FreeCalypso > hg > gsm-codec-lib
changeset 125:2b3f612a5fe5
doc/RTP-BFI-extension: import from themwi-system-sw,
sans the osmo-bts patch section
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sat, 10 Dec 2022 23:54:11 +0000 |
parents | 598ee3ce238b |
children | 6fd49f73b025 |
files | doc/RTP-BFI-extension |
diffstat | 1 files changed, 124 insertions(+), 0 deletions(-) [+] |
line wrap: on
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/doc/RTP-BFI-extension Sat Dec 10 23:54:11 2022 +0000 @@ -0,0 +1,124 @@ +We (Themyscira Wireless) have invented our own non-standard extension to the +generally accepted standard for RTP-based transport of GSM FR and EFR traffic +within a GSM RAN, on stretches running from a BTS to a TRAU-like component. + +The fundamental question is: when the radio subsystem of the BTS does not have +any good traffic frame to send in a given 20 ms window, what should it do? The +generally accepted standard behavior is that no packet is sent, an intentional +gap is created in the RTP stream (the next time an RTP packet does go out, the +timestamp increments over the gap while the sequence number increments only by +1, indicating an intentional gap rather than packet loss), and apparently the +intent was/is that this gap in the RTP stream serves as the BFI (bad frame +indication). + +The problem with this generally accepted gap-as-BFI approach is that it deprives +the downstream transcoding MGW (a "soft TRAU" of sorts) of its timing source. +If the TRAU-like entity on the receiving end of the RTP stream originating from +the BTS were an RTP to TDM gateway, there would be no problem - such a gateway +would have to buffer received RTP packets in order to synchronize to fixed TDM +timing, and the absence of an RTP packet arriving in time would serve just fine +as the BFI marker, signaling BFI condition to the Rx DTX handler. But what if +the G.711 interface on the 64 kbps side of the TRAU is also an RTP stream, this +time going to a PSTN-via-SIP connectivity provider? Now the TRAU-like component +becomes a transcoding RTP forwarding MGW without any inherently fixed timing. + +If the desire is to implement a traditional TRAU in every way except for an +RTP-based implementation instead of TDM-based, i.e., if the desire is to emit a +fully continuous G.711 RTP stream from the MGW toward PSTN with comfort noise +generation and in-band DTMF insertion happening inside the MGW, rather than +emit gaps in the outgoing stream or punt CN generation (and DTMF) to VoIP +network elements, this task becomes dramatically easier if the BTS can be +forced to send an RTP packet in every 20 ms window, be it rain or shine, +conveying either a good traffic frame or a BFI marker. + +Representing BFI markers in an RTP stream +========================================= + +In the case of AMR codec, the existing standard RTP payload format already +provides an obvious way to send a BFI marker: it is the NO_DATA frame type, +i.e., FT=15 - see RFC 4867 section 4.3.2. That same section also categorizes +what we seek to do here as a "SHOULD NOT": + + Note that packets containing only NO_DATA frames SHOULD NOT be + transmitted in any payload format configuration, [...] + +However, the just-quoted directive is a SHOULD NOT rather than a MUST NOT, +and RFC 2119 states: + + SHOULD NOT This phrase, or the phrase "NOT RECOMMENDED" mean that + there may exist valid reasons in particular circumstances when the + particular behavior is acceptable or even useful, but the full + implications should be understood and the case carefully weighed + before implementing any behavior described with this label. + +Our situation is just that: in our particular circumstance (desire to implement +a traditional GSM TRAU in an RTP-to-RTP environment with no TDM network to act +as a rigid timing governor) a valid reason exists why this "SHOULD NOT" behavior +is not only acceptable, but becomes necessary. Thus in the case of AMR, we are +good - there is no need to invent our own totally non-standard extensions to +RTP payload format, it just needs to be a configurable option in the IP-based +BTS or in OsmoMGW converting from an E1-based BTS to RTP. + +But what about the older FR and EFR codecs? In the case of existing standard +RTP payload formats for FR and EFR, there is no defined way to represent a BFI +condition as distinct from any possible good traffic frame, and there lies our +challenge. + +Inventing an RTP BFI marker for FR and EFR +========================================== + +The existing code in osmo-bts-trx (but not in the osmo-bts-sysmo version of +interest to us) already contains a partial implementation of what we seek to do +here: it runs its own ECU instance in the case of a BFI from the channel +decoding layer, and if there is still no luck, there is code present to send a +BFI packet. The implemented behavior is not useful for us because RTP output +is still fully suppressed when the uplink is expected to be in DTX, and there +is a higher-level check in common/l1sap.c (l1sap_tch_ind() function) that also +suppresses RTP output, but still, the point is that someone did already write +code for sending an RTP packet intended to serve as a BFI. In the case of AMR, +that code sends out the expected NO_DATA (aka AMR_BAD) frame type - but what +about FR and EFR? + +The existing code in osmo-bts-trx sends its FR codec BFI as a valid-looking FR +frame with all 260 content bits set to 0, and it sends its EFR codec BFI as a +valid-looking EFR frame with all 244 content bits set to 0. I (Mother Mychaela) +have given consideration to using this all-zeros in-band BFI representation as +our RTP BFI marker for ThemWi, but then rejected this idea and decided to +implement our own non-standard extension to RTP payload format instead, +described further below. + +The fundamental philosophical problem which I (Mother Mychaela) have with this +in-band BFI representation is that in the world of ETSI and 3GPP standards, BFI +has always been meant to be out-of-band, not in-band. In the TRAU frame format +defined in GSM 08.60 there is an explicit control bit that carries BFI - the +condition is NOT to be derived from the 260 or 244 traffic frame bits carried +in data bit positions. Abusing one particular bit pattern within the regular +260-bit or 244-bit frame, even if it happens to be all zeros, goes against the +spirit of classic GSM and 3GPP. Per the specs, an FR codec frame of all zeros +would be a SID frame with all LAR coefficients set to 0, and standards-compliant +FR decoders would accept it as a valid SID frame, not as BFI. The situation is +likely to be even worse with EFR, where a frame of all zeros would not be +treated as SID (EFR SID code word is 95 ones instead of 95 zeros) and would +probably produce garbage at the decoder output. + +Themyscira Wireless implemented solution +======================================== + +We have invented our own non-standard extension to RTP payload format for GSM +FR and EFR codecs. Our extension is as follows: wherever a BTS needs to send a +BFI marker in the place of a traffic frame, instead of sending a 33-byte payload +beginning with 0xD nibble or a 31-byte payload beginning with 0xC nibble, it +needs to send a 2-byte payload formatted as follows: + +byte 0: 0xBF signature; +byte 1: least-significant bit encoding TAF per GSM 06.31 or GSM 06.81, + section 6.1.1 in both documents; other bits are reserved. + +In the uplink direction, with an RTP stream going from a BTS to our "soft TRAU" +MGW, our themwi-mgw recognizes these BFI packets and acts accordingly, feeding +BFI and TAF to the spec-prescribed Rx DTX handler for FR or EFR. However, if a +BTS receives these BFI marker packets in the downlink direction as a result of +TrFO (the RTP stream comes from the uplink of another GSM call), it simply +discards them without any processing - because a BTS always runs on its own TDMA +timing, there is no difference between receiving a BFI packet vs receiving no +RTP packet at all for that 20 ms frame.