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dvb_si/descriptors/extension/
s2x_satellite_delivery_system.rs

1//! S2X Satellite Delivery System Descriptor — ETSI EN 300 468 §6.4.6.5.2 (tag_extension 0x17).
2//!
3//! The `reserved_tail` field holds trailing `reserved_future_use` bytes
4//! verbatim; future spec growth is surfaced via additive typed accessors.
5use super::*;
6use crate::descriptors::satellite_delivery_system::{Polarization, RollOff};
7
8impl<'a> ExtensionBodyDef<'a> for S2XSatelliteDeliverySystem<'a> {
9    const TAG_EXTENSION: u8 = 0x17;
10    const NAME: &'static str = "S2X_SATELLITE_DELIVERY_SYSTEM";
11}
12
13// ---------------------------------------------------------------------------
14//  S2X-specific enums (Tables 141-144)
15// ---------------------------------------------------------------------------
16
17/// S2X mode — ETSI EN 300 468 Table 142.
18#[derive(Debug, Clone, Copy, PartialEq, Eq)]
19#[cfg_attr(feature = "serde", derive(serde::Serialize))]
20#[non_exhaustive]
21pub enum S2XMode {
22    /// Reserved for future use.
23    Reserved0,
24    /// S2X.
25    S2X,
26    /// S2X + time slicing.
27    S2XTimeSlicing,
28    /// S2X + channel bonding.
29    S2XChannelBonding,
30    /// Reserved / future use.
31    Reserved(u8),
32}
33
34impl S2XMode {
35    #[must_use]
36    /// Construct from a raw `u8`; every value maps to a variant (total, lossless).
37    pub fn from_u8(v: u8) -> Self {
38        match v {
39            0 => S2XMode::Reserved0,
40            1 => S2XMode::S2X,
41            2 => S2XMode::S2XTimeSlicing,
42            3 => S2XMode::S2XChannelBonding,
43            other => S2XMode::Reserved(other),
44        }
45    }
46
47    #[must_use]
48    /// Inverse of `from_u8`; `Self::Reserved` emits its stored value.
49    pub fn to_u8(self) -> u8 {
50        match self {
51            S2XMode::Reserved0 => 0,
52            S2XMode::S2X => 1,
53            S2XMode::S2XTimeSlicing => 2,
54            S2XMode::S2XChannelBonding => 3,
55            S2XMode::Reserved(v) => v,
56        }
57    }
58
59    #[must_use]
60    /// Human-readable spec name per the governing Table.
61    pub fn name(self) -> &'static str {
62        match self {
63            S2XMode::Reserved0 => "reserved for future use",
64            S2XMode::S2X => "S2X",
65            S2XMode::S2XTimeSlicing => "S2X + time slicing",
66            S2XMode::S2XChannelBonding => "S2X + channel bonding",
67            S2XMode::Reserved(_) => "reserved",
68        }
69    }
70}
71
72/// TS/GS S2X mode — ETSI EN 300 468 Table 143.
73#[derive(Debug, Clone, Copy, PartialEq, Eq)]
74#[cfg_attr(feature = "serde", derive(serde::Serialize))]
75#[non_exhaustive]
76pub enum TsGsS2XMode {
77    /// Generic packetized.
78    GenericPacketized,
79    /// GSE.
80    Gse,
81    /// GSE high efficiency mode.
82    GseHighEfficiency,
83    /// DVB transport stream.
84    DvbTransportStream,
85    /// Reserved / future use.
86    Reserved(u8),
87}
88
89impl TsGsS2XMode {
90    #[must_use]
91    /// Construct from a raw `u8`; every value maps to a variant (total, lossless).
92    pub fn from_u8(v: u8) -> Self {
93        match v {
94            0 => TsGsS2XMode::GenericPacketized,
95            1 => TsGsS2XMode::Gse,
96            2 => TsGsS2XMode::GseHighEfficiency,
97            3 => TsGsS2XMode::DvbTransportStream,
98            other => TsGsS2XMode::Reserved(other),
99        }
100    }
101
102    #[must_use]
103    /// Inverse of `from_u8`; `Self::Reserved` emits its stored value.
104    pub fn to_u8(self) -> u8 {
105        match self {
106            TsGsS2XMode::GenericPacketized => 0,
107            TsGsS2XMode::Gse => 1,
108            TsGsS2XMode::GseHighEfficiency => 2,
109            TsGsS2XMode::DvbTransportStream => 3,
110            TsGsS2XMode::Reserved(v) => v,
111        }
112    }
113
114    #[must_use]
115    /// Human-readable spec name per the governing Table.
116    pub fn name(self) -> &'static str {
117        match self {
118            TsGsS2XMode::GenericPacketized => "generic packetized",
119            TsGsS2XMode::Gse => "GSE",
120            TsGsS2XMode::GseHighEfficiency => "GSE high efficiency mode",
121            TsGsS2XMode::DvbTransportStream => "DVB transport stream",
122            TsGsS2XMode::Reserved(_) => "reserved",
123        }
124    }
125}
126
127// Receiver profile bit flags (additive — field stays raw u8).
128const RP_BROADCAST: u8 = 0x01;
129const RP_INTERACTIVE: u8 = 0x02;
130const RP_DSNG: u8 = 0x04;
131const RP_PROFESSIONAL: u8 = 0x08;
132const RP_VL_SNR: u8 = 0x10;
133
134/// A single channel-bond entry (Table 140 inner `for` loop).
135///
136/// Layout mirrors the primary channel: frequency(4) + orbital_position(2) +
137/// packed byte + symbol_rate(4) + optional input_stream_identifier(1).
138#[derive(Debug, Clone, PartialEq, Eq)]
139#[cfg_attr(feature = "serde", derive(serde::Serialize))]
140pub struct S2XChannelBond {
141    /// frequency(32) — 32-bit BCD (10 kHz resolution, §6.2.13.2).
142    pub frequency: u32,
143    /// orbital_position(16) — 16-bit BCD (tenths of degree).
144    pub orbital_position: u16,
145    /// west_east_flag(1).
146    pub west_east_flag: bool,
147    /// polarization(2).
148    pub polarization: Polarization,
149    /// bonded_channel_multiple_input_stream_flag(1).
150    pub multiple_input_stream_flag: bool,
151    /// roll_off(3) — Table 144.
152    pub roll_off: RollOff,
153    /// symbol_rate(28) — 28-bit BCD (100 sym/s resolution).
154    pub symbol_rate: u32,
155    /// input_stream_identifier(8), present iff `multiple_input_stream_flag`.
156    pub input_stream_identifier: Option<u8>,
157}
158
159impl S2XChannelBond {
160    /// Decode the 32-bit BCD `frequency` to Hz (10 kHz field resolution,
161    /// EN 300 468 §6.2.13.2).
162    #[must_use]
163    pub fn frequency_hz(&self) -> Option<u64> {
164        dvb_common::bcd::bcd_to_decimal(u64::from(self.frequency), 8).map(|v| v * 10_000)
165    }
166
167    /// Decode the 16-bit BCD `orbital_position` to degrees (tenths resolution).
168    #[must_use]
169    pub fn orbital_position_deg(&self) -> Option<f64> {
170        dvb_common::bcd::bcd_to_decimal(u64::from(self.orbital_position), 4)
171            .map(|tenths| tenths as f64 / 10.0)
172    }
173
174    /// Decode the 28-bit BCD `symbol_rate` to symbols/second (100 sym/s resolution).
175    #[must_use]
176    pub fn symbol_rate_sps(&self) -> Option<u64> {
177        dvb_common::bcd::bcd_to_decimal(u64::from(self.symbol_rate), 7).map(|v| v * 100)
178    }
179}
180
181/// S2X_satellite_delivery_system body (Table 140).
182#[derive(Debug, Clone, PartialEq, Eq)]
183#[cfg_attr(feature = "serde", derive(serde::Serialize))]
184#[cfg_attr(feature = "yoke", derive(yoke::Yokeable))]
185pub struct S2XSatelliteDeliverySystem<'a> {
186    /// receiver_profiles(5) — Table 141 (raw bitmask, see flag accessors below).
187    pub receiver_profiles: u8,
188    /// S2X_mode(2) — Table 142.
189    pub s2x_mode: S2XMode,
190    /// scrambling_sequence_selector(1).
191    pub scrambling_sequence_selector: bool,
192    /// TS_GS_S2X_mode(2) — Table 143.
193    pub ts_gs_s2x_mode: TsGsS2XMode,
194    /// scrambling_sequence_index(18), present iff `scrambling_sequence_selector`.
195    pub scrambling_sequence_index: Option<u32>,
196    /// frequency(32) — primary channel, 32-bit BCD (10 kHz resolution, §6.2.13.2).
197    pub frequency: u32,
198    /// orbital_position(16).
199    pub orbital_position: u16,
200    /// west_east_flag(1).
201    pub west_east_flag: bool,
202    /// polarization(2).
203    pub polarization: Polarization,
204    /// multiple_input_stream_flag(1).
205    pub multiple_input_stream_flag: bool,
206    /// roll_off(3) — Table 144.
207    pub roll_off: RollOff,
208    /// symbol_rate(28) — 28-bit BCD (100 sym/s resolution).
209    pub symbol_rate: u32,
210    /// input_stream_identifier(8), present iff `multiple_input_stream_flag`.
211    pub input_stream_identifier: Option<u8>,
212    /// timeslice_number(8), present iff `s2x_mode == 2`.
213    pub timeslice_number: Option<u8>,
214    /// S2X_mode==3 channel-bond entries (empty unless s2x_mode==3).
215    pub channel_bonds: Vec<S2XChannelBond>,
216    /// Trailing reserved_future_use bytes (opaque), preserved verbatim.
217    pub reserved_tail: &'a [u8],
218}
219
220impl S2XSatelliteDeliverySystem<'_> {
221    /// Decode the 32-bit BCD `frequency` to Hz (10 kHz field resolution,
222    /// EN 300 468 §6.2.13.2).
223    #[must_use]
224    pub fn frequency_hz(&self) -> Option<u64> {
225        dvb_common::bcd::bcd_to_decimal(u64::from(self.frequency), 8).map(|v| v * 10_000)
226    }
227
228    /// Decode the 16-bit BCD `orbital_position` to degrees (tenths resolution).
229    #[must_use]
230    pub fn orbital_position_deg(&self) -> Option<f64> {
231        dvb_common::bcd::bcd_to_decimal(u64::from(self.orbital_position), 4)
232            .map(|tenths| tenths as f64 / 10.0)
233    }
234
235    /// Decode the 28-bit BCD `symbol_rate` to symbols/second (100 sym/s resolution).
236    #[must_use]
237    pub fn symbol_rate_sps(&self) -> Option<u64> {
238        dvb_common::bcd::bcd_to_decimal(u64::from(self.symbol_rate), 7).map(|v| v * 100)
239    }
240
241    // ---- Receiver profile flag accessors (additive, Table 141) ----
242
243    /// Broadcast services (receiver_profiles bit 0).
244    #[must_use]
245    pub fn receiver_broadcast(&self) -> bool {
246        (self.receiver_profiles & RP_BROADCAST) != 0
247    }
248
249    /// Interactive services (receiver_profiles bit 1).
250    #[must_use]
251    pub fn receiver_interactive(&self) -> bool {
252        (self.receiver_profiles & RP_INTERACTIVE) != 0
253    }
254
255    /// DSNG services (receiver_profiles bit 2).
256    #[must_use]
257    pub fn receiver_dsng(&self) -> bool {
258        (self.receiver_profiles & RP_DSNG) != 0
259    }
260
261    /// Professional services (receiver_profiles bit 3).
262    #[must_use]
263    pub fn receiver_professional(&self) -> bool {
264        (self.receiver_profiles & RP_PROFESSIONAL) != 0
265    }
266
267    /// VL-SNR services (receiver_profiles bit 4).
268    #[must_use]
269    pub fn receiver_vl_snr(&self) -> bool {
270        (self.receiver_profiles & RP_VL_SNR) != 0
271    }
272}
273
274const BOND_BASE_LEN: usize = S2X_PRIMARY_LEN;
275
276fn parse_channel_common(
277    sel: &[u8],
278    pos: &mut usize,
279) -> Result<(u32, u16, bool, Polarization, bool, RollOff, u32)> {
280    if sel.len() < *pos + BOND_BASE_LEN {
281        return Err(Error::BufferTooShort {
282            need: *pos + BOND_BASE_LEN,
283            have: sel.len(),
284            what: "S2X body",
285        });
286    }
287    let frequency = u32::from_be_bytes([sel[*pos], sel[*pos + 1], sel[*pos + 2], sel[*pos + 3]]);
288    let orbital_position = u16::from_be_bytes([sel[*pos + 4], sel[*pos + 5]]);
289    let pb = sel[*pos + 6];
290    let west_east_flag = (pb & 0x80) != 0;
291    let polarization = Polarization::from_u8((pb >> 5) & 0x03);
292    let multiple_input_stream_flag = (pb & 0x10) != 0;
293    let roll_off = RollOff::from_u8(pb & 0x07);
294    let symbol_rate = (u32::from(sel[*pos + 7] & 0x0F) << 24)
295        | (u32::from(sel[*pos + 8]) << 16)
296        | (u32::from(sel[*pos + 9]) << 8)
297        | u32::from(sel[*pos + 10]);
298    *pos += BOND_BASE_LEN;
299    Ok((
300        frequency,
301        orbital_position,
302        west_east_flag,
303        polarization,
304        multiple_input_stream_flag,
305        roll_off,
306        symbol_rate,
307    ))
308}
309
310fn write_channel_common(
311    buf: &mut [u8],
312    p: &mut usize,
313    frequency: u32,
314    orbital_position: u16,
315    packed: u8,
316    symbol_rate: u32,
317) {
318    buf[*p..*p + 4].copy_from_slice(&frequency.to_be_bytes());
319    buf[*p + 4..*p + 6].copy_from_slice(&orbital_position.to_be_bytes());
320    buf[*p + 6] = packed;
321    let sr = symbol_rate & 0x0FFF_FFFF;
322    buf[*p + 7] = (sr >> 24) as u8 & 0x0F;
323    buf[*p + 8] = (sr >> 16) as u8;
324    buf[*p + 9] = (sr >> 8) as u8;
325    buf[*p + 10] = sr as u8;
326    *p += BOND_BASE_LEN;
327}
328
329fn pack_we_pol_mis_ro(we: bool, pol: Polarization, mis: bool, ro: RollOff) -> u8 {
330    (u8::from(we) << 7) | ((pol.to_u8() & 0x03) << 5) | (u8::from(mis) << 4) | (ro.to_u8() & 0x07)
331}
332
333impl<'a> Parse<'a> for S2XSatelliteDeliverySystem<'a> {
334    type Error = crate::error::Error;
335    fn parse(sel: &'a [u8]) -> Result<Self> {
336        // receiver_profiles byte + S2X mode/flags byte = 2 fixed bytes.
337        if sel.len() < 2 {
338            return Err(Error::BufferTooShort {
339                need: 2,
340                have: sel.len(),
341                what: "S2X body",
342            });
343        }
344        let receiver_profiles = sel[0] >> 3;
345        let b1 = sel[1];
346        // Table 140 byte 1, MSB-first: S2X_mode(2) scrambling_sequence_selector(1)
347        // reserved_zero_future_use(3) TS_GS_S2X_mode(2).
348        let s2x_mode = S2XMode::from_u8((b1 >> 6) & 0x03);
349        let scrambling_sequence_selector = (b1 & 0x20) != 0;
350        let ts_gs_s2x_mode = TsGsS2XMode::from_u8(b1 & 0x03);
351        let mut pos = 2;
352        let scrambling_sequence_index = if scrambling_sequence_selector {
353            if sel.len() < pos + S2X_SCRAMBLING_LEN {
354                return Err(Error::BufferTooShort {
355                    need: pos + S2X_SCRAMBLING_LEN,
356                    have: sel.len(),
357                    what: "S2X body",
358                });
359            }
360            let idx = (u32::from(sel[pos] & 0x03) << 16)
361                | (u32::from(sel[pos + 1]) << 8)
362                | u32::from(sel[pos + 2]);
363            pos += S2X_SCRAMBLING_LEN;
364            Some(idx)
365        } else {
366            None
367        };
368        // Primary channel (Table 140): frequency(32) orbital_position(16)
369        //   packed byte = west_east(1) polarization(2) mis(1) reserved(1) roll_off(3)
370        //   then reserved(4) | symbol_rate[27:24], and 3 bytes symbol_rate[23:0].
371        let (
372            frequency,
373            orbital_position,
374            west_east_flag,
375            polarization,
376            multiple_input_stream_flag,
377            roll_off,
378            symbol_rate,
379        ) = parse_channel_common(sel, &mut pos)?;
380        let input_stream_identifier = if multiple_input_stream_flag {
381            if sel.len() < pos + 1 {
382                return Err(Error::BufferTooShort {
383                    need: pos + 1,
384                    have: sel.len(),
385                    what: "S2X body",
386                });
387            }
388            let isi = sel[pos];
389            pos += 1;
390            Some(isi)
391        } else {
392            None
393        };
394        let timeslice_number = if s2x_mode == S2XMode::S2XTimeSlicing {
395            if sel.len() < pos + 1 {
396                return Err(Error::BufferTooShort {
397                    need: pos + 1,
398                    have: sel.len(),
399                    what: "S2X body",
400                });
401            }
402            let ts = sel[pos];
403            pos += 1;
404            Some(ts)
405        } else {
406            None
407        };
408        let (channel_bonds, reserved_tail) = if s2x_mode == S2XMode::S2XChannelBonding {
409            // --- channel bonding loop (Table 140) ---
410            if sel.len() < pos + 1 {
411                return Err(Error::BufferTooShort {
412                    need: pos + 1,
413                    have: sel.len(),
414                    what: "S2X body",
415                });
416            }
417            let bond_byte = sel[pos];
418            pos += 1;
419            // reserved_zero_future_use(7) | num_channel_bonds_minus_one(1)
420            let num_channel_bonds = (bond_byte & 0x01) as usize + 1;
421            let mut bonds = Vec::with_capacity(num_channel_bonds);
422            for _ in 0..num_channel_bonds {
423                let (freq, orb, we, pol, mis, ro, sr) = parse_channel_common(sel, &mut pos)?;
424                let isi = if mis {
425                    if sel.len() < pos + 1 {
426                        return Err(Error::BufferTooShort {
427                            need: pos + 1,
428                            have: sel.len(),
429                            what: "S2X body",
430                        });
431                    }
432                    let v = sel[pos];
433                    pos += 1;
434                    Some(v)
435                } else {
436                    None
437                };
438                bonds.push(S2XChannelBond {
439                    frequency: freq,
440                    orbital_position: orb,
441                    west_east_flag: we,
442                    polarization: pol,
443                    multiple_input_stream_flag: mis,
444                    roll_off: ro,
445                    symbol_rate: sr,
446                    input_stream_identifier: isi,
447                });
448            }
449            (bonds, &sel[pos..])
450        } else {
451            (Vec::new(), &sel[pos..])
452        };
453        Ok(S2XSatelliteDeliverySystem {
454            receiver_profiles,
455            s2x_mode,
456            scrambling_sequence_selector,
457            ts_gs_s2x_mode,
458            scrambling_sequence_index,
459            frequency,
460            orbital_position,
461            west_east_flag,
462            polarization,
463            multiple_input_stream_flag,
464            roll_off,
465            symbol_rate,
466            input_stream_identifier,
467            timeslice_number,
468            channel_bonds,
469            reserved_tail,
470        })
471    }
472}
473
474impl Serialize for S2XSatelliteDeliverySystem<'_> {
475    type Error = crate::error::Error;
476    fn serialized_len(&self) -> usize {
477        let bond_len: usize = if self.s2x_mode == S2XMode::S2XChannelBonding {
478            1 + self
479                .channel_bonds
480                .iter()
481                .map(|b| BOND_BASE_LEN + usize::from(b.input_stream_identifier.is_some()))
482                .sum::<usize>()
483        } else {
484            0
485        };
486        2 + if self.scrambling_sequence_selector {
487            S2X_SCRAMBLING_LEN
488        } else {
489            0
490        } + S2X_PRIMARY_LEN
491            + usize::from(self.input_stream_identifier.is_some())
492            + usize::from(self.timeslice_number.is_some())
493            + bond_len
494            + self.reserved_tail.len()
495    }
496    fn serialize_into(&self, buf: &mut [u8]) -> Result<usize> {
497        let len = self.serialized_len();
498        if buf.len() < len {
499            return Err(Error::OutputBufferTooSmall {
500                need: len,
501                have: buf.len(),
502            });
503        }
504        buf[0] = self.receiver_profiles << 3;
505        buf[1] = ((self.s2x_mode.to_u8() & 0x03) << 6)
506            | (u8::from(self.scrambling_sequence_selector) << 5)
507            | (self.ts_gs_s2x_mode.to_u8() & 0x03);
508        let mut p = 2;
509        if self.scrambling_sequence_selector {
510            let idx = self.scrambling_sequence_index.unwrap_or(0) & 0x3FFFF;
511            buf[p] = (idx >> 16) as u8 & 0x03;
512            buf[p + 1] = (idx >> 8) as u8;
513            buf[p + 2] = idx as u8;
514            p += S2X_SCRAMBLING_LEN;
515        }
516        write_channel_common(
517            buf,
518            &mut p,
519            self.frequency,
520            self.orbital_position,
521            pack_we_pol_mis_ro(
522                self.west_east_flag,
523                self.polarization,
524                self.multiple_input_stream_flag,
525                self.roll_off,
526            ),
527            self.symbol_rate,
528        );
529        if let Some(isi) = self.input_stream_identifier {
530            buf[p] = isi;
531            p += 1;
532        }
533        if let Some(ts) = self.timeslice_number {
534            buf[p] = ts;
535            p += 1;
536        }
537        if self.s2x_mode == S2XMode::S2XChannelBonding {
538            // reserved_zero_future_use(7) | num_channel_bonds_minus_one(1)
539            buf[p] = (self.channel_bonds.len() as u8).saturating_sub(1) & 0x01;
540            p += 1;
541            for bond in &self.channel_bonds {
542                write_channel_common(
543                    buf,
544                    &mut p,
545                    bond.frequency,
546                    bond.orbital_position,
547                    pack_we_pol_mis_ro(
548                        bond.west_east_flag,
549                        bond.polarization,
550                        bond.multiple_input_stream_flag,
551                        bond.roll_off,
552                    ),
553                    bond.symbol_rate,
554                );
555                if let Some(isi) = bond.input_stream_identifier {
556                    buf[p] = isi;
557                    p += 1;
558                }
559            }
560        }
561        buf[p..p + self.reserved_tail.len()].copy_from_slice(self.reserved_tail);
562        Ok(len)
563    }
564}
565
566#[cfg(test)]
567mod tests {
568    use super::*;
569    use crate::descriptors::extension::test_support::*;
570    use crate::descriptors::extension::{ExtensionBody, ExtensionDescriptor};
571
572    #[test]
573    fn s2x_mode_roundtrip() {
574        for b in 0..=0xFFu8 {
575            assert_eq!(S2XMode::from_u8(b).to_u8(), b);
576        }
577    }
578
579    #[test]
580    fn ts_gs_s2x_mode_roundtrip() {
581        for b in 0..=0xFFu8 {
582            assert_eq!(TsGsS2XMode::from_u8(b).to_u8(), b);
583        }
584    }
585
586    #[test]
587    fn parse_s2x_primary_with_isi_and_timeslice() {
588        // receiver_profiles=0x05; s2x_mode=2, scram_sel=0, ts_gs=1; ISI + timeslice
589        let b0 = 0x05 << 3;
590        let b1 = (0x02 << 6) | 0x01; // mode 2 [7:6], no scrambling, ts_gs 1 [1:0]
591        let mut sel = vec![b0, b1];
592        sel.extend_from_slice(&0x0102_0304u32.to_be_bytes()); // frequency
593        sel.extend_from_slice(&0x00C8u16.to_be_bytes()); // orbital_position
594        sel.push((1 << 7) | (0x02 << 5) | (1 << 4) | 0x03); // we=1 pol=2 mis=1 roll=3
595        let sr: u32 = 0x0AB_CDEF; // symbol_rate (28-bit)
596        sel.push((sr >> 24) as u8 & 0x0F);
597        sel.push((sr >> 16) as u8);
598        sel.push((sr >> 8) as u8);
599        sel.push(sr as u8);
600        sel.push(0x42); // input_stream_identifier (mis=1)
601        sel.push(0x09); // timeslice_number (mode==2)
602        let bytes = wrap(0x17, &sel);
603        let d = ExtensionDescriptor::parse(&bytes).unwrap();
604        match &d.body {
605            ExtensionBody::S2XSatelliteDeliverySystem(b) => {
606                assert_eq!(b.receiver_profiles, 0x05);
607                assert_eq!(b.s2x_mode, S2XMode::S2XTimeSlicing);
608                assert!(!b.scrambling_sequence_selector);
609                assert_eq!(b.ts_gs_s2x_mode, TsGsS2XMode::Gse);
610                assert_eq!(b.frequency, 0x0102_0304);
611                assert_eq!(b.orbital_position, 0x00C8);
612                assert!(b.west_east_flag);
613                assert_eq!(b.polarization, Polarization::CircularLeft);
614                assert!(b.multiple_input_stream_flag);
615                assert_eq!(b.roll_off, RollOff::Reserved(3));
616                assert_eq!(b.symbol_rate, 0x0AB_CDEF);
617                assert_eq!(b.input_stream_identifier, Some(0x42));
618                assert_eq!(b.timeslice_number, Some(0x09));
619                assert!(b.channel_bonds.is_empty());
620                assert!(b.reserved_tail.is_empty());
621            }
622            other => panic!("expected S2X, got {other:?}"),
623        }
624        round_trip(&d);
625    }
626
627    #[test]
628    fn parse_s2x_with_scrambling_index() {
629        let b0 = 0x01 << 3;
630        let b1 = (0x01 << 6) | 0x20; // mode 1 [7:6], scrambling selector set [5]
631        let mut sel = vec![b0, b1];
632        // scrambling index 0x2ABCD (18-bit)
633        sel.push(0x02);
634        sel.push(0xAB);
635        sel.push(0xCD);
636        sel.extend_from_slice(&0u32.to_be_bytes()); // frequency
637        sel.extend_from_slice(&0u16.to_be_bytes()); // orbital
638        sel.push(0x00); // packed (mis=0)
639        sel.extend_from_slice(&[0, 0, 0, 0]); // symbol_rate
640        let bytes = wrap(0x17, &sel);
641        let d = ExtensionDescriptor::parse(&bytes).unwrap();
642        match &d.body {
643            ExtensionBody::S2XSatelliteDeliverySystem(b) => {
644                assert!(b.scrambling_sequence_selector);
645                assert_eq!(b.scrambling_sequence_index, Some(0x2ABCD));
646                assert_eq!(b.input_stream_identifier, None);
647                assert_eq!(b.timeslice_number, None);
648                assert!(b.channel_bonds.is_empty());
649                assert!(b.reserved_tail.is_empty());
650            }
651            other => panic!("expected S2X, got {other:?}"),
652        }
653        round_trip(&d);
654    }
655
656    #[test]
657    fn parse_s2x_mode1_tail_preserved() {
658        // mode 1 — no channel bonds; trailing bytes become reserved_tail.
659        let b0 = 0x01 << 3;
660        let b1 = 0x01 << 6; // mode 1 [7:6], no scrambling, ts_gs 0
661        let mut sel = vec![b0, b1];
662        sel.extend_from_slice(&0u32.to_be_bytes());
663        sel.extend_from_slice(&0u16.to_be_bytes());
664        sel.push(0x00); // mis=0
665        sel.extend_from_slice(&[0, 0, 0, 0]); // symbol_rate
666        sel.extend_from_slice(&[0xAA, 0xBB, 0xCC]); // reserved_future_use tail
667        let bytes = wrap(0x17, &sel);
668        let d = ExtensionDescriptor::parse(&bytes).unwrap();
669        match &d.body {
670            ExtensionBody::S2XSatelliteDeliverySystem(b) => {
671                assert_eq!(b.s2x_mode, S2XMode::S2X);
672                assert_eq!(b.timeslice_number, None);
673                assert!(b.channel_bonds.is_empty());
674                assert_eq!(b.reserved_tail, &[0xAA, 0xBB, 0xCC]);
675            }
676            other => panic!("expected S2X, got {other:?}"),
677        }
678        round_trip(&d);
679    }
680
681    #[test]
682    fn parse_s2x_mode3_channel_bonds() {
683        // mode 3 — 2 channel bonds (one with MIS/ISI, one without) + empty tail.
684        let b0 = 0x01 << 3;
685        let b1 = 0x03 << 6; // mode 3 [7:6], no scrambling, ts_gs 0
686        let mut sel = vec![b0, b1];
687        // Primary channel
688        sel.extend_from_slice(&0x1111_1111u32.to_be_bytes()); // frequency
689        sel.extend_from_slice(&0x0001u16.to_be_bytes()); // orbital
690        sel.push(0x00); // mis=0
691        sel.extend_from_slice(&[0x00, 0x00, 0x00, 0x00]); // symbol_rate
692
693        // Bond count: reserved(7)=0 | num_channel_bonds_minus_one(1)=1 → 2 bonds
694        sel.push(0x01);
695
696        // Bond 0 (with MIS/ISI): frequency=0x22222222, orbital=0x0002,
697        //   we=1 pol=2(CircularLeft) mis=1 roll=3, symbol_rate=0x0ABCDEF, isi=0x77
698        sel.extend_from_slice(&0x2222_2222u32.to_be_bytes());
699        sel.extend_from_slice(&0x0002u16.to_be_bytes());
700        sel.push((1 << 7) | (0x02 << 5) | (1 << 4) | 0x03); // we=1 pol=2 mis=1 roll=3
701        let sr: u32 = 0x0AB_CDEF;
702        sel.push((sr >> 24) as u8 & 0x0F);
703        sel.push((sr >> 16) as u8);
704        sel.push((sr >> 8) as u8);
705        sel.push(sr as u8);
706        sel.push(0x77); // input_stream_identifier
707
708        // Bond 1 (no MIS): frequency=0x33333333, orbital=0x0003,
709        //   we=0 pol=1(LinearVertical) mis=0 roll=4, symbol_rate=0x0054321
710        sel.extend_from_slice(&0x3333_3333u32.to_be_bytes());
711        sel.extend_from_slice(&0x0003u16.to_be_bytes());
712        sel.push((0x01 << 5) | 0x04); // we=0 pol=1 mis=0 roll=4
713        let sr2: u32 = 0x005_4321;
714        sel.push((sr2 >> 24) as u8 & 0x0F);
715        sel.push((sr2 >> 16) as u8);
716        sel.push((sr2 >> 8) as u8);
717        sel.push(sr2 as u8);
718
719        let bytes = wrap(0x17, &sel);
720        let d = ExtensionDescriptor::parse(&bytes).unwrap();
721        match &d.body {
722            ExtensionBody::S2XSatelliteDeliverySystem(b) => {
723                assert_eq!(b.s2x_mode, S2XMode::S2XChannelBonding);
724                assert_eq!(b.channel_bonds.len(), 2);
725
726                let b0 = &b.channel_bonds[0];
727                assert_eq!(b0.frequency, 0x2222_2222);
728                assert_eq!(b0.orbital_position, 0x0002);
729                assert!(b0.west_east_flag);
730                assert_eq!(b0.polarization, Polarization::CircularLeft);
731                assert!(b0.multiple_input_stream_flag);
732                assert_eq!(b0.roll_off, RollOff::Reserved(3));
733                assert_eq!(b0.symbol_rate, 0x0AB_CDEF);
734                assert_eq!(b0.input_stream_identifier, Some(0x77));
735
736                let b1 = &b.channel_bonds[1];
737                assert_eq!(b1.frequency, 0x3333_3333);
738                assert_eq!(b1.orbital_position, 0x0003);
739                assert!(!b1.west_east_flag);
740                assert_eq!(b1.polarization, Polarization::LinearVertical);
741                assert!(!b1.multiple_input_stream_flag);
742                assert_eq!(b1.roll_off, RollOff::Reserved(4));
743                assert_eq!(b1.symbol_rate, 0x005_4321);
744                assert_eq!(b1.input_stream_identifier, None);
745
746                assert!(b.reserved_tail.is_empty());
747            }
748            other => panic!("expected S2X, got {other:?}"),
749        }
750        round_trip(&d);
751    }
752
753    #[test]
754    fn tsduck_s2x_mode3_byte_exact() {
755        // TSDuck reference test-015: real s2x_mode==3 descriptor with
756        // scrambling, 2 channel bonds, and a 1-byte reserved tail.
757        let hex = "7f2a1750e3023456876543210037250456789601065432180340f600246754bd00654367123451000087642e";
758        let bytes = from_hex(hex);
759        let d = ExtensionDescriptor::parse(&bytes)
760            .unwrap_or_else(|e| panic!("parse tsduck s2x: {e:?}"));
761
762        assert_eq!(d.kind(), Some(ExtensionTag::S2XSatelliteDeliverySystem));
763        match &d.body {
764            ExtensionBody::S2XSatelliteDeliverySystem(b) => {
765                assert_eq!(b.s2x_mode, S2XMode::S2XChannelBonding);
766                assert!(b.scrambling_sequence_selector);
767                assert_eq!(b.scrambling_sequence_index, Some(0x023456));
768                assert!(!b.channel_bonds.is_empty());
769                assert_eq!(b.channel_bonds.len(), 2);
770
771                let b0 = &b.channel_bonds[0];
772                assert_eq!(b0.frequency, 0x0654_3218);
773                assert_eq!(b0.orbital_position, 0x0340);
774                assert!(b0.west_east_flag);
775                assert_eq!(b0.polarization, Polarization::CircularRight);
776                assert!(b0.multiple_input_stream_flag);
777                assert_eq!(b0.roll_off, RollOff::Reserved(6));
778                assert_eq!(b0.symbol_rate, 0x0024_6754);
779                assert_eq!(b0.input_stream_identifier, Some(0xBD));
780
781                let b1 = &b.channel_bonds[1];
782                assert_eq!(b1.frequency, 0x0065_4367);
783                assert_eq!(b1.orbital_position, 0x1234);
784                assert!(!b1.west_east_flag);
785                assert_eq!(b1.polarization, Polarization::CircularLeft);
786                assert!(b1.multiple_input_stream_flag);
787                assert_eq!(b1.roll_off, RollOff::Alpha025);
788                assert_eq!(b1.symbol_rate, 0x0000_8764);
789                assert_eq!(b1.input_stream_identifier, Some(0x2E));
790
791                assert!(b.reserved_tail.is_empty());
792            }
793            other => panic!("expected S2X, got {other:?}"),
794        }
795
796        // Byte-exact round-trip: serialize must match input exactly
797        let mut out = vec![0u8; d.serialized_len()];
798        let n = d.serialize_into(&mut out).unwrap();
799        assert_eq!(
800            &out[..n],
801            &bytes[..],
802            "S2X mode 3 byte-exact re-serialize failed"
803        );
804    }
805}