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dvb_si/tables/
sit.rs

1//! Selection Information Table — ETSI EN 300 468 §7.1.2.
2//!
3//! Carried on PID 0x001F with table_id 0x7F, only in partial transport streams
4//! (e.g. a recording). After the section header it has two loops:
5//!   1. `transmission_info_descriptors` — descriptors describing the whole
6//!      partial stream, prefixed by a 12-bit length;
7//!   2. a per-service loop: `service_id(16) + reserved_future_use(1) +
8//!      running_status(3) + service_descriptors_length(12) + descriptors`.
9//!
10//! Both loops are typed: the transmission-info loop is a [`DescriptorLoop`] and
11//! the service loop is a `Vec<SitService>`, each with its own descriptor loop.
12
13use super::RunningStatus;
14use crate::descriptors::DescriptorLoop;
15use crate::error::{Error, Result};
16use dvb_common::{Parse, Serialize};
17
18/// table_id for the Selection Information Table.
19pub const TABLE_ID: u8 = 0x7F;
20/// Well-known PID on which the SIT is carried.
21pub const PID: u16 = 0x001F;
22
23const MIN_HEADER_LEN: usize = 3;
24const EXTENSION_HEADER_LEN: usize = 5;
25const DESC_LOOP_LEN_FIELD: usize = 2;
26const CRC_LEN: usize = 4;
27/// Per-service fixed header: service_id(16) + reserved(1)/running_status(3)/
28/// service_descriptors_length(12) = 2 + 2 bytes.
29const SERVICE_HEADER_LEN: usize = 4;
30/// Maximum value of the 12-bit service_descriptors_length field.
31const MAX_SERVICE_DESC_LEN: usize = 0x0FFF;
32const MIN_SECTION_LEN: usize =
33    MIN_HEADER_LEN + EXTENSION_HEADER_LEN + DESC_LOOP_LEN_FIELD + CRC_LEN;
34
35/// One service entry in the SIT service loop (§7.1.2, Table 164).
36///
37/// Wire layout: `service_id(16) + reserved_future_use(1) + running_status(3) +
38/// service_descriptors_length(12) + descriptors`.
39#[derive(Debug, Clone, PartialEq, Eq)]
40#[cfg_attr(feature = "serde", derive(serde::Serialize))]
41#[cfg_attr(feature = "yoke", derive(yoke::Yokeable))]
42pub struct SitService<'a> {
43    /// service_id of this service.
44    pub service_id: u16,
45    /// 3-bit running_status (EN 300 468 Table 6).
46    pub running_status: RunningStatus,
47    /// Descriptor loop for this service. Serializes as the typed descriptor
48    /// sequence; `.raw()` yields the wire bytes.
49    pub descriptors: DescriptorLoop<'a>,
50}
51
52/// Selection Information Table (§7.1.2, Table 164).
53#[derive(Debug, Clone, PartialEq, Eq)]
54#[cfg_attr(feature = "serde", derive(serde::Serialize))]
55#[cfg_attr(feature = "yoke", derive(yoke::Yokeable))]
56pub struct SitSection<'a> {
57    /// 16-bit field after section_length — reserved_future_use for the SIT
58    /// (conventionally 0xFFFF); retained verbatim.
59    pub table_id_extension: u16,
60    /// 5-bit version_number.
61    pub version_number: u8,
62    /// current_next_indicator bit.
63    pub current_next_indicator: bool,
64    /// section_number in the sub-table sequence.
65    pub section_number: u8,
66    /// last_section_number in the sub-table sequence.
67    pub last_section_number: u8,
68    /// Transmission-info descriptor loop (the first loop). Serializes as the
69    /// typed descriptor sequence; `.raw()` yields the wire bytes.
70    pub transmission_info_descriptors: DescriptorLoop<'a>,
71    /// Per-service loop, in wire order.
72    pub services: Vec<SitService<'a>>,
73}
74
75impl<'a> Parse<'a> for SitSection<'a> {
76    type Error = crate::error::Error;
77
78    fn parse(bytes: &'a [u8]) -> Result<Self> {
79        let min_len = MIN_HEADER_LEN + EXTENSION_HEADER_LEN + DESC_LOOP_LEN_FIELD + CRC_LEN;
80        if bytes.len() < min_len {
81            return Err(Error::BufferTooShort {
82                need: min_len,
83                have: bytes.len(),
84                what: "SitSection",
85            });
86        }
87        if bytes[0] != TABLE_ID {
88            return Err(Error::UnexpectedTableId {
89                table_id: bytes[0],
90                what: "SitSection",
91                expected: &[TABLE_ID],
92            });
93        }
94        let section_length = ((bytes[1] & 0x0F) as usize) << 8 | bytes[2] as usize;
95        let total = super::check_section_length(
96            bytes.len(),
97            MIN_HEADER_LEN,
98            section_length,
99            MIN_SECTION_LEN,
100        )?;
101
102        let table_id_extension = u16::from_be_bytes([bytes[3], bytes[4]]);
103        let version_number = (bytes[5] >> 1) & 0x1F;
104        let current_next_indicator = (bytes[5] & 0x01) != 0;
105        let section_number = bytes[6];
106        let last_section_number = bytes[7];
107
108        let dl_pos = MIN_HEADER_LEN + EXTENSION_HEADER_LEN;
109        let ti_len = (((bytes[dl_pos] & 0x0F) as usize) << 8) | bytes[dl_pos + 1] as usize;
110        let ti_start = dl_pos + DESC_LOOP_LEN_FIELD;
111        let ti_end = ti_start + ti_len;
112        let crc_start = total - CRC_LEN;
113        if ti_end > crc_start {
114            return Err(Error::SectionLengthOverflow {
115                declared: ti_len,
116                available: crc_start.saturating_sub(ti_start),
117            });
118        }
119
120        // Everything between the transmission-info loop and the CRC is the
121        // per-service loop. Walk it entry by entry, boundary-checked.
122        let mut services = Vec::new();
123        let mut pos = ti_end;
124        while pos < crc_start {
125            if pos + SERVICE_HEADER_LEN > crc_start {
126                return Err(Error::BufferTooShort {
127                    need: pos + SERVICE_HEADER_LEN,
128                    have: crc_start,
129                    what: "SitService header",
130                });
131            }
132            let service_id = u16::from_be_bytes([bytes[pos], bytes[pos + 1]]);
133            // byte[pos+2]: reserved_future_use(1) | running_status(3) | len_hi(4)
134            let running_status = RunningStatus::from_u8((bytes[pos + 2] >> 4) & 0x07);
135            let svc_desc_len = (((bytes[pos + 2] & 0x0F) as usize) << 8) | bytes[pos + 3] as usize;
136            let desc_start = pos + SERVICE_HEADER_LEN;
137            let desc_end = desc_start + svc_desc_len;
138            if desc_end > crc_start {
139                return Err(Error::SectionLengthOverflow {
140                    declared: svc_desc_len,
141                    available: crc_start.saturating_sub(desc_start),
142                });
143            }
144            services.push(SitService {
145                service_id,
146                running_status,
147                descriptors: DescriptorLoop::new(&bytes[desc_start..desc_end]),
148            });
149            pos = desc_end;
150        }
151
152        Ok(SitSection {
153            table_id_extension,
154            version_number,
155            current_next_indicator,
156            section_number,
157            last_section_number,
158            transmission_info_descriptors: DescriptorLoop::new(&bytes[ti_start..ti_end]),
159            services,
160        })
161    }
162}
163
164impl Serialize for SitSection<'_> {
165    type Error = crate::error::Error;
166
167    fn serialized_len(&self) -> usize {
168        let svc_bytes: usize = self
169            .services
170            .iter()
171            .map(|s| SERVICE_HEADER_LEN + s.descriptors.len())
172            .sum();
173        MIN_HEADER_LEN
174            + EXTENSION_HEADER_LEN
175            + DESC_LOOP_LEN_FIELD
176            + self.transmission_info_descriptors.len()
177            + svc_bytes
178            + CRC_LEN
179    }
180
181    fn serialize_into(&self, buf: &mut [u8]) -> Result<usize> {
182        // Reject over-range service descriptor loops up front — never truncate.
183        // service_descriptors_length is a 12-bit field (max 0x0FFF).
184        for svc in &self.services {
185            if svc.descriptors.len() > MAX_SERVICE_DESC_LEN {
186                return Err(Error::SectionLengthOverflow {
187                    declared: svc.descriptors.len(),
188                    available: MAX_SERVICE_DESC_LEN,
189                });
190            }
191        }
192        let len = self.serialized_len();
193        if buf.len() < len {
194            return Err(Error::OutputBufferTooSmall {
195                need: len,
196                have: buf.len(),
197            });
198        }
199        let section_length = (len - MIN_HEADER_LEN) as u16;
200        buf[0] = TABLE_ID;
201        buf[1] = super::SECTION_B1_FLAGS_DVB | ((section_length >> 8) as u8 & 0x0F);
202        buf[2] = (section_length & 0xFF) as u8;
203        buf[3..5].copy_from_slice(&self.table_id_extension.to_be_bytes());
204        buf[5] = 0xC0 | ((self.version_number & 0x1F) << 1) | u8::from(self.current_next_indicator);
205        buf[6] = self.section_number;
206        buf[7] = self.last_section_number;
207
208        let dl_pos = MIN_HEADER_LEN + EXTENSION_HEADER_LEN;
209        let ti_len = self.transmission_info_descriptors.len() as u16;
210        buf[dl_pos] = 0xF0 | ((ti_len >> 8) as u8 & 0x0F);
211        buf[dl_pos + 1] = (ti_len & 0xFF) as u8;
212        let ti_start = dl_pos + DESC_LOOP_LEN_FIELD;
213        let ti_end = ti_start + self.transmission_info_descriptors.len();
214        buf[ti_start..ti_end].copy_from_slice(self.transmission_info_descriptors.raw());
215
216        let mut pos = ti_end;
217        for svc in &self.services {
218            buf[pos..pos + 2].copy_from_slice(&svc.service_id.to_be_bytes());
219            let dll = svc.descriptors.len() as u16;
220            // reserved_future_use(1) emitted as 1 (§5.1 convention) | running_status(3) | len_hi(4)
221            buf[pos + 2] = 0x80 | (svc.running_status.to_u8() << 4) | ((dll >> 8) as u8 & 0x0F);
222            buf[pos + 3] = (dll & 0xFF) as u8;
223            let desc_start = pos + SERVICE_HEADER_LEN;
224            let desc_end = desc_start + svc.descriptors.len();
225            buf[desc_start..desc_end].copy_from_slice(svc.descriptors.raw());
226            pos = desc_end;
227        }
228
229        let crc_pos = len - CRC_LEN;
230        let crc = dvb_common::crc32_mpeg2::compute(&buf[..crc_pos]);
231        buf[crc_pos..len].copy_from_slice(&crc.to_be_bytes());
232        Ok(len)
233    }
234}
235impl<'a> crate::traits::TableDef<'a> for SitSection<'a> {
236    const TABLE_ID_RANGES: &'static [(u8, u8)] = &[(TABLE_ID, TABLE_ID)];
237    const NAME: &'static str = "SELECTION_INFORMATION";
238}
239
240#[cfg(test)]
241mod tests {
242    use super::*;
243
244    fn build_sit(
245        table_id_extension: u16,
246        version: u8,
247        ti_desc: &[u8],
248        service_loop: &[u8],
249    ) -> Vec<u8> {
250        let section_length = (EXTENSION_HEADER_LEN
251            + DESC_LOOP_LEN_FIELD
252            + ti_desc.len()
253            + service_loop.len()
254            + CRC_LEN) as u16;
255        let mut v = vec![
256            TABLE_ID,
257            super::super::SECTION_B1_FLAGS_DVB | ((section_length >> 8) as u8 & 0x0F),
258            (section_length & 0xFF) as u8,
259        ];
260        v.extend_from_slice(&table_id_extension.to_be_bytes());
261        v.push(0xC0 | ((version & 0x1F) << 1) | 0x01);
262        v.push(0x00);
263        v.push(0x00);
264        let dl = ti_desc.len() as u16;
265        v.push(0xF0 | ((dl >> 8) as u8 & 0x0F));
266        v.push((dl & 0xFF) as u8);
267        v.extend_from_slice(ti_desc);
268        v.extend_from_slice(service_loop);
269        v.extend_from_slice(&[0, 0, 0, 0]);
270        v
271    }
272
273    #[test]
274    fn parse_rejects_wrong_tag() {
275        let mut bytes = build_sit(0x1234, 5, &[], &[]);
276        bytes[0] = 0x7E;
277        assert!(matches!(
278            SitSection::parse(&bytes).unwrap_err(),
279            Error::UnexpectedTableId { table_id: 0x7E, .. }
280        ));
281    }
282
283    #[test]
284    fn parse_rejects_short_buffer() {
285        assert!(matches!(
286            SitSection::parse(&[0x7F, 0xB0]).unwrap_err(),
287            Error::BufferTooShort { .. }
288        ));
289    }
290
291    /// Encode one service entry: service_id + reserved(1)/running_status(3)/
292    /// svc_desc_len(12) + descriptor bytes.
293    fn service_entry(service_id: u16, running_status: u8, desc: &[u8]) -> Vec<u8> {
294        let dll = desc.len() as u16;
295        let mut v = Vec::new();
296        v.extend_from_slice(&service_id.to_be_bytes());
297        v.push(0x80 | ((running_status & 0x07) << 4) | ((dll >> 8) as u8 & 0x0F));
298        v.push((dll & 0xFF) as u8);
299        v.extend_from_slice(desc);
300        v
301    }
302
303    #[test]
304    fn parse_empty() {
305        let bytes = build_sit(0x1234, 5, &[], &[]);
306        let sit = SitSection::parse(&bytes).unwrap();
307        assert_eq!(sit.table_id_extension, 0x1234);
308        assert_eq!(sit.version_number, 5);
309        assert!(sit.current_next_indicator);
310        assert!(sit.transmission_info_descriptors.is_empty());
311        assert!(sit.services.is_empty());
312    }
313
314    #[test]
315    fn parse_two_services_typed() {
316        let ti = [0x4D, 0x02, 0x01, 0x02]; // a transmission-info descriptor
317        let mut sl = service_entry(0x0001, 4, &[0x48, 0x02, 0xAA, 0xBB]);
318        sl.extend(service_entry(0x0002, 2, &[]));
319        let bytes = build_sit(0xABCD, 7, &ti, &sl);
320        let sit = SitSection::parse(&bytes).unwrap();
321        assert_eq!(sit.transmission_info_descriptors.raw(), &ti[..]);
322        assert_eq!(sit.services.len(), 2);
323        assert_eq!(sit.services[0].service_id, 0x0001);
324        assert_eq!(sit.services[0].running_status, RunningStatus::Running);
325        assert_eq!(
326            sit.services[0].descriptors.raw(),
327            &[0x48, 0x02, 0xAA, 0xBB][..]
328        );
329        assert_eq!(sit.services[1].service_id, 0x0002);
330        assert_eq!(
331            sit.services[1].running_status,
332            RunningStatus::StartsInAFewSeconds
333        );
334        assert!(sit.services[1].descriptors.is_empty());
335    }
336
337    #[test]
338    fn parse_rejects_truncated_service_header() {
339        // Service loop has only 3 bytes — less than the 4-byte service header.
340        let ti = [0x4D, 0x00];
341        let bytes = build_sit(0x1234, 0, &ti, &[0x00, 0x01, 0xC0]);
342        assert!(matches!(
343            SitSection::parse(&bytes).unwrap_err(),
344            Error::BufferTooShort { .. }
345        ));
346    }
347
348    #[test]
349    fn parse_rejects_inner_descriptor_overflow() {
350        // service_descriptors_length declares 5 bytes but only 1 follows.
351        let service = [0x00, 0x01, 0x80, 0x05, 0xFF];
352        let bytes = build_sit(0x1234, 0, &[], &service);
353        assert!(matches!(
354            SitSection::parse(&bytes).unwrap_err(),
355            Error::SectionLengthOverflow { .. }
356        ));
357    }
358
359    #[test]
360    fn serialize_round_trip_two_services() {
361        let ti = [0x4D, 0x02, 0x01, 0x02];
362        let sit = SitSection {
363            table_id_extension: 0xCAFE,
364            version_number: 3,
365            current_next_indicator: true,
366            section_number: 0,
367            last_section_number: 0,
368            transmission_info_descriptors: DescriptorLoop::new(&ti),
369            services: vec![
370                SitService {
371                    service_id: 0x0001,
372                    running_status: RunningStatus::Running,
373                    descriptors: DescriptorLoop::new(&[0x48, 0x02, 0xAA, 0xBB]),
374                },
375                SitService {
376                    service_id: 0x0002,
377                    running_status: RunningStatus::StartsInAFewSeconds,
378                    descriptors: DescriptorLoop::new(&[]),
379                },
380            ],
381        };
382        let mut buf = vec![0u8; sit.serialized_len()];
383        sit.serialize_into(&mut buf).unwrap();
384        // Byte-exact: re-parse must equal the original.
385        assert_eq!(SitSection::parse(&buf).unwrap(), sit);
386    }
387
388    #[test]
389    fn serialize_round_trip_empty() {
390        let bytes = build_sit(0x0001, 0, &[], &[]);
391        let sit = SitSection::parse(&bytes).unwrap();
392        let mut buf = vec![0u8; sit.serialized_len()];
393        sit.serialize_into(&mut buf).unwrap();
394        assert_eq!(SitSection::parse(&buf).unwrap(), sit);
395    }
396
397    #[test]
398    fn serialize_rejects_over_range_service_desc_len() {
399        // A service descriptor loop longer than the 12-bit field can hold.
400        let big = vec![0u8; MAX_SERVICE_DESC_LEN + 1];
401        let sit = SitSection {
402            table_id_extension: 0x0001,
403            version_number: 0,
404            current_next_indicator: true,
405            section_number: 0,
406            last_section_number: 0,
407            transmission_info_descriptors: DescriptorLoop::new(&[]),
408            services: vec![SitService {
409                service_id: 0x0001,
410                running_status: RunningStatus::Running,
411                descriptors: DescriptorLoop::new(&big),
412            }],
413        };
414        let mut buf = vec![0u8; sit.serialized_len()];
415        assert!(matches!(
416            sit.serialize_into(&mut buf).unwrap_err(),
417            Error::SectionLengthOverflow { .. }
418        ));
419    }
420
421    #[test]
422    fn table_trait_constants() {
423        assert_eq!(TABLE_ID, 0x7F);
424        assert_eq!(PID, 0x001F);
425    }
426
427    #[test]
428    fn parse_rejects_zero_section_length() {
429        let mut buf = vec![0u8; 64];
430        buf[0] = TABLE_ID;
431        buf[1] = 0xF0;
432        buf[2] = 0x00;
433        for b in &mut buf[3..] {
434            *b = 0xFF;
435        }
436        assert!(matches!(
437            SitSection::parse(&buf).unwrap_err(),
438            Error::SectionLengthOverflow { .. }
439        ));
440    }
441
442    #[cfg(feature = "serde")]
443    #[test]
444    fn sit_serializes_typed_services() {
445        // Serialize-only (3.0). The transmission_info loop serializes as a typed
446        // descriptor sequence and each service exposes its typed descriptors.
447        let mut sl = service_entry(0x0001, 4, &[0x48, 0x02, 0xAA, 0xBB]);
448        sl.extend(service_entry(0x0002, 2, &[]));
449        let bytes = build_sit(0xDEAD, 9, &[0x4D, 0x00], &sl);
450        let sit = SitSection::parse(&bytes).unwrap();
451        let v = serde_json::to_value(&sit).unwrap();
452        assert!(
453            v["transmission_info_descriptors"].is_array(),
454            "transmission_info_descriptors must serialize as a typed sequence, got {v}"
455        );
456        assert!(
457            v["services"].is_array(),
458            "services must serialize as an array, got {v}"
459        );
460        assert_eq!(v["services"][0]["service_id"], 1);
461        assert_eq!(v["services"][0]["running_status"], "Running");
462        // The service descriptor loop renders as a typed descriptor sequence.
463        assert!(
464            v["services"][0]["descriptors"].is_array(),
465            "service descriptors must serialize as a typed sequence, got {v}"
466        );
467    }
468}