Replaces LICENSE (GPLv3 -> AGPLv3) and prepends
`SPDX-License-Identifier: AGPL-3.0-or-later` to every source file
across decnet/, decnet_web/, tests/, scripts/, and tools/.
Rationale: closes the GPLv3 ASP loophole so any party operating a
modified DECNET as a network service must offer their modified
source. Personal copyright (Samuel Paschuan) + inbound=outbound
contributions make a future unilateral relicense infeasible.
- LICENSE: full AGPL-3.0 text (gnu.org/licenses/agpl-3.0.txt)
- COPYRIGHT: project copyright notice
- tools/add_spdx_headers.py: idempotent header injector
(shebang- and PEP 263-aware)
Touches 1565 source files (.py, .ts, .tsx, .js, .jsx, .css, .sh).
No behavior change; comments only.
- Add "ipv6_leak" to KNOWN_SOURCE_KINDS in ttp/base.py
- Register Ipv6LeakLifter(store) in factory.py get_tagger()
- Subscribe worker to attacker.fingerprinted; route by Event.type
so JARM/HASSH/ipv6_leak share the topic without source_kind collision
- Add bump_attacker_ipv6_leak() to BaseRepository (abstract) +
TTPMixin (implementation): increments ipv6_leak_count, sets last_ipv6_*
denorm fields, appends-with-dedup to AttackerIdentity.ipv6_link_local_iids
- Call bump_attacker_ipv6_leak from _process_event after insert_tags
- Add DummyRepo stub + coverage call in tests/db/test_base_repo.py
On every attacker.session.ended event, the TTP worker now reads the
persisted AttackerIntel row (if any) and synthesizes an intel-source
TaggerEvent so intel-derived tags emit even when attacker.intel.enriched
was dropped or arrived before the worker started.
Key changes:
- AttackerIntel.to_intel_event_payload() — single source of truth for
the intel-row → lifter payload projection; shared by future callers
without importing decnet.intel.* (no-SPOF contract preserved).
- BaseRepository.get_attacker_intel_row_by_uuid() — returns the live
SQLModel instance so the catch-up path can call to_intel_event_payload().
- _build_intel_catchup_event() in ttp/worker.py — looks up the intel row,
builds the TaggerEvent, returns None on absent row (silence, not error).
- _process_event() extended: appends the catch-up event to tagger_events
when topic contains "session.ended". Deterministic source_id keeps
compute_tag_uuid idempotent across replays; INSERT OR IGNORE deduplicates
against any prior attacker.intel.enriched path.
DummyRepo stub + coverage call added per feedback_run_base_repo_test.md.
Drift between the technique/tactic IDs hardcoded in the lifters and
what the loaded ATT&CK STIX bundle actually contains is silent in the
status quo: a renamed-or-retired technique just stops being tagged.
Every emission point now has an explicit validator that asserts its
IDs resolve in the loaded bundle, called once at TTP-worker boot.
- intel_lifter.all_emitted_technique_ids() collects every technique
the four provider tables (AbuseIPDB / GreyNoise / Feodo / ThreatFox)
plus the decision-flow constants in _greynoise_decisions and
_feodo_decisions can emit. validate_against_attack_bundle() runs it
through attack_stix.assert_known_technique_ids().
- ukc.validate_against_attack_bundle() asserts every key in
ATTACK_TACTIC_TO_UKC resolves, with TA0100..TA0106 documented as
_NON_ENTERPRISE_TACTICS (lives in the ICS bundle, not the
enterprise bundle DECNET loads).
- decnet/ttp/worker.py:run_ttp_worker_loop calls both validators
before subscribing to the bus. A bundle-vs-code mismatch refuses
to start the worker rather than silently mistagging events.
- tests/ttp/test_attack_bundle_validation.py covers the happy path
for both validators, the negative path (injected bogus tactic ID
raises AttackBundleError), the ICS exemption, and the lone T1078
reference in credential_lifter.
The collector's `attacker.session.ended` envelope carries
`attacker_uuid: null` and `attacker_ip: <ip>` because the collector
doesn't talk to the DB. The TTP worker passed that null straight
through, and `TTPTag.__init__` raised the documented invariant:
ValueError: ttp_tag requires at least one of attacker_uuid /
identity_uuid; both NULL is not a valid anchor.
The worker now resolves `attacker_uuid` from `attacker_ip` via
`BaseRepository.get_attacker_uuid_by_ip` before fanning out the
event. When the IP isn't in the DB yet (profiler hasn't ingested
the row), the event is dropped with one log line — better than
exploding mid-tag.
- New `get_attacker_uuid_by_ip(ip) -> str | None` on the repo
(BaseRepository abstract + AttackersCoreMixin impl).
- `_resolve_attacker_uuid` helper in `decnet/ttp/worker.py` runs
before `_build_events`. Short-circuits when the payload already
has either anchor; drops the event when neither anchor is
resolvable.
- Tests pin: short-circuit on existing uuid/identity, repo lookup,
drop on unknown IP, drop on "Unknown" sentinel, drop on
no-anchor payload, drop on repo failure.
R0001–R0030 declare `applies_to: [command]` and match per command, not
per session. The worker now translates one `attacker.session.ended`
payload carrying a `commands: list` into:
- one source_kind="session" event (behavioral / cross-event lifters)
- one source_kind="command" event per command (RuleEngineTagger)
Both string and dict command shapes are accepted; dicts contribute
their `id` / `uuid` / `command_id` as the per-command source_id so
the deterministic `compute_tag_uuid` keeps replays idempotent. Tags
from session + per-command dispatch are aggregated into a single
`ttp.tagged` envelope per upstream session.
Each per-source lifter holds its own RuleIndex and exposes an
`async watch_store()` that loads the corpus and drains store change
events forever. Until this commit nothing called `watch_store()` in
production — every dispatch index stayed empty and no rule fired.
- Add `WatchableTagger` runtime-checkable Protocol in `decnet.ttp.base`.
- `CompositeTagger.iter_watchables()` yields lifters that satisfy it.
- `run_ttp_worker_loop` fans out one task per watchable, cancelled
and awaited alongside pump/heartbeat/control in the existing finally.
- Watch failures log and exit the watch task without taking the
worker down — mirrors the pump-task tolerance contract.
Inner loop drains a per-process asyncio.Queue populated by one pump
task per topic in _TOPICS, dispatches each event through
CompositeTagger, persists via repo.insert_tags(), and publishes
ttp.tagged + per-technique ttp.rule.fired.<id> only when the insert
returned a non-zero rowcount.
CompositeTagger seeded with all six lifters (Behavioral, Intel,
CanaryFingerprint, Email, Identity, Credential).
Loop-prevention invariant from TTP_TAGGING.md §"Bus topics" enforced:
N replays of the same upstream event publish exactly one ttp.tagged
event. test_worker_bus covers both the direct invocation path and
the idempotency replay path.
Intel catch-up via attacker.session.ended is intentionally deferred
to E.3.14b — needs a session→intel join the repo doesn't expose yet.
