Splits the 459-line credentials.py into two submixins plus a composing
CredentialsMixin in credentials/__init__.py:
_core.py (~190) Credential capture: upsert, list, filters,
per-attacker / per-secret reads, attacker_uuid
backfill
reuse.py (~270) CredentialReuse correlation: upsert, candidate
mining, list/get + the _enrich_with_secret helper
that lifts the printable/b64 from underlying rows
_merge_unique stays with reuse.py (its only caller).
_enrich_with_secret stays with reuse.py — it's an internal helper of
list_credential_reuses / get_credential_reuse_by_id, never called
from the capture path.
Moves the 31 MazeNET topology methods (topologies CRUD, LANs, deckies,
edges, status events, mutation queue) into sqlmodel_repo/topology.py.
Includes _assert_pending and _check_and_bump_version concurrency
guards.
This is the last domain extraction; sqlmodel_repo/__init__.py is now
~165 lines: lifecycle (initialize/reinitialize/migrations), the admin
self-heal seed, get_state/set_state, and the mixin composition.
Splits the AttackerIdentity and Campaign clustering reads/writes into
sqlmodel_repo/identities.py and sqlmodel_repo/campaigns.py.
Both call _deserialize_attacker (identities only) which resolves
through AttackersMixin via MRO.
Moves the 19 attacker-domain methods (core CRUD, behavior, sessions,
smtp targets, log-derived activity views) plus the _deserialize_attacker
and _deserialize_behavior helpers into sqlmodel_repo/attackers.py.
Moves the 8 log methods (incl. get_stats_summary aggregator) into
sqlmodel_repo/logs.py. get_log_histogram remains an abstract dialect
override point; sqlite/mysql subclasses still override it via MRO.
Moves the 6 fleet-decky methods (incl. cross-source list_running_deckies
aggregator) into sqlmodel_repo/fleet.py. _serialize_json_fields and
_deserialize_json_fields move to _helpers.py since they're shared
across fleet, topology, and canary.
Moves the 7 user CRUD methods into sqlmodel_repo/auth.py.
_ensure_admin_user stays in __init__.py so DECNET_ADMIN_PASSWORD
remains addressable at the module path tests already monkeypatch.
Moves upsert_attacker_intel, get_attacker_intel_by_uuid,
and get_unenriched_attackers into sqlmodel_repo/attacker_intel.py.
Composed onto SQLModelRepository via mixin inheritance.
Pure rename — the old monolithic 3505-line file becomes
decnet/web/db/sqlmodel_repo/__init__.py. No code changes.
Subsequent commits will extract per-domain mixins out of __init__.py
to mirror the topical layout used by decnet/web/db/models/.
Brings the federation-gossip columns on AttackerIdentity to life —
ja3_hashes, hassh_hashes, and the new tls_cert_sha256 — by projecting
the union of every member observation's fingerprints JSON onto the
identity at clusterer create / link / merge time.
- decnet/profiler/identity_rollup.py: pure extract_fp_summaries()
reads the production bounty shape (payload.fingerprint_type +
payload.{ja3,hash,cert_sha256}) and returns deduped+sorted JSON
list[str] per family, or None when a family has no signal so the
column stays NULL instead of '[]'.
- BaseRepository.update_identity_fingerprints + SQLModel impl: one
idempotent write that overwrites the three summary columns and
bumps updated_at.
- ConnectedComponentsClusterer: after every per-component
reconciliation (fresh-create OR existing-merge+link), recomputes
and writes the rollup for the target identity. Wrapped in a
best-effort helper so a write failure logs but never breaks the
tick.
- Tests: extract_fp_summaries unit (dedup, sort determinism,
unknown types ignored, malformed JSON, nested-stringified
payloads, non-string values); end-to-end clusterer ticks
populate the columns on create + on later observation links;
no-fingerprint clusters keep the columns NULL.
Adds storage for TLS certificate details collected from attacker-run
servers by the active prober (sibling to the existing JARM probe).
- AttackerIdentity.tls_cert_sha256 / Campaign.tls_cert_sha256:
JSON list[str] columns mirroring ja3_hashes / hassh_hashes for
federation gossip.
- ingester clause 9b: emits a 'tls_certificate' fingerprint bounty
when a prober event carries subject_cn (disjoint from the existing
sniffer-gated clause).
- Prober-side capture (ssl.wrap_socket follow-up after JARM) and
profiler rollup land in sibling commits.
Schemathesis fires up to 3000 examples per endpoint. POST /auth/login
caps at 10/5min per IP, so the second example onward returns 429 and
the positive_data_acceptance check flags it as RejectedPositiveData
(its allowed-status list is hardcoded in schemathesis to
2xx/401/403/404/409/5xx, so OpenAPI tweaks can't fix it).
DECNET_LIMITER_ENABLED=false exists for exactly this case (see
limiter.py docstring on stress/load testing).
Reverts the custom_openapi shim from 5d88346 / 9b1168c — the endpoint
already declares 429 in its responses= map (api_login.py:38), and the
shim turned out to address a problem that wasn't there. Drop the
companion test along with it.
Previous commit advertised 429 on every operation. Only routes
decorated with @limiter.limit can actually return slowapi's 429 —
currently just POST /api/v1/auth/login. Documenting it elsewhere is
dishonest and would mislead clients into expecting a response the
server cannot produce.
Walk slowapi's _route_limits / _dynamic_route_limits registries to
identify decorated endpoints, match them to FastAPI routes by
{module}.{name}, and only inject 429 on those.
Existing per-route 429 declarations (e.g. SSE connection-cap on
events streams via sse_limits) are untouched.
SlowAPI middleware can short-circuit any request with 429 once a
per-route or per-IP rate limit fires (e.g. POST /api/v1/auth/login is
capped at 10/5min). The OpenAPI spec did not declare 429 on any
operation, so schemathesis flagged legitimate rate-limit responses as
RejectedPositiveData / status-code-nonconformance failures.
Override app.openapi to inject a generic 429 response object on every
HTTP operation in the generated schema. Add a contract test that fails
if any operation drops the 429 advertisement.
Refuse to start decnet.web.api when DECNET_MODE=agent (unless the
operator explicitly opts into dual-role with DECNET_DISALLOW_MASTER=
false). The Typer CLI already hides master-only commands on agents,
but a misconfigured systemd unit or a direct uvicorn invocation
would bypass that — now the lifespan itself refuses, before any
worker, DB or bus comes up.
Resolve DECNET_JWT_SECRET eagerly at startup so a missing or known-
bad value fails at boot rather than on the first auth-gated request.
The lazy-load shape stays useful for non-master CLIs.
Add validate_public_binding() called from the master API lifespan: when
DECNET_API_HOST is non-loopback, refuse to start if DECNET_CORS_ORIGINS
still contains a loopback origin (catches the "operator flipped to
0.0.0.0 to make it work and forgot to update CORS" footgun) or if
DECNET_CANARY_HTTP_BASE is plaintext http:// to a non-loopback host.
Log CRITICAL when DECNET_LIMITER_ENABLED=false on a public binding.
The validator no-ops under pytest so unrelated suites don't trip on it.
Add DECNET_VERIFY_HOSTNAME env knob; AgentClient and UpdaterClient
consult it when verify_hostname is None, giving production deploys
TLS hostname verification on top of the existing CA + fingerprint pin.
Default off so dev enrollments with mismatched SANs keep working.
New realism_config table (uuid PK + unique key) + two repo methods
(get/set) backs an admin-only GET/PUT /api/v1/realism/config surface.
The planner now exposes apply_payload(payload) / current_payload() /
reset_to_defaults() and reads its weights through mutable module
globals; pick() resolves the live values each call. Validation
catches negative weights, zero totals, out-of-range canary_probability,
unknown content_class names, and silently drops cross-list entries
(canary class on the user list, etc).
The orchestrator worker calls _refresh_realism_config(repo) on
startup and every 5 ticks (~5min at 60s interval). Operator changes
land within one refresh window with no bus signal — the simpler path
for a knob whose latency tolerance is minutes.
The (decky_uuid VARCHAR(64), path VARCHAR(1024)) UNIQUE constraint
generated a 4352-byte composite key under utf8mb4 (4 bytes/char),
busting MySQL's 3072-byte cap and crashing decnet api on init with:
Specified key was too long; max key length is 3072 bytes
Tighten path to VARCHAR(512) — (64+512)*4 = 2304 bytes, well under
the cap. Real realism + canary placement paths are short
(/home/<persona>/Documents/<file>, ~70 chars); 512 keeps headroom
without the index hassle. Pre-v1, no migration helper.
Adds a regression test pinning the (decky_uuid + path) byte budget so
a future widening fails loudly in CI rather than at MySQL deploy
time.
Adds GET /api/v1/realism/synthetic-files (paginated list, filters by
decky_uuid, persona, content_class) and
GET /api/v1/realism/synthetic-files/{uuid} (single row with last_body
and a truncated:bool flag set when the stored body is at the 64KB cap).
Repo gains count_synthetic_files() and get_synthetic_file(uuid). The
list view drops last_body to keep the wire payload bounded; the detail
endpoint is the only path that returns it. Read-only — orchestrator
remains the sole writer.
The orchestrator worker clipped last_body at write time, but the repo
didn't enforce. A future caller that forgot the clip would write the
full body. Move the clip to record_synthetic_file and
update_synthetic_file via SYNTHETIC_FILE_BODY_LIMIT in
decnet/web/db/models/realism.py. Worker now passes the full body and
trusts the repo. Tests retargeted to assert repo enforcement.
Stage 3 of the realism migration. Replaces orchestrator/scheduler.py's
hardcoded _FILE_TEMPLATES/_USERS (3 templates emitting epoch-suffixed
filenames like notes-1777315854.txt with identical bodies per
template) with a persona-driven realism engine.
New surface:
- SyntheticFile SQLModel (synthetic_files table, UNIQUE on
decky_uuid+path) — per-(decky, path) state for the future
edit-in-place flow. Pre-v1, no _migrate_* helper.
- BaseRepository methods: record_synthetic_file,
update_synthetic_file, list_synthetic_files,
pick_random_synthetic_file_for_edit (used by stage 3b).
- realism/naming.py: per-content-class filename templates,
persona-conditioned. /var/log/cron.log + logrotate skeleton for
system-class; /home/<persona>/TODO.md, scratch.md, etc. for
user-class. Anti-regression test pins "no 8+ digit decimals in
basenames" (the realism failure today).
- realism/bodies.py: deterministic body templates per content_class.
TODO body uses checkbox markdown, script body has a shebang, cron
body matches syslog cron shape ("CRON[PID]: (user) CMD (...)").
- realism/planner.py: pick(deckies, now, rng) returns a Plan.
Diurnal-gated, weighted user/system content split (70/30 user
bias). Create-only in stage 3; edit branch lands in stage 3b.
Scheduler split:
- scheduler.pick is now traffic-only (sync).
- scheduler.pick_file is async, takes a repo, resolves personas
(Topology.email_personas for topology-source deckies; global
realism.personas_pool otherwise), and maps Plan -> FileAction.
- FileAction gains persona/content_class/mtime fields.
Worker:
- _one_tick rolls 50/50 between traffic and file each tick. After a
successful FileAction plant, _record_synthetic_file persists or
patches the synthetic_files row (catching the unique-constraint
collision on re-plant of the same path).
- SSHDriver._run_file passes action.mtime through to plant_file so
files don't all stamp at wall-clock-now.
Two sub-routers under /api/v1/canary:
blobs (operator-uploaded artifacts, deduped by sha256):
- POST /blobs (multipart upload; admin)
- GET /blobs (list with token_count; admin)
- DELETE /blobs/{uuid} (refcount-aware; 409 when referenced; admin)
tokens (per-decky planted artifacts):
- POST /tokens (generate or instrument + plant; admin)
- GET /tokens?decky_name=&kind=&state= (filter; viewer)
- GET /tokens/{uuid} (detail; viewer)
- GET /tokens/{uuid}/preview (instrumented bytes; admin)
- GET /tokens/{uuid}/triggers (paged callback log; viewer)
- DELETE /tokens/{uuid} (revoke + bus event; admin)
XOR validation: exactly one of blob_uuid / generator must be set.
Path validation rejects relative/NUL/newlines/.. segments. Every
body-bearing route documents 400 plus 401/403/404 as applicable.
Stdlib MIME sniffer (no python-magic dep) covers PNG/JPEG/GIF/PDF/
HTML/XML/DOCX/XLSX/JSON/YAML/TOML/text/plain; everything else falls
through to passthrough.
Tests run end-to-end through the live FastAPI app (planter docker
exec is patched); 17 cases covering dedup, refcount, lifecycle,
XOR validation, path validation, and 404 paths.
Adds the abstract surface on BaseRepository and the SQLModel-backed
implementation (shared by SQLite and MySQL) for:
- canary blobs (upsert-by-sha256, list-with-refcount, refcount-aware delete)
- canary tokens (create, slug lookup, list with filters, state update)
- canary triggers (record+bump-counters atomically, list, attribute)
The triggers path is a single session that inserts the row and bumps the
parent token's counters together, so a subscriber that reads the token
right after the bus event sees the updated count. Blob delete refuses
while any token (including revoked) still references the blob; pre-v1
revoked tokens stick around for forensic value.
Three new tables for the canary tokens feature:
- canary_blobs — operator-uploaded source artifacts, deduped by sha256
- canary_tokens — one planted artifact in one decky; carries the
callback slug, generator/instrumenter, and lifecycle
- canary_triggers — append-only log of every callback hit; attacker_id
back-filled by the correlator
Pydantic request/response shapes live in the same file per the
single-source-of-truth convention. No migrations file — pre-v1
SQLModel.metadata.create_all() covers it.
New dashboard surface for editing the global emailgen persona pool —
the JSON file fleet (MACVLAN/IPVLAN) and SWARM-shard mail deckies pull
from. MazeNET topology personas are out of scope here; they're
configured per-topology in the topology editor.
Backend:
* GET/PUT /api/v1/emailgen/personas — admin-write, viewer-read. PUT
validates with the same Pydantic schema the worker uses
(parse_personas), drops invalid entries with a warning, returns 400
only when the entire payload fails. Path is operator-discoverable
on every response so a CLI-driven backup workflow stays visible.
Frontend:
* PersonaGeneration.tsx + .css — table + add/edit modal with the full
EmailPersona schema (name, email, role, tone, mannerisms list,
language, signature, active hours, reply latency, uses_llms_heavily).
Local edits are batched; explicit "SAVE CHANGES" writes back, with a
dirty-indicator pill and a "DISCARD" reset. Email uniqueness is
enforced client-side so the scheduler never picks the same persona
as both sender + recipient.
* Sidebar AUTOMATION group gains a "Persona Generation" entry next to
Orchestrator; route registered at /persona-generation.
The worker reads the same on-disk file the API writes — see
decnet.orchestrator.emailgen.global_pool. The API resets the
in-process cache on every read/write so the worker picks up dashboard
edits within its next tick rather than waiting on mtime.
The SSE pipe at /orchestrator/events/stream was already streaming
'orchestrator.email.{decky_uuid}' events (the subscription is for the
'orchestrator.>' wildcard), but the consumer side dropped them on the
floor. Three fixes to close the loop:
* useOrchestratorStream.ts now registers an 'email' SSE listener — the
EventSource silently ignores frames whose event name has no listener,
so missing this entry meant every email frame was dropped before
reaching the page's onEvent handler.
* /api/v1/orchestrator/events accepts kind=email and dispatches to
list_orchestrator_emails, adapting rows to the existing wire shape:
subject -> action, sender_email -> src_decky_uuid, recipient_email
-> dst_decky_uuid, plus email-specific extras (thread_id, language,
mail_decky_uuid, message_id, in_reply_to) ride along as top-level
keys.
* Orchestrator.tsx gains an 'email' tab in the kind filter and a
branch in the row renderer / inspector that:
- shows full sender / recipient (no UUID truncation),
- chips the language code next to the subject,
- relabels ACTION as SUBJECT in the inspector and surfaces
thread / in-reply-to / mail-decky details.
The 'all' tab continues to show traffic+file only (today's behavior);
operators see emails by switching to the email tab. A union view at
the API layer is the obvious follow-up but not necessary for now.
Two changes that unwind earlier MazeNET-only assumptions and fix a
realism tell:
1. Persona resolution is now per-decky-source, not topology-only. The
scheduler walks the union view (list_running_deckies, including
fleet MACVLAN/IPVLAN + SWARM shards) and picks the right persona
list for each source:
* topology decky -> Topology.email_personas (per-topology richness
preserved)
* fleet / shard -> a single host-wide pool loaded from disk
(DECNET_EMAILGEN_PERSONAS, /etc/decnet/email_personas.json, or
~/.decnet/email_personas.json)
Operators install the global pool via 'decnet emailgen
import-personas <file>' which validates with the same Pydantic
schema the worker uses.
2. The driver now runs 'touch -d <Date>' inside the docker exec right
after the EML write so file mtime matches the email's RFC 2822
Date: header. Without this an attacker 'ls -lt'ing the spool sees
every email clustered inside the worker's tick window — the
cluster itself was a stylometric tell.
CLI now exposes 'decnet emailgen' as a sub-app with 'run' (default,
backwards-compatible with bare 'decnet emailgen') and 'import-personas'.
list_running_deckies carries topology_id through so consumers can resolve
the parent topology without a second round-trip.
Second orchestrator worker (decnet emailgen) that drips persona-driven,
threaded, multi-language fake emails into running mail deckies. Personas
live on Topology.email_personas; topology-wide language_default falls
through to any persona that doesn't pin its own. Em-dashes are
suppressed at the prompt layer by default and only lifted for personas
explicitly marked uses_llms_heavily — em-dashes are an LLM tell and a
flat corpus of em-dashed mail is a giveaway.
EML delivery writes into /var/spool/decnet-emails/<thread>/<msg>.eml on
the mail decky via docker exec; wiring the IMAP/POP3 templates to read
from that spool (replacing the hardcoded _BAIT_EMAILS) is the next step.
Once the orchestrator started seeing fleet + SWARM shard sources via
list_running_deckies (a844148), every event row landing on a fleet decky
broke the FK to topology_deckies — the column now carries opaque ids
("local:omega-decky" for fleet, "host_uuid:decky_name" for shards) that
will never match topology_deckies.uuid.
Symptom on the operator's mothership:
IntegrityError 1452 — orchestrator_events_ibfk_2 FK violated on every
tick once the reconciler populated fleet_deckies.
Index on dst_decky_uuid is preserved (the dashboard reads
"events for this decky" frequently); only the FK is removed. Keeps
data integrity loose by design — events are append-only history that
should outlive the deckies they reference.
Existing MySQL deployments need the FK dropped manually:
ALTER TABLE orchestrator_events
DROP FOREIGN KEY orchestrator_events_ibfk_2,
DROP FOREIGN KEY orchestrator_events_ibfk_1;
SQLite users are unaffected — SQLite doesn't enforce FKs by default.
The Workers panel (Config → Workers tab) hardcodes its row list in
KNOWN_WORKERS — by design, so a rogue publisher can't inject UI rows.
Three heartbeat-emitting workers were missing:
* clusterer — behavioral clustering (decnet/clustering/)
* campaign-clusterer — campaign assembly (decnet/clustering/campaign/)
* reconciler — host-local fleet convergence (added in 430262e)
Each already publishes on system.<name>.health via run_health_heartbeat,
so they show up live the moment they're added to the registry — no
frontend or subscriber wiring needed (Config.tsx renders whatever
/workers returns).
Also added to _PREFERRED_ORDER in start-all so START ALL WORKERS brings
them up in dependency-friendly order: data-plane → reconciler → intel
→ clustering → output → orchestrator.
Three deployable units (listener, web, swarmctl) intentionally remain
absent from KNOWN_WORKERS — they don't emit heartbeats (CLI / static
server / one-shot tooling), so they'd permanently render as UNKNOWN
and confuse operators. Adding them is a separate decision that needs
a "synthesize installed-but-silent rows" pass on the registry.
The unihost API path delegates to engine.deployer.deploy(), which now
writes both decnet-state.json (existing) and the fleet_deckies DB
table (added in 646aeec). Comment makes the single-sink design
explicit so future maintainers don't add a parallel save_state /
upsert_fleet_decky call here.
No behavioral change — every fleet-creation path on every host (CLI
deploy, this unihost API path, and per-worker SWARM agent deploys)
already routes through the engine.deployer single sink.
Adds a fleet_deckies table so DB-only consumers (orchestrator, web
dashboard, REST API) can see unihost / MACVLAN / IPVLAN deckies
without reading the JSON state file. Mirrors DeckyShard field-for-field.
Composite PK (host_uuid, name) future-proofs for a mothership that
runs both a local fleet and acts as a swarm master. host_uuid defaults
to the "local" sentinel — no FK to swarm_hosts because the local
mothership isn't enrolled as a worker.
Repo additions: upsert_fleet_decky, delete_fleet_decky,
list_fleet_deckies, list_running_fleet_deckies,
update_fleet_decky_state, plus list_running_deckies which unions
topology + fleet + shard sources for the orchestrator.
Smoke-tested round-trip against MySQL: upsert, list_running, union
view (source="fleet"), delete.
GET /api/v1/orchestrator/events — paginated list with optional
kind=traffic|file filter. GET /api/v1/orchestrator/events/stream —
SSE: snapshot on connect, live forward of orchestrator.> bus events
mapped to 'traffic' / 'file' SSE event names.
Repo gains list_orchestrator_events(limit, offset, kind?, since_ts?),
count_orchestrator_events(kind?), and prune_orchestrator_events
(per_dst_cap=10000) for periodic worker-side trimming.
Adds a new decnet orchestrate worker whose job is to keep the honeypot
ecosystem from looking suspiciously static — a frozen LAN with no
inter-host traffic and no filesystem aging is its own honeypot tell.
MVP scope:
- New OrchestratorEvent table + repo methods (purpose-built sibling
to Log so synthetic events stay separable from attacker-driven ones).
- New orchestrator.{activity,file}.<decky_id> bus topics +
system.orchestrator.health heartbeat.
- SSH-only driver. Traffic action runs python3 inside src container
to TCP-connect dst:22 and read the SSH banner — real on-the-wire
SSH-protocol traffic without shipping creds. File action drops or
refreshes a small file via docker exec on the destination.
- Random scheduler (50/50 traffic/file when >=2 SSH-capable deckies
are running). Diurnal shaping, role-aware pairing, and session-aware
backoff are explicit non-goals for MVP.
- CLI registration, systemd unit (SupplementaryGroups=docker),
worker-registry entry so the dashboard shows orchestrator health.
- 11 tests: scheduler policy, driver argv shape + injection-safety,
end-to-end one-tick integration with FakeBus + SQLite.
API: /api/v1/campaigns (paginated list), /api/v1/campaigns/{uuid}
(soft-merge chain follow), /api/v1/campaigns/{uuid}/identities
(member identities), and /api/v1/campaigns/events (SSE under
campaign.> + JWT-via-?token=, snapshot-on-connect). Mirror of the
identity router; same auth, same shape, same OpenAPI tags pattern.
Frontend: CampaignDetail.tsx page (same visual vocabulary as
IdentityDetail), useCampaignStream hook (mirror of
useIdentityStream), /campaigns/:id route, IdentityDetail's
CAMPAIGN badge becomes clickable and navigates to the campaign.
useIdentityStream now listens for identity.campaign.assigned so
the badge appears live without a manual refresh.
