder};
 use std::io;
 use std::time::Duration;
 use thiserror::Error;
@ -40,6 +41,17 @@ fn ticks_to_secs(value: u64) -> f64 {
    (value as f64 / 90_000.0 * 1_000_000.0).ceil() as f64 / 1_000_000.0
 }
 trait BytesWritten {
    fn bytes_written(&self) -> u32;
 }
 impl BytesWritten for BitRecorder<u32, BigEndian> {
    #[inline]
    fn bytes_written(&self) -> u32 {
        self.written() / 8
    }
 }
 #[cfg(feature = "serde")]
 fn serialize_time<S>(value: &u64, serializer: S) -> Result<S::Ok, S::Error>
 where