This adds a new PacketAnalyzer::PPPoE::session_id bif, which extracts
the PPPoE session ID from the current packet.
Furthermore, a new policy script is added which adds the pppoe session
id to the connection log.
Related to GH-4602
This is a cluster backend implementation using a central XPUB/XSUB proxy
that by default runs on the manager node. Logging is implemented leveraging
PUSH/PULL sockets between logger and other nodes, rather than going
through XPUB/XSUB.
The test-all-policy-cluster baseline changed: Previously, Broker::peer()
would be called from setup-connections.zeek, causing the IO loop to be
alive. With the ZeroMQ backend, the IO loop is only alive when
Cluster::init() is called, but that doesn't happen anymore.
This adds re-peering at the Broker level for peers that Broker decided to
unpeer. We keep this at the Broker level since this behavior is specific to
it (as opposed to other cluster backends).
Includes baseline updates for btests that pick up on the new script's @load.
This analyzer can be used to transport raw stream data for a given
connection to the script layer. For example, adding this analyzer into
the HTTP::upgrade_analyzer or using it to configure a child WebSocket
analyzer allows to get access to the raw stream data in script land
when no more appropriate protocol analyzer is available.
This moves the Telemetry framework's BIF-defined functionalit from the
secondary-BIFs stage to the primary one. That is, this functionality is now
available from the end of init-bare.zeek, not only after the end of
init-frameworks-and-bifs.zeek.
This allows us to use script-layer telemetry in our Zeek's own code that get
pulled in during init-frameworks-and-bifs.
This change splits up the BIF features into functions, constants, and types,
because that's the granularity most workable in Func.cc and NetVar. It also now
defines the Telemetry::MetricsType enum once, not redundantly in BIFs and script
layer.
Due to subtle load ordering issues between the telemetry and cluster frameworks
this pushes the redef stage of Telemetry::metrics_port and address into
base/frameworks/telemetry/options.zeek, which is loaded sufficiently late in
init-frameworks-and-bifs.zeek to sidestep those issues. (When not doing this,
the effect is that the redef in telemetry/main.zeek doesn't yet find the
cluster-provided values, and Zeek does not end up listening on these ports.)
The need to add basic Zeek headers in script_opt/ZAM/ZBody.cc as a side-effect
of this is curious, but looks harmless.
Also includes baseline updates for the usual btests and adds a few doc strings.
The cmds list may grow unbounded due to the POP3 analyzer being in
multiLine mode after seeing `AUTH` in a Redis connection, but never
a `.` terminator. This can easily be provoked by the Redis ping
command.
This adds two heuristics: 1) Forcefully process the oldest commands in
the cmds list and cap it at max_pending_commands. 2) Start raising
analyzer violations if the client has been using more than
max_unknown_client_commands commands (default 10).
Closes#3936
This avoids the callbacks from being processed on the worker thread
spawned by Civetweb. It fixes data race issues with lookups involving
global variables, amongst other threading issues.
This adds a new WebSocket analyzer that is enabled with the HTTP upgrade
mechanism introduced previously. It is a first implementation in BinPac with
manual chunking of frame payload. Configuration of the analyzer is sketched
via the new websocket_handshake() event and a configuration BiF called
WebSocket::__configure_analyzer(). In short, script land collects WebSocket
related HTTP headers and can forward these to the analyzer to change its
parsing behavior at websocket_handshake() time. For now, however, there's
no actual logic that would change behavior based on agreed upon extensions
exchanged via HTTP headers (e.g. frame compression). WebSocket::Configure()
simply attaches a PIA_TCP analyzer to the WebSocket analyzer for dynamic
protocol detection (or a custom analyzer if set). The added pcaps show this
in action for tunneled ssh, http and https using wstunnel. One test pcap is
Broker's WebSocket traffic from our own test suite, the other is the
Jupyter websocket traffic from the ticket/discussion.
This commit further adds a basic websocket.log that aggregates the WebSocket
specific headers (Sec-WebSocket-*) headers into a single log.
Closes#3424
OSS-Fuzz managed to produce a MIME multipart message construction with
thousands of nested entities (or that's what Zeek makes out of it anyhow).
Prevent such deep analysis by capping at a nesting depth of 100,
preventing unnecessary resource usage. A new weird named exceeded_mime_max_depth
is reported when this limit is reached.
This change reduces the runtime of the OSS-Fuzz reproducer from ~45 seconds
to ~2.5 seconds.
The test PCAP was produced from a Python script using the email package
and sending the rendered version via POST to a HTTP server.
Closes#208
Unsure what it's used for today and also results in the situation that on
some platforms we generate a reporter.log in bare mode, while on others
where spicy is disabled, we do not.
If we want base/frameworks/version loaded by default, should put it into
init-bare.zeek and possibly remove the loading of the reporter framework
from it - Reporter::error() would still work and be visible on stderr,
just not create a reporter.log.
Using pcaps from https://interop.seemann.io/ as samples for QUIC protocol
data didn't produce a conn.log for the contained data. `tcpdump -r`
and Wireshark do show the contained IP/UDP packets. Teach Zeek how
to handle link type DLT_PPP 0x09 using a new PPP analyzer based on the
PPPSerial analyzer code.
Usual update to files/x509 baseline after adding new analyzer due
to enum values changing.
This reflects the `spicy-plugin` code as of `d8c296b81cc2a11`.
In addition to moving the code into Zeek's source tree, this comes
with a couple small functional changes:
- `spicyz` no longer tries to infer if it's running from the build
directory. Instead `ZEEK_SPICY_LIBRARY` can be set to a custom
location. `zeek-set-path.sh` does that now.
- ZEEK_CONFIG can be set to change what `spicyz -z` print out. This is
primarily for backwards compatibility.
Some further notes on specifics:
- We raise the minimum Spicy version to 1.8 (i.e., current `main`
branch).
- Renamed the `compiler/` subdirectory to `spicyz` to avoid
include-path conflicts with the Spicy headers.
- In `cmake/`, the corresponding PR brings a new/extended version of
`FindZeek`, which Spicy analyzer packages need. We also now install
some of the files that the Spicy plugin used to bring for testing,
so that existing packages keep working.
- For now, this all remains backwards compatible with the current
`zkg` analyzer templates so that they work with both external and
integrated Spicy support. Later, once we don't need to support any
external Spicy plugin versions anymore, we can clean up the
templates as well.
- All the plugin's tests have moved into the standard test suite. They
are skipped if configure with `--disable-spicy`.
This holds off on adapting the new code further to Zeek's coding
conventions, so that it remains easier to maintain it in parallel to
the (now legacy) external plugin. We'll make a pass over the
formatting for (presumable) Zeek 6.1.
"Community ID" has become an established flow hash for connection correlation
across different monitoring and storage systems. Other NSMs have had native
and built-in support for Community ID since late 2018. And even though the
roots of "Community ID" are very close to Zeek, Zeek itself has never provided
out-of-the-box support and instead required users to install an external plugin.
While we try to make that installation as easy as possible, an external plugin
always sets the bar higher for an initial setup and can be intimidating.
It also requires a rebuild operation of the plugin during upgrades. Nothing
overly complicated, but somewhat unnecessary for such popular functionality.
This isn't a 1:1 import. The options are parameters and the "verbose"
functionality has been removed. Further, instead of a `connection`
record, the new bif works with `conn_id`, allowing computation of the
hash with little effort on the command line:
$ zeek -e 'print community_id_v1([$orig_h=1.2.3.4, $orig_p=1024/tcp, $resp_h=5.6.7.8, $resp_p=80/tcp])'
1:RcCrCS5fwYUeIzgDDx64EN3+okU
Reference: https://github.com/corelight/zeek-community-id/
As initial examples, this branch ports the Syslog and Finger analyzers
over. We leave the old analyzers in place for now and activate them
iff we compile without any Spicy.
Needs `zeek-spicy-infra` branches in `spicy/`, `spicy-plugin/`,
`CMake/`, and `zeek/zeek-testing-private`.
Note that the analyzer events remain associated with the Spicy plugin
for now: that's where they will show up with `-NN`, and also inside
the Zeekygen documentation.
We switch CMake over to linking the runtime library into the plugin,
vs. at the top-level through object libraries.
By default this only logs all the violations, regardless of the
confirmation state (for which there's still dpd.log). It includes
packet, protocol and file analyzers.
This uses options, change handlers and event groups for toggling
the functionality at runtime.
Closes#2031
Prevent errors as follows with the bro-http2 plugin.
error in /mitrecnd_HTTP2.events.bif.zeek, line 95: identifier not defined: http2_stream_stat
error in /mitrecnd_HTTP2.events.bif.zeek, line 363: identifier not defined: http2_settings
internal error in /mitrecnd_HTTP2.events.bif.zeek, line 460: Failed to find type named: http2_settings_unrecognized_table
This allows to enable/disable file analyzers through the same interfaces
as packet and protocol analyzers, specifically Analyzer::disable_analyzer
could be interesting.
* Because frameworks/analyzer is loaded via init-frameworks-and-bifs the
dpd functionality (really just dpd.log and disabling of analyzers) is
now enabled even in bare mode.
* Not sure we need to keep frameworks/base/dpd/__load__.zeek around
or can just remove it right away.
These allow packet analyzers to register ports as identifiers to forward from
parent analyzers, while also adding those ports to the now-global
Analyzer::ports table at the same time.
This commit removes the stepping stone analyzer. It has been deactivated
by default since at least Zeek 2.0, is dysfunctional in cluster settings
and has a bunch of other issued.
Relates to GH-1573
This patch adds the ability to decap Geneve packets to process the inner
payload. The structure of the analyzer borrows heavily from the VXLAN
analyzer.