FreeCalypso > hg > gsm-codec-lib
view libgsmfr2/prng.c @ 605:63f774192906
gsmhr_decoder_twts002_in(): set BFI=1 SID=1 for invalid SID
When a received TW-TS-002 RTP payload indicates invalid SID,
which of the 3 possible BFI/SID combinations should we pass to
our internal ETSI-based speech decoder or TFO engine?
Our original code passed BFI=0 SID=1, but upon further reflection,
BFI=1 SID=1 is a better choice. In the corner case where received
invalid SID is fed to a full decoder in homed state, setting BFI=1
allows that decoder to emit zeros on PCM and stay homed, instead of
launching into full decoding.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Thu, 04 Dec 2025 21:01:46 +0000 |
| parents | 573afa985df6 |
| children |
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/* * We use a pseudorandom sequence generator function in two places: * when generating comfort noise (GSM 06.12 section 6.1), and when * randomizing grid position parameters as part of speech muting * during error handling (GSM 06.11 section 6). * * Our PRNG is a copy of the pseudonoise() function from ETSI EFR code, * where it is used for similar purposes. */ #include <stdint.h> #include "tw_gsmfr.h" #include "pp_state.h" #include "pp_internal.h" uint16_t gsmfr_preproc_prng(struct gsmfr_preproc_state *st, uint16_t no_bits) { uint16_t noise_bits, Sn, i; noise_bits = 0; for (i = 0; i < no_bits; i++) { /* State n == 31 */ if ((st->cn_random_lfsr & 0x00000001L) != 0) { Sn = 1; } else { Sn = 0; } /* State n == 3 */ if ((st->cn_random_lfsr & 0x10000000L) != 0) { Sn = Sn ^ 1; } else { Sn = Sn ^ 0; } noise_bits = noise_bits << 1; noise_bits = noise_bits | st->cn_random_lfsr & 1; st->cn_random_lfsr >>= 1; if (Sn & 1) { st->cn_random_lfsr |= 0x40000000L; } } return noise_bits; }