CanaryTokens.tsx grows a third tab — File drops — alongside Tokens
and Blobs. The page now covers every 'admin landed bytes on a decky'
operation in one place.
FileDropModal mirrors the canary CreateModal's shape: Fleet/MazeNET
toggle, topology+decky picker, absolute-path validation matching the
backend (DeckyFileDropRequest rejects relative + ..-traversal), mode
+ mtime offset inputs, and a -1w preset for backdating. FileReader →
data URL → strip prefix → POST /api/v1/deckies/files.
The list is local-only (localStorage, capped at 200 entries). W2's
backend doesn't persist drops by design — the endpoint is for staging
payloads, not as an audit trail. CLEAR LIST button on the tab; no
DELETE button on rows since the local entry doesn't track whether the
file is still there (an attacker may have moved it).
Alt+D shortcut joins Alt+C; alt-key only per the Linux-meta-key rule.
CanaryTokens.tsx grows a Fleet/MazeNET toggle in the create modal. In
topology mode we hydrate /topologies?status=active for the topology
picker, then GET /topologies/{id} on selection to repopulate the decky
picker — topology deckies have a different shape than fleet's /deckies
endpoint.
The tokens table gains a SCOPE column (chip: 'fleet' / 'topology'),
and a third filter dropdown alongside state. The drawer's metadata
section shows a Scope row with a clickable jump-link back to the
MazeNET view at the right topology.
CanaryTokenRow grows a topology_id field so the drawer/list can
discriminate without re-fetching.
decnet.engine.services_live exposes add_service / remove_service for
both fleet and topology decky scopes. The host's _compose() wrapper
already supported per-service targeting (up --no-deps -d <svc>,
stop, rm -f); what was missing was the orchestration around it:
* add: validate against decnet.services.registry (rejects unknown +
fleet_singleton); persist the new services list; re-render the
per-scope compose file (so future redeploys reflect the change);
run docker compose up -d --no-deps --build <decky>-<svc>.
* remove: stop + rm -f the service container; persist; re-render
compose so a future up -d doesn't bring it back.
Both publish decky.<name>.service.added / .removed on the bus, with
the post-mutation services list. Topic constants added to
decnet.bus.topics; the matching wiki entry in wiki-checkout/Service-Bus.md
ships in a separate commit on the wiki repo (wiki-checkout/ is gitignored).
Four new admin endpoints:
* POST/DELETE /api/v1/deckies/{name}/services{,/svc}
* POST/DELETE /api/v1/topologies/{id}/deckies/{name}/services{,/svc}
ServiceMutationError messages are mapped at the API boundary to 404
(decky/topology missing), 409 (idempotency violation), 422 (unknown
or fleet_singleton service).
Extracts the docker-exec-with-base64-stdin pattern out of canary/planter
and orchestrator/drivers/ssh into a shared decnet.decky_io package.
Both consumers now delegate; the canary planter test still proves the
contract end-to-end.
Adds POST/DELETE /api/v1/deckies/files for arbitrary file drops.
Container resolution is shared with the canary path: topology_id absent
means fleet (<name>-ssh), present routes through resolve_decky_container
which picks <name>-ssh when the topology decky exposes ssh, else the
topology base container decnet_t_<id8>_<name>.
Path validation rejects relative paths and '..' traversal at the request
model layer. Bad base64 → 400; unknown topology → 404; decky not in
topology → 422; docker exec failure → 409.
POST /api/v1/canary/tokens grows an optional topology_id field. When
present, the server hydrates the topology, validates the named decky is
in it, and resolves the docker container via
planter.resolve_topology_container — <name>-ssh if the decky exposes ssh,
else the topology base container. Absent ⇒ fleet semantics, unchanged.
The token row gets a nullable topology_id column (no migration helper
per pre-v1 policy). GET /api/v1/canary/tokens accepts ?topology_id= as
a filter. DELETE re-resolves the container at revoke time so a
redeployed topology is still reachable.
422 when the named decky isn't in the topology; 404 when the topology
itself doesn't exist.
Topology deploys now plant the configured canary baseline set on every
decky in the topology, mirroring the fleet-deploy hook. Containers are
resolved via resolve_topology_container — <decky>-ssh when the decky
exposes an ssh service, else the topology base container
decnet_t_<id8>_<decky>.
The planter's plant/revoke/seed_baseline grow an optional container=
kwarg; default preserves the fleet <name>-ssh resolution.
The Vault page already shows file drops and stored mail (e3ddeb0) but
the inspector drawer had no download button — only the live-feed
ArtifactDrawer/MailDrawer offered raw byte retrieval. Add a DOWNLOAD
RAW action to BountyInspector that fires when bounty_type=artifact,
hitting /artifacts/{decky}/{stored_as}?service=<svc> with the bounty's
own service field (ssh or smtp). Mirrors ArtifactDrawer's blob handling
and 400/403/404 error mapping.
Also widen the icon/label vocabulary: artifact bounties get FileText
(file drops) or Mail (message_stored) instead of the generic Package,
and the inspector header chip mirrors the change.
The Bounty Vault page only read from the Bounty table, but
inotifywait-captured file drops (event_type=file_captured) and SMTP
quarantined messages (event_type=message_stored) were only landing in
the Logs table. AttackerDetail's tabs queried logs directly, so they
showed up per-attacker but were invisible on the global Vault page.
Mirror both events into Bounty as bounty_type=artifact with
payload.kind ∈ {file, mail} so the existing dedup
(bounty_type, attacker_ip, payload) collapses repeats by sha256. Add an
ARTIFACTS segment to the Vault filter row, plus dedicated render
branches: file drops show orig_path + size + writer attribution; mail
shows subject + From + attachment count + size, with the Mail icon
distinguishing them from FileText for file drops.
Forward-only — existing logs stay where they are. A backfill pass would
be straightforward (read Log WHERE event_type IN ('file_captured',
'message_stored') and feed each row through _extract_bounty) but is out
of scope here.
sshd, pam_unix, sudo, CRON, systemd, kernel, rsyslogd, and dbus-daemon
all share the SSH/telnet decky containers and write to the same syslog
socket as DECNET's own emitters. Their output was being parsed and
ingested into the JSON stream, the dashboard, and the profiler — pure
noise: sshd's "Failed password for root from X" duplicates the
auth-helper's structured auth_attempt event, pam_unix repeats it again,
CRON/systemd say nothing about attacker behavior.
Drop these APP-NAMEs in _should_ingest before the JSON write and bus
publish. Raw .log file still captures everything for forensics. The
denylist is overridable with DECNET_COLLECTOR_DROP_APPS so operators
can extend it without code changes.
Add --rfc5424 --msgid command to the logger invocation in SSH and telnet
decky bashrc. MSGID arrives as "command" instead of NIL, which is what
the profiler's _COMMAND_EVENT_TYPES filter expects. The parser heuristic
shipped in d4591b3 stays as a safety net for any future emitter that
forgets the flags or for inflight pre-rebuild containers.
SSH/telnet decky containers emit shell commands via `logger -t bash "CMD …"`
which produces RFC 5424 lines with MSGID=NIL. Both parsers were leaving
event_type="-", so the behavioral profiler's `_COMMAND_EVENT_TYPES` filter
silently dropped them — the IP profile existed but no command transcripts
or artifacts. Confirmed in the wild: 44/48 events from one attacker were
event_type="-".
Rewrite event_type to "command" in both parsers when MSGID=NIL and the
msg starts with "CMD ". Correlation parser also extracts the cmd= payload
into fields["command"] so the profiler can build the transcript; collector
parser leaves fields={} to avoid duplicate pills in the dashboard.
- Fixed CLI tests by patching local imports at source (psutil, os, Path).
- Fixed Collector tests by globalizing docker.from_env mock.
- Stabilized SSE stream tests via AsyncMock and immediate generator termination to prevent hangs.
- Achieved >80% coverage on CLI (84%), Collector (97%), and DB Repository (100%).
- Implemented SMTP Relay service tests (100%).
- Add merge-to-testing job: after all CI checks pass on dev, auto-merge
into testing with --no-ff for clear merge history
- Move open-pr job to trigger on testing branch instead of dev
- PR now opens testing → main instead of dev → main
- Add bandit and pip-audit jobs to pr.yml PR gate for full suite coverage
- PR gate test job now installs dev dependencies consistently
Spins up each service's server.py in a real subprocess via a free ephemeral
port (PORT env var), connects with real protocol clients, and asserts both
correct protocol behavior and RFC 5424 log output.
- 44 live tests across 10 services: http, ftp, smtp, redis, mqtt,
mysql, postgres, mongodb, pop3, imap
- Shared conftest.py: _ServiceProcess (bg reader thread + queue),
free_port, live_service fixture, assert_rfc5424 helper
- PORT env var added to all 10 targeted server.py templates
- New pytest marker `live`; excluded from default addopts run
- requirements-live-tests.txt: flask, twisted + protocol clients
MongoDB had the same infinite-loop bug as MSSQL (msg_len=0 → buffer never
shrinks in while loop). Postgres, MySQL, and MQTT had related length-field
issues (stuck state, resource exhaustion, overlong remaining-length).
Also fixes an existing MongoDB _op_reply struct.pack format bug (extra 'q'
specifier caused struct.error on any OP_QUERY response).
Adds 53 regression + protocol boundary tests across MSSQL, MongoDB,
Postgres, MySQL, and MQTT, including a _run_with_timeout threading harness
to catch infinite loops and @pytest.mark.fuzz hypothesis tests for each.
