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13 Commits
v1.2.0 ... 1.2.1

Author SHA1 Message Date
anti
a9a86c94ad docs(changelog): fold cloak polish (RST/ICMP/SS, L2 responder) into 1.2.1 2026-06-20 00:41:07 -04:00
anti
6b997c5de8 Merge feat/cloak-fingerprint-polish into 1.2.1 
Broaden cloak mangler to RST/ICMP (CI, T4/T6 A=O, IE.CD, SS=S) and L2 responder
injection so T2/T3 replies coexist with RST mangling. windows→Win10 (95%),
windows_server→Server 2012/2016 (94%).
 2026-06-20 00:40:37 -04:00
anti
4798a9eb9c feat(cloak): broaden mangler to RST/ICMP + L2 responder injection 
Mangler now also rewrites egress RST (IP-ID + nonzero ack on bare RSTs → nmap
CI, T4/T6 A=O) and ICMP echo-reply (code=0 → IE.CD=Z), sharing one IP-ID counter
across SYN-ACK/RST/ICMP (reads as a shared sequence, SS=S). Responder injects at
L2 (reflecting probe MACs) so its own RST replies bypass the OUTPUT/NFQUEUE chain
— otherwise the new RST rule re-processed and dropped them. T3 reply ack now A=O.

Live: windows_server decky reads Microsoft Windows Server 2012 (94%, up from 89%);
T2/T3 R=Y, IE.CD=Z, T4/T6 A=O all confirmed coexisting.
 2026-06-20 00:35:51 -04:00
anti
65d33bc611 docs(changelog): 1.2.1 — OS fingerprint cloak 2026-06-20 00:26:57 -04:00
anti
e9cc09a50f chore(release): bump version to 1.2.1 2026-06-20 00:24:57 -04:00
anti
a7256276b0 Merge feat/os-fingerprint-cloak: cloak egress fingerprint masquerading (v1.2.1) 
OS fingerprint cloak — sysctl profile fixes (Win timestamps), windows_server
slug, NFQUEUE SYN-ACK mangler + T2/T3 probe-response synthesizer, wired into the
deploy path. Flips real nmap -O to Microsoft Windows / Windows Server.
 2026-06-20 00:24:32 -04:00
anti
402c1ef7a2 feat(cloak): wire cloak into the deploy path for windows* deckies 
Base containers whose nmap_os has a mangle profile now build the cloak image
(FROM the per-decky distro), ship the light decnet subtree, and run
'python -m decnet.cloak' alongside holding the MACVLAN IP — netns-safe (cloak
backgrounded behind 'exec sleep infinity' so a cloak crash never tears down the
base/netns). composer injects build/command/NET_RAW/env (DECNET_NMAP_OS,
DECNET_OPEN_PORTS, DECKY_IP); deployer._sync_cloak_sources syncs the subtree;
non-windows deckies are unchanged. Mangler signal-guarded for thread use;
entry runs mangler in main thread, responder as daemon.

Verified live: real path makes nmap -O read 'Microsoft Windows Server 2012/2016'
with handshakes intact.
 2026-06-20 00:22:38 -04:00
anti
f715ac6bcd feat(cloak): egress SYN-ACK mangler + T2/T3 probe-response synthesizer 
In-decky-netns NFQUEUE rewriter (window/option-order/IP-ID) and raw-socket
synthesizer for nmap probes Linux drops but the target OS answers (T2/T3),
driven by os_fingerprint.OS_MANGLE. Packet-shaping logic is pure and unit-tested
offline; scapy/netfilterqueue import lazily in the runtime loops. Entry:
python -m decnet.cloak (run by the base container; CAP_NET_ADMIN).
 2026-06-19 21:32:50 -04:00
anti
082d3fec19 fix(os-fingerprint): Win timestamps ON + windows_server profile + OS_MANGLE schema 
Win10/11 run TCP timestamps ON (nmap SEQ.TS=A); the windows profile had them
OFF, fingerprinting as an ancient stack. Add a windows_server slug (ECN
negotiated, CC=Y) and point the server/DC archetypes at it. Introduce the
OS_MANGLE map (per-slug egress SYN-ACK shape: window, option order, IP-ID
policy) consumed by the new cloak package.
 2026-06-19 21:32:43 -04:00
anti
3ed6d5dfc6 refactor: consolidate writable-dir probe into decnet/paths.py 
bus.factory and vectorstore.factory carried byte-identical copies of the
'env override -> writable runtime dir -> ~/.decnet fallback' probe. Move
it to decnet.paths.resolve_runtime_path and call it from both.

The mkdir-create variants (deployer topologies dir, _pid_dir candidate
iteration, personas_pool existence-precedence) are deliberately left
inline: they're different policies, not the same probe.
 2026-06-18 21:27:36 -04:00
anti
2ca6533666 fix(topology): anchor compose path to run dir, stop install-dir litter 
_topology_compose_path returned a CWD-relative Path, so every
deploy/mutate/dry-run wrote decnet-topology-<id8>-compose.yml into the
process CWD (the install dir). Teardown computed the same relative path
against its own CWD, so when it differed the unlink() missed the orphan
and files accumulated forever.

Anchor to $DECNET_RUN_DIR (default /var/lib/decnet/topologies, tempdir
fallback) so write and teardown always agree regardless of CWD.
 2026-06-18 21:24:00 -04:00
anti
bf66e875a5 chore: drop decnet.tar build artifact, gitignore it 2026-06-18 21:16:29 -04:00
anti
b0bf31a31e feat(topology): scan-based creation wizard option (Pro contract + wiring) 
Adds the @pro ScanImport contract (ProScanImportProps/ProScanImport) and
a null community stub, and slots a third SCAN-BASED card into
CreateTopologyWizard, gated on the pro panel being present so it
tree-shakes out of the community build. The scan->topology importer
itself ships in decnet/pro v1.2.0. CHANGELOG updated under [1.2.0].
 2026-06-18 20:36:09 -04:00
26 changed files with 1101 additions and 55 deletions
Expand all files Collapse all files

4
.gitignore vendored
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@@ -84,3 +84,7 @@ testfail
# Internal design/dev notes — not for publication
/development/
decnet.tar
# cloak base-image build context: decnet subtree synced in at deploy time
decnet/templates/_shared/cloak/decnet/

51
CHANGELOG.md
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@@ -5,6 +5,46 @@ All notable changes to DECNET are documented here.
The format is based on [Keep a Changelog](https://keepachangelog.com/en/1.1.0/),
and this project adheres to [Semantic Versioning](https://semver.org/spec/v2.0.0.html).
## [1.2.1] - 2026-06-20
OS fingerprint **cloak** — make a decky read as its claimed OS under *active*
fingerprinting (`nmap -O`), not just passively. sysctl profiles only reach global
packet fields; the cloak owns the SYN-ACK *shape* and stack *behaviours* sysctl
can't reach. Verified live against real `nmap -O`: a `windows` decky reads as
**Windows 10 (95%)** and a `windows_server` decky as **Windows Server 2012/2016
(94%)** — up from a Linux 2.6 classification — with client handshakes intact.
### Added
- `decnet.cloak` — egress TCP/IP masquerading library, run inside the decky base
container (`python -m decnet.cloak`, `CAP_NET_ADMIN`/`CAP_NET_RAW`):
- **NFQUEUE mangler** — rewrites the egress packet shape sysctl cannot set
per-container: SYN-ACK (TCP option order, window, IP-ID; preserves the
kernel's live timestamp; recomputes `dataofs`/checksums), RST (IP-ID + a
nonzero ack on bare RSTs → nmap `CI`, `T4`/`T6` `A=O`), and ICMP echo-reply
(`code=0``IE.CD=Z`). One shared IP-ID counter across all three reads as a
shared sequence (`SS=S`).
- **T2/T3 probe-response synthesizer** — answers the nmap probes Linux drops
but Windows replies to (null-flags / SYN+FIN+PSH+URG to an open port).
Injects at L2 (reflecting the probe's MACs) so its replies bypass the OUTPUT
chain and coexist with the mangler's RST rule.
- Profiles live in `os_fingerprint.OS_MANGLE`, keyed by the same `nmap_os`
slug; pure packet-shaping logic is unit-tested offline (scapy/netfilterqueue
lazy-imported, Linux-only).
- `windows_server` nmap_os family — Windows Server stack deltas (ECN negotiated
`CC=Y`, randomized IP-ID `TI=RD`); the `windows-server` and `domain-controller`
archetypes now use it (workstation stays `windows`).
- Cloak base image (`templates/_shared/cloak/Dockerfile`, `FROM` the per-decky
distro) and `deployer._sync_cloak_sources`, which ships the light `decnet`
subtree into the build context. Base containers stay netns-safe — the cloak runs
best-effort behind `exec sleep infinity`, so a cloak crash never tears down the
decky or the netns its service containers share.
### Fixed
- **OS fingerprint timestamps bug**: the `windows` sysctl profile disabled TCP
timestamps, fingerprinting as an ancient stack. Modern Windows 10/11 run
timestamps **on** (`nmap SEQ.TS=A`) — corrected, and the single
highest-weighted field in the nmap match.
## [1.2.0] - 2026-06-18
Prefork worker consolidation — share the import floor across *separate* processes
@@ -26,6 +66,17 @@ workers the in-process supervisor can't co-host.
CoW-shared). ttp barely moved: its bulk is the privately-parsed ATT&CK bundle,
which it alone consumes — so master-warming it was confirmed pointless and
dropped. Lesson: prefork pays for base-floor-bound workers, not state-bound ones.
- **(Pro) Scan-based topology creation** — the MazeNET *New Topology* wizard
gains a third option alongside Blank and Seed-based: import an Nmap XML scan
and mirror its live hosts and services as decoys. Parses entirely in-browser
(native `DOMParser`, no new dependency), resolves discovered service
names/ports to DECNET services against the live catalog, groups hosts one LAN
per /24, and builds the topology through the existing CRUD APIs (blank → LANs
→ deckies → edges) — no new backend. Hosts with no recognizable service
(e.g. `nmap -sn`) default to a bare SSH decoy. The XML parser is hardened
against XXE/SSRF and entity-expansion DoS, and scan values render as inert
text (no XSS). Professional-tier; tree-shaken out of the community build
(`decnet/pro` `v1.2.0`).
### Changed
- MITRE ATT&CK Enterprise bundle pinned 19.0 → **19.1**. The bundle and its

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4
decnet/archetypes.py
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@@ -47,7 +47,7 @@ ARCHETYPES: dict[str, Archetype] = {
description="Windows domain member: SMB, RDP, and LDAP directory",
services=["smb", "rdp", "ldap"],
preferred_distros=["debian", "ubuntu22"],
nmap_os="windows",
nmap_os="windows_server",
),
"domain-controller": Archetype(
slug="domain-controller",
@@ -55,7 +55,7 @@ ARCHETYPES: dict[str, Archetype] = {
description="Active Directory DC: LDAP, SMB, RDP, LLMNR",
services=["ldap", "smb", "rdp", "llmnr"],
preferred_distros=["debian", "ubuntu22"],
nmap_os="windows",
nmap_os="windows_server",
),
"linux-server": Archetype(
slug="linux-server",

15
decnet/bus/factory.py
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@@ -20,6 +20,7 @@ import os
from typing import Any, cast
from decnet.bus.base import BaseBus
from decnet.paths import resolve_runtime_path
def get_bus(**kwargs: Any) -> BaseBus:
@@ -58,14 +59,12 @@ def _default_socket_path() -> str:
``RuntimeDirectory=decnet`` sets it up with the right perms; the home
fallback keeps dev boxes usable without systemd.
"""
explicit = os.environ.get("DECNET_BUS_SOCKET")
if explicit:
return explicit
runtime_dir = "/run/decnet"
if os.path.isdir(runtime_dir) and os.access(runtime_dir, os.W_OK):
return f"{runtime_dir}/bus.sock"
return os.path.expanduser("~/.decnet/bus.sock")
return resolve_runtime_path(
"bus.sock",
env_var="DECNET_BUS_SOCKET",
runtime_dir="/run/decnet",
user_fallback="~/.decnet/bus.sock",
)
def _maybe_wrap_telemetry(bus: BaseBus) -> BaseBus:

30
decnet/cloak/__init__.py Normal file
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@@ -0,0 +1,30 @@
# SPDX-License-Identifier: AGPL-3.0-or-later
"""
DECNET cloak — egress TCP/IP fingerprint masquerading for deckies.
sysctls (decnet/os_fingerprint.py) own GLOBAL packet fields. The cloak owns the
SYN-ACK *shape* and stack *behaviours* sysctl can't reach, so a decky reads as
its claimed nmap_os under active fingerprinting (nmap -O):
- mangler : NFQUEUE rewrite of egress SYN-ACK (window, TCP option order,
IP-ID generation) to match the MangleProfile for the slug.
- responder : raw-socket synthesis of replies to probes the Linux kernel
drops but the target OS answers (nmap T2/T3).
Both run INSIDE the decky's network namespace (CAP_NET_ADMIN), launched by the
base container — never a sidecar (that would double container count per decky).
Driven by os_fingerprint.get_os_mangle(nmap_os); a slug with no profile is a
no-op (the real Linux stack already approximates it).
"""
from __future__ import annotations
from decnet.cloak.mangler import build_synack_options, next_ipid
from decnet.cloak.responder import ProbeKind, build_reply_fields, classify_probe
__all__ = [
"build_synack_options",
"next_ipid",
"classify_probe",
"build_reply_fields",
"ProbeKind",
]

51
decnet/cloak/__main__.py Normal file
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@@ -0,0 +1,51 @@
# SPDX-License-Identifier: AGPL-3.0-or-later
"""
Cloak entrypoint — run inside the decky base container (CAP_NET_ADMIN).
python -m decnet.cloak
Config via env (set by the composer when nmap_os has a mangle profile):
DECNET_NMAP_OS nmap_os slug (e.g. "windows", "windows_server")
DECNET_OPEN_PORTS comma-separated TCP ports the decky serves (for T2/T3)
DECKY_IP this decky's IP (BPF scope for the responder)
Starts the mangler and responder, each in its own thread. A slug with no mangle
profile exits 0 immediately — harmless to launch unconditionally.
"""
from __future__ import annotations
import os
import threading
from decnet.cloak import mangler, responder
from decnet.logging import get_logger
from decnet.os_fingerprint import get_os_mangle
log = get_logger("cloak")
def _open_ports() -> frozenset[int]:
raw = os.environ.get("DECNET_OPEN_PORTS", "")
return frozenset(int(p) for p in raw.split(",") if p.strip().isdigit())
def main() -> int:
nmap_os = os.environ.get("DECNET_NMAP_OS", "linux")
if get_os_mangle(nmap_os) is None:
log.info("cloak: no mangle profile for %r — exiting", nmap_os)
return 0
# Responder runs in a daemon thread; the mangler runs in the MAIN thread so
# its SIGTERM/SIGINT iptables-teardown handlers can be installed (signal only
# works in the main thread).
threading.Thread(
target=responder.run, args=(nmap_os, _open_ports()),
name="cloak-responder", daemon=True,
).start()
log.info("cloak: started for nmap_os=%r", nmap_os)
mangler.run(nmap_os)
return 0
if __name__ == "__main__":
raise SystemExit(main())

180
decnet/cloak/mangler.py Normal file
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@@ -0,0 +1,180 @@
# SPDX-License-Identifier: AGPL-3.0-or-later
"""
Egress mangler — rewrites the TCP/IP shape & behaviours sysctl can't reach.
Touches only the fingerprint-relevant egress packets:
- SYN-ACK : window, TCP option order, IP-ID (nmap OPS/WIN/TI)
- RST : IP-ID + a nonzero ack on bare RSTs (nmap CI, T4/T6 A=O)
- ICMP echo-reply : code=0 + IP-ID (nmap IE.CD, II)
A single shared IP-ID counter across all three reads as a shared sequence (SS=S).
Split so the packet-shaping logic is pure and unit-testable without scapy, root,
or a live NFQUEUE:
- build_synack_options() / next_ipid() / _rst_needs_ack() : pure, tested offline.
- _rewrite() : mutates a scapy packet (lazy import).
- run() : the NFQUEUE loop (needs CAP_NET_ADMIN).
scapy/netfilterqueue are imported lazily inside the runtime functions, mirroring
decnet/prober/tcpfp.py, so importing this module is cheap and side-effect-free.
"""
from __future__ import annotations
import os
import signal
import subprocess # nosec B404 — fixed-arg iptables, no shell
import sys
import threading
from typing import Any
from decnet.logging import get_logger
from decnet.os_fingerprint import MangleProfile, get_os_mangle
log = get_logger("cloak.mangler")
_QUEUE = 0
# Only the fingerprint-relevant egress packets are queued (never bulk data):
# SYN-bearing → SYN-ACK (OPS/WIN/options/TI)
# RST-bearing → T4-T7 RST shape (CI IP-ID, T4/T6 ack)
# ICMP echo-reply → IE.CD code + II IP-ID
# --queue-bypass: a dead handler never blackholes the decky.
def _nfq_rule(match: list[str]) -> list[str]:
return ["OUTPUT", *match, "-j", "NFQUEUE", "--queue-num", str(_QUEUE), "--queue-bypass"]
_RULES = [
_nfq_rule(["-p", "tcp", "--tcp-flags", "SYN", "SYN"]),
_nfq_rule(["-p", "tcp", "--tcp-flags", "RST", "RST"]),
_nfq_rule(["-p", "icmp", "--icmp-type", "echo-reply"]),
]
def _rst_needs_ack(flags: int) -> bool:
"""A bare RST (RST set, ACK clear) — the T4/T6 case. Windows fills a nonzero
ack (nmap A=O); Linux leaves it 0 (A=Z). R+ACK RSTs (T5/T7) already match."""
return bool(flags & 0x04) and not (flags & 0x10)
def next_ipid(prev: int, mode: str) -> int:
"""Next IP-ID for *mode*: 'incr' (TI=I), 'random' (TI=RD), 'keep' (unchanged).
'keep' returns -1 as a sentinel meaning "do not touch the kernel's value".
"""
if mode == "incr":
return (prev + 1) & 0xFFFF
if mode == "random":
# Not for security — only to read as randomized to nmap (TI=RD).
return int.from_bytes(os.urandom(2), "big") or 1
return -1
def build_synack_options(
orig_options: list[tuple[str, Any]], profile: MangleProfile
) -> list[tuple[str, Any]]:
"""Build the SYN-ACK TCP option list for *profile*, preserving the kernel's
live Timestamp value (so nmap's SEQ.TS increment-rate test still passes).
*orig_options* is a scapy-style ``[(name, value), ...]`` list.
"""
ts = next((v for n, v in orig_options if n == "Timestamp"), None)
out: list[tuple[str, Any]] = []
for code in profile.option_order:
if code == "MSS":
out.append(("MSS", profile.mss))
elif code == "WScale":
out.append(("WScale", profile.wscale))
elif code == "SAckOK":
out.append(("SAckOK", b""))
elif code == "NOP":
out.append(("NOP", None))
elif code == "TS":
if ts is not None: # only if sysctl kept timestamps on
out.append(("Timestamp", ts))
return out
def _is_synack(flags: int) -> bool:
return bool(flags & 0x02) and bool(flags & 0x10) # SYN & ACK
def _iptables(action: str) -> None:
for rule in _RULES:
subprocess.run(["iptables", action, *rule], check=True) # nosec B603 B607
def run(nmap_os: str) -> int:
"""Install the NFQUEUE rules and rewrite egress SYN-ACK / RST / ICMP for *nmap_os*."""
profile = get_os_mangle(nmap_os)
if profile is None:
log.info("cloak.mangler: no profile for %r — nothing to do", nmap_os)
return 0
from netfilterqueue import NetfilterQueue # type: ignore
from scapy.all import ICMP, IP, TCP # type: ignore
# ONE shared IP-ID counter across SYN-ACK / RST / ICMP — keeps TCP and ICMP
# IDs close, which is what nmap reads as a shared sequence (SS=S, Windows).
ipid = [0x0400]
def _bump_ipid(p: Any) -> None:
nid = next_ipid(ipid[0], profile.ipid)
if nid >= 0:
ipid[0] = nid
p[IP].id = nid
def _rewrite(pkt: Any) -> None:
try:
p = IP(pkt.get_payload())
touched = False
tcp_synack = False
if p.haslayer(TCP):
f = int(p[TCP].flags)
if _is_synack(f):
p[TCP].window = profile.window
p[TCP].options = build_synack_options(p[TCP].options, profile)
_bump_ipid(p)
touched = tcp_synack = True
elif f & 0x04: # RST (T4-T7)
_bump_ipid(p)
if _rst_needs_ack(f):
p[TCP].ack = (int(p[TCP].seq) + 1) & 0xFFFFFFFF # A=O
touched = True
if touched:
del p[TCP].chksum
if tcp_synack: # options length changed → recompute offset
del p[TCP].dataofs
elif p.haslayer(ICMP) and int(p[ICMP].type) == 0: # echo-reply
p[ICMP].code = 0 # IE.CD=Z (Windows); Linux echoes the code
_bump_ipid(p)
del p[ICMP].chksum
touched = True
if touched:
del p[IP].chksum, p[IP].len
pkt.set_payload(bytes(p))
except Exception: # nosec B110 — never drop a packet on a rewrite bug
log.exception("cloak.mangler: rewrite failed; passing packet through")
pkt.accept()
_iptables("-A")
nfq = NetfilterQueue()
nfq.bind(_QUEUE, _rewrite)
def _cleanup(*_: Any) -> None:
try:
_iptables("-D")
finally:
sys.exit(0)
# signal.signal() only works in the main thread; the `finally` below still
# removes the rule on a normal exit, and on container stop the netns (and
# its iptables rules) are torn down regardless.
if threading.current_thread() is threading.main_thread():
signal.signal(signal.SIGTERM, _cleanup)
signal.signal(signal.SIGINT, _cleanup)
log.info("cloak.mangler: rewriting SYN-ACK/RST/ICMP -> %s (window=%#x ipid=%s)",
nmap_os, profile.window, profile.ipid)
try:
nfq.run()
finally:
_iptables("-D")
return 0

92
decnet/cloak/responder.py Normal file
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@@ -0,0 +1,92 @@
# SPDX-License-Identifier: AGPL-3.0-or-later
"""
Probe-response synthesizer — answers the nmap probes the Linux kernel drops.
nmap's T2 (null-flags) and T3 (SYN+FIN+PSH+URG) to an OPEN port get no reply
from Linux (R=N), but Windows replies RST+ACK. We sniff the probe and inject the
target-OS-shaped reply ourselves; the kernel stays silent, so nothing races us.
Pure classification/reply logic is separated from the scapy sniff/send loop so it
is unit-testable without root or a live capture.
"""
from __future__ import annotations
import enum
import os
from typing import Any
from decnet.logging import get_logger
from decnet.os_fingerprint import get_os_mangle
log = get_logger("cloak.responder")
_NULL = 0x00
_T3 = 0x2B # SYN+FIN+PSH+URG
class ProbeKind(enum.Enum):
T2 = "T2"
T3 = "T3"
def classify_probe(flags: int, dport: int, open_ports: frozenset[int]) -> ProbeKind | None:
"""Identify an nmap T2/T3 probe by flag combo + open destination port.
Returns None for anything else (legit traffic, probes to closed ports, and
T1/T4-T7 which the real stack already answers).
"""
if dport not in open_ports:
return None
if flags == _NULL:
return ProbeKind.T2
if flags == _T3:
return ProbeKind.T3
return None
def build_reply_fields(probe_seq: int, kind: ProbeKind) -> dict[str, Any]:
"""Windows T2/T3 reply fields: seq 0, RST+ACK, window 0, DF=1.
ack differs by probe (nmap): T2 A=S (ack == probe seq); T3 A=O (other — we
use probe seq + 1 so it reads as 'other', never zero or the probe seq).
"""
ack = probe_seq if kind is ProbeKind.T2 else (probe_seq + 1) & 0xFFFFFFFF
return {"seq": 0, "ack": ack, "flags": "RA", "window": 0, "df": True}
def run(nmap_os: str, open_ports: frozenset[int], decky_ip: str | None = None) -> int:
"""Sniff for T2/T3 probes to *open_ports* and inject Windows-shaped replies."""
profile = get_os_mangle(nmap_os)
if profile is None or not profile.respond_t2t3:
log.info("cloak.responder: nothing to do for %r", nmap_os)
return 0
from scapy.all import IP, TCP, Ether, sendp, sniff # type: ignore
ip = decky_ip or os.environ.get("DECKY_IP", "")
ipid = [0x0800]
def _on(pkt: Any) -> None:
if not pkt.haslayer(TCP) or not pkt.haslayer(Ether):
return
kind = classify_probe(int(pkt[TCP].flags), int(pkt[TCP].dport), open_ports)
if kind is None:
return
f = build_reply_fields(int(pkt[TCP].seq), kind)
ipid[0] = (ipid[0] + 1) & 0xFFFF
# Inject at L2 (reflecting the probe's MACs) so the reply BYPASSES the
# OUTPUT chain — otherwise the mangler's RST rule would re-process and
# drop our own RST. The reply is already in final Windows shape.
reply = (
Ether(src=pkt[Ether].dst, dst=pkt[Ether].src)
/ IP(src=pkt[IP].dst, dst=pkt[IP].src, id=ipid[0], flags="DF", ttl=128)
/ TCP(sport=int(pkt[TCP].dport), dport=int(pkt[TCP].sport),
seq=f["seq"], ack=f["ack"], flags=f["flags"], window=f["window"])
)
sendp(reply, iface=pkt.sniffed_on, verbose=0)
bpf = f"tcp and dst host {ip}" if ip else "tcp"
log.info("cloak.responder: answering T2/T3 on %d ports (filter=%r)",
len(open_ports), bpf)
sniff(filter=bpf, prn=_on, store=0)
return 0

41
decnet/composer.py
View File

@@ -21,7 +21,7 @@ import yaml
from decnet.config import DecnetConfig
from decnet.network import MACVLAN_NETWORK_NAME
from decnet.os_fingerprint import get_os_sysctls
from decnet.os_fingerprint import get_os_mangle, get_os_sysctls
from decnet.services.registry import get_service
_DOCKER_LOGGING = {
@@ -32,6 +32,26 @@ _DOCKER_LOGGING = {
},
}
# Build context for the cloak base image (decnet subtree synced in by
# deployer._sync_cloak_sources before build).
_CLOAK_CONTEXT = Path(__file__).parent / "templates" / "_shared" / "cloak"
# Netns-safe: run the cloak best-effort in the background, but keep `sleep
# infinity` as PID 1 in the foreground so a cloak crash never tears down the
# base container (and with it the netns every service container shares).
_CLOAK_COMMAND = ["sh", "-c", "python3 -m decnet.cloak & exec sleep infinity"]
def _decky_open_tcp_ports(services: list[str]) -> list[int]:
"""Sorted, de-duped TCP ports a decky's services listen on (for the cloak
responder's T2/T3 classification — DECNET_OPEN_PORTS)."""
ports: set[int] = set()
for svc_name in services:
svc = get_service(svc_name)
if svc is not None:
ports.update(svc.ports)
return sorted(ports)
def generate_compose(config: DecnetConfig) -> dict:
"""Build and return the full docker-compose data structure."""
@@ -60,6 +80,25 @@ def generate_compose(config: DecnetConfig) -> dict:
base["sysctls"] = get_os_sysctls(decky.nmap_os)
base["cap_add"] = ["NET_ADMIN"]
# sysctls reach only global packet fields. nmap_os families with an
# egress mangle profile (windows*) additionally run the cloak in the
# base container to rewrite SYN-ACK shape + synthesize T2/T3 replies, so
# they read as the claimed OS under active fingerprinting (nmap -O).
if get_os_mangle(decky.nmap_os) is not None:
base.pop("image", None)
base["build"] = {
"context": str(_CLOAK_CONTEXT),
"args": {"BASE_IMAGE": decky.build_base},
}
base["command"] = _CLOAK_COMMAND
base["cap_add"] = ["NET_ADMIN", "NET_RAW"] # NET_RAW: responder send/sniff
ports = _decky_open_tcp_ports(decky.services)
base["environment"] = {
"DECNET_NMAP_OS": decky.nmap_os,
"DECNET_OPEN_PORTS": ",".join(str(p) for p in ports),
"DECKY_IP": decky.ip,
}
services[base_key] = base
# --- Service containers: share base network namespace ---

48
decnet/engine/deployer.py
View File

@@ -5,8 +5,10 @@ Deploy, teardown, and status via Docker SDK + subprocess docker compose.
import asyncio
import json
import os
import shutil
import subprocess # nosec B404
import tempfile
import time
from pathlib import Path
from typing import cast
@@ -63,6 +65,20 @@ _CANONICAL_NTLMSSP = Path(__file__).parent.parent / "templates" / "_shared" / "n
_NTLMSSP_SERVICES = {"smb", "rdp"}
_CANONICAL_CADDY_MODULES_DIR = Path(__file__).parent.parent / "templates" / "_caddy_modules"
_CADDY_SERVICES = {"http", "https"}
# Cloak base image: the decnet package root + the 8 light files shipped into the
# cloak build context so `python -m decnet.cloak` runs in the base container.
_DECNET_SRC = Path(__file__).parent.parent
_CANONICAL_CLOAK_DIR = _DECNET_SRC / "templates" / "_shared" / "cloak"
_CLOAK_SHIP_FILES = (
"__init__.py",
"config_ini.py",
"logging/__init__.py",
"os_fingerprint.py",
"cloak/__init__.py",
"cloak/__main__.py",
"cloak/mangler.py",
"cloak/responder.py",
)
def _sync_logging_helper(config: DecnetConfig) -> None:
@@ -85,6 +101,26 @@ def _sync_logging_helper(config: DecnetConfig) -> None:
shutil.copy2(src, dest)
def _sync_cloak_sources(config: DecnetConfig) -> None:
"""Ship the light decnet subtree into the cloak base-image build context.
Only when at least one decky has an egress mangle profile (windows*). Copies
the 8 files in _CLOAK_SHIP_FILES into <cloak ctx>/decnet/ preserving package
structure so the image's `python -m decnet.cloak` resolves. The dest tree is
gitignored. Mirrors the _sync_*_sources copy-if-changed idiom.
"""
from decnet.os_fingerprint import get_os_mangle
if not any(get_os_mangle(d.nmap_os) is not None for d in config.deckies):
return
dest_root = _CANONICAL_CLOAK_DIR / "decnet"
for rel in _CLOAK_SHIP_FILES:
src = _DECNET_SRC / rel
dest = dest_root / rel
dest.parent.mkdir(parents=True, exist_ok=True)
if not dest.exists() or dest.read_bytes() != src.read_bytes():
shutil.copy2(src, dest)
def _sync_auth_helper_sources(config: DecnetConfig) -> None:
"""Copy auth-helper.c into SSH/Telnet build contexts as auth-helper/.
@@ -677,6 +713,7 @@ def deploy(config: DecnetConfig, dry_run: bool = False, no_cache: bool = False,
_sync_auth_helper_sources(config)
_sync_ntlmssp_sources(config)
_sync_caddy_modules(config)
_sync_cloak_sources(config)
compose_path = write_compose(config, COMPOSE_FILE)
console.print(f"[bold cyan]Compose file written[/] → {compose_path}")
@@ -833,7 +870,16 @@ def _teardown_order(lans: list[dict]) -> list[str]:
def _topology_compose_path(topology_id: str) -> Path:
return Path(f"decnet-topology-{topology_id[:8]}-compose.yml")
# Anchor to a stable absolute dir so write and teardown agree
# regardless of process CWD — a CWD-relative path littered the
# install tree and let teardown's unlink() miss orphaned files.
base = Path(os.environ.get("DECNET_RUN_DIR", "/var/lib/decnet/topologies"))
try:
base.mkdir(parents=True, exist_ok=True)
except OSError:
base = Path(tempfile.gettempdir()) / "decnet-topologies"
base.mkdir(parents=True, exist_ok=True)
return base / f"decnet-topology-{topology_id[:8]}-compose.yml"
def _topology_compose_project(topology_id: str) -> str:

67
decnet/os_fingerprint.py
View File

@@ -35,6 +35,8 @@ Windows (64240) from the kernel's default tcp_rmem settings.
from __future__ import annotations
from dataclasses import dataclass
OS_SYSCTLS: dict[str, dict[str, str]] = {
"linux": {
"net.ipv4.ip_default_ttl": "64",
@@ -49,9 +51,12 @@ OS_SYSCTLS: dict[str, dict[str, str]] = {
"net.ipv4.icmp_ratemask": "6168",
},
"windows": {
# Windows 10/11 workstation. NOTE: modern Windows runs TCP timestamps
# ON (nmap SEQ.TS=A) — an earlier value of 0 here fingerprinted as an
# ancient Windows/Linux stack. ECN off → nmap ECN.CC=N (workstation).
"net.ipv4.ip_default_ttl": "128",
"net.ipv4.tcp_syn_retries": "2",
"net.ipv4.tcp_timestamps": "0",
"net.ipv4.tcp_timestamps": "1",
"net.ipv4.tcp_window_scaling": "1",
"net.ipv4.tcp_sack": "1",
"net.ipv4.tcp_ecn": "0",
@@ -60,6 +65,22 @@ OS_SYSCTLS: dict[str, dict[str, str]] = {
"net.ipv4.icmp_ratelimit": "0",
"net.ipv4.icmp_ratemask": "0",
},
"windows_server": {
# Windows Server 2016/2019. Same NT stack as the workstation; the only
# stack-visible deltas nmap reads are ECN negotiated (CC=Y → tcp_ecn=1)
# and randomized IP-ID (SEQ.TI=RD, applied by the cloak mangler, not a
# sysctl). Everything else == "windows".
"net.ipv4.ip_default_ttl": "128",
"net.ipv4.tcp_syn_retries": "2",
"net.ipv4.tcp_timestamps": "1",
"net.ipv4.tcp_window_scaling": "1",
"net.ipv4.tcp_sack": "1",
"net.ipv4.tcp_ecn": "1",
"net.ipv4.ip_no_pmtu_disc": "0",
"net.ipv4.tcp_fin_timeout": "30",
"net.ipv4.icmp_ratelimit": "0",
"net.ipv4.icmp_ratemask": "0",
},
"bsd": {
"net.ipv4.ip_default_ttl": "64",
"net.ipv4.tcp_syn_retries": "6",
@@ -112,3 +133,47 @@ def all_os_families() -> list[str]:
"""Return all registered nmap OS family slugs."""
return list(OS_SYSCTLS.keys())
# ─── Egress mangle profiles (cloak) ──────────────────────────────────────────
#
# sysctls above reach only GLOBAL fields (TTL, timestamps on/off, ECN). The
# SYN-ACK *shape* nmap also scores — exact window, TCP option order, IP-ID
# generation — cannot be set per-container by sysctl. The cloak mangler
# (decnet/cloak) rewrites those on egress, driven by these profiles, keyed by
# the SAME nmap_os slug. A slug ABSENT here needs no mangling (its real Linux
# stack already approximates the target, e.g. "linux"/"bsd").
@dataclass(frozen=True)
class MangleProfile:
"""How the cloak rewrites a decky's egress to match an nmap_os family."""
window: int # TCP advertised window on SYN-ACK
mss: int # MSS option value
wscale: int # window-scale shift
# Ordered TCP option layout to emit on SYN-ACK. "TS" is kept only if the
# kernel emitted a Timestamp (sysctl tcp_timestamps=1) so its live,
# incrementing value survives the rewrite (nmap SEQ.TS rate test).
option_order: tuple[str, ...]
ipid: str # "incr" (TI=I) | "random" (TI=RD) | "keep"
respond_t2t3: bool # synthesize Windows T2/T3 replies
_WIN_OPTS = ("MSS", "NOP", "WScale", "SAckOK", "TS")
OS_MANGLE: dict[str, MangleProfile] = {
"windows": MangleProfile(
window=0x2000, mss=1460, wscale=8,
option_order=_WIN_OPTS, ipid="incr", respond_t2t3=True,
),
"windows_server": MangleProfile(
window=0x2000, mss=1460, wscale=8,
option_order=_WIN_OPTS, ipid="random", respond_t2t3=True,
),
}
def get_os_mangle(nmap_os: str) -> MangleProfile | None:
"""Return the cloak mangle profile for *nmap_os*, or None if it needs none."""
return OS_MANGLE.get(nmap_os)

41
decnet/paths.py Normal file
View File

@@ -0,0 +1,41 @@
# SPDX-License-Identifier: AGPL-3.0-or-later
"""Shared runtime filesystem path resolution.
DECNET writes runtime state under a system dir provisioned by ``decnet
init`` / systemd (``/var/lib/decnet`` for state, ``/run/decnet`` for
sockets). On dev boxes without systemd, or in CI, that dir may be absent
or read-only, so callers fall back to a per-user location.
:func:`resolve_runtime_path` centralises the writable-dir probe that the
vectorstore and bus backends previously copy-pasted verbatim.
"""
from __future__ import annotations
import os
def resolve_runtime_path(
filename: str,
*,
env_var: str,
runtime_dir: str,
user_fallback: str,
) -> str:
"""Resolve a runtime file path. Creates nothing.
Precedence:
1. ``$env_var`` if set (used verbatim).
2. ``runtime_dir/filename`` if ``runtime_dir`` exists and is writable.
3. ``user_fallback`` (``~`` expanded).
``runtime_dir`` is *probed*, never created: it is meant to be
provisioned with the right ownership and perms by init/systemd, so
creating it here with whatever perms the current process happens to
have would be worse than falling back to the user path.
"""
explicit = os.environ.get(env_var)
if explicit:
return explicit
if os.path.isdir(runtime_dir) and os.access(runtime_dir, os.W_OK):
return os.path.join(runtime_dir, filename)
return os.path.expanduser(user_fallback)

32
decnet/templates/_shared/cloak/Dockerfile Normal file
View File

@@ -0,0 +1,32 @@
# Cloak base image — the IP-holder/netns container for deckies whose nmap_os has
# an egress mangle profile (windows, windows_server). Runs `python -m decnet.cloak`
# (SYN-ACK mangler + T2/T3 responder) alongside holding the MACVLAN IP.
#
# FROM the per-decky distro so the base still varies by distro (BASE_IMAGE arg,
# set by the composer from decky.build_base — same pattern as service images).
# The decnet/ subtree is synced into this context by deployer._sync_cloak_sources
# before build (8 light, stdlib-only files; scapy/netfilterqueue are pip'd here).
ARG BASE_IMAGE=debian:bookworm-slim
FROM ${BASE_IMAGE}
# Runtime: iptables (NFQUEUE rules), python3, libpcap (scapy BPF sniff in the
# responder). Build-only: gcc + headers for the netfilterqueue C extension,
# purged after the wheel is built to keep the image lean.
RUN apt-get update && apt-get install -y --no-install-recommends \
python3 python3-pip iptables libpcap0.8 \
libnetfilter-queue1 libnfnetlink0 \
gcc python3-dev libnetfilter-queue-dev libnfnetlink-dev \
&& pip3 install --no-cache-dir --break-system-packages \
"scapy>=2.6.1" "netfilterqueue>=1.1.0" \
&& apt-get purge -y gcc python3-dev libnetfilter-queue-dev libnfnetlink-dev \
&& apt-get autoremove -y \
&& rm -rf /var/lib/apt/lists/*
# Synced 8-file decnet subtree (decnet/__init__, config_ini, logging/, os_fingerprint,
# cloak/). PYTHONPATH=/opt makes `python3 -m decnet.cloak` importable.
COPY decnet/ /opt/decnet/
ENV PYTHONPATH=/opt
# The compose `command` drives runtime (netns-safe supervisor: cloak in background,
# sleep infinity in foreground so a cloak crash never tears down the netns holder).
CMD ["sleep", "infinity"]

14
decnet/vectorstore/factory.py
View File

@@ -26,6 +26,7 @@ import logging
import os
from typing import Any
from decnet.paths import resolve_runtime_path
from decnet.vectorstore.base import BaseVectorStore
LOG = logging.getLogger(__name__)
@@ -65,10 +66,9 @@ def get_vectorstore(**kwargs: Any) -> BaseVectorStore:
def _default_db_path() -> str:
explicit = os.environ.get("DECNET_VECTORSTORE_PATH")
if explicit:
return explicit
runtime_dir = "/var/lib/decnet"
if os.path.isdir(runtime_dir) and os.access(runtime_dir, os.W_OK):
return f"{runtime_dir}/vectors.sqlite"
return os.path.expanduser("~/.decnet/vectors.sqlite")
return resolve_runtime_path(
"vectors.sqlite",
env_var="DECNET_VECTORSTORE_PATH",
runtime_dir="/var/lib/decnet",
user_fallback="~/.decnet/vectors.sqlite",
)

49
decnet_web/src/components/TopologyList/CreateTopologyWizard.tsx
View File

@@ -1,6 +1,7 @@
// SPDX-License-Identifier: AGPL-3.0-or-later
import React, { useCallback, useEffect, useMemo, useRef, useState } from 'react';
import { X, Server, Cpu, FileText, Sparkles, Check } from '../../icons';
import { X, Server, Cpu, FileText, Sparkles, Check, Crosshair } from '../../icons';
import { ScanImport } from '@pro';
import api from '../../utils/api';
import { useEscapeKey } from '../../hooks/useEscapeKey';
import { useFocusTrap } from '../../hooks/useFocusTrap';
@@ -28,7 +29,7 @@ interface TopologySummary {
status_changed_at: string | null;
}
type Kind = 'blank' | 'seeded';
type Kind = 'blank' | 'seeded' | 'scan';
interface Props {
open: boolean;
@@ -103,15 +104,19 @@ const CreateTopologyWizard: React.FC<Props> = ({ open, onClose, onCreated }) =>
[targetId, hosts],
);
const canNext = step === 0 ? !!targetId : !!kind && name.trim().length > 0;
const handleCreate = async () => {
if (!targetId || !kind) return;
setSubmitting(true);
setErr(null);
const isAgent = targetId !== LOCAL_CARD_ID;
const isAgent = !!targetId && targetId !== LOCAL_CARD_ID;
const targetHostUuid = isAgent ? targetId : null;
const mode = isAgent ? 'agent' : 'unihost';
// Scan import owns its own name/preview/create sub-flow inside the pro panel,
// so the wizard's name gate and CREATE button don't apply to it.
const canNext =
step === 0 ? !!targetId : kind === 'scan' || (!!kind && name.trim().length > 0);
const handleCreate = async () => {
if (!targetId || !kind || kind === 'scan') return;
setSubmitting(true);
setErr(null);
try {
if (kind === 'blank') {
const { data } = await api.post<TopologySummary>('/topologies/blank', {
@@ -234,6 +239,22 @@ const CreateTopologyWizard: React.FC<Props> = ({ open, onClose, onCreated }) =>
Runs the MazeNET generator with depth/branching/deckies parameters. Seed is optional omit for a fresh roll.
</div>
</div>
{ScanImport && (
<div
onClick={() => setKind('scan')}
className={`ctw-card ${kind === 'scan' ? 'selected' : ''}`}
>
<div className="ctw-card-head">
<Crosshair size={16} className="ctw-violet" />
<span className="ctw-card-name">SCAN-BASED</span>
</div>
<div className="ctw-card-sub">mirror an Nmap scan</div>
<div className="ctw-card-desc">
Import an Nmap XML scan and mirror the discovered hosts and services
as decoys. Review and pick targets before deploying.
</div>
</div>
)}
</>
);
@@ -285,8 +306,9 @@ const CreateTopologyWizard: React.FC<Props> = ({ open, onClose, onCreated }) =>
<div className="ctw-label">
Target: <span className="ctw-violet">{targetLabel}</span> · pick a starting point.
</div>
<div className="ctw-grid-2">{step1Cards}</div>
<div className={ScanImport ? 'ctw-grid-3' : 'ctw-grid-2'}>{step1Cards}</div>
{kind !== 'scan' && (
<div className="ctw-field">
<label>NAME</label>
<input
@@ -298,6 +320,11 @@ const CreateTopologyWizard: React.FC<Props> = ({ open, onClose, onCreated }) =>
maxLength={64}
/>
</div>
)}
{kind === 'scan' && ScanImport && (
<ScanImport mode={mode} targetHostUuid={targetHostUuid} onCreated={onCreated} />
)}
{kind === 'seeded' && (
<div className="ctw-grid-2">
@@ -371,7 +398,7 @@ const CreateTopologyWizard: React.FC<Props> = ({ open, onClose, onCreated }) =>
NEXT
</button>
)}
{step === 1 && (
{step === 1 && kind !== 'scan' && (
<button className="ctw-btn" disabled={!canNext || submitting} onClick={handleCreate}>
{submitting ? 'CREATING…' : 'CREATE'}
</button>

8
decnet_web/src/pro/pro.test.ts
View File

@@ -1,5 +1,5 @@
// SPDX-License-Identifier: AGPL-3.0-or-later
import { proRoutes } from '@pro';
import { proRoutes, ScanImport } from '@pro';
// In the community build, `@pro` resolves to the stub: no Professional pages,
// so App's route map and Layout's nav group both tree-shake to nothing.
@@ -7,4 +7,10 @@ describe('pro tier — community build', () => {
it('ships no pro routes', () => {
expect(proRoutes).toEqual([]);
});
// null tree-shakes the wizard's third "SCAN-BASED" card out of the community
// bundle — the scan→topology importer is Professional-only.
it('ships no scan importer', () => {
expect(ScanImport).toBeNull();
});
});

6
decnet_web/src/pro/stub.ts
View File

@@ -3,6 +3,10 @@
// sets VITE_DECNET_PRO=1 with decnet/pro/web/ present, in which case Vite
// aliases `@pro` to the real registry. proRoutes being empty lets the router
// and nav tree-shake the pro surface out of the community bundle.
import type { ProRoute } from './types';
import type { ProRoute, ProScanImport } from './types';
export const proRoutes: ProRoute[] = [];
// No scan-based topology creation in the community build — the wizard's third
// card tree-shakes out when this is null.
export const ScanImport: ProScanImport = null;

34
decnet_web/src/pro/types.ts
View File

@@ -1,7 +1,7 @@
// SPDX-License-Identifier: AGPL-3.0-or-later
// Contract for Professional-tier UI pages. The pro build aliases `@pro` to the
// real registry in decnet/pro/web/; the community build resolves it to ./stub.
import type { ReactElement, ReactNode } from 'react';
import type { ComponentType, ReactElement, ReactNode } from 'react';
export interface ProRoute {
/** Router path, e.g. "/pro/intel". Convention: prefix pro routes with /pro. */
@@ -13,3 +13,35 @@ export interface ProRoute {
/** Page element rendered at `path`. May be a lazy component (App wraps Suspense). */
element: ReactElement;
}
/** Created-topology summary handed back to the wizard. Mirrors the wizard's own
* TopologySummary (and GET /topologies rows) structurally so the wizard's
* onCreated handler is assignable without a cross-tree type import. */
export interface ProTopologySummary {
id: string;
name: string;
mode: string;
target_host_uuid: string | null;
status: string;
version: number;
needs_resync?: boolean;
created_at: string;
status_changed_at: string | null;
}
/** Props the CreateTopologyWizard passes to the pro scan-import panel. The pro
* build owns the entire scan→topology flow (file pick, parse, preview, create)
* and signals completion through `onCreated`; the community build never sees
* this surface. Kept structural — the pro tree implements the shape without
* importing it, mirroring how `ProRoute` crosses the trust boundary. */
export interface ProScanImportProps {
/** "unihost" | "agent" — chosen in the wizard's TARGET step. */
mode: string;
/** Agent host UUID, or null for local. */
targetHostUuid: string | null;
/** Fires with the created topology summary; the wizard closes and navigates. */
onCreated: (row: ProTopologySummary) => void;
}
/** `null` in the community build (no scan import); a component in the pro build. */
export type ProScanImport = ComponentType<ProScanImportProps> | null;

5
pyproject.toml
View File

@@ -4,7 +4,7 @@ build-backend = "setuptools.build_meta"
[project]
name = "decnet"
version = "1.2.0"
version = "1.2.1"
description = "Deception network: deploy honeypot deckies that appear as real LAN hosts"
readme = "README.md"
authors = [{ name = "Samuel Paschuan", email = "samuel.paschuan@xmartlab.com" }]
@@ -40,6 +40,9 @@ dependencies = [
# `alembic upgrade head` at boot for managed DBs (see db/migrate.py).
"alembic>=1.13",
"scapy>=2.6.1",
# cloak egress mangler (NFQUEUE); Linux-only, lazy-imported so absence on
# dev/CI/non-Linux is tolerated (decnet.cloak only needs it at run()).
"netfilterqueue>=1.1.0 ; sys_platform == 'linux'",
"orjson>=3.10",
"cryptography>=48.0.1",
"python-multipart>=0.0.31",

0
tests/cloak/__init__.py Normal file
View File

147
tests/cloak/test_cloak.py Normal file
View File

@@ -0,0 +1,147 @@
# SPDX-License-Identifier: AGPL-3.0-or-later
"""
Tests for the cloak mangler/responder PURE logic — option layout, IP-ID policy,
probe classification, reply fields. No scapy, root, or live NFQUEUE involved
(the runtime loops are exercised only on real deckies, not in CI).
"""
from __future__ import annotations
import pytest
from decnet.cloak import (
ProbeKind,
build_reply_fields,
build_synack_options,
classify_probe,
next_ipid,
)
from decnet.cloak.mangler import _is_synack, _rst_needs_ack
from decnet.os_fingerprint import OS_MANGLE, MangleProfile, get_os_mangle
WIN = OS_MANGLE["windows"]
SRV = OS_MANGLE["windows_server"]
# ── profile wiring ──────────────────────────────────────────────────────────
def test_get_os_mangle_known():
assert isinstance(get_os_mangle("windows"), MangleProfile)
assert get_os_mangle("windows_server").ipid == "random"
def test_get_os_mangle_none_for_linux():
assert get_os_mangle("linux") is None
assert get_os_mangle("nonexistent") is None
def test_windows_workstation_ipid_is_incr():
# Win10 workstation = incremental IP-ID (nmap TI=I); server = randomized (RD).
assert WIN.ipid == "incr"
assert SRV.ipid == "random"
# ── SYN-ACK option building ─────────────────────────────────────────────────
def test_options_layout_with_timestamp_preserved():
orig = [("MSS", 1460), ("SAckOK", b""), ("Timestamp", (111, 222)),
("NOP", None), ("WScale", 7)]
out = build_synack_options(orig, WIN)
names = [n for n, _ in out]
assert names == ["MSS", "NOP", "WScale", "SAckOK", "Timestamp"]
# the kernel's live timestamp value must survive (SEQ.TS rate test)
assert ("Timestamp", (111, 222)) in out
# our chosen mss/wscale override whatever the kernel emitted
assert ("MSS", WIN.mss) in out
assert ("WScale", WIN.wscale) in out
def test_options_drop_timestamp_when_kernel_had_none():
"""If timestamps are off (no kernel TS option), emit none — never a fake one."""
orig = [("MSS", 1460), ("SAckOK", b""), ("NOP", None), ("WScale", 7)]
out = build_synack_options(orig, WIN)
assert all(n != "Timestamp" for n, _ in out)
def test_options_length_is_4byte_aligned():
"""Sanity: the windows option layout encodes to a multiple of 4 bytes."""
from scapy.all import TCP # type: ignore # noqa
pytest.importorskip("scapy")
orig = [("MSS", 1460), ("Timestamp", (1, 2))]
out = build_synack_options(orig, WIN)
raw = bytes(TCP(options=out))[20:] # options after the 20-byte base header
assert len(raw) % 4 == 0
# ── IP-ID policy ────────────────────────────────────────────────────────────
def test_next_ipid_incr_wraps():
assert next_ipid(5, "incr") == 6
assert next_ipid(0xFFFF, "incr") == 0
def test_next_ipid_random_in_range_nonzero():
for _ in range(50):
v = next_ipid(0, "random")
assert 1 <= v <= 0xFFFF
def test_next_ipid_keep_sentinel():
assert next_ipid(123, "keep") == -1
# ── SYN-ACK detection ───────────────────────────────────────────────────────
@pytest.mark.parametrize("flags,expected", [
(0x12, True), # SYN+ACK
(0x52, True), # SYN+ACK+ECE (ECN SYN-ACK)
(0x02, False), # bare SYN
(0x10, False), # bare ACK
])
def test_is_synack(flags, expected):
assert _is_synack(flags) is expected
@pytest.mark.parametrize("flags,expected", [
(0x04, True), # bare RST (T4/T6 ACK-probe response) → fill ack (A=O)
(0x14, False), # RST+ACK (T5/T7) → already A=S+, leave
(0x12, False), # SYN+ACK
])
def test_rst_needs_ack(flags, expected):
assert _rst_needs_ack(flags) is expected
# ── probe classification ────────────────────────────────────────────────────
OPEN = frozenset({22, 80, 443})
def test_classify_t2_null_flags_open_port():
assert classify_probe(0x00, 80, OPEN) is ProbeKind.T2
def test_classify_t3_synfinpshurg_open_port():
assert classify_probe(0x2B, 80, OPEN) is ProbeKind.T3
def test_classify_ignores_closed_port():
assert classify_probe(0x00, 9999, OPEN) is None
def test_classify_ignores_normal_traffic():
assert classify_probe(0x02, 80, OPEN) is None # SYN — real stack handles
assert classify_probe(0x10, 80, OPEN) is None # ACK
# ── reply field shaping ─────────────────────────────────────────────────────
def test_reply_fields_t2_ack_equals_probe_seq():
# T2: A=S (ack == probe seq)
f = build_reply_fields(0xDEAD, ProbeKind.T2)
assert f == {"seq": 0, "ack": 0xDEAD, "flags": "RA", "window": 0, "df": True}
def test_reply_fields_t3_ack_is_other():
# T3: A=O (other — not zero, not the probe seq)
f = build_reply_fields(0xDEAD, ProbeKind.T3)
assert f["ack"] not in (0, 0xDEAD)
assert f["seq"] == 0 and f["flags"] == "RA"

130
tests/cloak/test_compose_wiring.py Normal file
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@@ -0,0 +1,130 @@
# SPDX-License-Identifier: AGPL-3.0-or-later
"""
Tests for wiring the cloak into the deploy path:
- composer.py: windows* base containers get build+command+caps+env; non-mangled
bases stay byte-for-byte unchanged.
- composer._decky_open_tcp_ports: service-port enumeration.
- deployer._sync_cloak_sources: ships the decnet subtree only when needed.
"""
from __future__ import annotations
import pytest
from decnet.composer import _CLOAK_COMMAND, _decky_open_tcp_ports, generate_compose
from decnet.config import DeckyConfig, DecnetConfig
def _decky(nmap_os: str = "linux", services: list[str] | None = None) -> DeckyConfig:
return DeckyConfig(
name="decky-01",
ip="10.0.0.10",
services=services or ["ssh"],
distro="debian",
base_image="debian:bookworm-slim",
build_base="debian:bookworm-slim",
hostname="test-host",
nmap_os=nmap_os,
)
def _config(decky: DeckyConfig) -> DecnetConfig:
return DecnetConfig(
mode="unihost", interface="eth0", subnet="10.0.0.0/24",
gateway="10.0.0.1", deckies=[decky],
)
def _base(nmap_os: str, services: list[str] | None = None) -> dict:
return generate_compose(_config(_decky(nmap_os, services)))["services"]["decky-01"]
# ── port enumeration ────────────────────────────────────────────────────────
def test_open_ports_union_sorted_deduped():
# smb=[445,139], rdp=[3389]
assert _decky_open_tcp_ports(["smb", "rdp"]) == [139, 445, 3389]
def test_open_ports_single_and_multiport():
assert _decky_open_tcp_ports(["ssh"]) == [22]
assert _decky_open_tcp_ports(["imap"]) == [143, 993] # multi-port service
# ── non-mangled base is unchanged ───────────────────────────────────────────
def test_linux_base_uses_stock_image_and_sleep():
base = _base("linux")
assert base["image"] == "debian:bookworm-slim"
assert base["command"] == ["sleep", "infinity"]
assert "build" not in base
assert "environment" not in base
assert base["cap_add"] == ["NET_ADMIN"]
@pytest.mark.parametrize("fam", ["embedded", "bsd", "cisco"])
def test_other_families_not_cloaked(fam):
base = _base(fam)
assert "build" not in base
assert base["command"] == ["sleep", "infinity"]
assert "NET_RAW" not in base["cap_add"]
# ── windows* base gets the cloak ────────────────────────────────────────────
@pytest.mark.parametrize("fam", ["windows", "windows_server"])
def test_windows_base_is_built_cloak_image(fam):
base = _base(fam, services=["smb", "rdp"])
assert "image" not in base
assert base["build"]["args"]["BASE_IMAGE"] == "debian:bookworm-slim"
assert base["build"]["context"].endswith("templates/_shared/cloak")
@pytest.mark.parametrize("fam", ["windows", "windows_server"])
def test_windows_base_runs_cloak_netns_safe(fam):
base = _base(fam)
# supervisor keeps sleep infinity as PID1 so a cloak crash can't kill the netns
assert base["command"] == _CLOAK_COMMAND
assert "decnet.cloak" in base["command"][-1]
assert "sleep infinity" in base["command"][-1]
@pytest.mark.parametrize("fam", ["windows", "windows_server"])
def test_windows_base_caps_include_net_raw(fam):
base = _base(fam)
assert "NET_ADMIN" in base["cap_add"]
assert "NET_RAW" in base["cap_add"]
def test_windows_base_env_carries_profile_and_ports():
base = _base("windows_server", services=["smb", "rdp"])
env = base["environment"]
assert env["DECNET_NMAP_OS"] == "windows_server"
assert env["DECNET_OPEN_PORTS"] == "139,445,3389"
assert env["DECKY_IP"] == "10.0.0.10"
def test_windows_base_still_has_sysctls():
base = _base("windows")
assert base["sysctls"]["net.ipv4.ip_default_ttl"] == "128"
assert base["sysctls"]["net.ipv4.tcp_timestamps"] == "1"
# ── deployer sync gating ────────────────────────────────────────────────────
def test_sync_cloak_ships_subtree_only_when_needed(tmp_path, monkeypatch):
from decnet.engine import deployer
dest_root = tmp_path / "cloak"
monkeypatch.setattr(deployer, "_CANONICAL_CLOAK_DIR", dest_root)
# linux-only → no-op
deployer._sync_cloak_sources(_config(_decky("linux")))
assert not (dest_root / "decnet").exists()
# windows → ships the subtree, package structure preserved
deployer._sync_cloak_sources(_config(_decky("windows")))
shipped = dest_root / "decnet"
assert (shipped / "__init__.py").is_file()
assert (shipped / "os_fingerprint.py").is_file()
assert (shipped / "cloak" / "mangler.py").is_file()
assert (shipped / "logging" / "__init__.py").is_file()

36
tests/core/test_os_fingerprint.py
View File

@@ -50,8 +50,20 @@ def test_linux_tcp_timestamps_is_1():
assert get_os_sysctls("linux")["net.ipv4.tcp_timestamps"] == "1"
def test_windows_tcp_timestamps_is_0():
assert get_os_sysctls("windows")["net.ipv4.tcp_timestamps"] == "0"
def test_windows_tcp_timestamps_is_1():
# Modern Windows 10/11 runs TCP timestamps ON (nmap SEQ.TS=A). A prior
# value of 0 here fingerprinted as an ancient stack — see os_fingerprint.py.
assert get_os_sysctls("windows")["net.ipv4.tcp_timestamps"] == "1"
def test_windows_server_tcp_timestamps_is_1():
assert get_os_sysctls("windows_server")["net.ipv4.tcp_timestamps"] == "1"
def test_windows_server_tcp_ecn_is_1():
# Server negotiates ECN (nmap ECN.CC=Y); workstation does not (CC=N).
assert get_os_sysctls("windows_server")["net.ipv4.tcp_ecn"] == "1"
assert get_os_sysctls("windows")["net.ipv4.tcp_ecn"] == "0"
def test_embedded_tcp_timestamps_is_0():
@@ -237,7 +249,7 @@ def test_all_os_families_non_empty():
assert "embedded" in families
@pytest.mark.parametrize("family", ["linux", "windows", "bsd", "embedded", "cisco"])
@pytest.mark.parametrize("family", ["linux", "windows", "windows_server", "bsd", "embedded", "cisco"])
def test_all_os_profiles_have_required_sysctls(family: str):
"""Every OS profile must define the full canonical sysctl set."""
from decnet.os_fingerprint import _REQUIRED_SYSCTLS
@@ -246,7 +258,7 @@ def test_all_os_profiles_have_required_sysctls(family: str):
assert not missing, f"OS profile '{family}' is missing sysctls: {missing}"
@pytest.mark.parametrize("family", ["linux", "windows", "bsd", "embedded", "cisco"])
@pytest.mark.parametrize("family", ["linux", "windows", "windows_server", "bsd", "embedded", "cisco"])
def test_all_os_sysctl_values_are_strings(family: str):
"""Docker Compose requires sysctl values to be strings, never ints."""
for _key, _val in get_os_sysctls(family).items():
@@ -267,9 +279,13 @@ def test_archetype_nmap_os_is_known(slug, arch):
)
@pytest.mark.parametrize("slug", ["windows-workstation", "windows-server", "domain-controller"])
def test_windows_archetypes_have_windows_nmap_os(slug):
assert ARCHETYPES[slug].nmap_os == "windows"
def test_windows_workstation_archetype_nmap_os():
assert ARCHETYPES["windows-workstation"].nmap_os == "windows"
@pytest.mark.parametrize("slug", ["windows-server", "domain-controller"])
def test_windows_server_archetypes_use_server_nmap_os(slug):
assert ARCHETYPES[slug].nmap_os == "windows_server"
@pytest.mark.parametrize("slug", ["printer", "iot-device", "industrial-control"])
@@ -403,11 +419,11 @@ def test_compose_linux_sysctls_include_timestamps():
assert sysctls.get("net.ipv4.tcp_timestamps") == "1"
def test_compose_windows_sysctls_no_timestamps():
"""Windows compose output must have tcp_timestamps disabled (= 0)."""
def test_compose_windows_sysctls_timestamps_on():
"""Windows compose output must have tcp_timestamps ENABLED (= 1) — Win10/11."""
compose = generate_compose(_make_config("windows"))
sysctls = compose["services"]["decky-01"]["sysctls"]
assert sysctls.get("net.ipv4.tcp_timestamps") == "0"
assert sysctls.get("net.ipv4.tcp_timestamps") == "1"
def test_compose_linux_sysctls_full_set():

32
tests/test_paths.py Normal file
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@@ -0,0 +1,32 @@
# SPDX-License-Identifier: AGPL-3.0-or-later
"""Tests for the shared runtime-path probe."""
from __future__ import annotations
from decnet.paths import resolve_runtime_path
def _resolve(tmp_path, env=None, runtime_dir=None):
return resolve_runtime_path(
"x.sock",
env_var="DECNET_TEST_PATH",
runtime_dir=str(runtime_dir if runtime_dir is not None else tmp_path),
user_fallback="~/.decnet/x.sock",
)
def test_env_override_wins(tmp_path, monkeypatch):
monkeypatch.setenv("DECNET_TEST_PATH", "/explicit/here.sock")
assert _resolve(tmp_path) == "/explicit/here.sock"
def test_writable_runtime_dir(tmp_path, monkeypatch):
monkeypatch.delenv("DECNET_TEST_PATH", raising=False)
assert _resolve(tmp_path) == str(tmp_path / "x.sock")
def test_falls_back_when_runtime_dir_absent(tmp_path, monkeypatch):
monkeypatch.delenv("DECNET_TEST_PATH", raising=False)
missing = tmp_path / "nope" # does not exist → not a writable dir
result = _resolve(tmp_path, runtime_dir=missing)
assert result.endswith("/.decnet/x.sock")
assert "~" not in result # tilde expanded

21
tests/topology/test_deploy.py
View File

@@ -51,7 +51,7 @@ async def repo(tmp_path):
@pytest.mark.anyio
async def test_dry_run_writes_compose_and_preserves_pending(repo, tmp_path, monkeypatch):
monkeypatch.chdir(tmp_path)
monkeypatch.setenv("DECNET_RUN_DIR", str(tmp_path))
plan = generate(_cfg())
tid = await persist(repo, plan)
@@ -235,3 +235,22 @@ async def test_deploy_and_teardown_against_real_docker(repo, tmp_path, monkeypat
p.unlink()
# Sanity: Path roundtrip still resolvable
assert isinstance(Path(str(p)), Path)
def test_compose_path_is_absolute_and_cwd_independent(tmp_path, monkeypatch):
"""Regression: a CWD-relative compose path littered the install dir and
let teardown's unlink() miss orphans. Path must be absolute and stable
across CWD changes so write and teardown always agree."""
monkeypatch.setenv("DECNET_RUN_DIR", str(tmp_path))
tid = "abcdef1234567890"
monkeypatch.chdir(tmp_path)
p1 = _topology_compose_path(tid)
sub = tmp_path / "elsewhere"
sub.mkdir()
monkeypatch.chdir(sub)
p2 = _topology_compose_path(tid)
assert p1.is_absolute()
assert p1 == p2, "compose path must not depend on process CWD"
assert p1.parent == tmp_path