Rob 282d5d59eb Add five companion flow docs

- flows/receive-resource.md: inverse of send-resource. ADV
    ingestion, accept/reject decision, request_next loop,
    receive_part insertion, assemble + decrypt + hash-validate,
    RESOURCE_PRF emission, multi-segment continuation.

  - flows/receive-link-lxmf.md: responder side of the link
    handshake plus inbound LXMF DATA handling. validate_request
    -> handshake -> prove (LRPROOF emission) -> link_established
    callback wires delivery_packet. PACKET-form inbound runs
    delivery_packet directly; RESOURCE-form inbound runs through
    delivery_resource_advertised + delivery_resource_concluded
    pipeline.

  - flows/send-announce.md: random_hash construction (5B random +
    5B BE-uint40 timestamp), optional ratchet rotation, signed_data
    assembly, sign + pack, the broadcast emission. Notes that
    ANNOUNCE packets are NOT encrypted (Packet.pack special-cases
    line 189-191) and the periodic re-announce loop drives 5-15min
    cadence.

  - flows/forward-announce.md: relay-side rebroadcast for
    transport-mode nodes. Eligibility checks (transport_enabled,
    not PATH_RESPONSE, not rate_blocked), announce_table queue,
    Transport.jobs drain with PATH_REQUEST_GRACE = 0.4s,
    per-interface announce_queue with ANNOUNCE_CAP = 2.0% airtime
    enforcement, lowest-hop-count-first emission order, hops byte
    increment, local-rebroadcast counter for loop break.

  - flows/send-propagated-lxmf.md: PROPAGATED method end to end.
    LXMessage.pack with body encrypted to recipient (propagation
    node never decrypts), Link establishment to the propagation
    node, optional propagation stamp (1000 PoW rounds vs 3000 for
    regular stamps), submission via Link DATA or Resource,
    state goes to SENT (not DELIVERED — recipient pulls via /get
    later per §5.8.3).

flows/README.md status table updated; receive-propagated-lxmf.md
added as the only remaining ⏳ flow.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

2026-05-03 12:21:05 -04:00

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Flow: forward an announce (transport-node rebroadcast)

What a transport-mode node does when it receives an inbound announce destined for a non-local destination. This is the flow that makes the mesh actually mesh — without it, announces never propagate beyond direct radio range. Pinned against RNS 1.2.0; cross-references ../SPEC.md §4.5 (validation), §12.3 (rebroadcast rules), §12.4 (path table).

This flow only runs on a node with enable_transport = Yes per §12.1. Leaf clients can ignore it entirely.

Sequence

1. Inbound announce passes validation

The receive-announce flow (receive-announce.md) runs first — signature check, dest_hash recompute, public-key collision check, ingress rate limit, path table population. By the time the rebroadcast logic runs, the announce is known-valid and the path_table entry is already updated.

2. Eligibility checks

RNS/Transport.py:1822. Three conditions all must hold:

if (Reticulum.transport_enabled() or is_from_local_client) \
   and packet.context != PATH_RESPONSE \
   and not rate_blocked:
    # rebroadcast

transport_enabled OR is_from_local_client — leaf clients only forward announces that came from a local-client interface (the rare "client behind shared rnsd" case).
packet.context != PATH_RESPONSE — path-response announces are NOT rebroadcast (they go on a single specific interface back to the requester per path-discovery.md step 7).
not rate_blocked — per-interface announce-rate limits aren't tripped for this destination.

3. Insert into `announce_table`

Transport.py:1833-1844. The relay adds an entry:

Transport.announce_table[packet.destination_hash] = [
    now,                          # 0  IDX_AT_TIMESTAMP
    retransmit_timeout,           # 1  IDX_AT_RTRNS_TMO  — when to actually emit
    retries,                      # 2  IDX_AT_RETRIES   — PATHFINDER_R, default 4
    received_from,                # 3  IDX_AT_RCVD_IF   — interface NOT to rebroadcast on
    announce_hops,                # 4  IDX_AT_HOPS
    packet,                       # 5  IDX_AT_PACKET    — full Packet object
    local_rebroadcasts,           # 6  IDX_AT_LCL_RBRD  — count of times peers retransmitted
    block_rebroadcasts,           # 7  IDX_AT_BLCK_RBRD — true if a peer beat us to it
    attached_interface,           # 8  IDX_AT_ATTCHD_IF
]

retransmit_timeout for non-local-client originated announces is now + PATH_REQUEST_GRACE = 0.4s (giving directly-reachable peers time to rebroadcast first; if they do, block_rebroadcasts = True is set and we suppress our own emission). Local-client originated announces fire now with no grace.

4. Periodic `Transport.jobs` walk drains the table

The relay's per-second-or-so housekeeping loop walks announce_table and for entries whose retransmit_timeout <= now, queues them for emission on each suitable interface:

# Pseudocode of the relevant Transport.jobs branch
for dest_hash, entry in announce_table.items():
    if entry[BLCK_RBRD]:
        continue                                   # peer already rebroadcast — drop
    if now < entry[RTRNS_TMO]:
        continue                                   # not yet time
    if entry[RETRIES] <= 0:
        announce_table.pop(dest_hash)              # exhausted
        continue
    for interface in interfaces:
        if interface == entry[RCVD_IF]:
            continue                               # don't re-emit on receive interface
        interface.announce_queue.append({"raw": entry[PACKET].raw, ...})
    entry[RETRIES] -= 1

The actual code is in Transport.py:1196-1300, 1810-1969; the structure above is a simplification for the spec.

5. Per-interface `announce_queue` drain

Each interface independently throttles its outbound announces against interface.announce_cap (default Reticulum.ANNOUNCE_CAP = 2.0 = 2% airtime). Interface.process_announce_queue (RNS/Interfaces/Interface.py:232-272) drains the queue at a rate the cap permits, picking the lowest-hop-count entry first so closer destinations propagate before further ones:

min_hops = min(e["hops"] for e in self.announce_queue)
selected = sorted([e for e in self.announce_queue if e["hops"] == min_hops],
                  key=lambda e: e["time"])[0]
tx_time   = (len(selected["raw"]) * 8) / self.bitrate
wait_time = tx_time / self.announce_cap
self.announce_allowed_at = now + wait_time
self.process_outgoing(selected["raw"])

The wait_time is what enforces the cap: on a 5kbps LoRa channel, a 200-byte announce takes 320ms airtime; with cap=2%, the next announce isn't allowed for 320ms / 0.02 = 16s. This is what makes Reticulum's mesh well-behaved on slow shared channels.

6. Rebroadcast emission with hop increment

When the queue actually emits, the wire bytes are the original announce's packet.raw with the hops byte already incremented (Transport.inbound did this at line 1395 on receive). No re-signing — the signature in the announce body covers the original hop=0 emission, and signature validation ignores the outer hops byte (it's not in signed_data). What's wire-visible is the same body, the same dest_hash, the same random_hash, and a hops byte that's now (hops_received + 1).

7. Local-rebroadcast counter cleanup

If the relay later hears its own rebroadcast (a peer further along in the chain re-emitted it), Transport.inbound at line 1660-1668 increments entry[IDX_AT_LCL_RBRD]. Once local_rebroadcasts >= LOCAL_REBROADCASTS_MAX, the entry is removed from announce_table:

if announce_entry[IDX_AT_LCL_RBRD] >= LOCAL_REBROADCASTS_MAX:
    announce_table.pop(packet.destination_hash)

This is what stops the rebroadcast loop: once enough downstream peers have echoed the announce back, the relay stops trying.

8. `random_blob` replay defence

§4.5 step 6.3 / §12.3.2 already covers this — the relay won't even queue a rebroadcast if the inbound announce's random_hash is already in the cached random_blobs for this destination. The receive-announce flow drops it at the path-table-update stage.

Wire-byte summary

The forwarded announce is wire-identical to the original, except:

The hops byte is one higher.
If the relay is between a HEADER_1-emitting originator and a destination > 1 hop away, the relay does NOT do the §2.3 conversion for ANNOUNCE packets — announces always travel HEADER_1+BROADCAST. The HEADER_2 conversion is only for DATA packets.

Before relay (received):                          After relay (emitted):
[ flags: HEADER_1+BROADCAST+SINGLE+ANNOUNCE ]     [ same flags ]
[ hops = N ]                                      [ hops = N+1 ]
[ 16B dest_hash ]                                 [ same dest_hash ]
[ 1B context = 0x00 ]                             [ same context ]
[ ... announce body identical ... ]               [ ... bytes unchanged ... ]

Source map

Step	File	Function / line
1	(this flow follows `receive-announce.md` step 7)
2	`RNS/Transport.py`	rebroadcast eligibility, line 1822
3	`RNS/Transport.py`	announce_table insert, line 1833-1844
4	`RNS/Transport.py`	jobs / queue drain, line 1196+
5	`RNS/Interfaces/Interface.py`	`process_announce_queue`, line 232
6	`RNS/Transport.py`	hops increment in `inbound`, line 1395
7	`RNS/Transport.py`	local-rebroadcast counter, line 1660-1668
8	`RNS/Transport.py`	random_blob replay check, line 1707-1745

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