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Merge branch 'master' into topic/jsiwek/bit-1235

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Jon Siwek 2014-10-14 14:45:58 -05:00
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210
CHANGES
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@ -1,4 +1,214 @@
2.3-234 | 2014-10-14 14:42:09 -0500
* Documentation fixes. (Steve Smoot)
2.3-233 | 2014-10-09 16:00:27 -0500
* Change find-bro-logs unit test to follow symlinks. (Jon Siwek)
* Add error checks and messages to a test script (Daniel Thayer)
2.3-230 | 2014-10-08 08:15:17 -0700
* Further baseline normalization for plugin test portability. (Robin
Sommer)
2.3-229 | 2014-10-07 20:18:11 -0700
* Fix for test portability. (Robin Sommer)
2.3-228 | 2014-10-07 15:32:37 -0700
* Include plugin unit tests into the top-level btest configuration. (Robin Sommer)
* Switching the prefix separator for packet source/dumper plugins
once more, now to "::". Addresses BIT-1267. (Robin Sommer)
* Fix for allowing a packet source/dumper plugin to support multiple
prefixes with a colon. (Robin Sommer)
2.3-225 | 2014-10-07 15:13:35 -0700
* Updating plugin documentation. (Robin Sommer)
2.3-224 | 2014-10-07 14:32:17 -0700
* Improved the log file reference documentation. (Jeannette Dopheide
and Daniel Thayer)
* Improves shockwave flash file signatures. (Seth Hall)
- This moves the signatures out of the libmagic imported signatures
and into our own general.sig.
- Expand the detection to LZMA compressed flash files.
* Add new script language reference documentation on operators,
statements, and directives. Also improved the documentation on
types and attributes by splitting them into two docs, and
providing more examples and adding a chart on the top of each page
with links to each type and attribute for easier access to the
information. (Daniel Thayer)
* Split the types and attributes reference doc into two docs.
(Daniel Thayer)
2.3-208 | 2014-10-03 09:38:52 -0500
* BIT-1268: Fix uninitialized router_list argument in
dhcp_offer/dhcp_ack. (Jon Siwek)
2.3-207 | 2014-10-02 16:39:17 -0700
* Updating plugin docs. (Robin Sommer)
* Fix packet sources being treated as idle when a packet is
available. Addresses BIT-1266. (Jon Siwek)
* Fix regression causing the main loop to spin more frequently.
Addresses BIT-1266. (Jon Siwek)
2.3-203 | 2014-09-29 20:06:54 -0700
* Fix to use length parameter in DNP3 time conversion correctly now.
(Robin Sommer)
2.3-202 | 2014-09-29 17:05:18 -0700
* New SSL extension type from IANA and a few other SSL const
changes. (Johanna Amann)
* Make unexpected pipe errors fatal as precaution. Addresses
BIT-1260. (Jon Siwek)
* Adding a function for DNP3 to translate the timestamp format. (Hui
Lin)
2.3-197 | 2014-09-29 10:42:01 -0500
* Fix possible seg fault in TCP reassembler. (Jon Siwek)
2.3-196 | 2014-09-25 17:53:27 -0700
* Changing prefix for packet sources/dumper from ':' to '%'.
Addresses BIT-1249. (Robin Sommer)
* Remove timeouts from remote communication loop. The select() now
blocks until there's work to do instead of relying on a small
timeout value which can cause unproductive use of cpu cycles. (Jon
Siwek)
* Improve error message when failing to activate a plugin. Also fix
a unit test helper script that checks plugin availability. (Jon
Siwek)
2.3-183 | 2014-09-24 10:08:04 -0500
* Add a "node" field to Intel::Seen struture and intel.log to
indicate which node discovered a hit on an intel item. (Seth Hall)
* BIT-1261: Fixes to plugin quick start doc. (Jon Siwek)
2.3-180 | 2014-09-22 12:52:41 -0500
* BIT-1259: Fix issue w/ duplicate TCP reassembly deliveries.
(Jon Siwek)
2.3-178 | 2014-09-18 14:29:46 -0500
* BIT-1256: Fix file analysis events from coming after bro_done().
(Jon Siwek)
2.3-177 | 2014-09-17 09:41:27 -0500
* Documentation fixes. (Chris Mavrakis)
2.3-174 | 2014-09-17 09:37:09 -0500
* Fixed some "make doc" warnings caused by reST formatting
(Daniel Thayer).
2.3-172 | 2014-09-15 13:38:52 -0500
* Remove unneeded allocations for HTTP messages. (Jon Siwek)
2.3-171 | 2014-09-15 11:14:57 -0500
* Fix a compile error on systems without pcap-int.h. (Jon Siwek)
2.3-170 | 2014-09-12 19:28:01 -0700
* Fix incorrect data delivery skips after gap in HTTP Content-Range.
Addresses BIT-1247. (Jon Siwek)
* Fix file analysis placement of data after gap in HTTP
Content-Range. Addresses BIT-1248. (Jon Siwek)
* Fix issue w/ TCP reassembler not delivering some segments.
Addresses BIT-1246. (Jon Siwek)
* Fix MIME entity file data/gap ordering and raise http_entity_data
in line with data arrival. Addresses BIT-1240. (Jon Siwek)
* Implement file ID caching for MIME_Mail. (Jon Siwek)
* Fix a compile error. (Jon Siwek)
2.3-161 | 2014-09-09 12:35:38 -0500
* Bugfixes and test updates/additions. (Robin Sommer)
* Interface tweaks and docs for PktSrc/PktDumper. (Robin Sommer)
* Moving PCAP-related bifs to iosource/pcap.bif. (Robin Sommer)
* Moving some of the BPF filtering code into base class.
This will allow packet sources that don't support BPF natively to
emulate the filtering via libpcap. (Robin Sommer)
* Removing FlowSrc. (Robin Sommer)
* Removing remaining pieces of the 2ndary path, and left-over
files of packet sorter. (Robin Sommer)
* A bunch of infrastructure work to move IOSource, IOSourceRegistry
(now iosource::Manager) and PktSrc/PktDumper code into iosource/,
and over to a plugin structure. (Robin Sommer)
2.3-137 | 2014-09-08 19:01:13 -0500
* Fix Broxygen's rendering of opaque types. (Jon Siwek)
2.3-136 | 2014-09-07 20:50:46 -0700
* Change more http links to https. (Johanna Amann)
2.3-134 | 2014-09-04 16:16:36 -0700
* Fixed a number of issues with OCSP reply validation. Addresses
BIT-1212. (Johanna Amann)
* Fix null pointer dereference in OCSP verification code in case no
certificate is sent as part as the ocsp reply. Addresses BIT-1212.
(Johanna Amann)
2.3-131 | 2014-09-04 16:10:32 -0700
* Make links in documentation templates protocol relative. (Johanna
Amann)
2.3-129 | 2014-09-02 17:21:21 -0700
* Simplify a conditional with equivalent branches. (Jon Siwek)
* Change EDNS parsing code to use rdlength more cautiously. (Jon
Siwek)
* Fix a memory leak when bind() fails due to EADDRINUSE. (Jon Siwek)
* Fix possible buffer over-read in DNS TSIG parsing. (Jon Siwek)
2.3-124 | 2014-08-26 09:24:19 -0500
* Better documentation for sub_bytes (Jimmy Jones)

2
NEWS
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@ -22,7 +22,7 @@ New Functionality
plugin can furthermore hook into Bro's processing a number of places
to add custom logic.
See http://www.bro.org/sphinx-git/devel/plugins.html for more
See https://www.bro.org/sphinx-git/devel/plugins.html for more
information on writing plugins.
Changed Functionality

2
VERSION
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@ -1 +1 @@
2.3-124
2.3-234

2
aux/binpac

@ -1 +1 @@
Subproject commit 4e5969f5a40f5cc192a751375cb61131d32c0fc1
Subproject commit 3a4684801aafa0558383199e9abd711650b53af9

2
aux/bro-aux

@ -1 +1 @@
Subproject commit 181f084432e277f899140647d9b788059b3cccb1
Subproject commit 95afe42e7474113a16cb2cb09ebdf8b552c59744

2
aux/broccoli

@ -1 +1 @@
Subproject commit 6be54279bb7ecb5e03d8bcdc7660d323dc4de1bc
Subproject commit 33d0ed4a54a6ecf08a0b5fe18831aa413b437066

2
aux/broctl

@ -1 +1 @@
Subproject commit f0e0efda05e4b20924efc1b826ad5d85c8b65f83
Subproject commit 2f808bc8541378b1a4953cca02c58c43945d154f

2
aux/plugins

@ -1 +1 @@
Subproject commit 6de518922e5f89d52d831ea6fb6adb7fff94437e
Subproject commit ad600b5bdcd56a2723e323c0f2c8e1708956ca4f

2
cmake

@ -1 +1 @@
Subproject commit aa15263ae39667e5e9bd73690b05aa4af9147ca3
Subproject commit 03de0cc467d2334dcb851eddd843d59fef217909

4
doc/_templates/layout.html vendored
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@ -10,7 +10,7 @@
{% endblock %}
{% block header %}
<iframe src="http://www.bro.org/frames/header-no-logo.html" width="100%" height="100px" frameborder="0" marginheight="0" scrolling="no" marginwidth="0">
<iframe src="//www.bro.org/frames/header-no-logo.html" width="100%" height="100px" frameborder="0" marginheight="0" scrolling="no" marginwidth="0">
</iframe>
{% endblock %}
@ -108,6 +108,6 @@
{% endblock %}
{% block footer %}
<iframe src="http://www.bro.org/frames/footer.html" width="100%" height="420px" frameborder="0" marginheight="0" scrolling="no" marginwidth="0">
<iframe src="//www.bro.org/frames/footer.html" width="100%" height="420px" frameborder="0" marginheight="0" scrolling="no" marginwidth="0">
</iframe>
{% endblock %}

99
doc/devel/plugins.rst
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@ -17,11 +17,11 @@ functionality to Bro:
- File analyzers.
- Packet sources and packet dumpers. TODO: Not yet.
- Packet sources and packet dumpers.
- Logging framework backends. TODO: Not yet.
- Logging framework backends.
- Input framework readers. TODO: Not yet.
- Input framework readers.
A plugin's functionality is available to the user just as if Bro had
the corresponding code built-in. Indeed, internally many of Bro's
@ -57,10 +57,10 @@ called ``Demo::Rot13``.
The ``init-plugin`` script puts a number of files in place. The full
layout is described later. For now, all we need is
``src/functions.bif``. It's initially empty, but we'll add our new bif
``src/rot13.bif``. It's initially empty, but we'll add our new bif
there as follows::
# cat scripts/functions.bif
# cat src/rot13.bif
module CaesarCipher;
function rot13%(s: string%) : string
@ -73,23 +73,25 @@ there as follows::
*p = (*p - b + 13) % 26 + b;
}
return new StringVal(new BroString(1, rot13, strlen(rot13)));
BroString* bs = new BroString(1, reinterpret_cast<byte_vec>(rot13),
strlen(rot13));
return new StringVal(bs);
%}
The syntax of this file is just like any other ``*.bif`` file; we
won't go into it here.
Now we can already compile our plugin, we just need to tell the
Makefile put in place by ``init-plugin`` where the Bro source tree is
located (Bro needs to have been built there first)::
configure script put in place by ``init-plugin`` where the Bro source
tree is located (Bro needs to have been built there first)::
# make BRO=/path/to/bro/dist
# ./configure --bro-dist=/path/to/bro/dist && make
[... cmake output ...]
Now our ``rot13-plugin`` directory has everything that it needs
for Bro to recognize it as a dynamic plugin. Once we point Bro to it,
it will pull it in automatically, as we can check with the ``-N``
option:
option::
# export BRO_PLUGIN_PATH=/path/to/rot13-plugin
# bro -N
@ -100,7 +102,7 @@ option:
That looks quite good, except for the dummy description that we should
replace with something nicer so that users will know what our plugin
is about. We do this by editing the ``config.description`` line in
``src/Plugin.cc``, like this:
``src/Plugin.cc``, like this::
[...]
plugin::Configuration Configure()
@ -193,7 +195,7 @@ directory.
A directory with the plugin's custom Bro scripts. When the plugin
gets activated, this directory will be automatically added to
``BROPATH``, so that any scripts/modules inside can be
``@load``ed.
"@load"ed.
``scripts``/__load__.bro
A Bro script that will be loaded immediately when the plugin gets
@ -263,23 +265,25 @@ plugins to unconditionally activate, even in bare mode.
activated plugins. Note that plugins compiled statically into Bro are
always activated, and hence show up as such even in bare mode.
Plugin Component
================
Plugin Components
=================
The following gives additional information about providing individual
types of functionality via plugins. Note that a single plugin can
provide more than one type. For example, a plugin could provide
multiple protocol analyzers at once; or both a logging backend and
input reader at the same time.
The following subsections detail providing individual types of
functionality via plugins. Note that a single plugin can provide more
than one component type. For example, a plugin could provide multiple
protocol analyzers at once; or both a logging backend and input reader
at the same time.
We now walk briefly through the specifics of providing a specific type
of functionality (a *component*) through a plugin. We'll focus on
their interfaces to the plugin system, rather than specifics on
writing the corresponding logic (usually the best way to get going on
that is to start with an existing plugin providing a corresponding
component and adapt that). We'll also point out how the CMake
infrastructure put in place by the ``init-plugin`` helper script ties
the various pieces together.
.. todo::
These subsections are mostly missing right now, as much of their
content isn't actually plugin-specific, but concerns generally
writing such functionality for Bro. The best way to get started
right now is to look at existing code implementing similar
functionality, either as a plugin or inside Bro proper. Also, for
each component type there's a unit test in
``testing/btest/plugins`` creating a basic plugin skeleton with a
corresponding component.
Bro Scripts
-----------
@ -313,22 +317,22 @@ TODO.
Logging Writer
--------------
Not yet available as plugins.
TODO.
Input Reader
------------
Not yet available as plugins.
TODO.
Packet Sources
--------------
Not yet available as plugins.
TODO.
Packet Dumpers
--------------
Not yet available as plugins.
TODO.
Hooks
=====
@ -410,25 +414,32 @@ Run the test-suite::
Debugging Plugins
=================
Plugins can use Bro's standard debug logger by using the
``PLUGIN_DBG_LOG(<plugin>, <args>)`` macro (defined in
``DebugLogger.h``), where ``<plugin>`` is the ``Plugin`` instance and
``<args>`` are printf-style arguments, just as with Bro's standard
debuggging macros.
If your plugin isn't loading as expected, Bro's debugging facilities
can help to illuminate what's going on. To enable, recompile Bro
with debugging support (``./configure --enable-debug``), and
afterwards rebuild your plugin as well. If you then run Bro with ``-B
plugins``, it will produce a file ``debug.log`` that records details
about the process for searching, loading, and activating plugins.
At runtime, one then activates a plugin's debugging output with ``-B
plugin-<name>``, where ``<name>`` is the name of the plugin as
returned by its ``Configure()`` method, yet with the
namespace-separator ``::`` replaced with a simple dash. Example: If
the plugin is called ``Bro::Demo``, use ``-B plugin-Bro-Demo``. As
usual, the debugging output will be recorded to ``debug.log`` if Bro's
compiled in debug mode.
To generate your own debugging output from inside your plugin, you can
add a custom debug stream by using the ``PLUGIN_DBG_LOG(<plugin>,
<args>)`` macro (defined in ``DebugLogger.h``), where ``<plugin>`` is
the ``Plugin`` instance and ``<args>`` are printf-style arguments,
just as with Bro's standard debugging macros (grep for ``DBG_LOG`` in
Bro's ``src/`` to see examples). At runtime, you can then activate
your plugin's debugging output with ``-B plugin-<name>``, where
``<name>`` is the name of the plugin as returned by its
``Configure()`` method, yet with the namespace-separator ``::``
replaced with a simple dash. Example: If the plugin is called
``Bro::Demo``, use ``-B plugin-Bro-Demo``. As usual, the debugging
output will be recorded to ``debug.log`` if Bro's compiled in debug
mode.
Documenting Plugins
===================
..todo::
.. todo::
Integrate all this with Broxygen.

7
doc/ext/bro.py
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@ -176,6 +176,10 @@ class BroIdentifier(BroGeneric):
def get_index_text(self, objectname, name):
return name
class BroKeyword(BroGeneric):
def get_index_text(self, objectname, name):
return name
class BroAttribute(BroGeneric):
def get_index_text(self, objectname, name):
return _('%s (attribute)') % (name)
@ -213,6 +217,7 @@ class BroDomain(Domain):
'type': ObjType(l_('type'), 'type'),
'namespace': ObjType(l_('namespace'), 'namespace'),
'id': ObjType(l_('id'), 'id'),
'keyword': ObjType(l_('keyword'), 'keyword'),
'enum': ObjType(l_('enum'), 'enum'),
'attr': ObjType(l_('attr'), 'attr'),
}
@ -221,6 +226,7 @@ class BroDomain(Domain):
'type': BroGeneric,
'namespace': BroNamespace,
'id': BroIdentifier,
'keyword': BroKeyword,
'enum': BroEnum,
'attr': BroAttribute,
}
@ -229,6 +235,7 @@ class BroDomain(Domain):
'type': XRefRole(),
'namespace': XRefRole(),
'id': XRefRole(),
'keyword': XRefRole(),
'enum': XRefRole(),
'attr': XRefRole(),
'see': XRefRole(),

8
doc/index.rst
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@ -45,7 +45,13 @@ Reference Section
script-reference/index.rst
components/index.rst
..
Development
===========
.. toctree::
:maxdepth: 2
devel/plugins.rst
* :ref:`General Index <genindex>`
* :ref:`search`

2
doc/install/install.rst
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@ -180,7 +180,7 @@ automatically. Finally, use ``make install-aux`` to install some of
the other programs that are in the ``aux/bro-aux`` directory.
OpenBSD users, please see our `FAQ
<http://www.bro.org/documentation/faq.html>`_ if you are having
<//www.bro.org/documentation/faq.html>`_ if you are having
problems installing Bro.
Finally, if you want to build the Bro documentation (not required, because

43
doc/logs/index.rst
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@ -112,6 +112,8 @@ default, including:
As you can see, some log files are specific to a particular protocol,
while others aggregate information across different types of activity.
For a complete list of log files and a description of its purpose,
see :doc:`List of Log Files <../script-reference/list-of-log-files>`.
.. _bro-cut:
@ -250,44 +252,3 @@ protocol, it can have multiple ``GET``/``POST``/etc requests in a
stream and Bro is able to extract and track that information for you,
giving you an in-depth and structured view into HTTP traffic on your
network.
-----------------------
Common Log Files
-----------------------
As a monitoring tool, Bro records a detailed view of the traffic inspected
and the events generated in a series of relevant log files. These files can
later be reviewed for monitoring, auditing and troubleshooting purposes.
In this section we present a brief explanation of the most commonly used log
files generated by Bro including links to descriptions of some of the fields
for each log type.
+-----------------+---------------------------------------+------------------------------+
| Log File | Description | Field Descriptions |
+=================+=======================================+==============================+
| http.log | Shows all HTTP requests and replies | :bro:type:`HTTP::Info` |
+-----------------+---------------------------------------+------------------------------+
| ftp.log | Records FTP activity | :bro:type:`FTP::Info` |
+-----------------+---------------------------------------+------------------------------+
| ssl.log | Records SSL sessions including | :bro:type:`SSL::Info` |
| | certificates used | |
+-----------------+---------------------------------------+------------------------------+
| known_certs.log | Includes SSL certificates used | :bro:type:`Known::CertsInfo` |
+-----------------+---------------------------------------+------------------------------+
| smtp.log | Summarizes SMTP traffic on a network | :bro:type:`SMTP::Info` |
+-----------------+---------------------------------------+------------------------------+
| dns.log | Shows all DNS activity on a network | :bro:type:`DNS::Info` |
+-----------------+---------------------------------------+------------------------------+
| conn.log | Records all connections seen by Bro | :bro:type:`Conn::Info` |
+-----------------+---------------------------------------+------------------------------+
| dpd.log | Shows network activity on | :bro:type:`DPD::Info` |
| | non-standard ports | |
+-----------------+---------------------------------------+------------------------------+
| files.log | Records information about all files | :bro:type:`Files::Info` |
| | transmitted over the network | |
+-----------------+---------------------------------------+------------------------------+
| weird.log | Records unexpected protocol-level | :bro:type:`Weird::Info` |
| | activity | |
+-----------------+---------------------------------------+------------------------------+

2
doc/quickstart/index.rst
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@ -1,5 +1,5 @@
.. _FAQ: http://www.bro.org/documentation/faq.html
.. _FAQ: //www.bro.org/documentation/faq.html
.. _quickstart:

232
doc/script-reference/attributes.rst Normal file
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@ -0,0 +1,232 @@
Attributes
==========
The Bro scripting language supports the following attributes.
+-----------------------------+-----------------------------------------------+
| Name | Description |
+=============================+===============================================+
| :bro:attr:`&redef` |Redefine a global constant or extend a type. |
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&priority` |Specify priority for event handler or hook. |
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&log` |Mark a record field as to be written to a log. |
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&optional` |Allow a record field value to be missing. |
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&default` |Specify a default value. |
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&add_func` |Specify a function to call for each "redef +=".|
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&delete_func` |Same as "&add_func", except for "redef -=". |
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&expire_func` |Specify a function to call when container |
| |element expires. |
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&read_expire` |Specify a read timeout interval. |
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&write_expire` |Specify a write timeout interval. |
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&create_expire` |Specify a creation timeout interval. |
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&synchronized` |Synchronize a variable across nodes. |
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&persistent` |Make a variable persistent (written to disk). |
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&rotate_interval`|Rotate a file after specified interval. |
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&rotate_size` |Rotate a file after specified file size. |
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&encrypt` |Encrypt a file when writing to disk. |
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&raw_output` |Open file in raw mode (chars. are not escaped).|
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&mergeable` |Prefer set union for synchronized state. |
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&group` |Group event handlers to activate/deactivate. |
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&error_handler` |Used internally for reporter framework events. |
+-----------------------------+-----------------------------------------------+
| :bro:attr:`&type_column` |Used by input framework for "port" type. |
+-----------------------------+-----------------------------------------------+
Here is a more detailed explanation of each attribute:
.. bro:attr:: &redef
Allows for redefinition of initial values of global objects declared as
constant.
In this example, the constant (assuming it is global) can be redefined
with a :bro:keyword:`redef` at some later point::
const clever = T &redef;
.. bro:attr:: &priority
Specifies the execution priority (as a signed integer) of a hook or
event handler. Higher values are executed before lower ones. The
default value is 0. Example::
event bro_init() &priority=10
{
print "high priority";
}
.. bro:attr:: &log
Writes a :bro:type:`record` field to the associated log stream.
.. bro:attr:: &optional
Allows a record field value to be missing (i.e., neither initialized nor
ever assigned a value).
In this example, the record could be instantiated with either
"myrec($a=127.0.0.1)" or "myrec($a=127.0.0.1, $b=80/tcp)"::
type myrec: record { a: addr; b: port &optional; };
The ``?$`` operator can be used to check if a record field has a value or
not (it returns a ``bool`` value of ``T`` if the field has a value,
and ``F`` if not).
.. bro:attr:: &default
Specifies a default value for a record field, container element, or a
function/hook/event parameter.
In this example, the record could be instantiated with either
"myrec($a=5, $c=3.14)" or "myrec($a=5, $b=53/udp, $c=3.14)"::
type myrec: record { a: count; b: port &default=80/tcp; c: double; };
In this example, the table will return the string ``"foo"`` for any
attempted access to a non-existing index::
global mytable: table[count] of string &default="foo";
When used with function/hook/event parameters, all of the parameters
with the "&default" attribute must come after all other parameters.
For example, the following function could be called either as "myfunc(5)"
or as "myfunc(5, 53/udp)"::
function myfunc(a: count, b: port &default=80/tcp)
{
print a, b;
}
.. bro:attr:: &add_func
Can be applied to an identifier with &redef to specify a function to
be called any time a "redef <id> += ..." declaration is parsed. The
function takes two arguments of the same type as the identifier, the first
being the old value of the variable and the second being the new
value given after the "+=" operator in the "redef" declaration. The
return value of the function will be the actual new value of the
variable after the "redef" declaration is parsed.
.. bro:attr:: &delete_func
Same as :bro:attr:`&add_func`, except for :bro:keyword:`redef` declarations
that use the "-=" operator.
.. bro:attr:: &expire_func
Called right before a container element expires. The function's
first parameter is of the same type of the container and the second
parameter the same type of the container's index. The return
value is an :bro:type:`interval` indicating the amount of additional
time to wait before expiring the container element at the given
index (which will trigger another execution of this function).
.. bro:attr:: &read_expire
Specifies a read expiration timeout for container elements. That is,
the element expires after the given amount of time since the last
time it has been read. Note that a write also counts as a read.
.. bro:attr:: &write_expire
Specifies a write expiration timeout for container elements. That
is, the element expires after the given amount of time since the
last time it has been written.
.. bro:attr:: &create_expire
Specifies a creation expiration timeout for container elements. That
is, the element expires after the given amount of time since it has
been inserted into the container, regardless of any reads or writes.
.. bro:attr:: &synchronized
Synchronizes variable accesses across nodes. The value of a
``&synchronized`` variable is automatically propagated to all peers
when it changes.
.. bro:attr:: &persistent
Makes a variable persistent, i.e., its value is written to disk (per
default at shutdown time).
.. bro:attr:: &rotate_interval
Rotates a file after a specified interval.
.. bro:attr:: &rotate_size
Rotates a file after it has reached a given size in bytes.
.. bro:attr:: &encrypt
Encrypts files right before writing them to disk.
.. bro:attr:: &raw_output
Opens a file in raw mode, i.e., non-ASCII characters are not
escaped.
.. bro:attr:: &mergeable
Prefers merging sets on assignment for synchronized state. This
attribute is used in conjunction with :bro:attr:`&synchronized`
container types: when the same container is updated at two peers
with different values, the propagation of the state causes a race
condition, where the last update succeeds. This can cause
inconsistencies and can be avoided by unifying the two sets, rather
than merely overwriting the old value.
.. bro:attr:: &group
Groups event handlers such that those in the same group can be
jointly activated or deactivated.
.. bro:attr:: &error_handler
Internally set on the events that are associated with the reporter
framework: :bro:id:`reporter_info`, :bro:id:`reporter_warning`, and
:bro:id:`reporter_error`. It prevents any handlers of those events
from being able to generate reporter messages that go through any of
those events (i.e., it prevents an infinite event recursion). Instead,
such nested reporter messages are output to stderr.
.. bro:attr:: &type_column
Used by the input framework. It can be used on columns of type
:bro:type:`port` (such a column only contains the port number) and
specifies the name of an additional column in
the input file which specifies the protocol of the port (tcp/udp/icmp).
In the following example, the input file would contain four columns
named "ip", "srcp", "proto", and "msg"::
type Idx: record {
ip: addr;
};
type Val: record {
srcp: port &type_column = "proto";
msg: string;
};

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Directives
==========
The Bro scripting language supports a number of directives that can
affect which scripts will be loaded or which lines in a script will be
executed. Directives are evaluated before script execution begins.
.. bro:keyword:: @DEBUG
TODO
.. bro:keyword:: @DIR
Expands to the directory pathname where the current script is located.
Example::
print "Directory:", @DIR;
.. bro:keyword:: @FILENAME
Expands to the filename of the current script.
Example::
print "File:", @FILENAME;
.. bro:keyword:: @load
Loads the specified Bro script, specified as the relative pathname
of the file (relative to one of the directories in Bro's file search path).
If the Bro script filename ends with ".bro", then you don't need to
specify the file extension. The filename cannot contain any whitespace.
In this example, Bro will try to load a script
"policy/misc/capture-loss.bro" by looking in each directory in the file
search path (the file search path can be changed by setting the BROPATH
environment variable)::
@load policy/misc/capture-loss
If you specify the name of a directory instead of a filename, then
Bro will try to load a file in that directory called "__load__.bro"
(presumably that file will contain additional "@load" directives).
In this example, Bro will try to load a file "tuning/defaults/__load__.bro"
by looking in each directory in the file search path::
@load tuning/defaults
The purpose of this directive is to ensure that all script dependencies
are satisfied, and to avoid having to list every needed Bro script
on the command-line. Bro keeps track of which scripts have been
loaded, so it is not an error to load a script more than once (once
a script has been loaded, any subsequent "@load" directives
for that script are ignored).
.. bro:keyword:: @load-sigs
This works similarly to "@load", except that in this case the filename
represents a signature file (not a Bro script). If the signature filename
ends with ".sig", then you don't need to specify the file extension
in the "@load-sigs" directive. The filename cannot contain any
whitespace.
In this example, Bro will try to load a signature file
"base/protocols/ssl/dpd.sig"::
@load-sigs base/protocols/ssl/dpd
The format for a signature file is explained in the documentation for the
`Signature Framework <../frameworks/signatures.html>`_.
.. bro:keyword:: @unload
This specifies a Bro script that we don't want to load (so a subsequent
attempt to load the specified script will be skipped). However,
if the specified script has already been loaded, then this directive
has no affect.
In the following example, if the "policy/misc/capture-loss.bro" script
has not been loaded yet, then Bro will not load it::
@unload policy/misc/capture-loss
.. bro:keyword:: @prefixes
Specifies a filename prefix to use when looking for script files
to load automatically. The prefix cannot contain any whitespace.
In the following example, the prefix "cluster" is used and all prefixes
that were previously specified are not used::
@prefixes = cluster
In the following example, the prefix "cluster-manager" is used in
addition to any previously-specified prefixes::
@prefixes += cluster-manager
The way this works is that after Bro parses all script files, then for each
loaded script Bro will take the absolute path of the script and then
it removes the portion of the directory path that is in Bro's file
search path. Then it replaces each "/" character with a period "."
and then prepends the prefix (specified in the "@prefixes" directive)
followed by a period. The resulting filename is searched for in each
directory in Bro's file search path. If a matching file is found, then
the file is automatically loaded.
For example, if a script called "local.bro" has been loaded, and a prefix
of "test" was specified, then Bro will look for a file named
"test.local.bro" in each directory of Bro's file search path.
An alternative way to specify prefixes is to use the "-p" Bro
command-line option.
.. bro:keyword:: @if
The specified expression must evaluate to type :bro:type:`bool`. If the
value is true, then the following script lines (up to the next "@else"
or "@endif") are available to be executed.
Example::
@if ( ver == 2 )
print "version 2 detected";
@endif
.. bro:keyword:: @ifdef
This works like "@if", except that the result is true if the specified
identifier is defined.
Example::
@ifdef ( pi )
print "pi is defined";
@endif
.. bro:keyword:: @ifndef
This works exactly like "@ifdef", except that the result is true if the
specified identifier is not defined.
Example::
@ifndef ( pi )
print "pi is not defined";
@endif
.. bro:keyword:: @else
This directive is optional after an "@if", "@ifdef", or
"@ifndef". If present, it provides an else clause.
Example::
@ifdef ( pi )
print "pi is defined";
@else
print "pi is not defined";
@endif
.. bro:keyword:: @endif
This directive is required to terminate each "@if", "@ifdef", or
"@ifndef".

9
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.. toctree::
:maxdepth: 1
operators
types
attributes
statements
directives
log-files
notices
proto-analyzers
file-analyzers
builtins
packages
scripts
Broxygen Example Script </scripts/broxygen/example.bro>

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=========
Log Files
=========
Listed below are the log files generated by Bro, including a brief description
of the log file and links to descriptions of the fields for each log
type.
Network Protocols
-----------------
+----------------------------+---------------------------------------+---------------------------------+
| Log File | Description | Field Descriptions |
+============================+=======================================+=================================+
| conn.log | TCP/UDP/ICMP connections | :bro:type:`Conn::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| dhcp.log | DHCP leases | :bro:type:`DHCP::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| dnp3.log | DNP3 requests and replies | :bro:type:`DNP3::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| dns.log | DNS activity | :bro:type:`DNS::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| ftp.log | FTP activity | :bro:type:`FTP::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| http.log | HTTP requests and replies | :bro:type:`HTTP::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| irc.log | IRC commands and responses | :bro:type:`IRC::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| modbus.log | Modbus commands and responses | :bro:type:`Modbus::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| modbus_register_change.log | Tracks changes to Modbus holding | :bro:type:`Modbus::MemmapInfo` |
| | registers | |
+----------------------------+---------------------------------------+---------------------------------+
| radius.log | RADIUS authentication attempts | :bro:type:`RADIUS::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| smtp.log | SMTP transactions | :bro:type:`SMTP::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| snmp.log | SNMP messages | :bro:type:`SNMP::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| socks.log | SOCKS proxy requests | :bro:type:`SOCKS::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| ssh.log | SSH connections | :bro:type:`SSH::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| ssl.log | SSL/TLS handshake info | :bro:type:`SSL::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| syslog.log | Syslog messages | :bro:type:`Syslog::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| tunnel.log | Tunneling protocol events | :bro:type:`Tunnel::Info` |
+----------------------------+---------------------------------------+---------------------------------+
Files
-----
+----------------------------+---------------------------------------+---------------------------------+
| Log File | Description | Field Descriptions |
+============================+=======================================+=================================+
| files.log | File analysis results | :bro:type:`Files::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| x509.log | X.509 certificate info | :bro:type:`X509::Info` |
+----------------------------+---------------------------------------+---------------------------------+
Detection
---------
+----------------------------+---------------------------------------+---------------------------------+
| Log File | Description | Field Descriptions |
+============================+=======================================+=================================+
| intel.log | Intelligence data matches | :bro:type:`Intel::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| notice.log | Bro notices | :bro:type:`Notice::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| notice_alarm.log | The alarm stream | :bro:enum:`Notice::ACTION_ALARM`|
+----------------------------+---------------------------------------+---------------------------------+
| signatures.log | Signature matches | :bro:type:`Signatures::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| traceroute.log | Traceroute detection | :bro:type:`Traceroute::Info` |
+----------------------------+---------------------------------------+---------------------------------+
Network Observations
--------------------
+----------------------------+---------------------------------------+---------------------------------+
| Log File | Description | Field Descriptions |
+============================+=======================================+=================================+
| app_stats.log | Web app usage statistics | :bro:type:`AppStats::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| known_certs.log | SSL certificates | :bro:type:`Known::CertsInfo` |
+----------------------------+---------------------------------------+---------------------------------+
| known_devices.log | MAC addresses of devices on the | :bro:type:`Known::DevicesInfo` |
| | network | |
+----------------------------+---------------------------------------+---------------------------------+
| known_hosts.log | Hosts that have completed TCP | :bro:type:`Known::HostsInfo` |
| | handshakes | |
+----------------------------+---------------------------------------+---------------------------------+
| known_modbus.log | Modbus masters and slaves | :bro:type:`Known::ModbusInfo` |
+----------------------------+---------------------------------------+---------------------------------+
| known_services.log | Services running on hosts | :bro:type:`Known::ServicesInfo` |
+----------------------------+---------------------------------------+---------------------------------+
| software.log | Software being used on the network | :bro:type:`Software::Info` |
+----------------------------+---------------------------------------+---------------------------------+
Miscellaneous
-------------
+----------------------------+---------------------------------------+---------------------------------+
| Log File | Description | Field Descriptions |
+============================+=======================================+=================================+
| barnyard2.log | Alerts received from Barnyard2 | :bro:type:`Barnyard2::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| dpd.log | Dynamic protocol detection failures | :bro:type:`DPD::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| unified2.log | Interprets Snort's unified output | :bro:type:`Unified2::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| weird.log | Unexpected network-level activity | :bro:type:`Weird::Info` |
+----------------------------+---------------------------------------+---------------------------------+
Bro Diagnostics
---------------
+----------------------------+---------------------------------------+---------------------------------+
| Log File | Description | Field Descriptions |
+============================+=======================================+=================================+
| capture_loss.log | Packet loss rate | :bro:type:`CaptureLoss::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| cluster.log | Bro cluster messages | :bro:type:`Cluster::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| communication.log | Communication events between Bro or | :bro:type:`Communication::Info` |
| | Broccoli instances | |
+----------------------------+---------------------------------------+---------------------------------+
| loaded_scripts.log | Shows all scripts loaded by Bro | :bro:type:`LoadedScripts::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| packet_filter.log | List packet filters that were applied | :bro:type:`PacketFilter::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| prof.log | Profiling statistics (to create this | N/A |
| | log, load policy/misc/profiling.bro) | |
+----------------------------+---------------------------------------+---------------------------------+
| reporter.log | Internal error/warning/info messages | :bro:type:`Reporter::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| stats.log | Memory/event/packet/lag statistics | :bro:type:`Stats::Info` |
+----------------------------+---------------------------------------+---------------------------------+
| stderr.log | Captures standard error when Bro is | N/A |
| | started from BroControl | |
+----------------------------+---------------------------------------+---------------------------------+
| stdout.log | Captures standard output when Bro is | N/A |
| | started from BroControl | |
+----------------------------+---------------------------------------+---------------------------------+

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Operators
=========
The Bro scripting language supports the following operators. Note that
each data type only supports a subset of these operators. For more
details, see the documentation about the `data types <types.html>`_.
Relational operators
--------------------
The relational operators evaluate to type :bro:type:`bool`.
+------------------------------+--------------+
| Name | Syntax |
+==============================+==============+
| Equality | *a* == *b* |
+------------------------------+--------------+
| Inequality | *a* != *b* |
+------------------------------+--------------+
| Less than | *a* < *b* |
+------------------------------+--------------+
| Less than or equal | *a* <= *b* |
+------------------------------+--------------+
| Greater than | *a* > *b* |
+------------------------------+--------------+
| Greater than or equal | *a* >= *b* |
+------------------------------+--------------+
Logical operators
-----------------
The logical operators require operands of type :bro:type:`bool`, and
evaluate to type :bro:type:`bool`.
+------------------------------+--------------+
| Name | Syntax |
+==============================+==============+
| Logical AND | *a* && *b* |
+------------------------------+--------------+
| Logical OR | *a* \|\| *b* |
+------------------------------+--------------+
| Logical NOT | ! *a* |
+------------------------------+--------------+
Arithmetic operators
--------------------
+------------------------------+-------------+-------------------------------+
| Name | Syntax | Notes |
+==============================+=============+===============================+
| Addition | *a* + *b* | For :bro:type:`string` |
| | | operands, this performs |
| | | string concatenation. |
+------------------------------+-------------+-------------------------------+
| Subtraction | *a* - *b* | |
+------------------------------+-------------+-------------------------------+
| Multiplication | *a* \* *b* | |
+------------------------------+-------------+-------------------------------+
| Division | *a* / *b* | For :bro:type:`int` or |
| | | :bro:type:`count` operands, |
| | | the fractional part of the |
| | | result is dropped. |
+------------------------------+-------------+-------------------------------+
| Modulo | *a* % *b* | Operand types cannot be |
| | | "double". |
+------------------------------+-------------+-------------------------------+
| Unary plus | \+ *a* | |
+------------------------------+-------------+-------------------------------+
| Unary minus | \- *a* | |
+------------------------------+-------------+-------------------------------+
| Pre-increment | ++ *a* | Operand type cannot be |
| | | "double". |
+------------------------------+-------------+-------------------------------+
| Pre-decrement | ``--`` *a* | Operand type cannot be |
| | | "double". |
+------------------------------+-------------+-------------------------------+
| Absolute value | \| *a* \| | If operand is |
| | | :bro:type:`string`, |
| | | :bro:type:`set`, |
| | | :bro:type:`table`, or |
| | | :bro:type:`vector`, this |
| | | evaluates to number |
| | | of elements. |
+------------------------------+-------------+-------------------------------+
Assignment operators
--------------------
The assignment operators evaluate to the result of the assignment.
+------------------------------+-------------+
| Name | Syntax |
+==============================+=============+
| Assignment | *a* = *b* |
+------------------------------+-------------+
| Addition assignment | *a* += *b* |
+------------------------------+-------------+
| Subtraction assignment | *a* -= *b* |
+------------------------------+-------------+
Record field operators
----------------------
The record field operators take a :bro:type:`record` as the first operand,
and a field name as the second operand. For both operators, the specified
field name must be in the declaration of the record type.
+------------------------------+-------------+-------------------------------+
| Name | Syntax | Notes |
+==============================+=============+===============================+
| Field access | *a* $ *b* | |
+------------------------------+-------------+-------------------------------+
| Field value existence test | *a* ?$ *b* | Evaluates to type |
| | | :bro:type:`bool`. |
| | | True if the specified field |
| | | has been assigned a value, or |
| | | false if not. |
+------------------------------+-------------+-------------------------------+
Other operators
---------------
+--------------------------------+-------------------+------------------------+
| Name | Syntax | Notes |
+================================+===================+========================+
| Membership test | *a* in *b* |Evaluates to type |
| | |:bro:type:`bool`. Do not|
| | |confuse this use of "in"|
| | |with that used in a |
| | |:bro:keyword:`for` |
| | |statement. |
+--------------------------------+-------------------+------------------------+
| Non-membership test | *a* !in *b* |This is the logical NOT |
| | |of the "in" operator. |
| | |For example: "a !in b" |
| | |is equivalent to |
| | |"!(a in b)". |
+--------------------------------+-------------------+------------------------+
| Table or vector element access | *a* [ *b* ] |This operator can also |
| | |be used with a |
| | |:bro:type:`set`, but |
| | |only with the |
| | |:bro:keyword:`add` or |
| | |:bro:keyword:`delete` |
| | |statement. |
+--------------------------------+-------------------+------------------------+
| Substring extraction | *a* [ *b* : *c* ] |See the |
| | |:bro:type:`string` type |
| | |for more details. |
+--------------------------------+-------------------+------------------------+
| Create a deep copy | copy ( *a* ) |This is relevant only |
| | |for data types that are |
| | |assigned by reference, |
| | |such as |
| | |:bro:type:`vector`, |
| | |:bro:type:`set`, |
| | |:bro:type:`table`, |
| | |and :bro:type:`record`. |
+--------------------------------+-------------------+------------------------+
| Module namespace access | *a* \:\: *b* |The first operand is the|
| | |module name, and the |
| | |second operand is an |
| | |identifier that refers |
| | |to a global variable, |
| | |enumeration constant, or|
| | |user-defined type that |
| | |was exported from the |
| | |module. |
+--------------------------------+-------------------+------------------------+
| Conditional | *a* ? *b* : *c* |The first operand must |
| | |evaluate to type |
| | |:bro:type:`bool`. |
| | |If true, then the |
| | |second expression is |
| | |evaluated and is the |
| | |result of the entire |
| | |expression. Otherwise, |
| | |the third expression is |
| | |evaluated and is the |
| | |result of the entire |
| | |expression. The types of|
| | |the second and third |
| | |operands must be |
| | |compatible. |
+--------------------------------+-------------------+------------------------+

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Declarations and Statements
===========================
The Bro scripting language supports the following declarations and
statements.
Declarations
~~~~~~~~~~~~
+----------------------------+-----------------------------+
| Name | Description |
+============================+=============================+
| :bro:keyword:`module` | Change the current module |
+----------------------------+-----------------------------+
| :bro:keyword:`export` | Export identifiers from the |
| | current module |
+----------------------------+-----------------------------+
| :bro:keyword:`global` | Declare a global variable |
+----------------------------+-----------------------------+
| :bro:keyword:`const` | Declare a constant |
+----------------------------+-----------------------------+
| :bro:keyword:`type` | Declare a user-defined type |
+----------------------------+-----------------------------+
| :bro:keyword:`redef` | Redefine a global value or |
| | extend a user-defined type |
+----------------------------+-----------------------------+
| `function/event/hook`_ | Declare a function, event |
| | handler, or hook |
+----------------------------+-----------------------------+
Statements
~~~~~~~~~~
+----------------------------+------------------------+
| Name | Description |
+============================+========================+
| :bro:keyword:`local` | Declare a local |
| | variable |
+----------------------------+------------------------+
| :bro:keyword:`add`, | Add or delete |
| :bro:keyword:`delete` | elements |
+----------------------------+------------------------+
| :bro:keyword:`print` | Print to stdout or a |
| | file |
+----------------------------+------------------------+
| :bro:keyword:`for`, | Loop over each |
| :bro:keyword:`next`, | element in a container |
| :bro:keyword:`break` | object |
+----------------------------+------------------------+
| :bro:keyword:`if` | Evaluate boolean |
| | expression and if true,|
| | execute a statement |
+----------------------------+------------------------+
| :bro:keyword:`switch`, | Evaluate expression |
| :bro:keyword:`break`, | and execute statement |
| :bro:keyword:`fallthrough` | with a matching value |
+----------------------------+------------------------+
| :bro:keyword:`when` | Asynchronous execution |
+----------------------------+------------------------+
| :bro:keyword:`event`, | Invoke or schedule |
| :bro:keyword:`schedule` | an event handler |
+----------------------------+------------------------+
| :bro:keyword:`return` | Return from function, |
| | hook, or event handler |
+----------------------------+------------------------+
Declarations
------------
The following global declarations cannot occur within a function, hook, or
event handler. Also, these declarations cannot appear after any statements
that are outside of a function, hook, or event handler.
.. bro:keyword:: module
The "module" keyword is used to change the current module. This
affects the scope of any subsequently declared global identifiers.
Example::
module mymodule;
If a global identifier is declared after a "module" declaration,
then its scope ends at the end of the current Bro script or at the
next "module" declaration, whichever comes first. However, if a
global identifier is declared after a "module" declaration, but inside
an :bro:keyword:`export` block, then its scope ends at the end of the
last loaded Bro script, but it must be referenced using the namespace
operator (``::``) in other modules.
There can be any number of "module" declarations in a Bro script.
The same "module" declaration can appear in any number of different
Bro scripts.
.. bro:keyword:: export
An "export" block contains one or more declarations
(no statements are allowed in an "export" block) that the current
module is exporting. This enables these global identifiers to be visible
in other modules (but not prior to their declaration) via the namespace
operator (``::``). See the :bro:keyword:`module` keyword for a more
detailed explanation.
Example::
export {
redef enum Log::ID += { LOG };
type Info: record {
ts: time &log;
uid: string &log;
};
const conntime = 30sec &redef;
}
Note that the braces in an "export" block are always required
(they do not indicate a compound statement). Also, no semicolon is
needed to terminate an "export" block.
.. bro:keyword:: global
Variables declared with the "global" keyword will be global.
If a type is not specified, then an initializer is required so that
the type can be inferred. Likewise, if an initializer is not supplied,
then the type must be specified. Example::
global pi = 3.14;
global hosts: set[addr];
global ciphers: table[string] of string = table();
Variable declarations outside of any function, hook, or event handler are
required to use this keyword (unless they are declared with the
:bro:keyword:`const` keyword). Definitions of functions, hooks, and
event handlers are not allowed to use the "global"
keyword (they already have global scope), except function declarations
where no function body is supplied use the "global" keyword.
The scope of a global variable begins where the declaration is located,
and extends through all remaining Bro scripts that are loaded (however,
see the :bro:keyword:`module` keyword for an explanation of how modules
change the visibility of global identifiers).
.. bro:keyword:: const
A variable declared with the "const" keyword will be constant.
Variables declared as constant are required to be initialized at the
time of declaration. Example::
const pi = 3.14;
const ssh_port: port = 22/tcp;
The value of a constant cannot be changed later (the only
exception is if the variable is global and has the :bro:attr:`&redef`
attribute, then its value can be changed only with a :bro:keyword:`redef`).
The scope of a constant is local if the declaration is in a
function, hook, or event handler, and global otherwise.
Note that the "const" keyword cannot be used with either the "local"
or "global" keywords (i.e., "const" replaces "local" and "global").
.. bro:keyword:: type
The "type" keyword is used to declare a user-defined type. The name
of this new type has global scope and can be used anywhere a built-in
type name can occur.
The "type" keyword is most commonly used when defining a
:bro:type:`record` or an :bro:type:`enum`, but is also useful when
dealing with more complex types.
Example::
type mytype: table[count] of table[addr, port] of string;
global myvar: mytype;
.. bro:keyword:: redef
There are three ways that "redef" can be used: to change the value of
a global variable, to extend a record type or enum type, or to specify
a new event handler body that replaces all those that were previously
defined.
If you're using "redef" to change a global variable (defined using either
:bro:keyword:`const` or :bro:keyword:`global`), then the variable that you
want to change must have the :bro:attr:`&redef` attribute. If the variable
you're changing is a table, set, or pattern, you can use ``+=`` to add
new elements, or you can use ``=`` to specify a new value (all previous
contents of the object are removed). If the variable you're changing is a
set or table, then you can use the ``-=`` operator to remove the
specified elements (nothing happens for specified elements that don't
exist). If the variable you are changing is not a table, set, or pattern,
then you must use the ``=`` operator.
Examples::
redef pi = 3.14;
If you're using "redef" to extend a record or enum, then you must
use the ``+=`` assignment operator.
For an enum, you can add more enumeration constants, and for a record
you can add more record fields (however, each record field in the "redef"
must have either the :bro:attr:`&optional` or :bro:attr:`&default`
attribute).
Examples::
redef enum color += { Blue, Red };
redef record MyRecord += { n2:int &optional; s2:string &optional; };
If you're using "redef" to specify a new event handler body that
replaces all those that were previously defined (i.e., any subsequently
defined event handler body will not be affected by this "redef"), then
the syntax is the same as a regular event handler definition except for
the presence of the "redef" keyword.
Example::
redef event myevent(s:string) { print "Redefined", s; }
.. _function/event/hook:
**function/event/hook**
For details on how to declare a :bro:type:`function`,
:bro:type:`event` handler, or :bro:type:`hook`,
see the documentation for those types.
Statements
----------
Each statement in a Bro script must be terminated with a semicolon (with a
few exceptions noted below). An individual statement can span multiple
lines.
All statements (except those contained within a function, hook, or event
handler) must appear after all global declarations.
Here are the statements that the Bro scripting language supports.
.. bro:keyword:: add
The "add" statement is used to add an element to a :bro:type:`set`.
Nothing happens if the specified element already exists in the set.
Example::
local myset: set[string];
add myset["test"];
.. bro:keyword:: break
The "break" statement is used to break out of a :bro:keyword:`switch` or
:bro:keyword:`for` statement.
.. bro:keyword:: delete
The "delete" statement is used to remove an element from a
:bro:type:`set` or :bro:type:`table`. Nothing happens if the
specified element does not exist in the set or table.
Example::
local myset = set("this", "test");
local mytable = table(["key1"] = 80/tcp, ["key2"] = 53/udp);
delete myset["test"];
delete mytable["key1"];
.. bro:keyword:: event
The "event" statement immediately queues invocation of an event handler.
Example::
event myevent("test", 5);
.. bro:keyword:: fallthrough
The "fallthrough" statement can be used as the last statement in a
"case" block to indicate that execution should continue into the
next "case" or "default" label.
For an example, see the :bro:keyword:`switch` statement.
.. bro:keyword:: for
A "for" loop iterates over each element in a string, set, vector, or
table and executes a statement for each iteration.
For each iteration of the loop, a loop variable will be assigned to an
element if the expression evaluates to a string or set, or an index if
the expression evaluates to a vector or table. Then the statement
is executed. However, the statement will not be executed if the expression
evaluates to an object with no elements.
If the expression is a table or a set with more than one index, then the
loop variable must be specified as a comma-separated list of different
loop variables (one for each index), enclosed in brackets.
A :bro:keyword:`break` statement can be used at any time to immediately
terminate the "for" loop, and a :bro:keyword:`next` statement can be
used to skip to the next loop iteration.
Note that the loop variable in a "for" statement is not allowed to be
a global variable, and it does not need to be declared prior to the "for"
statement. The type will be inferred from the elements of the
expression.
Example::
local myset = set(80/tcp, 81/tcp);
local mytable = table([10.0.0.1, 80/tcp]="s1", [10.0.0.2, 81/tcp]="s2");
for (p in myset)
print p;
for ([i,j] in mytable) {
if (mytable[i,j] == "done")
break;
if (mytable[i,j] == "skip")
next;
print i,j;
}
.. bro:keyword:: if
Evaluates a given expression, which must yield a :bro:type:`bool` value.
If true, then a specified statement is executed. If false, then
the statement is not executed. Example::
if ( x == 2 ) print "x is 2";
However, if the expression evaluates to false and if an "else" is
provided, then the statement following the "else" is executed. Example::
if ( x == 2 )
print "x is 2";
else
print "x is not 2";
.. bro:keyword:: local
A variable declared with the "local" keyword will be local. If a type
is not specified, then an initializer is required so that the type can
be inferred. Likewise, if an initializer is not supplied, then the
type must be specified.
Examples::
local x1 = 5.7;
local x2: double;
local x3: double = 5.7;
Variable declarations inside a function, hook, or event handler are
required to use this keyword (the only two exceptions are variables
declared with :bro:keyword:`const`, and variables implicitly declared in a
:bro:keyword:`for` statement).
The scope of a local variable starts at the location where it is declared
and persists to the end of the function, hook,
or event handler in which it is declared (this is true even if the
local variable was declared within a `compound statement`_ or is the loop
variable in a "for" statement).
.. bro:keyword:: next
The "next" statement can only appear within a :bro:keyword:`for` loop.
It causes execution to skip to the next iteration.
For an example, see the :bro:keyword:`for` statement.
.. bro:keyword:: print
The "print" statement takes a comma-separated list of one or more
expressions. Each expression in the list is evaluated and then converted
to a string. Then each string is printed, with each string separated by
a comma in the output.
Examples::
print 3.14;
print "Results", x, y;
By default, the "print" statement writes to the standard
output (stdout). However, if the first expression is of type
:bro:type:`file`, then "print" writes to that file.
If a string contains non-printable characters (i.e., byte values that are
not in the range 32 - 126), then the "print" statement converts each
non-printable character to an escape sequence before it is printed.
For more control over how the strings are formatted, see the :bro:id:`fmt`
function.
.. bro:keyword:: return
The "return" statement immediately exits the current function, hook, or
event handler. For a function, the specified expression (if any) is
evaluated and returned. A "return" statement in a hook or event handler
cannot return a value because event handlers and hooks do not have
return types.
Examples::
function my_func(): string
{
return "done";
}
event my_event(n: count)
{
if ( n == 0 ) return;
print n;
}
There is a special form of the "return" statement that is only allowed
in functions. Syntactically, it looks like a :bro:keyword:`when` statement
immediately preceded by the "return" keyword. This form of the "return"
statement is used to specify a function that delays its result (such a
function can only be called in the expression of a :bro:keyword:`when`
statement). The function returns at the time the "when"
statement's condition becomes true, and the function returns the value
that the "when" statement's body returns (or if the condition does
not become true within the specified timeout interval, then the function
returns the value that the "timeout" block returns).
Example::
global X: table[string] of count;
function a() : count
{
# This delays until condition becomes true.
return when ( "a" in X )
{
return X["a"];
}
timeout 30 sec
{
return 0;
}
}
event bro_init()
{
# Installs a trigger which fires if a() returns 42.
when ( a() == 42 )
print "expected result";
print "Waiting for a() to return...";
X["a"] = 42;
}
.. bro:keyword:: schedule
The "schedule" statement is used to raise a specified event with
specified parameters at a later time specified as an :bro:type:`interval`.
Example::
schedule 30sec { myevent(x, y, z) };
Note that the braces are always required (they do not indicate a
`compound statement`_).
Note that "schedule" is actually an expression that returns a value
of type "timer", but in practice the return value is not used.
.. bro:keyword:: switch
A "switch" statement evaluates a given expression and jumps to
the first "case" label which contains a matching value (the result of the
expression must be type-compatible with all of the values in all of the
"case" labels). If there is no matching value, then execution jumps to
the "default" label instead, and if there is no "default" label then
execution jumps out of the "switch" block.
Here is an example (assuming that "get_day_of_week" is a
function that returns a string)::
switch get_day_of_week()
{
case "Sa", "Su":
print "weekend";
fallthrough;
case "Mo", "Tu", "We", "Th", "Fr":
print "valid result";
break;
default:
print "invalid result";
break;
}
A "switch" block can have any number of "case" labels, and one
optional "default" label.
A "case" label can have a comma-separated list of
more than one value. A value in a "case" label can be an expression,
but it must be a constant expression (i.e., the expression can consist
only of constants).
Each "case" and the "default" block must
end with either a :bro:keyword:`break`, :bro:keyword:`fallthrough`, or
:bro:keyword:`return` statement (although "return" is allowed only
if the "switch" statement is inside a function, hook, or event handler).
If a "case" (or "default") block contain more than one statement, then
there is no need to wrap them in braces.
Note that the braces in a "switch" statement are always required (these
do not indicate the presence of a `compound statement`_), and that no
semicolon is needed at the end of a "switch" statement.
.. bro:keyword:: when
Evaluates a given expression, which must result in a value of type
:bro:type:`bool`. When the value of the expression becomes available
and if the result is true, then a specified statement is executed.
In the following example, if the expression evaluates to true, then
the "print" statement is executed::
when ( (local x = foo()) && x == 42 )
print x;
However, if a timeout is specified, and if the expression does not
evaluate to true within the specified timeout interval, then the
statement following the "timeout" keyword is executed::
when ( (local x = foo()) && x == 42 )
print x;
timeout 5sec {
print "timeout";
}
Note that when a timeout is specified the braces are
always required (these do not indicate a `compound statement`_).
The expression in a "when" statement can contain a declaration of a local
variable but only if the declaration is written in the form
"local *var* = *init*" (example: "local x = myfunction()"). This form
of a local declaration is actually an expression, the result of which
is always a boolean true value.
The expression in a "when" statement can contain an asynchronous function
call such as :bro:id:`lookup_hostname` (in fact, this is the only place
such a function can be called), but it can also contain an ordinary
function call. When an asynchronous function call is in the expression,
then Bro will continue processing statements in the script following
the "when" statement, and when the result of the function call is available
Bro will finish evaluating the expression in the "when" statement.
See the :bro:keyword:`return` statement for an explanation of how to
create an asynchronous function in a Bro script.
.. _compound statement:
**compound statement**
A compound statement is created by wrapping zero or more statements in
braces ``{ }``. Individual statements inside the braces need to be
terminated by a semicolon, but a semicolon is not needed at the end
(outside of the braces) of a compound statement.
A compound statement is required in order to execute more than one
statement in the body of a :bro:keyword:`for`, :bro:keyword:`if`, or
:bro:keyword:`when` statement.
Example::
if ( x == 2 ) {
print "x is 2";
++x;
}
Note that there are other places in the Bro scripting language that use
braces, but that do not indicate the presence of a compound
statement (these are noted in the documentation).
.. _null:
**null statement**
The null statement (executing it has no effect) consists of just a
semicolon. This might be useful during testing or debugging a Bro script
in places where a statement is required, but it is probably not useful
otherwise.
Example::
if ( x == 2 )
;

635
doc/script-reference/builtins.rst → doc/script-reference/types.rst
View file

@ -1,92 +1,114 @@
Types and Attributes
====================
Types
-----
=====
Every value in a Bro script has a type (see below for a list of all built-in
types). Although Bro variables have static types (meaning that their type
is fixed), their type is inferred from the value to which they are
initially assigned when the variable is declared without an explicit type
name.
The Bro scripting language supports the following built-in types:
Automatic conversions happen when a binary operator has operands of
different types. Automatic conversions are limited to converting between
numeric types. The numeric types are ``int``, ``count``, and ``double``
(``bool`` is not a numeric type).
When an automatic conversion occurs, values are promoted to the "highest"
type in the expression. In general, this promotion follows a simple
hierarchy: ``double`` is highest, ``int`` comes next, and ``count`` is
lowest.
+-----------------------+--------------------+
| Name | Description |
+=======================+====================+
| :bro:type:`bool` | Boolean |
+-----------------------+--------------------+
| :bro:type:`count`, | Numeric types |
| :bro:type:`int`, | |
| :bro:type:`double` | |
+-----------------------+--------------------+
| :bro:type:`time`, | Time types |
| :bro:type:`interval` | |
+-----------------------+--------------------+
| :bro:type:`string` | String |
+-----------------------+--------------------+
| :bro:type:`pattern` | Regular expression |
+-----------------------+--------------------+
| :bro:type:`port`, | Network types |
| :bro:type:`addr`, | |
| :bro:type:`subnet` | |
+-----------------------+--------------------+
| :bro:type:`enum` | Enumeration |
| | (user-defined type)|
+-----------------------+--------------------+
| :bro:type:`table`, | Container types |
| :bro:type:`set`, | |
| :bro:type:`vector`, | |
| :bro:type:`record` | |
+-----------------------+--------------------+
| :bro:type:`function`, | Executable types |
| :bro:type:`event`, | |
| :bro:type:`hook` | |
+-----------------------+--------------------+
| :bro:type:`file` | File type (only |
| | for writing) |
+-----------------------+--------------------+
| :bro:type:`opaque` | Opaque type (for |
| | some built-in |
| | functions) |
+-----------------------+--------------------+
| :bro:type:`any` | Any type (for |
| | functions or |
| | containers) |
+-----------------------+--------------------+
The Bro scripting language supports the following built-in types.
.. bro:type:: void
An internal Bro type (i.e., "void" is not a reserved keyword in the Bro
scripting language) representing the absence of a return type for a
function.
Here is a more detailed description of each type:
.. bro:type:: bool
Reflects a value with one of two meanings: true or false. The two
``bool`` constants are ``T`` and ``F``.
"bool" constants are ``T`` and ``F``.
The ``bool`` type supports the following operators: equality/inequality
The "bool" type supports the following operators: equality/inequality
(``==``, ``!=``), logical and/or (``&&``, ``||``), logical
negation (``!``), and absolute value (where ``|T|`` is 1, and ``|F|`` is 0).
negation (``!``), and absolute value (where ``|T|`` is 1, and ``|F|`` is 0,
and in both cases the result type is :bro:type:`count`).
.. bro:type:: int
A numeric type representing a 64-bit signed integer. An ``int`` constant
is a string of digits preceded by a ``+`` or ``-`` sign, e.g.
A numeric type representing a 64-bit signed integer. An "int" constant
is a string of digits preceded by a "+" or "-" sign, e.g.
``-42`` or ``+5`` (the "+" sign is optional but see note about type
inferencing below). An ``int`` constant can also be written in
inferencing below). An "int" constant can also be written in
hexadecimal notation (in which case "0x" must be between the sign and
the hex digits), e.g. ``-0xFF`` or ``+0xabc123``.
The ``int`` type supports the following operators: arithmetic
The "int" type supports the following operators: arithmetic
operators (``+``, ``-``, ``*``, ``/``, ``%``), comparison operators
(``==``, ``!=``, ``<``, ``<=``, ``>``, ``>=``), assignment operators
(``=``, ``+=``, ``-=``), pre-increment (``++``), pre-decrement
(``--``), and absolute value (e.g., ``|-3|`` is 3).
(``--``), unary plus and minus (``+``, ``-``), and absolute value
(e.g., ``|-3|`` is 3, but the result type is :bro:type:`count`).
When using type inferencing use care so that the
intended type is inferred, e.g. ``local size_difference = 0`` will
infer :bro:type:`count`, while ``local size_difference = +0``
will infer :bro:type:`int`.
intended type is inferred, e.g. "local size_difference = 0" will
infer ":bro:type:`count`", while "local size_difference = +0"
will infer "int".
.. bro:type:: count
A numeric type representing a 64-bit unsigned integer. A ``count``
constant is a string of digits, e.g. ``1234`` or ``0``. A ``count``
A numeric type representing a 64-bit unsigned integer. A "count"
constant is a string of digits, e.g. ``1234`` or ``0``. A "count"
can also be written in hexadecimal notation (in which case "0x" must
precede the hex digits), e.g. ``0xff`` or ``0xABC123``.
The ``count`` type supports the same operators as the :bro:type:`int`
type. A unary plus or minus applied to a ``count`` results in an ``int``.
.. bro:type:: counter
An alias to :bro:type:`count`.
The "count" type supports the same operators as the ":bro:type:`int`"
type, but a unary plus or minus applied to a "count" results in an
"int".
.. bro:type:: double
A numeric type representing a double-precision floating-point
number. Floating-point constants are written as a string of digits
with an optional decimal point, optional scale-factor in scientific
notation, and optional ``+`` or ``-`` sign. Examples are ``-1234``,
notation, and optional "+" or "-" sign. Examples are ``-1234``,
``-1234e0``, ``3.14159``, and ``.003E-23``.
The ``double`` type supports the following operators: arithmetic
The "double" type supports the following operators: arithmetic
operators (``+``, ``-``, ``*``, ``/``), comparison operators
(``==``, ``!=``, ``<``, ``<=``, ``>``, ``>=``), assignment operators
(``=``, ``+=``, ``-=``), and absolute value (e.g., ``|-3.14|`` is 3.14).
(``=``, ``+=``, ``-=``), unary plus and minus (``+``, ``-``), and
absolute value (e.g., ``|-3.14|`` is 3.14).
When using type inferencing use care so that the
intended type is inferred, e.g. ``local size_difference = 5`` will
infer :bro:type:`count`, while ``local size_difference = 5.0``
will infer :bro:type:`double`.
intended type is inferred, e.g. "local size_difference = 5" will
infer ":bro:type:`count`", while "local size_difference = 5.0"
will infer "double".
.. bro:type:: time
@ -97,10 +119,10 @@ The Bro scripting language supports the following built-in types.
Time values support the comparison operators (``==``, ``!=``, ``<``,
``<=``, ``>``, ``>=``). A ``time`` value can be subtracted from
another ``time`` value to produce an ``interval`` value. An ``interval``
value can be added to, or subtracted from, a ``time`` value to produce a
``time`` value. The absolute value of a ``time`` value is a ``double``
with the same numeric value.
another ``time`` value to produce an :bro:type:`interval` value. An
``interval`` value can be added to, or subtracted from, a ``time`` value
to produce a ``time`` value. The absolute value of a ``time`` value is
a :bro:type:`double` with the same numeric value.
.. bro:type:: interval
@ -115,52 +137,58 @@ The Bro scripting language supports the following built-in types.
``3.5mins``. An ``interval`` can also be negated, for example
``-12 hr`` represents "twelve hours in the past".
Intervals support addition and subtraction. Intervals also support
division (in which case the result is a ``double`` value), the
comparison operators (``==``, ``!=``, ``<``, ``<=``, ``>``, ``>=``),
and the assignment operators (``=``, ``+=``, ``-=``). Also, an
``interval`` can be multiplied or divided by an arithmetic type
(``count``, ``int``, or ``double``) to produce an ``interval`` value.
The absolute value of an ``interval`` is a ``double`` value equal to the
number of seconds in the ``interval`` (e.g., ``|-1 min|`` is 60).
Intervals support addition and subtraction, the comparison operators
(``==``, ``!=``, ``<``, ``<=``, ``>``, ``>=``), the assignment
operators (``=``, ``+=``, ``-=``), and unary plus and minus (``+``, ``-``).
Intervals also support division (in which case the result is a
:bro:type:`double` value). An ``interval`` can be multiplied or divided
by an arithmetic type (``count``, ``int``, or ``double``) to produce
an ``interval`` value. The absolute value of an ``interval`` is a
``double`` value equal to the number of seconds in the ``interval``
(e.g., ``|-1 min|`` is 60.0).
.. bro:type:: string
A type used to hold character-string values which represent text.
String constants are created by enclosing text in double quotes (")
and the backslash character (\\) introduces escape sequences (all of
the C-style escape sequences are supported).
A type used to hold character-string values which represent text, although
strings in a Bro script can actually contain any arbitrary binary data.
String constants are created by enclosing text within a pair of double
quotes ("). A string constant cannot span multiple lines in a Bro script.
The backslash character (\\) introduces escape sequences. The
following escape sequences are recognized: ``\n``, ``\t``, ``\v``, ``\b``,
``\r``, ``\f``, ``\a``, ``\ooo`` (where each 'o' is an octal digit),
``\xhh`` (where each 'h' is a hexadecimal digit). For escape sequences
that don't match any of these, Bro will just remove the backslash (so
to represent a literal backslash in a string constant, you just use
two consecutive backslashes).
Strings support concatenation (``+``), and assignment (``=``, ``+=``).
Strings also support the comparison operators (``==``, ``!=``, ``<``,
``<=``, ``>``, ``>=``). The number of characters in a string can be
found by enclosing the string within pipe characters (e.g., ``|"abc"|``
is 3).
The subscript operator can extract an individual character or a substring
of a string (string indexing is zero-based, but an index of
-1 refers to the last character in the string, and -2 refers to the
second-to-last character, etc.). When extracting a substring, the
starting and ending index values are separated by a colon. For example::
local orig = "0123456789";
local third_char = orig[2];
local last_char = orig[-1];
local first_three_chars = orig[0:2];
Substring searching can be performed using the "in" or "!in"
is 3). Substring searching can be performed using the "in" or "!in"
operators (e.g., "bar" in "foobar" yields true).
Note that Bro represents strings internally as a count and vector of
bytes rather than a NUL-terminated byte string (although string
constants are also automatically NUL-terminated). This is because
network traffic can easily introduce NULs into strings either by
nature of an application, inadvertently, or maliciously. And while
NULs are allowed in Bro strings, when present in strings passed as
arguments to many functions, a run-time error can occur as their
presence likely indicates a sort of problem. In that case, the
string will also only be represented to the user as the literal
"<string-with-NUL>" string.
The subscript operator can extract a substring of a string. To do this,
specify the starting index to extract (if the starting index is omitted,
then zero is assumed), followed by a colon and index
one past the last character to extract (if the last index is omitted,
then the extracted substring will go to the end of the original string).
However, if both the colon and last index are omitted, then a string of
length one is extracted. String indexing is zero-based, but an index
of -1 refers to the last character in the string, and -2 refers to the
second-to-last character, etc. Here are a few examples::
local orig = "0123456789";
local second_char = orig[1];
local last_char = orig[-1];
local first_two_chars = orig[:2];
local last_two_chars = orig[8:];
local no_first_and_last = orig[1:9];
Note that the subscript operator cannot be used to modify a string (i.e.,
it cannot be on the left side of an assignment operator).
.. bro:type:: pattern
@ -174,7 +202,7 @@ The Bro scripting language supports the following built-in types.
and embedded.
In exact matching the ``==`` equality relational operator is used
with one :bro:type:`pattern` operand and one :bro:type:`string`
with one "pattern" operand and one ":bro:type:`string`"
operand (order of operands does not matter) to check whether the full
string exactly matches the pattern. In exact matching, the ``^``
beginning-of-line and ``$`` end-of-line anchors are redundant since
@ -190,8 +218,8 @@ The Bro scripting language supports the following built-in types.
yields false. The ``!=`` operator would yield the negation of ``==``.
In embedded matching the ``in`` operator is used with one
:bro:type:`pattern` operand (which must be on the left-hand side) and
one :bro:type:`string` operand, but tests whether the pattern
"pattern" operand (which must be on the left-hand side) and
one ":bro:type:`string`" operand, but tests whether the pattern
appears anywhere within the given string. For example::
/foo|bar/ in "foobar"
@ -203,27 +231,12 @@ The Bro scripting language supports the following built-in types.
is false since "oob" does not appear at the start of "foobar". The
``!in`` operator would yield the negation of ``in``.
.. bro:type:: enum
A type allowing the specification of a set of related values that
have no further structure. An example declaration:
.. code:: bro
type color: enum { Red, White, Blue, };
The last comma after ``Blue`` is optional.
The only operations allowed on enumerations are equality comparisons
(``==``, ``!=``) and assignment (``=``).
Enumerations do not have associated values or ordering.
.. bro:type:: port
A type representing transport-level port numbers. Besides TCP and
A type representing transport-level port numbers (besides TCP and
UDP ports, there is a concept of an ICMP "port" where the source
port is the ICMP message type and the destination port the ICMP
message code. A ``port`` constant is written as an unsigned integer
message code). A ``port`` constant is written as an unsigned integer
followed by one of ``/tcp``, ``/udp``, ``/icmp``, or ``/unknown``.
Ports support the comparison operators (``==``, ``!=``, ``<``, ``<=``,
@ -255,14 +268,6 @@ The Bro scripting language supports the following built-in types.
address) are treated internally as IPv4 addresses (for example,
``[::ffff:192.168.1.100]`` is equal to ``192.168.1.100``).
Hostname constants can also be used, but since a hostname can
correspond to multiple IP addresses, the type of such a variable is a
:bro:type:`set` of :bro:type:`addr` elements. For example:
.. code:: bro
local a = www.google.com;
Addresses can be compared for equality (``==``, ``!=``),
and also for ordering (``<``, ``<=``, ``>``, ``>=``). The absolute value
of an address gives the size in bits (32 for IPv4, and 128 for IPv6).
@ -285,9 +290,17 @@ The Bro scripting language supports the following built-in types.
if ( a in s )
print "true";
Note that you can check if a given ``addr`` is IPv4 or IPv6 using
You can check if a given ``addr`` is IPv4 or IPv6 using
the :bro:id:`is_v4_addr` and :bro:id:`is_v6_addr` built-in functions.
Note that hostname constants can also be used, but since a hostname can
correspond to multiple IP addresses, the type of such a variable is
"set[addr]". For example:
.. code:: bro
local a = www.google.com;
.. bro:type:: subnet
A type representing a block of IP addresses in CIDR notation. A
@ -296,13 +309,24 @@ The Bro scripting language supports the following built-in types.
number. For example, ``192.168.0.0/16`` or ``[fe80::]/64``.
Subnets can be compared for equality (``==``, ``!=``). An
:bro:type:`addr` can be checked for inclusion in a subnet using
the "in" or "!in" operators.
"addr" can be checked for inclusion in a subnet using
the ``in`` or ``!in`` operators.
.. bro:type:: any
.. bro:type:: enum
Used to bypass strong typing. For example, a function can take an
argument of type ``any`` when it may be of different types.
A type allowing the specification of a set of related values that
have no further structure. An example declaration:
.. code:: bro
type color: enum { Red, White, Blue, };
The last comma after ``Blue`` is optional. Both the type name ``color``
and the individual values (``Red``, etc.) have global scope.
Enumerations do not have associated values or ordering.
The only operations allowed on enumerations are equality comparisons
(``==``, ``!=``) and assignment (``=``).
.. bro:type:: table
@ -316,24 +340,25 @@ The Bro scripting language supports the following built-in types.
table [ type^+ ] of type
where *type^+* is one or more types, separated by commas. For example:
where *type^+* is one or more types, separated by commas.
For example:
.. code:: bro
global a: table[count] of string;
declares a table indexed by :bro:type:`count` values and yielding
:bro:type:`string` values. The yield type can also be more complex:
declares a table indexed by "count" values and yielding
"string" values. The yield type can also be more complex:
.. code:: bro
global a: table[count] of table[addr, port] of string;
which declares a table indexed by :bro:type:`count` and yielding
another :bro:type:`table` which is indexed by an :bro:type:`addr`
and :bro:type:`port` to yield a :bro:type:`string`.
which declares a table indexed by "count" and yielding
another "table" which is indexed by an "addr"
and "port" to yield a "string".
Initialization of tables occurs by enclosing a set of initializers within
One way to initialize a table is by enclosing a set of initializers within
braces, for example:
.. code:: bro
@ -343,18 +368,17 @@ The Bro scripting language supports the following built-in types.
[5] = "five",
};
A table constructor (equivalent to above example) can also be used
to create a table:
A table constructor can also be used to create a table:
.. code:: bro
global t2: table[count] of string = table(
[11] = "eleven",
[5] = "five"
global t2 = table(
[192.168.0.2, 22/tcp] = "ssh",
[192.168.0.3, 80/tcp] = "http"
);
Table constructors can also be explicitly named by a type, which is
useful for when a more complex index type could otherwise be
useful when a more complex index type could otherwise be
ambiguous:
.. code:: bro
@ -381,17 +405,7 @@ The Bro scripting language supports the following built-in types.
if ( 13 in t )
...
Iterate over tables with a ``for`` loop:
.. code:: bro
local t: table[count] of string;
for ( n in t )
...
local services: table[addr, port] of string;
for ( [a, p] in services )
if ( [192.168.0.2, 22/tcp] in t2 )
...
Add or overwrite individual table elements by assignment:
@ -400,7 +414,7 @@ The Bro scripting language supports the following built-in types.
t[13] = "thirteen";
Remove individual table elements with ``delete``:
Remove individual table elements with :bro:keyword:`delete`:
.. code:: bro
@ -416,6 +430,9 @@ The Bro scripting language supports the following built-in types.
|t|
See the :bro:keyword:`for` statement for info on how to iterate over
the elements in a table.
.. bro:type:: set
A set is like a :bro:type:`table`, but it is a collection of indices
@ -426,25 +443,22 @@ The Bro scripting language supports the following built-in types.
where *type^+* is one or more types separated by commas.
Sets are initialized by listing elements enclosed by curly braces:
Sets can be initialized by listing elements enclosed by curly braces:
.. code:: bro
global s: set[port] = { 21/tcp, 23/tcp, 80/tcp, 443/tcp };
global s2: set[port, string] = { [21/tcp, "ftp"], [23/tcp, "telnet"] };
The types are explicitly shown in the example above, but they could
have been left to type inference.
A set constructor (equivalent to above example) can also be used to
create a set:
.. code:: bro
global s3: set[port] = set(21/tcp, 23/tcp, 80/tcp, 443/tcp);
global s3 = set(21/tcp, 23/tcp, 80/tcp, 443/tcp);
Set constructors can also be explicitly named by a type, which is
useful for when a more complex index type could otherwise be
useful when a more complex index type could otherwise be
ambiguous:
.. code:: bro
@ -465,18 +479,10 @@ The Bro scripting language supports the following built-in types.
if ( 21/tcp in s )
...
if ( 21/tcp !in s )
if ( [21/tcp, "ftp"] !in s2 )
...
Iterate over a set with a ``for`` loop:
.. code:: bro
local s: set[port];
for ( p in s )
...
Elements are added with ``add``:
Elements are added with :bro:keyword:`add`:
.. code:: bro
@ -485,7 +491,7 @@ The Bro scripting language supports the following built-in types.
Nothing happens if the element with value ``22/tcp`` was already present in
the set.
And removed with ``delete``:
And removed with :bro:keyword:`delete`:
.. code:: bro
@ -501,6 +507,9 @@ The Bro scripting language supports the following built-in types.
|s|
See the :bro:keyword:`for` statement for info on how to iterate over
the elements in a set.
.. bro:type:: vector
A vector is like a :bro:type:`table`, except it's always indexed by a
@ -515,7 +524,7 @@ The Bro scripting language supports the following built-in types.
.. code:: bro
global v: vector of string = vector("one", "two", "three");
local v = vector("one", "two", "three");
Vector constructors can also be explicitly named by a type, which
is useful for when a more complex yield type could otherwise be
@ -539,14 +548,6 @@ The Bro scripting language supports the following built-in types.
print v[2];
Iterate over a vector with a ``for`` loop:
.. code:: bro
local v: vector of string;
for ( n in v )
...
An element can be added to a vector by assigning the value (a value
that already exists at that index will be overwritten):
@ -577,11 +578,17 @@ The Bro scripting language supports the following built-in types.
The resulting vector of bool is the logical "and" (or logical "or") of
each element of the operand vectors.
See the :bro:keyword:`for` statement for info on how to iterate over
the elements in a vector.
.. bro:type:: record
A ``record`` is a collection of values. Each value has a field name
A "record" is a collection of values. Each value has a field name
and a type. Values do not need to have the same type and the types
have no restrictions. An example record type definition:
have no restrictions. Field names must follow the same syntax as
regular variable names (except that field names are allowed to be the
same as local or global variables). An example record type
definition:
.. code:: bro
@ -590,85 +597,44 @@ The Bro scripting language supports the following built-in types.
s: string &optional;
};
Access to a record field uses the dollar sign (``$``) operator:
.. code:: bro
global r: MyRecordType;
r$c = 13;
Record assignment can be done field by field or as a whole like:
.. code:: bro
r = [$c = 13, $s = "thirteen"];
Records can be initialized or assigned as a whole in three different ways.
When assigning a whole record value, all fields that are not
:bro:attr:`&optional` or have a :bro:attr:`&default` attribute must
be specified.
To test for existence of a field that is :bro:attr:`&optional`, use the
``?$`` operator:
be specified. First, there's a constructor syntax:
.. code:: bro
if ( r?$s )
...
Records can also be created using a constructor syntax:
.. code:: bro
global r2: MyRecordType = record($c = 7);
local r: MyRecordType = record($c = 7);
And the constructor can be explicitly named by type, too, which
is arguably more readable code:
is arguably more readable:
.. code:: bro
global r3 = MyRecordType($c = 42);
local r = MyRecordType($c = 42);
.. bro:type:: opaque
A data type whose actual representation/implementation is
intentionally hidden, but whose values may be passed to certain
functions that can actually access the internal/hidden resources.
Opaque types are differentiated from each other by qualifying them
like ``opaque of md5`` or ``opaque of sha1``. Any valid identifier
can be used as the type qualifier.
An example use of this type is the set of built-in functions which
perform hashing:
And the third way is like this:
.. code:: bro
local handle: opaque of md5 = md5_hash_init();
md5_hash_update(handle, "test");
md5_hash_update(handle, "testing");
print md5_hash_finish(handle);
local r: MyRecordType = [$c = 13, $s = "thirteen"];
Here the opaque type is used to provide a handle to a particular
resource which is calculating an MD5 checksum incrementally over
time, but the details of that resource aren't relevant, it's only
necessary to have a handle as a way of identifying it and
distinguishing it from other such resources.
.. bro:type:: file
Bro supports writing to files, but not reading from them. Files
can be opened using either the :bro:id:`open` or :bro:id:`open_for_append`
built-in functions, and closed using the :bro:id:`close` built-in
function. For example, declare, open, and write to a file
and finally close it like:
Access to a record field uses the dollar sign (``$``) operator, and
record fields can be assigned with this:
.. code:: bro
global f: file = open("myfile");
print f, "hello, world";
close(f);
local r: MyRecordType;
r$c = 13;
Writing to files like this for logging usually isn't recommended, for better
logging support see :doc:`/frameworks/logging`.
To test if a field that is :bro:attr:`&optional` has been assigned a
value, use the ``?$`` operator (it returns a :bro:type:`bool` value of
``T`` if the field has been assigned a value, or ``F`` if not):
.. code:: bro
if ( r ?$ s )
...
.. bro:type:: function
@ -700,6 +666,16 @@ The Bro scripting language supports the following built-in types.
type, but when it is, the return type and argument list (including the
name of each argument) must match exactly.
Here is an example function that takes no parameters and does not
return a value:
.. code:: bro
function my_func()
{
print "my_func";
}
Function types don't need to have a name and can be assigned anonymously:
.. code:: bro
@ -742,9 +718,20 @@ The Bro scripting language supports the following built-in types.
Event handlers are nearly identical in both syntax and semantics to
a :bro:type:`function`, with the two differences being that event
handlers have no return type since they never return a value, and
you cannot call an event handler. Instead of directly calling an
event handler from a script, event handler bodies are executed when
they are invoked by one of three different methods:
you cannot call an event handler.
Example:
.. code:: bro
event my_event(r: bool, s: string)
{
print "my_event", r, s;
}
Instead of directly calling an event handler from a script, event
handler bodies are executed when they are invoked by one of three
different methods:
- From the event engine
@ -765,7 +752,7 @@ The Bro scripting language supports the following built-in types.
This assumes that ``password_exposed`` was previously declared
as an event handler type with compatible arguments.
- Via the ``schedule`` expression in a script
- Via the :bro:keyword:`schedule` expression in a script
This delays the invocation of event handlers until some time in
the future. For example:
@ -789,8 +776,8 @@ The Bro scripting language supports the following built-in types.
immediate and they do not get scheduled through an event queue.
Also, a unique feature of a hook is that a given hook handler body
can short-circuit the execution of remaining hook handlers simply by
exiting from the body as a result of a ``break`` statement (as
opposed to a ``return`` or just reaching the end of the body).
exiting from the body as a result of a :bro:keyword:`break` statement (as
opposed to a :bro:keyword:`return` or just reaching the end of the body).
A hook type is declared like::
@ -859,142 +846,60 @@ The Bro scripting language supports the following built-in types.
executed due to one handler body exiting as a result of a ``break``
statement.
Attributes
----------
.. bro:type:: file
Attributes occur at the end of type/event declarations and change their
behavior. The syntax is ``&key`` or ``&key=val``, e.g., ``type T:
set[count] &read_expire=5min`` or ``event foo() &priority=-3``. The Bro
scripting language supports the following built-in attributes.
Bro supports writing to files, but not reading from them (to read from
files see the :doc:`/frameworks/input`). Files
can be opened using either the :bro:id:`open` or :bro:id:`open_for_append`
built-in functions, and closed using the :bro:id:`close` built-in
function. For example, declare, open, and write to a file and finally
close it like:
.. bro:attr:: &optional
.. code:: bro
Allows a record field to be missing. For example the type ``record {
a: addr; b: port &optional; }`` could be instantiated both as
singleton ``[$a=127.0.0.1]`` or pair ``[$a=127.0.0.1, $b=80/tcp]``.
local f = open("myfile");
print f, "hello, world";
close(f);
.. bro:attr:: &default
Writing to files like this for logging usually isn't recommended, for better
logging support see :doc:`/frameworks/logging`.
Uses a default value for a record field, a function/hook/event
parameter, or container elements. For example, ``table[int] of
string &default="foo"`` would create a table that returns the
:bro:type:`string` ``"foo"`` for any non-existing index.
.. bro:type:: opaque
.. bro:attr:: &redef
A data type whose actual representation/implementation is
intentionally hidden, but whose values may be passed to certain
built-in functions that can actually access the internal/hidden resources.
Opaque types are differentiated from each other by qualifying them
like "opaque of md5" or "opaque of sha1".
Allows for redefinition of initial object values. This is typically
used with constants, for example, ``const clever = T &redef;`` would
allow the constant to be redefined at some later point during script
execution.
An example use of this type is the set of built-in functions which
perform hashing:
.. bro:attr:: &rotate_interval
.. code:: bro
Rotates a file after a specified interval.
local handle = md5_hash_init();
md5_hash_update(handle, "test");
md5_hash_update(handle, "testing");
print md5_hash_finish(handle);
.. bro:attr:: &rotate_size
Here the opaque type is used to provide a handle to a particular
resource which is calculating an MD5 hash incrementally over
time, but the details of that resource aren't relevant, it's only
necessary to have a handle as a way of identifying it and
distinguishing it from other such resources.
Rotates a file after it has reached a given size in bytes.
.. bro:type:: any
.. bro:attr:: &add_func
Used to bypass strong typing. For example, a function can take an
argument of type ``any`` when it may be of different types.
The only operation allowed on a variable of type ``any`` is assignment.
Can be applied to an identifier with &redef to specify a function to
be called any time a "redef <id> += ..." declaration is parsed. The
function takes two arguments of the same type as the identifier, the first
being the old value of the variable and the second being the new
value given after the "+=" operator in the "redef" declaration. The
return value of the function will be the actual new value of the
variable after the "redef" declaration is parsed.
Note that users aren't expected to use this type. It's provided mainly
for use by some built-in functions and scripts included with Bro.
.. bro:attr:: &delete_func
.. bro:type:: void
Same as &add_func, except for "redef" declarations that use the "-="
operator.
An internal Bro type (i.e., "void" is not a reserved keyword in the Bro
scripting language) representing the absence of a return type for a
function.
.. bro:attr:: &expire_func
Called right before a container element expires. The function's
first parameter is of the same type of the container and the second
parameter the same type of the container's index. The return
value is an :bro:type:`interval` indicating the amount of additional
time to wait before expiring the container element at the given
index (which will trigger another execution of this function).
.. bro:attr:: &read_expire
Specifies a read expiration timeout for container elements. That is,
the element expires after the given amount of time since the last
time it has been read. Note that a write also counts as a read.
.. bro:attr:: &write_expire
Specifies a write expiration timeout for container elements. That
is, the element expires after the given amount of time since the
last time it has been written.
.. bro:attr:: &create_expire
Specifies a creation expiration timeout for container elements. That
is, the element expires after the given amount of time since it has
been inserted into the container, regardless of any reads or writes.
.. bro:attr:: &persistent
Makes a variable persistent, i.e., its value is written to disk (per
default at shutdown time).
.. bro:attr:: &synchronized
Synchronizes variable accesses across nodes. The value of a
``&synchronized`` variable is automatically propagated to all peers
when it changes.
.. bro:attr:: &encrypt
Encrypts files right before writing them to disk.
.. TODO: needs to be documented in more detail.
.. bro:attr:: &raw_output
Opens a file in raw mode, i.e., non-ASCII characters are not
escaped.
.. bro:attr:: &mergeable
Prefers set union to assignment for synchronized state. This
attribute is used in conjunction with :bro:attr:`&synchronized`
container types: when the same container is updated at two peers
with different value, the propagation of the state causes a race
condition, where the last update succeeds. This can cause
inconsistencies and can be avoided by unifying the two sets, rather
than merely overwriting the old value.
.. bro:attr:: &priority
Specifies the execution priority (as a signed integer) of a hook or
event handler. Higher values are executed before lower ones. The
default value is 0.
.. bro:attr:: &group
Groups event handlers such that those in the same group can be
jointly activated or deactivated.
.. bro:attr:: &log
Writes a record field to the associated log stream.
.. bro:attr:: &error_handler
Internally set on the events that are associated with the reporter
framework: :bro:id:`reporter_info`, :bro:id:`reporter_warning`, and
:bro:id:`reporter_error`. It prevents any handlers of those events
from being able to generate reporter messages that go through any of
those events (i.e., it prevents an infinite event recursion). Instead,
such nested reporter messages are output to stderr.
.. bro:attr:: &type_column
Used by the input framework. It can be used on columns of type
:bro:type:`port` and specifies the name of an additional column in
the input file which specifies the protocol of the port (tcp/udp/icmp).

2
doc/scripting/data_struct_vector_declaration.bro
View file

@ -10,6 +10,6 @@ event bro_init()
print fmt("contents of v1: %s", v1);
print fmt("length of v1: %d", |v1|);
print fmt("contents of v1: %s", v2);
print fmt("contents of v2: %s", v2);
print fmt("length of v2: %d", |v2|);
}

2
doc/scripting/data_type_pattern_01.bro
View file

@ -1,6 +1,6 @@
event bro_init()
{
local test_string = "The quick brown fox jumped over the lazy dog.";
local test_string = "The quick brown fox jumps over the lazy dog.";
local test_pattern = /quick|lazy/;
if ( test_pattern in test_string )

8
doc/scripting/index.rst
View file

@ -730,7 +730,7 @@ Bro supports ``usec``, ``msec``, ``sec``, ``min``, ``hr``, or ``day`` which repr
microseconds, milliseconds, seconds, minutes, hours, and days
respectively. In fact, the interval data type allows for a surprising
amount of variation in its definitions. There can be a space between
the numeric constant or they can crammed together like a temporal
the numeric constant or they can be crammed together like a temporal
portmanteau. The time unit can be either singular or plural. All of
this adds up to to the fact that both ``42hrs`` and ``42 hr`` are
perfectly valid and logically equivalent in Bro. The point, however,
@ -819,7 +819,7 @@ with the ``typedef`` and ``struct`` keywords, Bro allows you to cobble
together new data types to suit the needs of your situation.
When combined with the ``type`` keyword, ``record`` can generate a
composite type. We have, in fact, already encountered a a complex
composite type. We have, in fact, already encountered a complex
example of the ``record`` data type in the earlier sections, the
:bro:type:`connection` record passed to many events. Another one,
:bro:type:`Conn::Info`, which corresponds to the fields logged into
@ -1014,8 +1014,8 @@ remaining logs to factor.log.
:lines: 38-62
:linenos:
To dynamically alter the file in which a stream writes its logs a
filter can specify function returns a string to be used as the
To dynamically alter the file in which a stream writes its logs, a
filter can specify a function that returns a string to be used as the
filename for the current call to ``Log::write``. The definition for
this function has to take as its parameters a ``Log::ID`` called id, a
string called ``path`` and the appropriate record type for the logs called

5
scripts/base/frameworks/files/magic/general.sig
View file

@ -9,3 +9,8 @@ signature file-tar {
file-magic /([[:print:]\x00]){100}(([[:digit:]\x00\x20]){8}){3}/
file-mime "application/x-tar", 150
}
signature file-swf {
file-magic /(F|C|Z)WS/
file-mime "application/x-shockwave-flash", 60
}

13
scripts/base/frameworks/files/magic/libmagic.sig
View file

@ -2769,19 +2769,6 @@ signature file-magic-auto408 {
file-magic /(.{512})(\xec\xa5\xc1)/
}
# >0 string,=FWS (len=3), ["Macromedia Flash data,"], swap_endian=0
# >>3 byte&,x, ["version %d"], swap_endian=0
signature file-magic-auto409 {
file-mime "application/x-shockwave-flash", 1
file-magic /(FWS)(.{1})/
}
# >0 string,=CWS (len=3), ["Macromedia Flash data (compressed),"], swap_endian=0
signature file-magic-auto410 {
file-mime "application/x-shockwave-flash", 60
file-magic /(CWS)/
}
# >0 regex/20,=^\.[A-Za-z0-9][A-Za-z0-9][ \t] (len=29), ["troff or preprocessor input text"], swap_endian=0
signature file-magic-auto411 {
file-mime "text/troff", 59

4
scripts/base/frameworks/files/main.bro
View file

@ -266,8 +266,8 @@ export {
## Returns a table of all MIME-type-to-analyzer mappings currently registered.
##
## Returns: A table mapping each analyzer to the set of MIME types registered for
## it.
## Returns: A table mapping each analyzer to the set of MIME types
## registered for it.
global all_registered_mime_types: function() : table[Analyzer::Tag] of set[string];
## Event that can be handled to access the Info record as it is sent on

8
scripts/base/frameworks/intel/main.bro
View file

@ -81,6 +81,9 @@ export {
## Where the data was discovered.
where: Where &log;
## The name of the node where the match was discovered.
node: string &optional &log;
## If the data was discovered within a connection, the
## connection record should go here to give context to the data.
conn: connection &optional;
@ -240,6 +243,11 @@ function Intel::seen(s: Seen)
s$indicator_type = Intel::ADDR;
}
if ( ! s?$node )
{
s$node = peer_description;
}
if ( have_full_data )
{
local items = get_items(s);

3
scripts/base/init-bare.bro
View file

@ -2485,8 +2485,7 @@ type http_message_stat: record {
header_length: count;
};
## Maximum number of HTTP entity data delivered to events. The amount of data
## can be limited for better performance, zero disables truncation.
## Maximum number of HTTP entity data delivered to events.
##
## .. bro:see:: http_entity_data skip_http_entity_data skip_http_data
global http_entity_data_delivery_size = 1500 &redef;

5
scripts/base/protocols/ssl/consts.bro
View file

@ -30,6 +30,7 @@ export {
const HELLO_REQUEST = 0;
const CLIENT_HELLO = 1;
const SERVER_HELLO = 2;
const HELLO_VERIFY_REQUEST = 3; # RFC 6347
const SESSION_TICKET = 4; # RFC 5077
const CERTIFICATE = 11;
const SERVER_KEY_EXCHANGE = 12;
@ -40,6 +41,7 @@ export {
const FINISHED = 20;
const CERTIFICATE_URL = 21; # RFC 3546
const CERTIFICATE_STATUS = 22; # RFC 3546
const SUPPLEMENTAL_DATA = 23; # RFC 4680
## Mapping between numeric codes and human readable strings for alert
## levels.
@ -112,7 +114,8 @@ export {
[19] = "client_certificate_type",
[20] = "server_certificate_type",
[21] = "padding", # temporary till 2015-03-12
[22] = "encrypt_then_mac", # temporary till 2015-06-05
[22] = "encrypt_then_mac",
[23] = "extended_master_secret", # temporary till 2015-09-26
[35] = "SessionTicket TLS",
[40] = "extended_random",
[13172] = "next_protocol_negotiation",

7
src/CMakeLists.txt
View file

@ -157,6 +157,7 @@ add_subdirectory(analyzer)
add_subdirectory(broxygen)
add_subdirectory(file_analysis)
add_subdirectory(input)
add_subdirectory(iosource)
add_subdirectory(logging)
add_subdirectory(probabilistic)
@ -254,7 +255,6 @@ set(bro_SRCS
Anon.cc
Attr.cc
Base64.cc
BPF_Program.cc
Brofiler.cc
BroString.cc
CCL.cc
@ -279,14 +279,13 @@ set(bro_SRCS
EventRegistry.cc
Expr.cc
File.cc
FlowSrc.cc
Flare.cc
Frag.cc
Frame.cc
Func.cc
Hash.cc
ID.cc
IntSet.cc
IOSource.cc
IP.cc
IPAddr.cc
List.cc
@ -299,7 +298,7 @@ set(bro_SRCS
OSFinger.cc
PacketFilter.cc
PersistenceSerializer.cc
PktSrc.cc
Pipe.cc
PolicyFile.cc
PrefixTable.cc
PriorityQueue.cc

46
src/ChunkedIO.cc
View file

@ -210,6 +210,7 @@ bool ChunkedIOFd::WriteChunk(Chunk* chunk, bool partial)
else
pending_head = pending_tail = q;
write_flare.Fire();
return Flush();
}
@ -232,6 +233,7 @@ bool ChunkedIOFd::PutIntoWriteBuffer(Chunk* chunk)
write_len += len;
delete chunk;
write_flare.Fire();
if ( network_time - last_flush > 0.005 )
FlushWriteBuffer();
@ -269,6 +271,10 @@ bool ChunkedIOFd::FlushWriteBuffer()
if ( unsigned(written) == len )
{
write_pos = write_len = 0;
if ( ! pending_head )
write_flare.Extinguish();
return true;
}
@ -318,7 +324,12 @@ bool ChunkedIOFd::Flush()
}
}
return FlushWriteBuffer();
bool rval = FlushWriteBuffer();
if ( ! pending_head && write_len == 0 )
write_flare.Extinguish();
return rval;
}
uint32 ChunkedIOFd::ChunkAvailable()
@ -394,6 +405,9 @@ bool ChunkedIOFd::Read(Chunk** chunk, bool may_block)
#ifdef DEBUG_COMMUNICATION
AddToBuffer("<false:read-chunk>", true);
#endif
if ( ! ChunkAvailable() )
read_flare.Extinguish();
return false;
}
@ -402,9 +416,15 @@ bool ChunkedIOFd::Read(Chunk** chunk, bool may_block)
#ifdef DEBUG_COMMUNICATION
AddToBuffer("<null:no-data>", true);
#endif
read_flare.Extinguish();
return true;
}
if ( ChunkAvailable() )
read_flare.Fire();
else
read_flare.Extinguish();
#ifdef DEBUG
if ( *chunk )
DBG_LOG(DBG_CHUNKEDIO, "read of size %d %s[%s]",
@ -481,6 +501,9 @@ bool ChunkedIOFd::ReadChunk(Chunk** chunk, bool may_block)
read_pos = 0;
read_len = bytes_left;
if ( ! ChunkAvailable() )
read_flare.Extinguish();
// If allowed, wait a bit for something to read.
if ( may_block )
{
@ -607,6 +630,14 @@ bool ChunkedIOFd::IsFillingUp()
return stats.pending > MAX_BUFFERED_CHUNKS_SOFT;
}
iosource::FD_Set ChunkedIOFd::ExtraReadFDs() const
{
iosource::FD_Set rval;
rval.Insert(write_flare.FD());
rval.Insert(read_flare.FD());
return rval;
}
void ChunkedIOFd::Clear()
{
while ( pending_head )
@ -618,6 +649,9 @@ void ChunkedIOFd::Clear()
}
pending_head = pending_tail = 0;
if ( write_len == 0 )
write_flare.Extinguish();
}
const char* ChunkedIOFd::Error()
@ -830,6 +864,7 @@ bool ChunkedIOSSL::Write(Chunk* chunk)
else
write_head = write_tail = q;
write_flare.Fire();
Flush();
return true;
}
@ -935,6 +970,7 @@ bool ChunkedIOSSL::Flush()
write_state = LEN;
}
write_flare.Extinguish();
return true;
}
@ -1104,6 +1140,13 @@ bool ChunkedIOSSL::IsFillingUp()
return false;
}
iosource::FD_Set ChunkedIOSSL::ExtraReadFDs() const
{
iosource::FD_Set rval;
rval.Insert(write_flare.FD());
return rval;
}
void ChunkedIOSSL::Clear()
{
while ( write_head )
@ -1114,6 +1157,7 @@ void ChunkedIOSSL::Clear()
write_head = next;
}
write_head = write_tail = 0;
write_flare.Extinguish();
}
const char* ChunkedIOSSL::Error()

16
src/ChunkedIO.h
View file

@ -6,7 +6,8 @@
#include "config.h"
#include "List.h"
#include "util.h"
#include "Flare.h"
#include "iosource/FD_Set.h"
#include <list>
#ifdef NEED_KRB5_H
@ -95,6 +96,11 @@ public:
// Returns underlying fd if available, -1 otherwise.
virtual int Fd() { return -1; }
// Returns supplementary file descriptors that become read-ready in order
// to signal that there is some work that can be performed.
virtual iosource::FD_Set ExtraReadFDs() const
{ return iosource::FD_Set(); }
// Makes sure that no additional protocol data is written into
// the output stream. If this is activated, the output cannot
// be read again by any of these classes!
@ -177,6 +183,7 @@ public:
virtual void Clear();
virtual bool Eof() { return eof; }
virtual int Fd() { return fd; }
virtual iosource::FD_Set ExtraReadFDs() const;
virtual void Stats(char* buffer, int length);
private:
@ -240,6 +247,8 @@ private:
ChunkQueue* pending_tail;
pid_t pid;
bro::Flare write_flare;
bro::Flare read_flare;
};
// Chunked I/O using an SSL connection.
@ -262,6 +271,7 @@ public:
virtual void Clear();
virtual bool Eof() { return eof; }
virtual int Fd() { return socket; }
virtual iosource::FD_Set ExtraReadFDs() const;
virtual void Stats(char* buffer, int length);
private:
@ -303,6 +313,8 @@ private:
// One SSL for all connections.
static SSL_CTX* ctx;
bro::Flare write_flare;
};
#include <zlib.h>
@ -328,6 +340,8 @@ public:
virtual bool Eof() { return io->Eof(); }
virtual int Fd() { return io->Fd(); }
virtual iosource::FD_Set ExtraReadFDs() const
{ return io->ExtraReadFDs(); }
virtual void Stats(char* buffer, int length);
void EnableCompression(int level)

18
src/DNS_Mgr.cc
View file

@ -35,6 +35,7 @@
#include "Net.h"
#include "Var.h"
#include "Reporter.h"
#include "iosource/Manager.h"
extern "C" {
extern int select(int, fd_set *, fd_set *, fd_set *, struct timeval *);
@ -404,17 +405,17 @@ DNS_Mgr::~DNS_Mgr()
delete [] dir;
}
bool DNS_Mgr::Init()
void DNS_Mgr::InitPostScript()
{
if ( did_init )
return true;
return;
const char* cache_dir = dir ? dir : ".";
if ( mode == DNS_PRIME && ! ensure_dir(cache_dir) )
{
did_init = 0;
return false;
return;
}
cache_name = new char[strlen(cache_dir) + 64];
@ -433,14 +434,12 @@ bool DNS_Mgr::Init()
did_init = 1;
io_sources.Register(this, true);
iosource_mgr->Register(this, true);
// We never set idle to false, having the main loop only calling us from
// time to time. If we're issuing more DNS requests than we can handle
// in this way, we are having problems anyway ...
idle = true;
return true;
SetIdle(true);
}
static TableVal* fake_name_lookup_result(const char* name)
@ -1217,9 +1216,10 @@ void DNS_Mgr::IssueAsyncRequests()
}
}
void DNS_Mgr::GetFds(int* read, int* write, int* except)
void DNS_Mgr::GetFds(iosource::FD_Set* read, iosource::FD_Set* write,
iosource::FD_Set* except)
{
*read = nb_dns_fd(nb_dns);
read->Insert(nb_dns_fd(nb_dns));
}
double DNS_Mgr::NextTimestamp(double* network_time)

9
src/DNS_Mgr.h
View file

@ -12,7 +12,7 @@
#include "BroList.h"
#include "Dict.h"
#include "EventHandler.h"
#include "IOSource.h"
#include "iosource/IOSource.h"
#include "IPAddr.h"
class Val;
@ -40,12 +40,12 @@ enum DNS_MgrMode {
// Number of seconds we'll wait for a reply.
#define DNS_TIMEOUT 5
class DNS_Mgr : public IOSource {
class DNS_Mgr : public iosource::IOSource {
public:
DNS_Mgr(DNS_MgrMode mode);
virtual ~DNS_Mgr();
bool Init();
void InitPostScript();
void Flush();
// Looks up the address or addresses of the given host, and returns
@ -132,7 +132,8 @@ protected:
void DoProcess(bool flush);
// IOSource interface.
virtual void GetFds(int* read, int* write, int* except);
virtual void GetFds(iosource::FD_Set* read, iosource::FD_Set* write,
iosource::FD_Set* except);
virtual double NextTimestamp(double* network_time);
virtual void Process();
virtual const char* Tag() { return "DNS_Mgr"; }

3
src/DebugLogger.cc
View file

@ -18,7 +18,8 @@ DebugLogger::Stream DebugLogger::streams[NUM_DBGS] = {
{ "dpd", 0, false }, { "tm", 0, false },
{ "logging", 0, false }, {"input", 0, false },
{ "threading", 0, false }, { "file_analysis", 0, false },
{ "plugins", 0, false }, { "broxygen", 0, false }
{ "plugins", 0, false }, { "broxygen", 0, false },
{ "pktio", 0, false}
};
DebugLogger::DebugLogger(const char* filename)

1
src/DebugLogger.h
View file

@ -31,6 +31,7 @@ enum DebugStream {
DBG_FILE_ANALYSIS, // File analysis
DBG_PLUGINS, // Plugin system
DBG_BROXYGEN, // Broxygen
DBG_PKTIO, // Packet sources and dumpers.
NUM_DBGS // Has to be last
};

74
src/Flare.cc Normal file
View file

@ -0,0 +1,74 @@
// See the file "COPYING" in the main distribution directory for copyright.
#include "Flare.h"
#include "Reporter.h"
#include <unistd.h>
#include <fcntl.h>
#include <errno.h>
using namespace bro;
Flare::Flare()
: pipe(FD_CLOEXEC, FD_CLOEXEC, O_NONBLOCK, O_NONBLOCK)
{
}
static void bad_pipe_op(const char* which)
{
char buf[256];
strerror_r(errno, buf, sizeof(buf));
reporter->FatalErrorWithCore("unexpected pipe %s failure: %s", which, buf);
}
void Flare::Fire()
{
char tmp;
for ( ; ; )
{
int n = write(pipe.WriteFD(), &tmp, 1);
if ( n > 0 )
// Success -- wrote a byte to pipe.
break;
if ( n < 0 )
{
if ( errno == EAGAIN )
// Success: pipe is full and just need at least one byte in it.
break;
if ( errno == EINTR )
// Interrupted: try again.
continue;
bad_pipe_op("write");
}
// No error, but didn't write a byte: try again.
}
}
void Flare::Extinguish()
{
char tmp[256];
for ( ; ; )
{
int n = read(pipe.ReadFD(), &tmp, sizeof(tmp));
if ( n >= 0 )
// Pipe may not be empty yet: try again.
continue;
if ( errno == EAGAIN )
// Success: pipe is now empty.
break;
if ( errno == EINTR )
// Interrupted: try again.
continue;
bad_pipe_op("read");
}
}

44
src/Flare.h Normal file
View file

@ -0,0 +1,44 @@
// See the file "COPYING" in the main distribution directory for copyright.
#ifndef BRO_FLARE_H
#define BRO_FLARE_H
#include "Pipe.h"
namespace bro {
class Flare {
public:
/**
* Create a flare object that can be used to signal a "ready" status via
* a file descriptor that may be integrated with select(), poll(), etc.
* Not thread-safe, but that should only require Fire()/Extinguish() calls
* to be made mutually exclusive (across all copies of a Flare).
*/
Flare();
/**
* @return a file descriptor that will become ready if the flare has been
* Fire()'d and not yet Extinguished()'d.
*/
int FD() const
{ return pipe.ReadFD(); }
/**
* Put the object in the "ready" state.
*/
void Fire();
/**
* Take the object out of the "ready" state.
*/
void Extinguish();
private:
Pipe pipe;
};
} // namespace bro
#endif // BRO_FLARE_H

228
src/FlowSrc.cc
View file

@ -1,228 +0,0 @@
// See the file "COPYING" in the main distribution directory for copyright.
//
// Written by Bernhard Ager, TU Berlin (2006/2007).
#include <stdio.h>
#include <unistd.h>
#include <fcntl.h>
#include <netdb.h>
#include "FlowSrc.h"
#include "Net.h"
#include "analyzer/protocol/netflow/netflow_pac.h"
#include <errno.h>
FlowSrc::FlowSrc()
{ // TODO: v9.
selectable_fd = -1;
idle = false;
data = 0;
pdu_len = -1;
exporter_ip = 0;
current_timestamp = next_timestamp = 0.0;
netflow_analyzer = new binpac::NetFlow::NetFlow_Analyzer();
}
FlowSrc::~FlowSrc()
{
delete netflow_analyzer;
}
void FlowSrc::GetFds(int* read, int* write, int* except)
{
if ( selectable_fd >= 0 )
*read = selectable_fd;
}
double FlowSrc::NextTimestamp(double* network_time)
{
if ( ! data && ! ExtractNextPDU() )
return -1.0;
else
return next_timestamp;
}
void FlowSrc::Process()
{
if ( ! data && ! ExtractNextPDU() )
return;
// This is normally done by calling net_packet_dispatch(),
// but as we don't have a packet to dispatch ...
net_update_time(next_timestamp);
expire_timers();
netflow_analyzer->downflow()->set_exporter_ip(exporter_ip);
// We handle exceptions in NewData (might have changed w/ new binpac).
netflow_analyzer->NewData(0, data, data + pdu_len);
data = 0;
}
void FlowSrc::Close()
{
safe_close(selectable_fd);
}
FlowSocketSrc::~FlowSocketSrc()
{
}
int FlowSocketSrc::ExtractNextPDU()
{
sockaddr_in from;
socklen_t fromlen = sizeof(from);
pdu_len = recvfrom(selectable_fd, buffer, NF_MAX_PKT_SIZE, 0,
(struct sockaddr*) &from, &fromlen);
if ( pdu_len < 0 )
{
reporter->Error("problem reading NetFlow data from socket");
data = 0;
next_timestamp = -1.0;
closed = 1;
return 0;
}
if ( fromlen != sizeof(from) )
{
reporter->Error("malformed NetFlow PDU");
return 0;
}
data = buffer;
exporter_ip = from.sin_addr.s_addr;
next_timestamp = current_time();
if ( next_timestamp < current_timestamp )
next_timestamp = current_timestamp;
else
current_timestamp = next_timestamp;
return 1;
}
FlowSocketSrc::FlowSocketSrc(const char* listen_parms)
{
int n = strlen(listen_parms) + 1;
char laddr[n], port[n], ident[n];
laddr[0] = port[0] = ident[0] = '\0';
int ret = sscanf(listen_parms, "%[^:]:%[^=]=%s", laddr, port, ident);
if ( ret < 2 )
{
snprintf(errbuf, BRO_FLOW_ERRBUF_SIZE,
"parsing your listen-spec went nuts: laddr='%s', port='%s'\n",
laddr[0] ? laddr : "", port[0] ? port : "");
closed = 1;
return;
}
const char* id = (ret == 3) ? ident : listen_parms;
netflow_analyzer->downflow()->set_identifier(id);
struct addrinfo aiprefs = {
0, PF_INET, SOCK_DGRAM, IPPROTO_UDP, 0, NULL, NULL, NULL
};
struct addrinfo* ainfo = 0;
if ( (ret = getaddrinfo(laddr, port, &aiprefs, &ainfo)) != 0 )
{
snprintf(errbuf, BRO_FLOW_ERRBUF_SIZE,
"getaddrinfo(%s, %s, ...): %s",
laddr, port, gai_strerror(ret));
closed = 1;
return;
}
if ( (selectable_fd = socket (PF_INET, SOCK_DGRAM, 0)) < 0 )
{
snprintf(errbuf, BRO_FLOW_ERRBUF_SIZE,
"socket: %s", strerror(errno));
closed = 1;
goto cleanup;
}
if ( bind (selectable_fd, ainfo->ai_addr, ainfo->ai_addrlen) < 0 )
{
snprintf(errbuf, BRO_FLOW_ERRBUF_SIZE,
"bind: %s", strerror(errno));
closed = 1;
goto cleanup;
}
cleanup:
freeaddrinfo(ainfo);
}
FlowFileSrc::~FlowFileSrc()
{
delete [] readfile;
}
int FlowFileSrc::ExtractNextPDU()
{
FlowFileSrcPDUHeader pdu_header;
if ( read(selectable_fd, &pdu_header, sizeof(pdu_header)) <
int(sizeof(pdu_header)) )
return Error(errno, "read header");
if ( pdu_header.pdu_length > NF_MAX_PKT_SIZE )
{
reporter->Error("NetFlow packet too long");
// Safely skip over the too-long PDU.
if ( lseek(selectable_fd, pdu_header.pdu_length, SEEK_CUR) < 0 )
return Error(errno, "lseek");
return 0;
}
if ( read(selectable_fd, buffer, pdu_header.pdu_length) <
pdu_header.pdu_length )
return Error(errno, "read data");
if ( next_timestamp < pdu_header.network_time )
{
next_timestamp = pdu_header.network_time;
current_timestamp = pdu_header.network_time;
}
else
current_timestamp = next_timestamp;
data = buffer;
pdu_len = pdu_header.pdu_length;
exporter_ip = pdu_header.ipaddr;
return 1;
}
FlowFileSrc::FlowFileSrc(const char* readfile)
{
int n = strlen(readfile) + 1;
char ident[n];
this->readfile = new char[n];
int ret = sscanf(readfile, "%[^=]=%s", this->readfile, ident);
const char* id = (ret == 2) ? ident : this->readfile;
netflow_analyzer->downflow()->set_identifier(id);
selectable_fd = open(this->readfile, O_RDONLY);
if ( selectable_fd < 0 )
{
closed = 1;
snprintf(errbuf, BRO_FLOW_ERRBUF_SIZE,
"open: %s", strerror(errno));
}
}
int FlowFileSrc::Error(int errlvl, const char* errmsg)
{
snprintf(errbuf, BRO_FLOW_ERRBUF_SIZE,
"%s: %s", errmsg, strerror(errlvl));
data = 0;
next_timestamp = -1.0;
closed = 1;
return 0;
}

84
src/FlowSrc.h
View file

@ -1,84 +0,0 @@
// See the file "COPYING" in the main distribution directory for copyright.
//
// Written by Bernhard Ager, TU Berlin (2006/2007).
#ifndef flowsrc_h
#define flowsrc_h
#include "IOSource.h"
#include "NetVar.h"
#include "binpac.h"
#define BRO_FLOW_ERRBUF_SIZE 512
// TODO: 1500 is enough for v5 - how about the others?
// 65536 would be enough for any UDP packet.
#define NF_MAX_PKT_SIZE 8192
struct FlowFileSrcPDUHeader {
double network_time;
int pdu_length;
uint32 ipaddr;
};
// Avoid including netflow_pac.h by explicitly declaring the NetFlow_Analyzer.
namespace binpac {
namespace NetFlow {
class NetFlow_Analyzer;
}
}
class FlowSrc : public IOSource {
public:
virtual ~FlowSrc();
// IOSource interface:
bool IsReady();
void GetFds(int* read, int* write, int* except);
double NextTimestamp(double* network_time);
void Process();
const char* Tag() { return "FlowSrc"; }
const char* ErrorMsg() const { return errbuf; }
protected:
FlowSrc();
virtual int ExtractNextPDU() = 0;
virtual void Close();
int selectable_fd;
double current_timestamp;
double next_timestamp;
binpac::NetFlow::NetFlow_Analyzer* netflow_analyzer;
u_char buffer[NF_MAX_PKT_SIZE];
u_char* data;
int pdu_len;
uint32 exporter_ip; // in network byte order
char errbuf[BRO_FLOW_ERRBUF_SIZE];
};
class FlowSocketSrc : public FlowSrc {
public:
FlowSocketSrc(const char* listen_parms);
virtual ~FlowSocketSrc();
int ExtractNextPDU();
};
class FlowFileSrc : public FlowSrc {
public:
FlowFileSrc(const char* readfile);
~FlowFileSrc();
int ExtractNextPDU();
protected:
int Error(int errlvl, const char* errmsg);
char* readfile;
};
#endif

176
src/IOSource.cc
View file

@ -1,176 +0,0 @@
#include <sys/types.h>
#include <sys/time.h>
#include <unistd.h>
#include <assert.h>
#include <algorithm>
#include "util.h"
#include "IOSource.h"
IOSourceRegistry io_sources;
IOSourceRegistry::~IOSourceRegistry()
{
for ( SourceList::iterator i = sources.begin(); i != sources.end(); ++i )
delete *i;
sources.clear();
}
void IOSourceRegistry::RemoveAll()
{
// We're cheating a bit here ...
dont_counts = sources.size();
}
IOSource* IOSourceRegistry::FindSoonest(double* ts)
{
// Remove sources which have gone dry. For simplicity, we only
// remove at most one each time.
for ( SourceList::iterator i = sources.begin();
i != sources.end(); ++i )
if ( ! (*i)->src->IsOpen() )
{
delete *i;
sources.erase(i);
break;
}
// Ideally, we would always call select on the fds to see which
// are ready, and return the soonest. Unfortunately, that'd mean
// one select-call per packet, which we can't afford in high-volume
// environments. Thus, we call select only every SELECT_FREQUENCY
// call (or if all sources report that they are dry).
++call_count;
IOSource* soonest_src = 0;
double soonest_ts = 1e20;
double soonest_local_network_time = 1e20;
bool all_idle = true;
// Find soonest source of those which tell us they have something to
// process.
for ( SourceList::iterator i = sources.begin(); i != sources.end(); ++i )
{
if ( ! (*i)->src->IsIdle() )
{
all_idle = false;
double local_network_time = 0;
double ts = (*i)->src->NextTimestamp(&local_network_time);
if ( ts > 0 && ts < soonest_ts )
{
soonest_ts = ts;
soonest_src = (*i)->src;
soonest_local_network_time =
local_network_time ?
local_network_time : ts;
}
}
}
// If we found one and aren't going to select this time,
// return it.
int maxx = 0;
if ( soonest_src && (call_count % SELECT_FREQUENCY) != 0 )
goto finished;
// Select on the join of all file descriptors.
fd_set fd_read, fd_write, fd_except;
FD_ZERO(&fd_read);
FD_ZERO(&fd_write);
FD_ZERO(&fd_except);
for ( SourceList::iterator i = sources.begin();
i != sources.end(); ++i )
{
Source* src = (*i);
if ( ! src->src->IsIdle() )
// No need to select on sources which we know to
// be ready.
continue;
src->fd_read = src->fd_write = src->fd_except = 0;
src->src->GetFds(&src->fd_read, &src->fd_write, &src->fd_except);
FD_SET(src->fd_read, &fd_read);
FD_SET(src->fd_write, &fd_write);
FD_SET(src->fd_except, &fd_except);
maxx = max(src->fd_read, maxx);
maxx = max(src->fd_write, maxx);
maxx = max(src->fd_except, maxx);
}
// We can't block indefinitely even when all sources are dry:
// we're doing some IOSource-independent stuff in the main loop,
// so we need to return from time to time. (Instead of no time-out
// at all, we use a very small one. This lets FreeBSD trigger a
// BPF buffer switch on the next read when the hold buffer is empty
// while the store buffer isn't filled yet.
struct timeval timeout;
if ( all_idle )
{
// Interesting: when all sources are dry, simply sleeping a
// bit *without* watching for any fd becoming ready may
// decrease CPU load. I guess that's because it allows
// the kernel's packet buffers to fill. - Robin
timeout.tv_sec = 0;
timeout.tv_usec = 20; // SELECT_TIMEOUT;
select(0, 0, 0, 0, &timeout);
}
if ( ! maxx )
// No selectable fd at all.
goto finished;
timeout.tv_sec = 0;
timeout.tv_usec = 0;
if ( select(maxx + 1, &fd_read, &fd_write, &fd_except, &timeout) > 0 )
{ // Find soonest.
for ( SourceList::iterator i = sources.begin();
i != sources.end(); ++i )
{
Source* src = (*i);
if ( ! src->src->IsIdle() )
continue;
if ( FD_ISSET(src->fd_read, &fd_read) ||
FD_ISSET(src->fd_write, &fd_write) ||
FD_ISSET(src->fd_except, &fd_except) )
{
double local_network_time = 0;
double ts = src->src->NextTimestamp(&local_network_time);
if ( ts > 0.0 && ts < soonest_ts )
{
soonest_ts = ts;
soonest_src = src->src;
soonest_local_network_time =
local_network_time ?
local_network_time : ts;
}
}
}
}
finished:
*ts = soonest_local_network_time;
return soonest_src;
}
void IOSourceRegistry::Register(IOSource* src, bool dont_count)
{
Source* s = new Source;
s->src = src;
if ( dont_count )
++dont_counts;
return sources.push_back(s);
}

103
src/IOSource.h
View file

@ -1,103 +0,0 @@
// Interface for classes providing/consuming data during Bro's main loop.
#ifndef iosource_h
#define iosource_h
#include <list>
#include "Timer.h"
using namespace std;
class IOSource {
public:
IOSource() { idle = closed = false; }
virtual ~IOSource() {}
// Returns true if source has nothing ready to process.
bool IsIdle() const { return idle; }
// Returns true if more data is to be expected in the future.
// Otherwise, source may be removed.
bool IsOpen() const { return ! closed; }
// Returns select'able fds (leaves args untouched if we don't have
// selectable fds).
virtual void GetFds(int* read, int* write, int* except) = 0;
// The following two methods are only called when either IsIdle()
// returns false or select() on one of the fds indicates that there's
// data to process.
// Returns timestamp (in global network time) associated with next
// data item. If the source wants the data item to be processed
// with a local network time, it sets the argument accordingly.
virtual double NextTimestamp(double* network_time) = 0;
// Processes and consumes next data item.
virtual void Process() = 0;
// Returns tag of timer manager associated with last processed
// data item, nil for global timer manager.
virtual TimerMgr::Tag* GetCurrentTag() { return 0; }
// Returns a descriptual tag for debugging.
virtual const char* Tag() = 0;
protected:
// Derived classed are to set this to true if they have gone dry
// temporarily.
bool idle;
// Derived classed are to set this to true if they have gone dry
// permanently.
bool closed;
};
class IOSourceRegistry {
public:
IOSourceRegistry() { call_count = 0; dont_counts = 0; }
~IOSourceRegistry();
// If dont_count is true, this source does not contribute to the
// number of IOSources returned by Size(). The effect is that
// if all sources but the non-counting ones have gone dry,
// processing will shut down.
void Register(IOSource* src, bool dont_count = false);
// This may block for some time.
IOSource* FindSoonest(double* ts);
int Size() const { return sources.size() - dont_counts; }
// Terminate IOSource processing immediately by removing all
// sources (and therefore returning a Size() of zero).
void Terminate() { RemoveAll(); }
protected:
// When looking for a source with something to process,
// every SELECT_FREQUENCY calls we will go ahead and
// block on a select().
static const int SELECT_FREQUENCY = 25;
// Microseconds to wait in an empty select if no source is ready.
static const int SELECT_TIMEOUT = 50;
void RemoveAll();
unsigned int call_count;
int dont_counts;
struct Source {
IOSource* src;
int fd_read;
int fd_write;
int fd_except;
};
typedef list<Source*> SourceList;
SourceList sources;
};
extern IOSourceRegistry io_sources;
#endif

192
src/Net.cc
View file

@ -29,6 +29,9 @@
#include "Anon.h"
#include "Serializer.h"
#include "PacketDumper.h"
#include "iosource/Manager.h"
#include "iosource/PktSrc.h"
#include "iosource/PktDumper.h"
#include "plugin/Manager.h"
extern "C" {
@ -39,10 +42,7 @@ extern "C" {
extern int select(int, fd_set *, fd_set *, fd_set *, struct timeval *);
}
PList(PktSrc) pkt_srcs;
// FIXME: We should really merge PktDumper and PacketDumper.
PktDumper* pkt_dumper = 0;
iosource::PktDumper* pkt_dumper = 0;
int reading_live = 0;
int reading_traces = 0;
@ -63,8 +63,8 @@ const u_char* current_pkt = 0;
int current_dispatched = 0;
int current_hdr_size = 0;
double current_timestamp = 0.0;
PktSrc* current_pktsrc = 0;
IOSource* current_iosrc;
iosource::PktSrc* current_pktsrc = 0;
iosource::IOSource* current_iosrc = 0;
std::list<ScannedFile> files_scanned;
std::vector<string> sig_files;
@ -113,17 +113,21 @@ RETSIGTYPE watchdog(int /* signo */)
// saving the packet which caused the
// watchdog to trigger may be helpful,
// so we'll save that one nevertheless.
pkt_dumper = new PktDumper("watchdog-pkt.pcap");
if ( pkt_dumper->IsError() )
pkt_dumper = iosource_mgr->OpenPktDumper("watchdog-pkt.pcap", false);
if ( ! pkt_dumper || pkt_dumper->IsError() )
{
reporter->Error("watchdog: can't open watchdog-pkt.pcap for writing\n");
delete pkt_dumper;
reporter->Error("watchdog: can't open watchdog-pkt.pcap for writing");
pkt_dumper = 0;
}
}
if ( pkt_dumper )
pkt_dumper->Dump(current_hdr, current_pkt);
{
iosource::PktDumper::Packet p;
p.hdr = current_hdr;
p.data = current_pkt;
pkt_dumper->Dump(&p);
}
}
net_get_final_stats();
@ -149,118 +153,40 @@ void net_update_time(double new_network_time)
}
void net_init(name_list& interfaces, name_list& readfiles,
name_list& netflows, name_list& flowfiles,
const char* writefile, const char* filter,
const char* secondary_filter, int do_watchdog)
const char* writefile, int do_watchdog)
{
if ( readfiles.length() > 0 || flowfiles.length() > 0 )
if ( readfiles.length() > 0 )
{
reading_live = pseudo_realtime > 0.0;
reading_traces = 1;
for ( int i = 0; i < readfiles.length(); ++i )
{
PktFileSrc* ps = new PktFileSrc(readfiles[i], filter);
iosource::PktSrc* ps = iosource_mgr->OpenPktSrc(readfiles[i], false);
assert(ps);
if ( ! ps->IsOpen() )
reporter->FatalError("%s: problem with trace file %s - %s\n",
prog, readfiles[i], ps->ErrorMsg());
else
{
pkt_srcs.append(ps);
io_sources.Register(ps);
}
if ( secondary_filter )
{
// We use a second PktFileSrc for the
// secondary path.
PktFileSrc* ps = new PktFileSrc(readfiles[i],
secondary_filter,
TYPE_FILTER_SECONDARY);
if ( ! ps->IsOpen() )
reporter->FatalError("%s: problem with trace file %s - %s\n",
prog, readfiles[i],
reporter->FatalError("problem with trace file %s (%s)",
readfiles[i],
ps->ErrorMsg());
else
{
pkt_srcs.append(ps);
io_sources.Register(ps);
}
ps->AddSecondaryTablePrograms();
}
}
for ( int i = 0; i < flowfiles.length(); ++i )
{
FlowFileSrc* fs = new FlowFileSrc(flowfiles[i]);
if ( ! fs->IsOpen() )
reporter->FatalError("%s: problem with netflow file %s - %s\n",
prog, flowfiles[i], fs->ErrorMsg());
else
{
io_sources.Register(fs);
}
}
}
else if ((interfaces.length() > 0 || netflows.length() > 0))
else if ( interfaces.length() > 0 )
{
reading_live = 1;
reading_traces = 0;
for ( int i = 0; i < interfaces.length(); ++i )
{
PktSrc* ps;
ps = new PktInterfaceSrc(interfaces[i], filter);
iosource::PktSrc* ps = iosource_mgr->OpenPktSrc(interfaces[i], true);
assert(ps);
if ( ! ps->IsOpen() )
reporter->FatalError("%s: problem with interface %s - %s\n",
prog, interfaces[i], ps->ErrorMsg());
else
{
pkt_srcs.append(ps);
io_sources.Register(ps);
}
if ( secondary_filter )
{
PktSrc* ps;
ps = new PktInterfaceSrc(interfaces[i],
filter, TYPE_FILTER_SECONDARY);
if ( ! ps->IsOpen() )
reporter->Error("%s: problem with interface %s - %s\n",
prog, interfaces[i],
reporter->FatalError("problem with interface %s (%s)",
interfaces[i],
ps->ErrorMsg());
else
{
pkt_srcs.append(ps);
io_sources.Register(ps);
}
ps->AddSecondaryTablePrograms();
}
}
for ( int i = 0; i < netflows.length(); ++i )
{
FlowSocketSrc* fs = new FlowSocketSrc(netflows[i]);
if ( ! fs->IsOpen() )
{
reporter->Error("%s: problem with netflow socket %s - %s\n",
prog, netflows[i], fs->ErrorMsg());
delete fs;
}
else
io_sources.Register(fs);
}
}
else
@ -272,12 +198,12 @@ void net_init(name_list& interfaces, name_list& readfiles,
if ( writefile )
{
// ### This will fail horribly if there are multiple
// interfaces with different-lengthed media.
pkt_dumper = new PktDumper(writefile);
if ( pkt_dumper->IsError() )
reporter->FatalError("%s: can't open write file \"%s\" - %s\n",
prog, writefile, pkt_dumper->ErrorMsg());
pkt_dumper = iosource_mgr->OpenPktDumper(writefile, false);
assert(pkt_dumper);
if ( ! pkt_dumper->IsOpen() )
reporter->FatalError("problem opening dump file %s (%s)",
writefile, pkt_dumper->ErrorMsg());
ID* id = global_scope()->Lookup("trace_output_file");
if ( ! id )
@ -298,7 +224,7 @@ void net_init(name_list& interfaces, name_list& readfiles,
}
}
void expire_timers(PktSrc* src_ps)
void expire_timers(iosource::PktSrc* src_ps)
{
SegmentProfiler(segment_logger, "expiring-timers");
TimerMgr* tmgr =
@ -312,7 +238,7 @@ void expire_timers(PktSrc* src_ps)
void net_packet_dispatch(double t, const struct pcap_pkthdr* hdr,
const u_char* pkt, int hdr_size,
PktSrc* src_ps)
iosource::PktSrc* src_ps)
{
if ( ! bro_start_network_time )
bro_start_network_time = t;
@ -368,11 +294,11 @@ void net_run()
{
set_processing_status("RUNNING", "net_run");
while ( io_sources.Size() ||
while ( iosource_mgr->Size() ||
(BifConst::exit_only_after_terminate && ! terminating) )
{
double ts;
IOSource* src = io_sources.FindSoonest(&ts);
iosource::IOSource* src = iosource_mgr->FindSoonest(&ts);
#ifdef DEBUG
static int loop_counter = 0;
@ -470,16 +396,19 @@ void net_run()
void net_get_final_stats()
{
loop_over_list(pkt_srcs, i)
const iosource::Manager::PktSrcList& pkt_srcs(iosource_mgr->GetPktSrcs());
for ( iosource::Manager::PktSrcList::const_iterator i = pkt_srcs.begin();
i != pkt_srcs.end(); i++ )
{
PktSrc* ps = pkt_srcs[i];
iosource::PktSrc* ps = *i;
if ( ps->IsLive() )
{
struct PktSrc::Stats s;
iosource::PktSrc::Stats s;
ps->Statistics(&s);
reporter->Info("%d packets received on interface %s, %d dropped\n",
s.received, ps->Interface(), s.dropped);
reporter->Info("%d packets received on interface %s, %d dropped",
s.received, ps->Path().c_str(), s.dropped);
}
}
}
@ -499,8 +428,6 @@ void net_finish(int drain_events)
sessions->Done();
}
delete pkt_dumper;
#ifdef DEBUG
extern int reassem_seen_bytes, reassem_copied_bytes;
// DEBUG_MSG("Reassembly (TCP and IP/Frag): %d bytes seen, %d bytes copied\n",
@ -521,29 +448,6 @@ void net_delete()
delete ip_anonymizer[i];
}
// net_packet_match
//
// Description:
// - Checks if a packet matches a filter. It just wraps up a call to
// [pcap.h's] bpf_filter().
//
// Inputs:
// - fp: a BPF-compiled filter
// - pkt: a pointer to the packet
// - len: the original packet length
// - caplen: the captured packet length. This is pkt length
//
// Output:
// - return: 1 if the packet matches the filter, 0 otherwise
int net_packet_match(BPF_Program* fp, const u_char* pkt,
u_int len, u_int caplen)
{
// NOTE: I don't like too much un-const'ing the pkt variable.
return bpf_filter(fp->GetProgram()->bf_insns, (u_char*) pkt, len, caplen);
}
int _processing_suspended = 0;
static double suspend_start = 0;
@ -561,8 +465,12 @@ void net_continue_processing()
if ( _processing_suspended == 1 )
{
reporter->Info("processing continued");
loop_over_list(pkt_srcs, i)
pkt_srcs[i]->ContinueAfterSuspend();
const iosource::Manager::PktSrcList& pkt_srcs(iosource_mgr->GetPktSrcs());
for ( iosource::Manager::PktSrcList::const_iterator i = pkt_srcs.begin();
i != pkt_srcs.end(); i++ )
(*i)->ContinueAfterSuspend();
}
--_processing_suspended;

25
src/Net.h
View file

@ -5,17 +5,15 @@
#include "net_util.h"
#include "util.h"
#include "BPF_Program.h"
#include "List.h"
#include "PktSrc.h"
#include "FlowSrc.h"
#include "Func.h"
#include "RemoteSerializer.h"
#include "iosource/IOSource.h"
#include "iosource/PktSrc.h"
#include "iosource/PktDumper.h"
extern void net_init(name_list& interfaces, name_list& readfiles,
name_list& netflows, name_list& flowfiles,
const char* writefile, const char* filter,
const char* secondary_filter, int do_watchdog);
const char* writefile, int do_watchdog);
extern void net_run();
extern void net_get_final_stats();
extern void net_finish(int drain_events);
@ -23,10 +21,8 @@ extern void net_delete(); // Reclaim all memory, etc.
extern void net_update_time(double new_network_time);
extern void net_packet_dispatch(double t, const struct pcap_pkthdr* hdr,
const u_char* pkt, int hdr_size,
PktSrc* src_ps);
extern int net_packet_match(BPF_Program* fp, const u_char* pkt,
u_int len, u_int caplen);
extern void expire_timers(PktSrc* src_ps = 0);
iosource::PktSrc* src_ps);
extern void expire_timers(iosource::PktSrc* src_ps = 0);
extern void termination_signal();
// Functions to temporarily suspend processing of live input (network packets
@ -83,13 +79,10 @@ extern const u_char* current_pkt;
extern int current_dispatched;
extern int current_hdr_size;
extern double current_timestamp;
extern PktSrc* current_pktsrc;
extern IOSource* current_iosrc;
extern iosource::PktSrc* current_pktsrc;
extern iosource::IOSource* current_iosrc;
declare(PList,PktSrc);
extern PList(PktSrc) pkt_srcs;
extern PktDumper* pkt_dumper; // where to save packets
extern iosource::PktDumper* pkt_dumper; // where to save packets
extern char* writefile;

83
src/Pipe.cc Normal file
View file

@ -0,0 +1,83 @@
// See the file "COPYING" in the main distribution directory for copyright.
#include "Pipe.h"
#include "Reporter.h"
#include <unistd.h>
#include <fcntl.h>
#include <errno.h>
#include <cstdio>
using namespace bro;
static void pipe_fail(int eno)
{
char tmp[256];
strerror_r(eno, tmp, sizeof(tmp));
reporter->FatalError("Pipe failure: %s", tmp);
}
static void set_flags(int fd, int flags)
{
if ( flags )
fcntl(fd, F_SETFD, fcntl(fd, F_GETFD) | flags);
}
static void set_status_flags(int fd, int flags)
{
if ( flags )
fcntl(fd, F_SETFL, fcntl(fd, F_GETFL) | flags);
}
static int dup_or_fail(int fd, int flags)
{
int rval = dup(fd);
if ( rval < 0 )
pipe_fail(errno);
set_flags(fd, flags);
return rval;
}
Pipe::Pipe(int flags0, int flags1, int status_flags0, int status_flags1)
{
// pipe2 can set flags atomically, but not yet available everywhere.
if ( ::pipe(fds) )
pipe_fail(errno);
flags[0] = flags0;
flags[1] = flags1;
set_flags(fds[0], flags[0]);
set_flags(fds[1], flags[1]);
set_status_flags(fds[0], status_flags0);
set_status_flags(fds[1], status_flags1);
}
Pipe::~Pipe()
{
close(fds[0]);
close(fds[1]);
}
Pipe::Pipe(const Pipe& other)
{
fds[0] = dup_or_fail(other.fds[0], other.flags[0]);
fds[1] = dup_or_fail(other.fds[1], other.flags[1]);
flags[0] = other.flags[0];
flags[1] = other.flags[1];
}
Pipe& Pipe::operator=(const Pipe& other)
{
if ( this == &other )
return *this;
close(fds[0]);
close(fds[1]);
fds[0] = dup_or_fail(other.fds[0], other.flags[0]);
fds[1] = dup_or_fail(other.fds[1], other.flags[1]);
flags[0] = other.flags[0];
flags[1] = other.flags[1];
return *this;
}

56
src/Pipe.h Normal file
View file

@ -0,0 +1,56 @@
// See the file "COPYING" in the main distribution directory for copyright.
#ifndef BRO_PIPE_H
#define BRO_PIPE_H
namespace bro {
class Pipe {
public:
/**
* Create a pair of file descriptors via pipe(), or aborts if it cannot.
* @param flags0 file descriptor flags to set on read end of pipe.
* @param flags1 file descriptor flags to set on write end of pipe.
* @param status_flags0 descriptor status flags to set on read end of pipe.
* @param status_flags1 descriptor status flags to set on write end of pipe.
*/
Pipe(int flags0 = 0, int flags1 = 0, int status_flags0 = 0,
int status_flags1 = 0);
/**
* Close the pair of file descriptors owned by the object.
*/
~Pipe();
/**
* Make a copy of another Pipe object (file descriptors are dup'd).
*/
Pipe(const Pipe& other);
/**
* Assign a Pipe object by closing file descriptors and duping those of
* the other.
*/
Pipe& operator=(const Pipe& other);
/**
* @return the file descriptor associated with the read-end of the pipe.
*/
int ReadFD() const
{ return fds[0]; }
/**
* @return the file descriptor associated with the write-end of the pipe.
*/
int WriteFD() const
{ return fds[1]; }
private:
int fds[2];
int flags[2];
};
} // namespace bro
#endif // BRO_PIPE_H

804
src/PktSrc.cc
View file

@ -1,804 +0,0 @@
// See the file "COPYING" in the main distribution directory for copyright.
#include <errno.h>
#include <sys/stat.h>
#include "config.h"
#include "util.h"
#include "PktSrc.h"
#include "Hash.h"
#include "Net.h"
#include "Sessions.h"
// ### This needs auto-confing.
#ifdef HAVE_PCAP_INT_H
#include <pcap-int.h>
#endif
PktSrc::PktSrc()
{
interface = readfile = 0;
data = last_data = 0;
memset(&hdr, 0, sizeof(hdr));
hdr_size = 0;
datalink = 0;
netmask = 0xffffff00;
pd = 0;
idle = false;
next_sync_point = 0;
first_timestamp = current_timestamp = next_timestamp = 0.0;
first_wallclock = current_wallclock = 0;
stats.received = stats.dropped = stats.link = 0;
}
PktSrc::~PktSrc()
{
Close();
loop_over_list(program_list, i)
delete program_list[i];
BPF_Program* code;
IterCookie* cookie = filters.InitForIteration();
while ( (code = filters.NextEntry(cookie)) )
delete code;
delete [] interface;
delete [] readfile;
}
void PktSrc::GetFds(int* read, int* write, int* except)
{
if ( pseudo_realtime )
{
// Select would give erroneous results. But we simulate it
// by setting idle accordingly.
idle = CheckPseudoTime() == 0;
return;
}
if ( selectable_fd >= 0 )
*read = selectable_fd;
}
int PktSrc::ExtractNextPacket()
{
// Don't return any packets if processing is suspended (except for the
// very first packet which we need to set up times).
if ( net_is_processing_suspended() && first_timestamp )
{
idle = true;
return 0;
}
data = last_data = pcap_next(pd, &hdr);
if ( data && (hdr.len == 0 || hdr.caplen == 0) )
{
sessions->Weird("empty_pcap_header", &hdr, data);
return 0;
}
if ( data )
next_timestamp = hdr.ts.tv_sec + double(hdr.ts.tv_usec) / 1e6;
if ( pseudo_realtime )
current_wallclock = current_time(true);
if ( ! first_timestamp )
first_timestamp = next_timestamp;
idle = (data == 0);
if ( data )
++stats.received;
// Source has gone dry. If it's a network interface, this just means
// it's timed out. If it's a file, though, then the file has been
// exhausted.
if ( ! data && ! IsLive() )
{
closed = true;
if ( pseudo_realtime && using_communication )
{
if ( remote_trace_sync_interval )
remote_serializer->SendFinalSyncPoint();
else
remote_serializer->Terminate();
}
}
return data != 0;
}
double PktSrc::NextTimestamp(double* local_network_time)
{
if ( ! data && ! ExtractNextPacket() )
return -1.0;
if ( pseudo_realtime )
{
// Delay packet if necessary.
double packet_time = CheckPseudoTime();
if ( packet_time )
return packet_time;
idle = true;
return -1.0;
}
return next_timestamp;
}
void PktSrc::ContinueAfterSuspend()
{
current_wallclock = current_time(true);
}
double PktSrc::CurrentPacketWallClock()
{
// We stop time when we are suspended.
if ( net_is_processing_suspended() )
current_wallclock = current_time(true);
return current_wallclock;
}
double PktSrc::CheckPseudoTime()
{
if ( ! data && ! ExtractNextPacket() )
return 0;
if ( ! current_timestamp )
return bro_start_time;
if ( remote_trace_sync_interval )
{
if ( next_sync_point == 0 || next_timestamp >= next_sync_point )
{
int n = remote_serializer->SendSyncPoint();
next_sync_point = first_timestamp +
n * remote_trace_sync_interval;
remote_serializer->Log(RemoteSerializer::LogInfo,
fmt("stopping at packet %.6f, next sync-point at %.6f",
current_timestamp, next_sync_point));
return 0;
}
}
double pseudo_time = next_timestamp - first_timestamp;
double ct = (current_time(true) - first_wallclock) * pseudo_realtime;
return pseudo_time <= ct ? bro_start_time + pseudo_time : 0;
}
void PktSrc::Process()
{
if ( ! data && ! ExtractNextPacket() )
return;
current_timestamp = next_timestamp;
int pkt_hdr_size = hdr_size;
// Unfortunately some packets on the link might have MPLS labels
// while others don't. That means we need to ask the link-layer if
// labels are in place.
bool have_mpls = false;
int protocol = 0;
switch ( datalink ) {
case DLT_NULL:
{
protocol = (data[3] << 24) + (data[2] << 16) + (data[1] << 8) + data[0];
// From the Wireshark Wiki: "AF_INET6, unfortunately, has
// different values in {NetBSD,OpenBSD,BSD/OS},
// {FreeBSD,DragonFlyBSD}, and {Darwin/Mac OS X}, so an IPv6
// packet might have a link-layer header with 24, 28, or 30
// as the AF_ value." As we may be reading traces captured on
// platforms other than what we're running on, we accept them
// all here.
if ( protocol != AF_INET
&& protocol != AF_INET6
&& protocol != 24
&& protocol != 28
&& protocol != 30 )
{
sessions->Weird("non_ip_packet_in_null_transport", &hdr, data);
data = 0;
return;
}
break;
}
case DLT_EN10MB:
{
// Get protocol being carried from the ethernet frame.
protocol = (data[12] << 8) + data[13];
switch ( protocol )
{
// MPLS carried over the ethernet frame.
case 0x8847:
// Remove the data link layer and denote a
// header size of zero before the IP header.
have_mpls = true;
data += get_link_header_size(datalink);
pkt_hdr_size = 0;
break;
// VLAN carried over the ethernet frame.
case 0x8100:
data += get_link_header_size(datalink);
// Check for MPLS in VLAN.
if ( ((data[2] << 8) + data[3]) == 0x8847 )
have_mpls = true;
data += 4; // Skip the vlan header
pkt_hdr_size = 0;
// Check for 802.1ah (Q-in-Q) containing IP.
// Only do a second layer of vlan tag
// stripping because there is no
// specification that allows for deeper
// nesting.
if ( ((data[2] << 8) + data[3]) == 0x0800 )
data += 4;
break;
// PPPoE carried over the ethernet frame.
case 0x8864:
data += get_link_header_size(datalink);
protocol = (data[6] << 8) + data[7];
data += 8; // Skip the PPPoE session and PPP header
pkt_hdr_size = 0;
if ( protocol != 0x0021 && protocol != 0x0057 )
{
// Neither IPv4 nor IPv6.
sessions->Weird("non_ip_packet_in_pppoe_encapsulation", &hdr, data);
data = 0;
return;
}
break;
}
break;
}
case DLT_PPP_SERIAL:
{
// Get PPP protocol.
protocol = (data[2] << 8) + data[3];
if ( protocol == 0x0281 )
{
// MPLS Unicast. Remove the data link layer and
// denote a header size of zero before the IP header.
have_mpls = true;
data += get_link_header_size(datalink);
pkt_hdr_size = 0;
}
else if ( protocol != 0x0021 && protocol != 0x0057 )
{
// Neither IPv4 nor IPv6.
sessions->Weird("non_ip_packet_in_ppp_encapsulation", &hdr, data);
data = 0;
return;
}
break;
}
}
if ( have_mpls )
{
// Skip the MPLS label stack.
bool end_of_stack = false;
while ( ! end_of_stack )
{
end_of_stack = *(data + 2) & 0x01;
data += 4;
}
}
if ( pseudo_realtime )
{
current_pseudo = CheckPseudoTime();
net_packet_dispatch(current_pseudo, &hdr, data, pkt_hdr_size, this);
if ( ! first_wallclock )
first_wallclock = current_time(true);
}
else
net_packet_dispatch(current_timestamp, &hdr, data, pkt_hdr_size, this);
data = 0;
}
bool PktSrc::GetCurrentPacket(const struct pcap_pkthdr** arg_hdr,
const u_char** arg_pkt)
{
if ( ! last_data )
return false;
*arg_hdr = &hdr;
*arg_pkt = last_data;
return true;
}
int PktSrc::PrecompileFilter(int index, const char* filter)
{
// Compile filter.
BPF_Program* code = new BPF_Program();
if ( ! code->Compile(pd, filter, netmask, errbuf, sizeof(errbuf)) )
{
delete code;
return 0;
}
// Store it in hash.
HashKey* hash = new HashKey(HashKey(bro_int_t(index)));
BPF_Program* oldcode = filters.Lookup(hash);
if ( oldcode )
delete oldcode;
filters.Insert(hash, code);
delete hash;
return 1;
}
int PktSrc::SetFilter(int index)
{
// We don't want load-level filters for the secondary path.
if ( filter_type == TYPE_FILTER_SECONDARY && index > 0 )
return 1;
HashKey* hash = new HashKey(HashKey(bro_int_t(index)));
BPF_Program* code = filters.Lookup(hash);
delete hash;
if ( ! code )
{
safe_snprintf(errbuf, sizeof(errbuf),
"No precompiled pcap filter for index %d",
index);
return 0;
}
if ( pcap_setfilter(pd, code->GetProgram()) < 0 )
{
safe_snprintf(errbuf, sizeof(errbuf),
"pcap_setfilter(%d): %s",
index, pcap_geterr(pd));
return 0;
}
#ifndef HAVE_LINUX
// Linux doesn't clear counters when resetting filter.
stats.received = stats.dropped = stats.link = 0;
#endif
return 1;
}
void PktSrc::SetHdrSize()
{
int dl = pcap_datalink(pd);
hdr_size = get_link_header_size(dl);
if ( hdr_size < 0 )
{
safe_snprintf(errbuf, sizeof(errbuf),
"unknown data link type 0x%x", dl);
Close();
}
datalink = dl;
}
void PktSrc::Close()
{
if ( pd )
{
pcap_close(pd);
pd = 0;
closed = true;
}
}
void PktSrc::AddSecondaryTablePrograms()
{
BPF_Program* program;
loop_over_list(secondary_path->EventTable(), i)
{
SecondaryEvent* se = secondary_path->EventTable()[i];
program = new BPF_Program();
if ( ! program->Compile(snaplen, datalink, se->Filter(),
netmask, errbuf, sizeof(errbuf)) )
{
delete program;
Close();
return;
}
SecondaryProgram* sp = new SecondaryProgram(program, se);
program_list.append(sp);
}
}
void PktSrc::Statistics(Stats* s)
{
if ( reading_traces )
s->received = s->dropped = s->link = 0;
else
{
struct pcap_stat pstat;
if ( pcap_stats(pd, &pstat) < 0 )
{
reporter->Error("problem getting packet filter statistics: %s",
ErrorMsg());
s->received = s->dropped = s->link = 0;
}
else
{
s->dropped = pstat.ps_drop;
s->link = pstat.ps_recv;
}
}
s->received = stats.received;
if ( pseudo_realtime )
s->dropped = 0;
stats.dropped = s->dropped;
}
PktInterfaceSrc::PktInterfaceSrc(const char* arg_interface, const char* filter,
PktSrc_Filter_Type ft)
: PktSrc()
{
char tmp_errbuf[PCAP_ERRBUF_SIZE];
filter_type = ft;
// Determine interface if not specified.
if ( ! arg_interface && ! (arg_interface = pcap_lookupdev(tmp_errbuf)) )
{
safe_snprintf(errbuf, sizeof(errbuf),
"pcap_lookupdev: %s", tmp_errbuf);
return;
}
interface = copy_string(arg_interface);
// Determine network and netmask.
uint32 net;
if ( pcap_lookupnet(interface, &net, &netmask, tmp_errbuf) < 0 )
{
// ### The lookup can fail if no address is assigned to
// the interface; and libpcap doesn't have any useful notion
// of error codes, just error strings - how bogus - so we
// just kludge around the error :-(.
// sprintf(errbuf, "pcap_lookupnet %s", tmp_errbuf);
// return;
net = 0;
netmask = 0xffffff00;
}
// We use the smallest time-out possible to return almost immediately if
// no packets are available. (We can't use set_nonblocking() as it's
// broken on FreeBSD: even when select() indicates that we can read
// something, we may get nothing if the store buffer hasn't filled up
// yet.)
pd = pcap_open_live(interface, snaplen, 1, 1, tmp_errbuf);
if ( ! pd )
{
safe_snprintf(errbuf, sizeof(errbuf),
"pcap_open_live: %s", tmp_errbuf);
closed = true;
return;
}
// ### This needs autoconf'ing.
#ifdef HAVE_PCAP_INT_H
reporter->Info("pcap bufsize = %d\n", ((struct pcap *) pd)->bufsize);
#endif
#ifdef HAVE_LINUX
if ( pcap_setnonblock(pd, 1, tmp_errbuf) < 0 )
{
safe_snprintf(errbuf, sizeof(errbuf),
"pcap_setnonblock: %s", tmp_errbuf);
pcap_close(pd);
closed = true;
return;
}
#endif
selectable_fd = pcap_fileno(pd);
if ( PrecompileFilter(0, filter) && SetFilter(0) )
{
SetHdrSize();
if ( closed )
// Couldn't get header size.
return;
reporter->Info("listening on %s, capture length %d bytes\n", interface, snaplen);
}
else
closed = true;
}
PktFileSrc::PktFileSrc(const char* arg_readfile, const char* filter,
PktSrc_Filter_Type ft)
: PktSrc()
{
readfile = copy_string(arg_readfile);
filter_type = ft;
pd = pcap_open_offline((char*) readfile, errbuf);
if ( pd && PrecompileFilter(0, filter) && SetFilter(0) )
{
SetHdrSize();
if ( closed )
// Unknown link layer type.
return;
// We don't put file sources into non-blocking mode as
// otherwise we would not be able to identify the EOF.
selectable_fd = fileno(pcap_file(pd));
if ( selectable_fd < 0 )
reporter->InternalError("OS does not support selectable pcap fd");
}
else
closed = true;
}
SecondaryPath::SecondaryPath()
{
filter = 0;
// Glue together the secondary filter, if exists.
Val* secondary_fv = internal_val("secondary_filters");
if ( secondary_fv->AsTableVal()->Size() == 0 )
return;
int did_first = 0;
const TableEntryValPDict* v = secondary_fv->AsTable();
IterCookie* c = v->InitForIteration();
TableEntryVal* tv;
HashKey* h;
while ( (tv = v->NextEntry(h, c)) )
{
// Get the index values.
ListVal* index =
secondary_fv->AsTableVal()->RecoverIndex(h);
const char* str =
index->Index(0)->Ref()->AsString()->CheckString();
if ( ++did_first == 1 )
{
filter = copy_string(str);
}
else
{
if ( strlen(filter) > 0 )
{
char* tmp_f = new char[strlen(str) + strlen(filter) + 32];
if ( strlen(str) == 0 )
sprintf(tmp_f, "%s", filter);
else
sprintf(tmp_f, "(%s) or (%s)", filter, str);
delete [] filter;
filter = tmp_f;
}
}
// Build secondary_path event table item and link it.
SecondaryEvent* se =
new SecondaryEvent(index->Index(0)->Ref()->AsString()->CheckString(),
tv->Value()->AsFunc() );
event_list.append(se);
delete h;
Unref(index);
}
}
SecondaryPath::~SecondaryPath()
{
loop_over_list(event_list, i)
delete event_list[i];
delete [] filter;
}
SecondaryProgram::~SecondaryProgram()
{
delete program;
}
PktDumper::PktDumper(const char* arg_filename, bool arg_append)
{
filename[0] = '\0';
is_error = false;
append = arg_append;
dumper = 0;
open_time = 0.0;
// We need a pcap_t with a reasonable link-layer type. We try to get it
// from the packet sources. If not available, we fall back to Ethernet.
// FIXME: Perhaps we should make this configurable?
int linktype = -1;
if ( pkt_srcs.length() )
linktype = pkt_srcs[0]->LinkType();
if ( linktype < 0 )
linktype = DLT_EN10MB;
pd = pcap_open_dead(linktype, snaplen);
if ( ! pd )
{
Error("error for pcap_open_dead");
return;
}
if ( arg_filename )
Open(arg_filename);
}
bool PktDumper::Open(const char* arg_filename)
{
if ( ! arg_filename && ! *filename )
{
Error("no filename given");
return false;
}
if ( arg_filename )
{
if ( dumper && streq(arg_filename, filename) )
// Already open.
return true;
safe_strncpy(filename, arg_filename, FNBUF_LEN);
}
if ( dumper )
Close();
struct stat s;
int exists = 0;
if ( append )
{
// See if output file already exists (and is non-empty).
exists = stat(filename, &s); ;
if ( exists < 0 && errno != ENOENT )
{
Error(fmt("can't stat file %s: %s", filename, strerror(errno)));
return false;
}
}
if ( ! append || exists < 0 || s.st_size == 0 )
{
// Open new file.
dumper = pcap_dump_open(pd, filename);
if ( ! dumper )
{
Error(pcap_geterr(pd));
return false;
}
}
else
{
// Old file and we need to append, which, unfortunately,
// is not supported by libpcap. So, we have to hack a
// little bit, knowing that pcap_dumpter_t is, in fact,
// a FILE ... :-(
dumper = (pcap_dumper_t*) fopen(filename, "a");
if ( ! dumper )
{
Error(fmt("can't open dump %s: %s", filename, strerror(errno)));
return false;
}
}
open_time = network_time;
is_error = false;
return true;
}
bool PktDumper::Close()
{
if ( dumper )
{
pcap_dump_close(dumper);
dumper = 0;
is_error = false;
}
return true;
}
bool PktDumper::Dump(const struct pcap_pkthdr* hdr, const u_char* pkt)
{
if ( ! dumper )
return false;
if ( ! open_time )
open_time = network_time;
pcap_dump((u_char*) dumper, hdr, pkt);
return true;
}
void PktDumper::Error(const char* errstr)
{
safe_strncpy(errbuf, errstr, sizeof(errbuf));
is_error = true;
}
int get_link_header_size(int dl)
{
switch ( dl ) {
case DLT_NULL:
return 4;
case DLT_EN10MB:
return 14;
case DLT_FDDI:
return 13 + 8; // fddi_header + LLC
#ifdef DLT_LINUX_SLL
case DLT_LINUX_SLL:
return 16;
#endif
case DLT_PPP_SERIAL: // PPP_SERIAL
return 4;
case DLT_RAW:
return 0;
}
return -1;
}

258
src/PktSrc.h
View file

@ -1,258 +0,0 @@
// See the file "COPYING" in the main distribution directory for copyright.
#ifndef pktsrc_h
#define pktsrc_h
#include "Dict.h"
#include "Expr.h"
#include "BPF_Program.h"
#include "IOSource.h"
#include "RemoteSerializer.h"
#define BRO_PCAP_ERRBUF_SIZE PCAP_ERRBUF_SIZE + 256
extern "C" {
#include <pcap.h>
}
declare(PDict,BPF_Program);
// Whether a PktSrc object is used by the normal filter structure or the
// secondary-path structure.
typedef enum {
TYPE_FILTER_NORMAL, // the normal filter
TYPE_FILTER_SECONDARY, // the secondary-path filter
} PktSrc_Filter_Type;
// {filter,event} tuples conforming the secondary path.
class SecondaryEvent {
public:
SecondaryEvent(const char* arg_filter, Func* arg_event)
{
filter = arg_filter;
event = arg_event;
}
const char* Filter() { return filter; }
Func* Event() { return event; }
private:
const char* filter;
Func* event;
};
declare(PList,SecondaryEvent);
typedef PList(SecondaryEvent) secondary_event_list;
class SecondaryPath {
public:
SecondaryPath();
~SecondaryPath();
secondary_event_list& EventTable() { return event_list; }
const char* Filter() { return filter; }
private:
secondary_event_list event_list;
// OR'ed union of all SecondaryEvent filters
char* filter;
};
// Main secondary-path object.
extern SecondaryPath* secondary_path;
// {program, {filter,event}} tuple table.
class SecondaryProgram {
public:
SecondaryProgram(BPF_Program* arg_program, SecondaryEvent* arg_event)
{
program = arg_program;
event = arg_event;
}
~SecondaryProgram();
BPF_Program* Program() { return program; }
SecondaryEvent* Event() { return event; }
private:
// Associated program.
BPF_Program *program;
// Event that is run in case the program is matched.
SecondaryEvent* event;
};
declare(PList,SecondaryProgram);
typedef PList(SecondaryProgram) secondary_program_list;
class PktSrc : public IOSource {
public:
~PktSrc();
// IOSource interface
bool IsReady();
void GetFds(int* read, int* write, int* except);
double NextTimestamp(double* local_network_time);
void Process();
const char* Tag() { return "PktSrc"; }
const char* ErrorMsg() const { return errbuf; }
void ClearErrorMsg() { *errbuf ='\0'; }
// Returns the packet last processed; false if there is no
// current packet available.
bool GetCurrentPacket(const pcap_pkthdr** hdr, const u_char** pkt);
int HdrSize() const { return hdr_size; }
int DataLink() const { return datalink; }
void ConsumePacket() { data = 0; }
int IsLive() const { return interface != 0; }
pcap_t* PcapHandle() const { return pd; }
int LinkType() const { return pcap_datalink(pd); }
const char* ReadFile() const { return readfile; }
const char* Interface() const { return interface; }
PktSrc_Filter_Type FilterType() const { return filter_type; }
void AddSecondaryTablePrograms();
const secondary_program_list& ProgramTable() const
{ return program_list; }
// Signal packet source that processing was suspended and is now going
// to be continued.
void ContinueAfterSuspend();
// Only valid in pseudo-realtime mode.
double CurrentPacketTimestamp() { return current_pseudo; }
double CurrentPacketWallClock();
struct Stats {
unsigned int received; // pkts received (w/o drops)
unsigned int dropped; // pkts dropped
unsigned int link; // total packets on link
// (not always not available)
};
virtual void Statistics(Stats* stats);
// Precompiles a filter and associates the given index with it.
// Returns true on success, 0 if a problem occurred.
virtual int PrecompileFilter(int index, const char* filter);
// Activates the filter with the given index.
// Returns true on success, 0 if a problem occurred.
virtual int SetFilter(int index);
protected:
PktSrc();
static const int PCAP_TIMEOUT = 20;
void SetHdrSize();
virtual void Close();
// Returns 1 on success, 0 on time-out/gone dry.
virtual int ExtractNextPacket();
// Checks if the current packet has a pseudo-time <= current_time.
// If yes, returns pseudo-time, otherwise 0.
double CheckPseudoTime();
double current_timestamp;
double next_timestamp;
// Only set in pseudo-realtime mode.
double first_timestamp;
double first_wallclock;
double current_wallclock;
double current_pseudo;
struct pcap_pkthdr hdr;
const u_char* data; // contents of current packet
const u_char* last_data; // same, but unaffected by consuming
int hdr_size;
int datalink;
double next_sync_point; // For trace synchronziation in pseudo-realtime
char* interface; // nil if not reading from an interface
char* readfile; // nil if not reading from a file
pcap_t* pd;
int selectable_fd;
uint32 netmask;
char errbuf[BRO_PCAP_ERRBUF_SIZE];
Stats stats;
PDict(BPF_Program) filters; // precompiled filters
PktSrc_Filter_Type filter_type; // normal path or secondary path
secondary_program_list program_list;
};
class PktInterfaceSrc : public PktSrc {
public:
PktInterfaceSrc(const char* interface, const char* filter,
PktSrc_Filter_Type ft=TYPE_FILTER_NORMAL);
};
class PktFileSrc : public PktSrc {
public:
PktFileSrc(const char* readfile, const char* filter,
PktSrc_Filter_Type ft=TYPE_FILTER_NORMAL);
};
extern int get_link_header_size(int dl);
class PktDumper {
public:
PktDumper(const char* file = 0, bool append = false);
~PktDumper() { Close(); }
bool Open(const char* file = 0);
bool Close();
bool Dump(const struct pcap_pkthdr* hdr, const u_char* pkt);
pcap_dumper_t* PcapDumper() { return dumper; }
const char* FileName() const { return filename; }
bool IsError() const { return is_error; }
const char* ErrorMsg() const { return errbuf; }
// This heuristic will horribly fail if we're using packets
// with different link layers. (If we can't derive a reasonable value
// from the packet sources, our fall-back is Ethernet.)
int HdrSize() const
{ return get_link_header_size(pcap_datalink(pd)); }
// Network time when dump file was opened.
double OpenTime() const { return open_time; }
private:
void InitPd();
void Error(const char* str);
static const int FNBUF_LEN = 1024;
char filename[FNBUF_LEN];
bool append;
pcap_dumper_t* dumper;
pcap_t* pd;
double open_time;
bool is_error;
char errbuf[BRO_PCAP_ERRBUF_SIZE];
};
#endif

85
src/RemoteSerializer.cc
View file

@ -188,10 +188,10 @@
#include "File.h"
#include "Conn.h"
#include "Reporter.h"
#include "threading/SerialTypes.h"
#include "logging/Manager.h"
#include "IPAddr.h"
#include "bro_inet_ntop.h"
#include "iosource/Manager.h"
#include "logging/Manager.h"
#include "logging/logging.bif.h"
extern "C" {
@ -285,10 +285,10 @@ struct ping_args {
\
if ( ! c ) \
{ \
idle = io->IsIdle();\
SetIdle(io->IsIdle());\
return true; \
} \
idle = false; \
SetIdle(false); \
}
static const char* msgToStr(int msg)
@ -534,7 +534,6 @@ RemoteSerializer::RemoteSerializer()
current_sync_point = 0;
syncing_times = false;
io = 0;
closed = false;
terminating = false;
in_sync = 0;
last_flush = 0;
@ -559,7 +558,7 @@ RemoteSerializer::~RemoteSerializer()
delete io;
}
void RemoteSerializer::Init()
void RemoteSerializer::Enable()
{
if ( initialized )
return;
@ -572,7 +571,7 @@ void RemoteSerializer::Init()
Fork();
io_sources.Register(this);
iosource_mgr->Register(this);
Log(LogInfo, fmt("communication started, parent pid is %d, child pid is %d", getpid(), child_pid));
initialized = 1;
@ -1276,7 +1275,7 @@ bool RemoteSerializer::Listen(const IPAddr& ip, uint16 port, bool expect_ssl,
return false;
listening = true;
closed = false;
SetClosed(false);
return true;
}
@ -1345,7 +1344,7 @@ bool RemoteSerializer::StopListening()
return false;
listening = false;
closed = ! IsActive();
SetClosed(! IsActive());
return true;
}
@ -1368,12 +1367,14 @@ void RemoteSerializer::Unregister(ID* id)
}
}
void RemoteSerializer::GetFds(int* read, int* write, int* except)
void RemoteSerializer::GetFds(iosource::FD_Set* read, iosource::FD_Set* write,
iosource::FD_Set* except)
{
*read = io->Fd();
read->Insert(io->Fd());
read->Insert(io->ExtraReadFDs());
if ( io->CanWrite() )
*write = io->Fd();
write->Insert(io->Fd());
}
double RemoteSerializer::NextTimestamp(double* local_network_time)
@ -1383,7 +1384,7 @@ double RemoteSerializer::NextTimestamp(double* local_network_time)
if ( received_logs > 0 )
{
// If we processed logs last time, assume there's more.
idle = false;
SetIdle(false);
received_logs = 0;
return timer_mgr->Time();
}
@ -1398,7 +1399,7 @@ double RemoteSerializer::NextTimestamp(double* local_network_time)
pt = timer_mgr->Time();
if ( packets.length() )
idle = false;
SetIdle(false);
if ( et >= 0 && (et < pt || pt < 0) )
return et;
@ -1477,7 +1478,7 @@ void RemoteSerializer::Process()
}
if ( packets.length() )
idle = false;
SetIdle(false);
}
void RemoteSerializer::Finish()
@ -1509,7 +1510,7 @@ bool RemoteSerializer::Poll(bool may_block)
}
io->Flush();
idle = false;
SetIdle(false);
switch ( msgstate ) {
case TYPE:
@ -1691,7 +1692,7 @@ bool RemoteSerializer::DoMessage()
case MSG_TERMINATE:
assert(terminating);
io_sources.Terminate();
iosource_mgr->Terminate();
return true;
case MSG_REMOTE_PRINT:
@ -1879,7 +1880,7 @@ void RemoteSerializer::RemovePeer(Peer* peer)
delete peer->cache_out;
delete peer;
closed = ! IsActive();
SetClosed(! IsActive());
if ( in_sync == peer )
in_sync = 0;
@ -2841,7 +2842,7 @@ void RemoteSerializer::GotEvent(const char* name, double time,
BufferedEvent* e = new BufferedEvent;
// Our time, not the time when the event was generated.
e->time = pkt_srcs.length() ?
e->time = iosource_mgr->GetPktSrcs().size() ?
time_t(network_time) : time_t(timer_mgr->Time());
e->src = current_peer->id;
@ -3086,7 +3087,7 @@ RecordVal* RemoteSerializer::GetPeerVal(PeerID id)
void RemoteSerializer::ChildDied()
{
Log(LogError, "child died");
closed = true;
SetClosed(true);
child_pid = 0;
// Shut down the main process as well.
@ -3185,7 +3186,7 @@ void RemoteSerializer::FatalError(const char* msg)
Log(LogError, msg);
reporter->Error("%s", msg);
closed = true;
SetClosed(true);
if ( kill(child_pid, SIGQUIT) < 0 )
reporter->Warning("warning: cannot kill child pid %d, %s", child_pid, strerror(errno));
@ -3356,6 +3357,15 @@ SocketComm::~SocketComm()
static unsigned int first_rtime = 0;
static void fd_vector_set(const std::vector<int>& fds, fd_set* set, int* max)
{
for ( size_t i = 0; i < fds.size(); ++i )
{
FD_SET(fds[i], set);
*max = ::max(fds[i], *max);
}
}
void SocketComm::Run()
{
first_rtime = (unsigned int) current_time(true);
@ -3377,10 +3387,9 @@ void SocketComm::Run()
FD_ZERO(&fd_write);
FD_ZERO(&fd_except);
int max_fd = 0;
int max_fd = io->Fd();
FD_SET(io->Fd(), &fd_read);
max_fd = io->Fd();
max_fd = std::max(max_fd, io->ExtraReadFDs().Set(&fd_read));
loop_over_list(peers, i)
{
@ -3389,6 +3398,8 @@ void SocketComm::Run()
FD_SET(peers[i]->io->Fd(), &fd_read);
if ( peers[i]->io->Fd() > max_fd )
max_fd = peers[i]->io->Fd();
max_fd = std::max(max_fd,
peers[i]->io->ExtraReadFDs().Set(&fd_read));
}
else
{
@ -3439,38 +3450,17 @@ void SocketComm::Run()
if ( ! io->IsFillingUp() && shutting_conns_down )
shutting_conns_down = false;
// We cannot rely solely on select() as the there may
// be some data left in our input/output queues. So, we use
// a small timeout for select and check for data
// manually afterwards.
static long selects = 0;
static long canwrites = 0;
static long timeouts = 0;
++selects;
if ( io->CanWrite() )
++canwrites;
// FIXME: Fine-tune this (timeouts, flush, etc.)
struct timeval small_timeout;
small_timeout.tv_sec = 0;
small_timeout.tv_usec =
io->CanWrite() || io->CanRead() ? 1 : 10;
#if 0
if ( ! io->CanWrite() )
usleep(10);
#endif
int a = select(max_fd + 1, &fd_read, &fd_write, &fd_except,
&small_timeout);
if ( a == 0 )
++timeouts;
int a = select(max_fd + 1, &fd_read, &fd_write, &fd_except, 0);
if ( selects % 100000 == 0 )
Log(fmt("selects=%ld canwrites=%ld timeouts=%ld", selects, canwrites, timeouts));
Log(fmt("selects=%ld canwrites=%ld", selects, canwrites));
if ( a < 0 )
// Ignore errors for now.
@ -4212,6 +4202,7 @@ bool SocketComm::Listen()
safe_close(fd);
CloseListenFDs();
listen_next_try = time(0) + bind_retry_interval;
freeaddrinfo(res0);
return false;
}

9
src/RemoteSerializer.h
View file

@ -6,7 +6,7 @@
#include "Dict.h"
#include "List.h"
#include "Serializer.h"
#include "IOSource.h"
#include "iosource/IOSource.h"
#include "Stats.h"
#include "File.h"
#include "logging/WriterBackend.h"
@ -22,13 +22,13 @@ namespace threading {
}
// This class handles the communication done in Bro's main loop.
class RemoteSerializer : public Serializer, public IOSource {
class RemoteSerializer : public Serializer, public iosource::IOSource {
public:
RemoteSerializer();
virtual ~RemoteSerializer();
// Initialize the remote serializer (calling this will fork).
void Init();
void Enable();
// FIXME: Use SourceID directly (or rename everything to Peer*).
typedef SourceID PeerID;
@ -140,7 +140,8 @@ public:
void Finish();
// Overidden from IOSource:
virtual void GetFds(int* read, int* write, int* except);
virtual void GetFds(iosource::FD_Set* read, iosource::FD_Set* write,
iosource::FD_Set* except);
virtual double NextTimestamp(double* local_network_time);
virtual void Process();
virtual TimerMgr::Tag* GetCurrentTag();

24
src/Serializer.cc
View file

@ -19,6 +19,7 @@
#include "Conn.h"
#include "Timer.h"
#include "RemoteSerializer.h"
#include "iosource/Manager.h"
Serializer::Serializer(SerializationFormat* arg_format)
{
@ -1045,7 +1046,7 @@ EventPlayer::EventPlayer(const char* file)
Error(fmt("event replayer: cannot open %s", file));
if ( ReadHeader() )
io_sources.Register(this);
iosource_mgr->Register(this);
}
EventPlayer::~EventPlayer()
@ -1067,9 +1068,10 @@ void EventPlayer::GotFunctionCall(const char* name, double time,
// We don't replay function calls.
}
void EventPlayer::GetFds(int* read, int* write, int* except)
void EventPlayer::GetFds(iosource::FD_Set* read, iosource::FD_Set* write,
iosource::FD_Set* except)
{
*read = fd;
read->Insert(fd);
}
double EventPlayer::NextTimestamp(double* local_network_time)
@ -1085,7 +1087,7 @@ double EventPlayer::NextTimestamp(double* local_network_time)
{
UnserialInfo info(this);
Unserialize(&info);
closed = io->Eof();
SetClosed(io->Eof());
}
if ( ! ne_time )
@ -1142,7 +1144,7 @@ bool Packet::Serialize(SerialInfo* info) const
static BroFile* profiling_output = 0;
#ifdef DEBUG
static PktDumper* dump = 0;
static iosource::PktDumper* dump = 0;
#endif
Packet* Packet::Unserialize(UnserialInfo* info)
@ -1188,7 +1190,7 @@ Packet* Packet::Unserialize(UnserialInfo* info)
p->hdr = hdr;
p->pkt = (u_char*) pkt;
p->tag = tag;
p->hdr_size = get_link_header_size(p->link_type);
p->hdr_size = iosource::PktSrc::GetLinkHeaderSize(p->link_type);
delete [] tag;
@ -1213,9 +1215,15 @@ Packet* Packet::Unserialize(UnserialInfo* info)
if ( debug_logger.IsEnabled(DBG_TM) )
{
if ( ! dump )
dump = new PktDumper("tm.pcap");
dump = iosource_mgr->OpenPktDumper("tm.pcap", true);
dump->Dump(p->hdr, p->pkt);
if ( dump )
{
iosource::PktDumper::Packet dp;
dp.hdr = p->hdr;
dp.data = p->pkt;
dump->Dump(&dp);
}
}
#endif

7
src/Serializer.h
View file

@ -15,7 +15,7 @@
#include "SerialInfo.h"
#include "IP.h"
#include "Timer.h"
#include "IOSource.h"
#include "iosource/IOSource.h"
#include "Reporter.h"
class SerializationCache;
@ -350,12 +350,13 @@ public:
};
// Plays a file of events back.
class EventPlayer : public FileSerializer, public IOSource {
class EventPlayer : public FileSerializer, public iosource::IOSource {
public:
EventPlayer(const char* file);
virtual ~EventPlayer();
virtual void GetFds(int* read, int* write, int* except);
virtual void GetFds(iosource::FD_Set* read, iosource::FD_Set* write,
iosource::FD_Set* except);
virtual double NextTimestamp(double* local_network_time);
virtual void Process();
virtual const char* Tag() { return "EventPlayer"; }

66
src/Sessions.cc
View file

@ -167,7 +167,7 @@ void NetSessions::Done()
void NetSessions::DispatchPacket(double t, const struct pcap_pkthdr* hdr,
const u_char* pkt, int hdr_size,
PktSrc* src_ps)
iosource::PktSrc* src_ps)
{
const struct ip* ip_hdr = 0;
const u_char* ip_data = 0;
@ -184,10 +184,7 @@ void NetSessions::DispatchPacket(double t, const struct pcap_pkthdr* hdr,
// Blanket encapsulation
hdr_size += encap_hdr_size;
if ( src_ps->FilterType() == TYPE_FILTER_NORMAL )
NextPacket(t, hdr, pkt, hdr_size);
else
NextPacketSecondary(t, hdr, pkt, hdr_size, src_ps);
}
void NetSessions::NextPacket(double t, const struct pcap_pkthdr* hdr,
@ -262,53 +259,6 @@ void NetSessions::NextPacket(double t, const struct pcap_pkthdr* hdr,
DumpPacket(hdr, pkt);
}
void NetSessions::NextPacketSecondary(double /* t */, const struct pcap_pkthdr* hdr,
const u_char* const pkt, int hdr_size,
const PktSrc* src_ps)
{
SegmentProfiler(segment_logger, "processing-secondary-packet");
++num_packets_processed;
uint32 caplen = hdr->caplen - hdr_size;
if ( caplen < sizeof(struct ip) )
{
Weird("truncated_IP", hdr, pkt);
return;
}
const struct ip* ip = (const struct ip*) (pkt + hdr_size);
if ( ip->ip_v == 4 )
{
const secondary_program_list& spt = src_ps->ProgramTable();
loop_over_list(spt, i)
{
SecondaryProgram* sp = spt[i];
if ( ! net_packet_match(sp->Program(), pkt,
hdr->len, hdr->caplen) )
continue;
val_list* args = new val_list;
StringVal* cmd_val =
new StringVal(sp->Event()->Filter());
args->append(cmd_val);
IP_Hdr ip_hdr(ip, false);
args->append(ip_hdr.BuildPktHdrVal());
// ### Need to queue event here.
try
{
sp->Event()->Event()->Call(args);
}
catch ( InterpreterException& e )
{ /* Already reported. */ }
delete args;
}
}
}
int NetSessions::CheckConnectionTag(Connection* conn)
{
if ( current_iosrc->GetCurrentTag() )
@ -1440,14 +1390,24 @@ void NetSessions::DumpPacket(const struct pcap_pkthdr* hdr,
return;
if ( len == 0 )
pkt_dumper->Dump(hdr, pkt);
{
iosource::PktDumper::Packet p;
p.hdr = hdr;
p.data = pkt;
pkt_dumper->Dump(&p);
}
else
{
struct pcap_pkthdr h = *hdr;
h.caplen = len;
if ( h.caplen > hdr->caplen )
reporter->InternalError("bad modified caplen");
pkt_dumper->Dump(&h, pkt);
iosource::PktDumper::Packet p;
p.hdr = &h;
p.data = pkt;
pkt_dumper->Dump(&p);
}
}

10
src/Sessions.h
View file

@ -69,11 +69,11 @@ public:
~NetSessions();
// Main entry point for packet processing. Dispatches the packet
// either through NextPacket() or NextPacketSecondary(), optionally
// employing the packet sorter first.
// either through NextPacket(), optionally employing the packet
// sorter first.
void DispatchPacket(double t, const struct pcap_pkthdr* hdr,
const u_char* const pkt, int hdr_size,
PktSrc* src_ps);
iosource::PktSrc* src_ps);
void Done(); // call to drain events before destructing
@ -221,10 +221,6 @@ protected:
void NextPacket(double t, const struct pcap_pkthdr* hdr,
const u_char* const pkt, int hdr_size);
void NextPacketSecondary(double t, const struct pcap_pkthdr* hdr,
const u_char* const pkt, int hdr_size,
const PktSrc* src_ps);
// Record the given packet (if a dumper is active). If len=0
// then the whole packet is recorded, otherwise just the first
// len bytes.

5
src/Type.cc
View file

@ -1381,6 +1381,11 @@ void OpaqueType::Describe(ODesc* d) const
d->Add(name.c_str());
}
void OpaqueType::DescribeReST(ODesc* d, bool roles_only) const
{
d->Add(fmt(":bro:type:`%s` of %s", type_name(Tag()), name.c_str()));
}
IMPLEMENT_SERIAL(OpaqueType, SER_OPAQUE_TYPE);
bool OpaqueType::DoSerialize(SerialInfo* info) const

1
src/Type.h
View file

@ -534,6 +534,7 @@ public:
const string& Name() const { return name; }
void Describe(ODesc* d) const;
void DescribeReST(ODesc* d, bool roles_only = false) const;
protected:
OpaqueType() { }

3
src/Val.cc
View file

@ -465,10 +465,7 @@ void Val::Describe(ODesc* d) const
d->SP();
}
if ( d->IsReadable() )
ValDescribe(d);
else
Val::ValDescribe(d);
}
void Val::DescribeReST(ODesc* d) const

1
src/analyzer/Analyzer.cc
View file

@ -4,6 +4,7 @@
#include "Analyzer.h"
#include "Manager.h"
#include "binpac.h"
#include "analyzer/protocol/pia/PIA.h"
#include "../Event.h"

8
src/analyzer/protocol/dhcp/dhcp-analyzer.pac
View file

@ -188,6 +188,9 @@ flow DHCP_Flow(is_orig: bool) {
switch ( type )
{
case DHCPOFFER:
if ( ! router_list )
router_list = new TableVal(dhcp_router_list);
BifEvent::generate_dhcp_offer(connection()->bro_analyzer(),
connection()->bro_analyzer()->Conn(),
dhcp_msg_val_->Ref(), new AddrVal(subnet_mask),
@ -195,6 +198,9 @@ flow DHCP_Flow(is_orig: bool) {
break;
case DHCPACK:
if ( ! router_list )
router_list = new TableVal(dhcp_router_list);
BifEvent::generate_dhcp_ack(connection()->bro_analyzer(),
connection()->bro_analyzer()->Conn(),
dhcp_msg_val_->Ref(), new AddrVal(subnet_mask),
@ -202,12 +208,14 @@ flow DHCP_Flow(is_orig: bool) {
break;
case DHCPNAK:
Unref(router_list);
BifEvent::generate_dhcp_nak(connection()->bro_analyzer(),
connection()->bro_analyzer()->Conn(),
dhcp_msg_val_->Ref(), host_name);
break;
default:
Unref(router_list);
Unref(host_name);
break;
}

4
src/analyzer/protocol/dhcp/events.bif
View file

@ -18,8 +18,8 @@
##
event dhcp_discover%(c: connection, msg: dhcp_msg, req_addr: addr, host_name: string%);
## Generated for DHCP messages of type *DHCPOFFER* (server to client in response to
## DHCPDISCOVER with offer of configuration parameters).
## Generated for DHCP messages of type *DHCPOFFER* (server to client in response
## to DHCPDISCOVER with offer of configuration parameters).
##
## c: The connection record describing the underlying UDP flow.
##

42
src/analyzer/protocol/dnp3/dnp3-analyzer.pac
View file

@ -4,6 +4,24 @@ connection DNP3_Conn(bro_analyzer: BroAnalyzer) {
downflow = DNP3_Flow(false);
};
%header{
uint64 bytestring_to_time(const_bytestring time48, size_t length);
%}
%code{
uint64 bytestring_to_time(const_bytestring time48, size_t length)
{
/* In DNP3, a timestamp is represented by 6 bytes since epoch
in milliseconds. The 6 bytes are stored in big endian format. */
uint64 epochTime = 0;
for ( unsigned int i = 0; i < length; i++ )
epochTime = time48[length - i - 1] + epochTime * 256;
return epochTime;
}
%}
flow DNP3_Flow(is_orig: bool) {
flowunit = DNP3_PDU(is_orig) withcontext (connection, this);
@ -222,7 +240,7 @@ flow DNP3_Flow(is_orig: bool) {
BifEvent::generate_dnp3_frozen_counter_32wFlagTime(
connection()->bro_analyzer(),
connection()->bro_analyzer()->Conn(),
is_orig(), flag, count_value, bytestring_to_val(time48));
is_orig(), flag, count_value, bytestring_to_time(time48, sizeof(time48)));
}
return true;
@ -236,7 +254,7 @@ flow DNP3_Flow(is_orig: bool) {
BifEvent::generate_dnp3_frozen_counter_16wFlagTime(
connection()->bro_analyzer(),
connection()->bro_analyzer()->Conn(),
is_orig(), flag, count_value, bytestring_to_val(time48));
is_orig(), flag, count_value, bytestring_to_time(time48, sizeof(time48)));
}
return true;
@ -390,7 +408,7 @@ flow DNP3_Flow(is_orig: bool) {
BifEvent::generate_dnp3_frozen_analog_input_32wTime(
connection()->bro_analyzer(),
connection()->bro_analyzer()->Conn(),
is_orig(), flag, frozen_value, bytestring_to_val(time48));
is_orig(), flag, frozen_value, bytestring_to_time(time48, sizeof(time48)));
}
return true;
@ -404,7 +422,7 @@ flow DNP3_Flow(is_orig: bool) {
BifEvent::generate_dnp3_frozen_analog_input_16wTime(
connection()->bro_analyzer(),
connection()->bro_analyzer()->Conn(),
is_orig(), flag, frozen_value, bytestring_to_val(time48));
is_orig(), flag, frozen_value, bytestring_to_time(time48, sizeof(time48)));
}
return true;
@ -502,7 +520,7 @@ flow DNP3_Flow(is_orig: bool) {
BifEvent::generate_dnp3_analog_input_event_32wTime(
connection()->bro_analyzer(),
connection()->bro_analyzer()->Conn(),
is_orig(), flag, value, bytestring_to_val(time48));
is_orig(), flag, value, bytestring_to_time(time48, sizeof(time48)));
}
return true;
@ -516,7 +534,7 @@ flow DNP3_Flow(is_orig: bool) {
BifEvent::generate_dnp3_analog_input_event_16wTime(
connection()->bro_analyzer(),
connection()->bro_analyzer()->Conn(),
is_orig(), flag, value, bytestring_to_val(time48));
is_orig(), flag, value, bytestring_to_time(time48, sizeof(time48)));
}
return true;
@ -558,7 +576,7 @@ flow DNP3_Flow(is_orig: bool) {
BifEvent::generate_dnp3_analog_input_event_SPwTime(
connection()->bro_analyzer(),
connection()->bro_analyzer()->Conn(),
is_orig(), flag, value, bytestring_to_val(time48));
is_orig(), flag, value, bytestring_to_time(time48, sizeof(time48)));
}
return true;
@ -572,7 +590,7 @@ flow DNP3_Flow(is_orig: bool) {
BifEvent::generate_dnp3_analog_input_event_DPwTime(
connection()->bro_analyzer(),
connection()->bro_analyzer()->Conn(),
is_orig(), flag, value_low, value_high, bytestring_to_val(time48));
is_orig(), flag, value_low, value_high, bytestring_to_time(time48, sizeof(time48)));
}
return true;
@ -614,7 +632,7 @@ flow DNP3_Flow(is_orig: bool) {
BifEvent::generate_dnp3_frozen_analog_input_event_32wTime(
connection()->bro_analyzer(),
connection()->bro_analyzer()->Conn(),
is_orig(), flag, frozen_value, bytestring_to_val(time48));
is_orig(), flag, frozen_value, bytestring_to_time(time48, sizeof(time48)));
}
return true;
@ -628,7 +646,7 @@ flow DNP3_Flow(is_orig: bool) {
BifEvent::generate_dnp3_frozen_analog_input_event_16wTime(
connection()->bro_analyzer(),
connection()->bro_analyzer()->Conn(),
is_orig(), flag, frozen_value, bytestring_to_val(time48));
is_orig(), flag, frozen_value, bytestring_to_time(time48, sizeof(time48)));
}
return true;
@ -670,7 +688,7 @@ flow DNP3_Flow(is_orig: bool) {
BifEvent::generate_dnp3_frozen_analog_input_event_SPwTime(
connection()->bro_analyzer(),
connection()->bro_analyzer()->Conn(),
is_orig(), flag, frozen_value, bytestring_to_val(time48));
is_orig(), flag, frozen_value, bytestring_to_time(time48, sizeof(time48)));
}
return true;
@ -684,7 +702,7 @@ flow DNP3_Flow(is_orig: bool) {
BifEvent::generate_dnp3_frozen_analog_input_event_DPwTime(
connection()->bro_analyzer(),
connection()->bro_analyzer()->Conn(),
is_orig(), flag, frozen_value_low, frozen_value_high, bytestring_to_val(time48));
is_orig(), flag, frozen_value_low, frozen_value_high, bytestring_to_time(time48, sizeof(time48)));
}
return true;

24
src/analyzer/protocol/dnp3/events.bif
View file

@ -130,11 +130,11 @@ event dnp3_frozen_counter_16wFlag%(c: connection, is_orig: bool, flag:count, cou
## Generated for DNP3 objects with the group number 21 and variation number 5
## frozen counter 32 bit with flag and time
event dnp3_frozen_counter_32wFlagTime%(c: connection, is_orig: bool, flag:count, count_value: count, time48: string%);
event dnp3_frozen_counter_32wFlagTime%(c: connection, is_orig: bool, flag:count, count_value: count, time48: count%);
## Generated for DNP3 objects with the group number 21 and variation number 6
## frozen counter 16 bit with flag and time
event dnp3_frozen_counter_16wFlagTime%(c: connection, is_orig: bool, flag:count, count_value: count, time48: string%);
event dnp3_frozen_counter_16wFlagTime%(c: connection, is_orig: bool, flag:count, count_value: count, time48: count%);
## Generated for DNP3 objects with the group number 21 and variation number 9
## frozen counter 32 bit without flag
@ -178,11 +178,11 @@ event dnp3_frozen_analog_input_16wFlag%(c: connection, is_orig: bool, flag: coun
## Generated for DNP3 objects with the group number 31 and variation number 3
## frozen analog input 32 bit with time-of-freeze
event dnp3_frozen_analog_input_32wTime%(c: connection, is_orig: bool, flag: count, frozen_value: count, time48: string%);
event dnp3_frozen_analog_input_32wTime%(c: connection, is_orig: bool, flag: count, frozen_value: count, time48: count%);
## Generated for DNP3 objects with the group number 31 and variation number 4
## frozen analog input 16 bit with time-of-freeze
event dnp3_frozen_analog_input_16wTime%(c: connection, is_orig: bool, flag: count, frozen_value: count, time48: string%);
event dnp3_frozen_analog_input_16wTime%(c: connection, is_orig: bool, flag: count, frozen_value: count, time48: count%);
## Generated for DNP3 objects with the group number 31 and variation number 5
## frozen analog input 32 bit without flag
@ -210,11 +210,11 @@ event dnp3_analog_input_event_16woTime%(c: connection, is_orig: bool, flag: coun
## Generated for DNP3 objects with the group number 32 and variation number 3
## analog input event 32 bit with time
event dnp3_analog_input_event_32wTime%(c: connection, is_orig: bool, flag: count, value: count, time48: string%);
event dnp3_analog_input_event_32wTime%(c: connection, is_orig: bool, flag: count, value: count, time48: count%);
## Generated for DNP3 objects with the group number 32 and variation number 4
## analog input event 16 bit with time
event dnp3_analog_input_event_16wTime%(c: connection, is_orig: bool, flag: count, value: count, time48: string%);
event dnp3_analog_input_event_16wTime%(c: connection, is_orig: bool, flag: count, value: count, time48: count%);
## Generated for DNP3 objects with the group number 32 and variation number 5
## analog input event single-precision float point without time
@ -226,11 +226,11 @@ event dnp3_analog_input_event_DPwoTime%(c: connection, is_orig: bool, flag: coun
## Generated for DNP3 objects with the group number 32 and variation number 7
## analog input event single-precision float point with time
event dnp3_analog_input_event_SPwTime%(c: connection, is_orig: bool, flag: count, value: count, time48: string%);
event dnp3_analog_input_event_SPwTime%(c: connection, is_orig: bool, flag: count, value: count, time48: count%);
## Generated for DNP3 objects with the group number 32 and variation number 8
## analog input event double-precisiion float point with time
event dnp3_analog_input_event_DPwTime%(c: connection, is_orig: bool, flag: count, value_low: count, value_high: count, time48: string%);
event dnp3_analog_input_event_DPwTime%(c: connection, is_orig: bool, flag: count, value_low: count, value_high: count, time48: count%);
## Generated for DNP3 objects with the group number 33 and variation number 1
## frozen analog input event 32 bit without time
@ -242,11 +242,11 @@ event dnp3_frozen_analog_input_event_16woTime%(c: connection, is_orig: bool, fla
## Generated for DNP3 objects with the group number 33 and variation number 3
## frozen analog input event 32 bit with time
event dnp3_frozen_analog_input_event_32wTime%(c: connection, is_orig: bool, flag: count, frozen_value: count, time48: string%);
event dnp3_frozen_analog_input_event_32wTime%(c: connection, is_orig: bool, flag: count, frozen_value: count, time48: count%);
## Generated for DNP3 objects with the group number 33 and variation number 4
## frozen analog input event 16 bit with time
event dnp3_frozen_analog_input_event_16wTime%(c: connection, is_orig: bool, flag: count, frozen_value: count, time48: string%);
event dnp3_frozen_analog_input_event_16wTime%(c: connection, is_orig: bool, flag: count, frozen_value: count, time48: count%);
## Generated for DNP3 objects with the group number 33 and variation number 5
## frozen analog input event single-precision float point without time
@ -258,11 +258,11 @@ event dnp3_frozen_analog_input_event_DPwoTime%(c: connection, is_orig: bool, fla
## Generated for DNP3 objects with the group number 33 and variation number 7
## frozen analog input event single-precision float point with time
event dnp3_frozen_analog_input_event_SPwTime%(c: connection, is_orig: bool, flag: count, frozen_value: count, time48: string%);
event dnp3_frozen_analog_input_event_SPwTime%(c: connection, is_orig: bool, flag: count, frozen_value: count, time48: count%);
## Generated for DNP3 objects with the group number 34 and variation number 8
## frozen analog input event double-precision float point with time
event dnp3_frozen_analog_input_event_DPwTime%(c: connection, is_orig: bool, flag: count, frozen_value_low: count, frozen_value_high: count, time48: string%);
event dnp3_frozen_analog_input_event_DPwTime%(c: connection, is_orig: bool, flag: count, frozen_value_low: count, frozen_value_high: count, time48: count%);
## g70
event dnp3_file_transport%(c: connection, is_orig: bool, file_handle: count, block_num: count, file_data: string%);

33
src/analyzer/protocol/dns/DNS.cc
View file

@ -692,15 +692,23 @@ int DNS_Interpreter::ParseRR_EDNS(DNS_MsgInfo* msg,
data += rdlength;
len -= rdlength;
}
else
{ // no data, move on
data += rdlength;
len -= rdlength;
}
return 1;
}
void DNS_Interpreter::ExtractOctets(const u_char*& data, int& len,
BroString** p)
{
uint16 dlen = ExtractShort(data, len);
dlen = min(len, static_cast<int>(dlen));
if ( p )
*p = new BroString(data, dlen, 0);
data += dlen;
len -= dlen;
}
int DNS_Interpreter::ParseRR_TSIG(DNS_MsgInfo* msg,
const u_char*& data, int& len, int rdlength,
const u_char* msg_start)
@ -718,24 +726,17 @@ int DNS_Interpreter::ParseRR_TSIG(DNS_MsgInfo* msg,
uint32 sign_time_sec = ExtractLong(data, len);
unsigned int sign_time_msec = ExtractShort(data, len);
unsigned int fudge = ExtractShort(data, len);
u_char request_MAC[16];
memcpy(request_MAC, data, sizeof(request_MAC));
// Here we adjust the size of the requested MAC + u_int16_t
// for length. See RFC 2845, sec 2.3.
int n = sizeof(request_MAC) + sizeof(u_int16_t);
data += n;
len -= n;
BroString* request_MAC;
ExtractOctets(data, len, &request_MAC);
unsigned int orig_id = ExtractShort(data, len);
unsigned int rr_error = ExtractShort(data, len);
ExtractOctets(data, len, 0); // Other Data
msg->tsig = new TSIG_DATA;
msg->tsig->alg_name =
new BroString(alg_name, alg_name_end - alg_name, 1);
msg->tsig->sig = new BroString(request_MAC, sizeof(request_MAC), 1);
msg->tsig->sig = request_MAC;
msg->tsig->time_s = sign_time_sec;
msg->tsig->time_ms = sign_time_msec;
msg->tsig->fudge = fudge;

1
src/analyzer/protocol/dns/DNS.h
View file

@ -180,6 +180,7 @@ protected:
uint16 ExtractShort(const u_char*& data, int& len);
uint32 ExtractLong(const u_char*& data, int& len);
void ExtractOctets(const u_char*& data, int& len, BroString** p);
int ParseRR_Name(DNS_MsgInfo* msg,
const u_char*& data, int& len, int rdlength,

1
src/analyzer/protocol/finger/Plugin.cc
View file

@ -1,6 +1,5 @@
// See the file in the main distribution directory for copyright.
#include "plugin/Plugin.h"
#include "Finger.h"

141
src/analyzer/protocol/http/HTTP.cc
View file

@ -243,10 +243,13 @@ int HTTP_Entity::Undelivered(int64_t len)
return 0;
if ( is_partial_content )
{
precomputed_file_id = file_mgr->Gap(body_length, len,
http_message->MyHTTP_Analyzer()->GetAnalyzerTag(),
http_message->MyHTTP_Analyzer()->Conn(),
http_message->IsOrig(), precomputed_file_id);
offset += len;
}
else
precomputed_file_id = file_mgr->Gap(body_length, len,
http_message->MyHTTP_Analyzer()->GetAnalyzerTag(),
@ -556,12 +559,9 @@ HTTP_Message::HTTP_Message(HTTP_Analyzer* arg_analyzer,
current_entity = 0;
top_level = new HTTP_Entity(this, 0, expect_body);
entity_data_buffer = 0;
BeginEntity(top_level);
buffer_offset = buffer_size = 0;
data_buffer = 0;
total_buffer_size = 0;
start_time = network_time;
body_length = 0;
content_gap_length = 0;
@ -571,6 +571,7 @@ HTTP_Message::HTTP_Message(HTTP_Analyzer* arg_analyzer,
HTTP_Message::~HTTP_Message()
{
delete top_level;
delete [] entity_data_buffer;
}
Val* HTTP_Message::BuildMessageStat(const int interrupted, const char* msg)
@ -618,22 +619,14 @@ void HTTP_Message::Done(const int interrupted, const char* detail)
}
MyHTTP_Analyzer()->HTTP_MessageDone(is_orig, this);
delete_strings(buffers);
if ( data_buffer )
{
delete data_buffer;
data_buffer = 0;
}
}
int HTTP_Message::Undelivered(int64_t len)
{
if ( ! top_level )
return 0;
HTTP_Entity* e = current_entity ? current_entity
: static_cast<HTTP_Entity*>(top_level);
if ( ((HTTP_Entity*) top_level)->Undelivered(len) )
if ( e && e->Undelivered(len) )
{
content_gap_length += len;
return 1;
@ -666,8 +659,6 @@ void HTTP_Message::EndEntity(mime::MIME_Entity* entity)
body_length += ((HTTP_Entity*) entity)->BodyLength();
header_length += ((HTTP_Entity*) entity)->HeaderLength();
DeliverEntityData();
if ( http_end_entity )
{
val_list* vl = new val_list();
@ -741,31 +732,18 @@ void HTTP_Message::SubmitTrailingHeaders(mime::MIME_HeaderList& /* hlist */)
void HTTP_Message::SubmitData(int len, const char* buf)
{
if ( buf != (const char*) data_buffer->Bytes() + buffer_offset ||
buffer_offset + len > buffer_size )
{
reporter->AnalyzerError(MyHTTP_Analyzer(),
"HTTP message buffer misalignment");
return;
}
buffer_offset += len;
if ( buffer_offset >= buffer_size )
{
buffers.push_back(data_buffer);
data_buffer = 0;
}
if ( http_entity_data )
MyHTTP_Analyzer()->HTTP_EntityData(is_orig,
new BroString(reinterpret_cast<const u_char*>(buf), len, 0));
}
int HTTP_Message::RequestBuffer(int* plen, char** pbuf)
{
if ( ! data_buffer )
if ( ! InitBuffer(mime_segment_length) )
return 0;
*plen = data_buffer->Len() - buffer_offset;
*pbuf = (char*) data_buffer->Bytes() + buffer_offset;
if ( ! entity_data_buffer )
entity_data_buffer = new char[http_entity_data_delivery_size];
*plen = http_entity_data_delivery_size;
*pbuf = entity_data_buffer;
return 1;
}
@ -806,9 +784,6 @@ void HTTP_Message::SetPlainDelivery(int64_t length)
if ( length > 0 && BifConst::skip_http_data )
content_line->SkipBytesAfterThisLine(length);
if ( ! data_buffer )
InitBuffer(length);
}
void HTTP_Message::SkipEntityData()
@ -817,87 +792,6 @@ void HTTP_Message::SkipEntityData()
current_entity->SkipBody();
}
void HTTP_Message::DeliverEntityData()
{
if ( http_entity_data )
{
const BroString* entity_data = 0;
if ( data_buffer && buffer_offset > 0 )
{
if ( buffer_offset < buffer_size )
{
entity_data = new BroString(data_buffer->Bytes(), buffer_offset, 0);
delete data_buffer;
}
else
entity_data = data_buffer;
data_buffer = 0;
if ( buffers.empty() )
MyHTTP_Analyzer()->HTTP_EntityData(is_orig,
entity_data);
else
buffers.push_back(entity_data);
entity_data = 0;
}
if ( ! buffers.empty() )
{
if ( buffers.size() == 1 )
{
entity_data = buffers[0];
buffers.clear();
}
else
{
entity_data = concatenate(buffers);
delete_strings(buffers);
}
MyHTTP_Analyzer()->HTTP_EntityData(is_orig, entity_data);
}
}
else
{
delete_strings(buffers);
if ( data_buffer )
delete data_buffer;
data_buffer = 0;
}
total_buffer_size = 0;
}
int HTTP_Message::InitBuffer(int64_t length)
{
if ( length <= 0 )
return 0;
if ( total_buffer_size >= http_entity_data_delivery_size )
DeliverEntityData();
if ( total_buffer_size + length > http_entity_data_delivery_size )
{
length = http_entity_data_delivery_size - total_buffer_size;
if ( length <= 0 )
return 0;
}
u_char* b = new u_char[length];
data_buffer = new BroString(0, b, length);
buffer_size = length;
total_buffer_size += length;
buffer_offset = 0;
return 1;
}
void HTTP_Message::Weird(const char* msg)
{
analyzer->Weird(msg);
@ -1844,7 +1738,7 @@ void HTTP_Analyzer::ParseVersion(data_chunk_t ver, const IPAddr& host,
}
}
void HTTP_Analyzer::HTTP_EntityData(int is_orig, const BroString* entity_data)
void HTTP_Analyzer::HTTP_EntityData(int is_orig, BroString* entity_data)
{
if ( http_entity_data )
{
@ -1852,8 +1746,7 @@ void HTTP_Analyzer::HTTP_EntityData(int is_orig, const BroString* entity_data)
vl->append(BuildConnVal());
vl->append(new Val(is_orig, TYPE_BOOL));
vl->append(new Val(entity_data->Len(), TYPE_COUNT));
// FIXME: Make sure that removing the const here is indeed ok...
vl->append(new StringVal(const_cast<BroString*>(entity_data)));
vl->append(new StringVal(entity_data));
ConnectionEvent(http_entity_data, vl);
}
else

13
src/analyzer/protocol/http/HTTP.h
View file

@ -134,13 +134,7 @@ protected:
tcp::ContentLine_Analyzer* content_line;
bool is_orig;
vector<const BroString*> buffers;
// Controls the total buffer size within http_entity_data_delivery_size.
int total_buffer_size;
int buffer_offset, buffer_size;
BroString* data_buffer;
char* entity_data_buffer;
double start_time;
@ -153,9 +147,6 @@ protected:
HTTP_Entity* current_entity;
int InitBuffer(int64_t length);
void DeliverEntityData();
Val* BuildMessageStat(const int interrupted, const char* msg);
};
@ -167,7 +158,7 @@ public:
void Undelivered(tcp::TCP_Endpoint* sender, uint64 seq, int len);
void HTTP_Header(int is_orig, mime::MIME_Header* h);
void HTTP_EntityData(int is_orig, const BroString* entity_data);
void HTTP_EntityData(int is_orig, BroString* entity_data);
void HTTP_MessageDone(int is_orig, HTTP_Message* message);
void HTTP_Event(const char* category, const char* detail);
void HTTP_Event(const char* category, StringVal *detail);

28
src/analyzer/protocol/mime/MIME.cc
View file

@ -142,8 +142,9 @@ int fputs(data_chunk_t b, FILE* fp)
void MIME_Mail::Undelivered(int len)
{
// is_orig param not available, doesn't matter as long as it's consistent
file_mgr->Gap(cur_entity_len, len, analyzer->GetAnalyzerTag(), analyzer->Conn(),
false);
cur_entity_id = file_mgr->Gap(cur_entity_len, len,
analyzer->GetAnalyzerTag(), analyzer->Conn(),
false, cur_entity_id);
}
int strcasecmp_n(data_chunk_t s, const char* t)
@ -644,11 +645,7 @@ void MIME_Entity::EndOfData()
if ( content_encoding == CONTENT_ENCODING_BASE64 )
FinishDecodeBase64();
if ( data_buf_offset > 0 )
{
SubmitData(data_buf_offset, data_buf_data);
data_buf_offset = -1;
}
FlushData();
}
message->EndEntity (this);
@ -1002,6 +999,7 @@ void MIME_Entity::DecodeDataLine(int len, const char* data, int trailing_CRLF)
DecodeBinary(len, data, trailing_CRLF);
break;
}
FlushData();
}
void MIME_Entity::DecodeBinary(int len, const char* data, int trailing_CRLF)
@ -1201,6 +1199,15 @@ void MIME_Entity::DataOctets(int len, const char* data)
}
}
void MIME_Entity::FlushData()
{
if ( data_buf_offset > 0 )
{
SubmitData(data_buf_offset, data_buf_data);
data_buf_offset = -1;
}
}
void MIME_Entity::SubmitHeader(MIME_Header* h)
{
message->SubmitHeader(h);
@ -1347,6 +1354,7 @@ MIME_Mail::~MIME_Mail()
void MIME_Mail::BeginEntity(MIME_Entity* /* entity */)
{
cur_entity_len = 0;
cur_entity_id.clear();
if ( mime_begin_entity )
{
@ -1386,6 +1394,7 @@ void MIME_Mail::EndEntity(MIME_Entity* /* entity */)
}
file_mgr->EndOfFile(analyzer->GetAnalyzerTag(), analyzer->Conn());
cur_entity_id.clear();
}
void MIME_Mail::SubmitHeader(MIME_Header* h)
@ -1448,8 +1457,9 @@ void MIME_Mail::SubmitData(int len, const char* buf)
}
// is_orig param not available, doesn't matter as long as it's consistent
file_mgr->DataIn(reinterpret_cast<const u_char*>(buf), len,
analyzer->GetAnalyzerTag(), analyzer->Conn(), false);
cur_entity_id = file_mgr->DataIn(reinterpret_cast<const u_char*>(buf), len,
analyzer->GetAnalyzerTag(), analyzer->Conn(), false,
cur_entity_id);
cur_entity_len += len;
buffer_start = (buf + len) - (char*)data_buffer->Bytes();

2
src/analyzer/protocol/mime/MIME.h
View file

@ -133,6 +133,7 @@ protected:
int GetDataBuffer();
void DataOctet(char ch);
void DataOctets(int len, const char* data);
void FlushData();
virtual void SubmitData(int len, const char* buf);
virtual void SubmitHeader(MIME_Header* h);
@ -258,6 +259,7 @@ protected:
BroString* data_buffer;
uint64 cur_entity_len;
string cur_entity_id;
};

103
src/analyzer/protocol/tcp/TCP_Reassembler.cc
View file

@ -117,6 +117,45 @@ void TCP_Reassembler::SetContentsFile(BroFile* f)
record_contents_file = f;
}
static inline bool established(const TCP_Endpoint* a, const TCP_Endpoint* b)
{
return a->state == TCP_ENDPOINT_ESTABLISHED &&
b->state == TCP_ENDPOINT_ESTABLISHED;
}
static inline bool report_gap(const TCP_Endpoint* a, const TCP_Endpoint* b)
{
return content_gap &&
( BifConst::report_gaps_for_partial || established(a, b) );
}
void TCP_Reassembler::Gap(uint64 seq, uint64 len)
{
// Only report on content gaps for connections that
// are in a cleanly established state. In other
// states, these can arise falsely due to things
// like sequence number mismatches in RSTs, or
// unseen previous packets in partial connections.
// The one opportunity we lose here is on clean FIN
// handshakes, but Oh Well.
if ( report_gap(endp, endp->peer) )
{
val_list* vl = new val_list;
vl->append(dst_analyzer->BuildConnVal());
vl->append(new Val(IsOrig(), TYPE_BOOL));
vl->append(new Val(seq, TYPE_COUNT));
vl->append(new Val(len, TYPE_COUNT));
dst_analyzer->ConnectionEvent(content_gap, vl);
}
if ( type == Direct )
dst_analyzer->NextUndelivered(seq, len, IsOrig());
else
dst_analyzer->ForwardUndelivered(seq, len, IsOrig());
had_gap = true;
}
void TCP_Reassembler::Undelivered(uint64 up_to_seq)
{
@ -189,48 +228,35 @@ void TCP_Reassembler::Undelivered(uint64 up_to_seq)
if ( ! skip_deliveries )
{
// This can happen because we're processing a trace
// that's been filtered. For example, if it's just
// SYN/FIN data, then there can be data in the FIN
// packet, but it's undelievered because it's out of
// sequence.
uint64 seq = last_reassem_seq;
uint64 len = up_to_seq - last_reassem_seq;
// Only report on content gaps for connections that
// are in a cleanly established state. In other
// states, these can arise falsely due to things
// like sequence number mismatches in RSTs, or
// unseen previous packets in partial connections.
// The one opportunity we lose here is on clean FIN
// handshakes, but Oh Well.
if ( content_gap &&
(BifConst::report_gaps_for_partial ||
(endpoint->state == TCP_ENDPOINT_ESTABLISHED &&
peer->state == TCP_ENDPOINT_ESTABLISHED ) ) )
// If we have blocks that begin below up_to_seq, deliver them.
DataBlock* b = blocks;
while ( b )
{
val_list* vl = new val_list;
vl->append(dst_analyzer->BuildConnVal());
vl->append(new Val(IsOrig(), TYPE_BOOL));
vl->append(new Val(seq, TYPE_COUNT));
vl->append(new Val(len, TYPE_COUNT));
dst_analyzer->ConnectionEvent(content_gap, vl);
}
if ( type == Direct )
dst_analyzer->NextUndelivered(last_reassem_seq,
len, IsOrig());
else
if ( b->seq < last_reassem_seq )
{
dst_analyzer->ForwardUndelivered(last_reassem_seq,
len, IsOrig());
}
// Already delivered this block.
b = b->next;
continue;
}
had_gap = true;
if ( b->seq >= up_to_seq )
// Block is beyond what we need to process at this point.
break;
uint64 gap_at_seq = last_reassem_seq;
uint64 gap_len = b->seq - last_reassem_seq;
Gap(gap_at_seq, gap_len);
last_reassem_seq += gap_len;
BlockInserted(b);
// Inserting a block may cause trimming of what's buffered,
// so have to assume 'b' is invalid, hence re-assign to start.
b = blocks;
}
if ( up_to_seq > last_reassem_seq )
Gap(last_reassem_seq, up_to_seq - last_reassem_seq);
}
}
// We should record and match undelivered even if we are skipping
@ -243,6 +269,7 @@ void TCP_Reassembler::Undelivered(uint64 up_to_seq)
MatchUndelivered(up_to_seq, false);
// But we need to re-adjust last_reassem_seq in either case.
if ( up_to_seq > last_reassem_seq )
last_reassem_seq = up_to_seq; // we've done our best ...
}

1
src/analyzer/protocol/tcp/TCP_Reassembler.h
View file

@ -94,6 +94,7 @@ private:
DECLARE_SERIAL(TCP_Reassembler);
void Undelivered(uint64 up_to_seq);
void Gap(uint64 seq, uint64 len);
void RecordToSeq(uint64 start_seq, uint64 stop_seq, BroFile* f);
void RecordBlock(DataBlock* b, BroFile* f);

139
src/bro.bif
View file

@ -21,6 +21,7 @@
#include "IPAddr.h"
#include "util.h"
#include "file_analysis/Manager.h"
#include "iosource/Manager.h"
using namespace std;
@ -33,7 +34,7 @@ TableType* var_sizes;
// and hence it's declared in NetVar.{h,cc}.
extern RecordType* gap_info;
static PktDumper* addl_pkt_dumper = 0;
static iosource::PktDumper* addl_pkt_dumper = 0;
bro_int_t parse_int(const char*& fmt)
{
@ -1675,11 +1676,14 @@ function net_stats%(%): NetStats
unsigned int drop = 0;
unsigned int link = 0;
loop_over_list(pkt_srcs, i)
{
PktSrc* ps = pkt_srcs[i];
const iosource::Manager::PktSrcList& pkt_srcs(iosource_mgr->GetPktSrcs());
struct PktSrc::Stats stat;
for ( iosource::Manager::PktSrcList::const_iterator i = pkt_srcs.begin();
i != pkt_srcs.end(); i++ )
{
iosource::PktSrc* ps = *i;
struct iosource::PktSrc::Stats stat;
ps->Statistics(&stat);
recv += stat.received;
drop += stat.dropped;
@ -3224,10 +3228,15 @@ function dump_current_packet%(file_name: string%) : bool
return new Val(0, TYPE_BOOL);
if ( ! addl_pkt_dumper )
addl_pkt_dumper = new PktDumper(0, true);
addl_pkt_dumper = iosource_mgr->OpenPktDumper(file_name->CheckString(), true);
addl_pkt_dumper->Open(file_name->CheckString());
addl_pkt_dumper->Dump(hdr, pkt);
if ( addl_pkt_dumper )
{
iosource::PktDumper::Packet p;
p.hdr = hdr;
p.data = pkt;
addl_pkt_dumper->Dump(&p);
}
return new Val(! addl_pkt_dumper->IsError(), TYPE_BOOL);
%}
@ -3284,10 +3293,15 @@ function dump_packet%(pkt: pcap_packet, file_name: string%) : bool
hdr.len = (*pkt_vl)[3]->AsCount();
if ( ! addl_pkt_dumper )
addl_pkt_dumper = new PktDumper(0, true);
addl_pkt_dumper = iosource_mgr->OpenPktDumper(file_name->CheckString(), true);
addl_pkt_dumper->Open(file_name->CheckString());
addl_pkt_dumper->Dump(&hdr, (*pkt_vl)[4]->AsString()->Bytes());
if ( addl_pkt_dumper )
{
iosource::PktDumper::Packet p;
p.hdr = &hdr;
p.data = (*pkt_vl)[4]->AsString()->Bytes();
addl_pkt_dumper->Dump(&p);
}
return new Val(addl_pkt_dumper->IsError(), TYPE_BOOL);
%}
@ -4110,14 +4124,14 @@ function rotate_file_by_name%(f: string%): rotate_info
bool is_addl_pkt_dumper = false;
// Special case: one of current dump files.
if ( pkt_dumper && streq(pkt_dumper->FileName(), f->CheckString()) )
if ( pkt_dumper && streq(pkt_dumper->Path().c_str(), f->CheckString()) )
{
is_pkt_dumper = true;
pkt_dumper->Close();
}
if ( addl_pkt_dumper &&
streq(addl_pkt_dumper->FileName(), f->CheckString()) )
streq(addl_pkt_dumper->Path().c_str(), f->CheckString()) )
{
is_addl_pkt_dumper = true;
addl_pkt_dumper->Close();
@ -4214,103 +4228,6 @@ function enable_raw_output%(f: file%): any
#
# ===========================================================================
## Precompiles a PCAP filter and binds it to a given identifier.
##
## id: The PCAP identifier to reference the filter *s* later on.
##
## s: The PCAP filter. See ``man tcpdump`` for valid expressions.
##
## Returns: True if *s* is valid and precompiles successfully.
##
## .. bro:see:: install_pcap_filter
## install_src_addr_filter
## install_src_net_filter
## uninstall_src_addr_filter
## uninstall_src_net_filter
## install_dst_addr_filter
## install_dst_net_filter
## uninstall_dst_addr_filter
## uninstall_dst_net_filter
## pcap_error
function precompile_pcap_filter%(id: PcapFilterID, s: string%): bool
%{
bool success = true;
loop_over_list(pkt_srcs, i)
{
pkt_srcs[i]->ClearErrorMsg();
if ( ! pkt_srcs[i]->PrecompileFilter(id->ForceAsInt(),
s->CheckString()) )
{
reporter->Error("precompile_pcap_filter: %s",
pkt_srcs[i]->ErrorMsg());
success = false;
}
}
return new Val(success, TYPE_BOOL);
%}
## Installs a PCAP filter that has been precompiled with
## :bro:id:`precompile_pcap_filter`.
##
## id: The PCAP filter id of a precompiled filter.
##
## Returns: True if the filter associated with *id* has been installed
## successfully.
##
## .. bro:see:: precompile_pcap_filter
## install_src_addr_filter
## install_src_net_filter
## uninstall_src_addr_filter
## uninstall_src_net_filter
## install_dst_addr_filter
## install_dst_net_filter
## uninstall_dst_addr_filter
## uninstall_dst_net_filter
## pcap_error
function install_pcap_filter%(id: PcapFilterID%): bool
%{
bool success = true;
loop_over_list(pkt_srcs, i)
{
pkt_srcs[i]->ClearErrorMsg();
if ( ! pkt_srcs[i]->SetFilter(id->ForceAsInt()) )
success = false;
}
return new Val(success, TYPE_BOOL);
%}
## Returns a string representation of the last PCAP error.
##
## Returns: A descriptive error message of the PCAP function that failed.
##
## .. bro:see:: precompile_pcap_filter
## install_pcap_filter
## install_src_addr_filter
## install_src_net_filter
## uninstall_src_addr_filter
## uninstall_src_net_filter
## install_dst_addr_filter
## install_dst_net_filter
## uninstall_dst_addr_filter
## uninstall_dst_net_filter
function pcap_error%(%): string
%{
loop_over_list(pkt_srcs, i)
{
const char* err = pkt_srcs[i]->ErrorMsg();
if ( *err )
return new StringVal(err);
}
return new StringVal("no error");
%}
## Installs a filter to drop packets from a given IP source address with
## a certain probability if none of a given set of TCP flags are set.
## Note that for IPv6 packets with a Destination options header that has
@ -4542,7 +4459,7 @@ function enable_communication%(%): any
return 0;
using_communication = 1;
remote_serializer->Init();
remote_serializer->Enable();
return 0;
%}

2
src/file_analysis/File.cc
View file

@ -437,7 +437,7 @@ void File::EndOfFile()
void File::Gap(uint64 offset, uint64 len)
{
DBG_LOG(DBG_FILE_ANALYSIS, "[%s] Gap of size %" PRIu64 " at offset %" PRIu64,
id.c_str(), offset, len);
id.c_str(), len, offset);
analyzers.DrainModifications();

69
src/file_analysis/analyzer/x509/functions.bif
View file

@ -104,6 +104,39 @@ STACK_OF(X509)* x509_get_untrusted_stack(VectorVal* certs_vec)
return untrusted_certs;
}
// We need this function to be able to identify the signer certificate of an
// OCSP request out of a list of possible certificates.
X509* x509_get_ocsp_signer(STACK_OF(X509) *certs, OCSP_RESPID *rid)
{
// We support two lookup types - either by response id or by key.
if ( rid->type == V_OCSP_RESPID_NAME )
return X509_find_by_subject(certs, rid->value.byName);
// There only should be name and type - but let's be sure...
if ( rid->type != V_OCSP_RESPID_KEY )
return 0;
// Just like OpenSSL, we just support SHA-1 lookups and bail out otherwhise.
if ( rid->value.byKey->length != SHA_DIGEST_LENGTH )
return 0;
unsigned char* key_hash = rid->value.byKey->data;
for ( int i = 0; i < sk_X509_num(certs); ++i )
{
unsigned char digest[SHA_DIGEST_LENGTH];
X509* cert = sk_X509_value(certs, i);
if ( ! X509_pubkey_digest(cert, EVP_sha1(), digest, NULL) )
// digest failed for this certificate, try with next
continue;
if ( memcmp(digest, key_hash, SHA_DIGEST_LENGTH) == 0 )
// keys match, return certificate
return cert;
}
return 0;
}
%%}
## Parses a certificate into an X509::Certificate structure.
@ -221,6 +254,7 @@ function x509_ocsp_verify%(certs: x509_opaque_vector, ocsp_reply: string, root_c
int out = -1;
int result = -1;
X509* issuer_certificate = 0;
X509* signer = 0;
OCSP_RESPONSE *resp = d2i_OCSP_RESPONSE(NULL, &start, ocsp_reply->Len());
if ( ! resp )
{
@ -250,19 +284,47 @@ function x509_ocsp_verify%(certs: x509_opaque_vector, ocsp_reply: string, root_c
// inject the certificates in the certificate list of the OCSP reply, they actually are used during
// the lookup.
// Yay.
if ( ! basic->certs )
{
basic->certs = sk_X509_new_null();
if ( ! basic->certs )
{
rval = x509_result_record(-1, "Could not allocate basic x509 stack");
goto x509_ocsp_cleanup;
}
}
issuer_certificate = 0;
for ( int i = 0; i < sk_X509_num(untrusted_certs); i++)
{
sk_X509_push(basic->certs, X509_dup(sk_X509_value(untrusted_certs, i)));
if ( X509_NAME_cmp(X509_get_issuer_name(cert), X509_get_subject_name(sk_X509_value(untrusted_certs, i))) )
if ( X509_NAME_cmp(X509_get_issuer_name(cert), X509_get_subject_name(sk_X509_value(untrusted_certs, i))) == 0 )
issuer_certificate = sk_X509_value(untrusted_certs, i);
}
// Because we actually want to be able to give nice error messages that show why we were
// not able to verify the OCSP response - do our own verification logic first.
signer = x509_get_ocsp_signer(basic->certs, basic->tbsResponseData->responderId);
/*
Do this perhaps - OpenSSL also cannot do it, so I do not really feel bad about it.
Needs a different lookup because the root store is no stack of X509 certs
if ( !s igner )
// if we did not find it in the certificates that were sent, search in the root store
signer = x509_get_ocsp_signer(basic->certs, basic->tbsResponseData->responderId);
*/
if ( ! signer )
{
rval = x509_result_record(-1, "Could not find OCSP responder certificate");
goto x509_ocsp_cleanup;
}
csc = X509_STORE_CTX_new();
X509_STORE_CTX_init(csc, ctx, sk_X509_value(basic->certs, 0), basic->certs);
X509_STORE_CTX_init(csc, ctx, signer, basic->certs);
X509_STORE_CTX_set_time(csc, 0, (time_t) verify_time);
X509_STORE_CTX_set_purpose(csc, X509_PURPOSE_OCSP_HELPER);
@ -281,7 +343,6 @@ function x509_ocsp_verify%(certs: x509_opaque_vector, ocsp_reply: string, root_c
goto x509_ocsp_cleanup;
}
// ok, now we verified the OCSP response. This means that we have a valid chain tying it
// to a root that we trust and that the signature also hopefully is valid. This does not yet
// mean that the ocsp response actually matches the certificate the server send us or that
@ -322,7 +383,7 @@ function x509_ocsp_verify%(certs: x509_opaque_vector, ocsp_reply: string, root_c
goto x509_ocsp_cleanup;
}
if ( ! OCSP_id_cmp(certid, single->certId) )
if ( OCSP_id_cmp(certid, single->certId) != 0 )
return x509_result_record(-1, "OCSP reply is not for host certificate");
// next - check freshness of proof...

25
src/BPF_Program.cc → src/iosource/BPF_Program.cc
View file

@ -58,7 +58,14 @@ int pcap_compile_nopcap(int snaplen_arg, int linktype_arg,
}
#endif
BPF_Program::BPF_Program() : m_compiled(), m_program()
// Simple heuristic to identify filters that always match, so that we can
// skip the filtering in that case. "ip or not ip" is Bro's default filter.
static bool filter_matches_anything(const char *filter)
{
return (! filter) || strlen(filter) == 0 || strcmp(filter, "ip or not ip") == 0;
}
BPF_Program::BPF_Program() : m_compiled(), m_matches_anything(false), m_program()
{
}
@ -86,12 +93,14 @@ bool BPF_Program::Compile(pcap_t* pcap, const char* filter, uint32 netmask,
}
m_compiled = true;
m_matches_anything = filter_matches_anything(filter);
return true;
}
bool BPF_Program::Compile(int snaplen, int linktype, const char* filter,
uint32 netmask, char* errbuf, bool optimize)
uint32 netmask, char* errbuf, unsigned int errbuf_len,
bool optimize)
{
FreeCode();
@ -99,15 +108,23 @@ bool BPF_Program::Compile(int snaplen, int linktype, const char* filter,
char my_error[PCAP_ERRBUF_SIZE];
int err = pcap_compile_nopcap(snaplen, linktype, &m_program,
(char *) filter, optimize, netmask, error);
(char *) filter, optimize, netmask, my_error);
if ( err < 0 && errbuf )
safe_strncpy(errbuf, my_errbuf, PCAP_ERRBUF_SIZE);
safe_strncpy(errbuf, my_error, errbuf_len);
*errbuf = '\0';
#else
int err = pcap_compile_nopcap(snaplen, linktype, &m_program,
(char*) filter, optimize, netmask);
if ( err < 0 && errbuf && errbuf_len )
*errbuf = '\0';
#endif
if ( err == 0 )
{
m_compiled = true;
m_matches_anything = filter_matches_anything(filter);
}
return err == 0;
}

8
src/BPF_Program.h → src/iosource/BPF_Program.h
View file

@ -30,12 +30,17 @@ public:
// similarly to pcap_compile_nopcap(). Parameters are
// similar. Returns true on success.
bool Compile(int snaplen, int linktype, const char* filter,
uint32 netmask, char* errbuf = 0, bool optimize = true);
uint32 netmask, char* errbuf = 0, unsigned int errbuf_len = 0,
bool optimize = true);
// Returns true if this program currently contains compiled
// code, false otherwise.
bool IsCompiled() { return m_compiled; }
// Returns true if this program matches any packets. This is not
// comprehensive, but can identify a few cases where it does.
bool MatchesAnything() { return m_matches_anything; }
// Accessor to the compiled program. Returns nil when
// no program is currently compiled.
bpf_program* GetProgram();
@ -46,6 +51,7 @@ protected:
// (I like to prefix member variables with m_, makes it clear
// in the implementation whether it's a global or not. --ck)
bool m_compiled;
bool m_matches_anything;
struct bpf_program m_program;
};

23
src/iosource/CMakeLists.txt Normal file
View file

@ -0,0 +1,23 @@
include(BroSubdir)
include_directories(BEFORE
${CMAKE_CURRENT_SOURCE_DIR}
${CMAKE_CURRENT_BINARY_DIR}
)
add_subdirectory(pcap)
set(iosource_SRCS
BPF_Program.cc
Component.cc
Manager.cc
PktDumper.cc
PktSrc.cc
)
bif_target(pcap.bif)
bro_add_subdir_library(iosource ${iosource_SRCS})
add_dependencies(bro_iosource generate_outputs)

165
src/iosource/Component.cc Normal file
View file

@ -0,0 +1,165 @@
// See the file "COPYING" in the main distribution directory for copyright.
#include "Component.h"
#include "Desc.h"
#include "Reporter.h"
using namespace iosource;
Component::Component(const std::string& name)
: plugin::Component(plugin::component::IOSOURCE, name)
{
}
Component::Component(plugin::component::Type type, const std::string& name)
: plugin::Component(type, name)
{
}
Component::~Component()
{
}
PktSrcComponent::PktSrcComponent(const std::string& arg_name, const std::string& arg_prefix, InputType arg_type, factory_callback arg_factory)
: iosource::Component(plugin::component::PKTSRC, arg_name)
{
tokenize_string(arg_prefix, ":", &prefixes);
type = arg_type;
factory = arg_factory;
}
PktSrcComponent::~PktSrcComponent()
{
}
const std::vector<std::string>& PktSrcComponent::Prefixes() const
{
return prefixes;
}
bool PktSrcComponent::HandlesPrefix(const string& prefix) const
{
for ( std::vector<std::string>::const_iterator i = prefixes.begin();
i != prefixes.end(); i++ )
{
if ( *i == prefix )
return true;
}
return false;
}
bool PktSrcComponent::DoesLive() const
{
return type == LIVE || type == BOTH;
}
bool PktSrcComponent::DoesTrace() const
{
return type == TRACE || type == BOTH;
}
PktSrcComponent::factory_callback PktSrcComponent::Factory() const
{
return factory;
}
void PktSrcComponent::DoDescribe(ODesc* d) const
{
iosource::Component::DoDescribe(d);
string prefs;
for ( std::vector<std::string>::const_iterator i = prefixes.begin();
i != prefixes.end(); i++ )
{
if ( prefs.size() )
prefs += ", ";
prefs += '"' + *i + '"';
}
d->Add("interface prefix");
if ( prefixes.size() > 1 )
d->Add("es");
d->Add(" ");
d->Add(prefs);
d->Add("; supports ");
switch ( type ) {
case LIVE:
d->Add("live input");
break;
case TRACE:
d->Add("trace input");
break;
case BOTH:
d->Add("live and trace input");
break;
default:
reporter->InternalError("unknown PkrSrc type");
}
}
PktDumperComponent::PktDumperComponent(const std::string& name, const std::string& arg_prefix, factory_callback arg_factory)
: plugin::Component(plugin::component::PKTDUMPER, name)
{
tokenize_string(arg_prefix, ":", &prefixes);
factory = arg_factory;
}
PktDumperComponent::~PktDumperComponent()
{
}
PktDumperComponent::factory_callback PktDumperComponent::Factory() const
{
return factory;
}
const std::vector<std::string>& PktDumperComponent::Prefixes() const
{
return prefixes;
}
bool PktDumperComponent::HandlesPrefix(const string& prefix) const
{
for ( std::vector<std::string>::const_iterator i = prefixes.begin();
i != prefixes.end(); i++ )
{
if ( *i == prefix )
return true;
}
return false;
}
void PktDumperComponent::DoDescribe(ODesc* d) const
{
plugin::Component::DoDescribe(d);
string prefs;
for ( std::vector<std::string>::const_iterator i = prefixes.begin();
i != prefixes.end(); i++ )
{
if ( prefs.size() )
prefs += ", ";
prefs += '"' + *i + '"';
}
d->Add("dumper prefix");
if ( prefixes.size() > 1 )
d->Add("es");
d->Add(": ");
d->Add(prefs);
}

177
src/iosource/Component.h Normal file
View file

@ -0,0 +1,177 @@
// See the file "COPYING" in the main distribution directory for copyright.
#ifndef IOSOURCE_PLUGIN_COMPONENT_H
#define IOSOURCE_PLUGIN_COMPONENT_H
#include <string>
#include <vector>
#include "plugin/Component.h"
namespace iosource {
class IOSource;
class PktSrc;
class PktDumper;
/**
* Component description for plugins providing IOSources.
*/
class Component : public plugin::Component {
public:
typedef IOSource* (*factory_callback)();
/**
* Constructor.
*
* @param name A descriptive name for the component. This name must
* be unique across all components of this type.
*/
Component(const std::string& name);
/**
* Copy constructor.
*/
Component(const Component& other);
/**
* Destructor.
*/
~Component();
protected:
/**
* Constructor to use by derived classes.
*
* @param type The type of the componnent.
*
* @param name A descriptive name for the component. This name must
* be unique across all components of this type.
*/
Component(plugin::component::Type type, const std::string& name);
};
/**
* Component description for plugins providing a PktSrc for packet input.
*/
class PktSrcComponent : public iosource::Component {
public:
/**
* Type of input a packet source supports.
*/
enum InputType {
LIVE, ///< Live input.
TRACE, ///< Offline input from trace file.
BOTH ///< Live input as well as offline.
};
typedef PktSrc* (*factory_callback)(const std::string& path, bool is_live);
/**
* Constructor.
*
* @param name A descriptive name for the component. This name must
* be unique across all components of this type.
*
* @param prefixes The list of interface/file prefixes associated
* with this component.
*
* @param type Type of input the component supports.
*
* @param factor Factory function to instantiate component.
*/
PktSrcComponent(const std::string& name, const std::string& prefixes, InputType type, factory_callback factory);
/**
* Destructor.
*/
virtual ~PktSrcComponent();
/**
* Returns the prefix(es) passed to the constructor.
*/
const std::vector<std::string>& Prefixes() const;
/**
* Returns true if the given prefix is among the one specified for the component.
*/
bool HandlesPrefix(const std::string& prefix) const;
/**
* Returns true if packet source instantiated by the component handle
* live traffic.
*/
bool DoesLive() const;
/**
* Returns true if packet source instantiated by the component handle
* offline traces.
*/
bool DoesTrace() const;
/**
* Returns the source's factory function.
*/
factory_callback Factory() const;
/**
* Generates a human-readable description of the component. This goes
* into the output of \c "bro -NN".
*/
virtual void DoDescribe(ODesc* d) const;
private:
std::vector<std::string> prefixes;
InputType type;
factory_callback factory;
};
/**
* Component description for plugins providing a PktDumper for packet output.
*
* PktDumpers aren't IOSurces but we locate them here to keep them along with
* the PktSrc.
*/
class PktDumperComponent : public plugin::Component {
public:
typedef PktDumper* (*factory_callback)(const std::string& path, bool append);
/**
* XXX
*/
PktDumperComponent(const std::string& name, const std::string& prefixes, factory_callback factory);
/**
* Destructor.
*/
~PktDumperComponent();
/**
* Returns the prefix(es) passed to the constructor.
*/
const std::vector<std::string>& Prefixes() const;
/**
* Returns true if the given prefix is among the one specified for the component.
*/
bool HandlesPrefix(const std::string& prefix) const;
/**
* Returns the source's factory function.
*/
factory_callback Factory() const;
/**
* Generates a human-readable description of the component. This goes
* into the output of \c "bro -NN".
*/
virtual void DoDescribe(ODesc* d) const;
private:
std::vector<std::string> prefixes;
factory_callback factory;
};
}
#endif

104
src/iosource/FD_Set.h Normal file
View file

@ -0,0 +1,104 @@
#ifndef BRO_FD_SET_H
#define BRO_FD_SET_H
#include <set>
#include <sys/select.h>
namespace iosource {
/**
* A container holding a set of file descriptors.
*/
class FD_Set {
public:
/**
* Constructor. The set is initially empty.
*/
FD_Set() : max(-1), fds()
{ }
/**
* Insert a file descriptor in to the set.
* @param fd the fd to insert in the set.
* @return false if fd was already in the set, else true.
*/
bool Insert(int fd)
{
if ( max < fd )
max = fd;
return fds.insert(fd).second;
}
/**
* Inserts all the file descriptors from another set in to this one.
* @param other a file descriptor set to merge in to this one.
*/
void Insert(const FD_Set& other)
{
for ( std::set<int>::const_iterator it = other.fds.begin();
it != other.fds.end(); ++it )
Insert(*it);
}
/**
* Empties the set.
*/
void Clear()
{ max = -1; fds.clear(); }
/**
* Insert file descriptors in to a fd_set for use with select().
* @return the greatest file descriptor inserted.
*/
int Set(fd_set* set) const
{
for ( std::set<int>::const_iterator it = fds.begin(); it != fds.end();
++it )
FD_SET(*it, set);
return max;
}
/**
* @return Whether a file descriptor belonging to this set is within the
* fd_set arugment.
*/
bool Ready(fd_set* set) const
{
for ( std::set<int>::const_iterator it = fds.begin(); it != fds.end();
++it )
{
if ( FD_ISSET(*it, set) )
return true;
}
return false;
}
/**
* @return whether any file descriptors have been added to the set.
*/
bool Empty() const
{
return fds.empty();
}
/**
* @return the greatest file descriptor of all that have been added to the
* set, or -1 if the set is empty.
*/
int Max() const
{
return max;
}
private:
int max;
std::set<int> fds;
};
} // namespace bro
#endif // BRO_FD_SET_H

140
src/iosource/IOSource.h Normal file
View file

@ -0,0 +1,140 @@
// See the file "COPYING" in the main distribution directory for copyright.
#ifndef IOSOURCE_IOSOURCE_H
#define IOSOURCE_IOSOURCE_H
extern "C" {
#include <pcap.h>
}
#include <string>
#include "FD_Set.h"
#include "Timer.h"
namespace iosource {
/**
* Interface class for components providing/consuming data inside Bro's main
* loop.
*/
class IOSource {
public:
/**
* Constructor.
*/
IOSource() { idle = false; closed = false; }
/**
* Destructor.
*/
virtual ~IOSource() {}
/**
* Returns true if source has nothing ready to process.
*/
bool IsIdle() const { return idle; }
/**
* Returns true if more data is to be expected in the future.
* Otherwise, source may be removed.
*/
bool IsOpen() const { return ! closed; }
/**
* Initializes the source. Can be overwritten by derived classes.
*/
virtual void Init() { }
/**
* Finalizes the source when it's being closed. Can be overwritten by
* derived classes.
*/
virtual void Done() { }
/**
* Returns select'able file descriptors for this source. Leaves the
* passed values untouched if not available.
*
* @param read Pointer to container where to insert a read descriptor.
*
* @param write Pointer to container where to insert a write descriptor.
*
* @param except Pointer to container where to insert a except descriptor.
*/
virtual void GetFds(FD_Set* read, FD_Set* write, FD_Set* except) = 0;
/**
* Returns the timestamp (in \a global network time) associated with
* next data item from this source. If the source wants the data
* item to be processed with a local network time, it sets the
* argument accordingly.
*
* This method will be called only when either IsIdle() returns
* false, or select() on one of the fds returned by GetFDs()
* indicates that there's data to process.
*
* Must be overridden by derived classes.
*
* @param network_time A pointer to store the \a local network time
* associated with the next item (as opposed to global network time).
*
* @return The global network time of the next entry, or a value
* smaller than zero if none is available currently.
*/
virtual double NextTimestamp(double* network_time) = 0;
/**
* Processes and consumes next data item.
*
* This method will be called only when either IsIdle() returns
* false, or select() on one of the fds returned by GetFDs()
* indicates that there's data to process.
*
* Must be overridden by derived classes.
*/
virtual void Process() = 0;
/**
* Returns the tag of the timer manafger associated with the last
* procesees data item.
*
* Can be overridden by derived classes.
*
* @return The tag, or null for the global timer manager.
*
*/
virtual TimerMgr::Tag* GetCurrentTag() { return 0; }
/**
* Returns a descriptual tag representing the source for debugging.
*
* Can be overridden by derived classes.
*
* @return The debugging name.
*/
virtual const char* Tag() = 0;
protected:
/*
* Callback for derived classes to call when they have gone dry
* temporarily.
*
* @param is_idle True if the source is idle currently.
*/
void SetIdle(bool is_idle) { idle = is_idle; }
/*
* Callback for derived class to call when they have shutdown.
*
* @param is_closed True if the source is now closed.
*/
void SetClosed(bool is_closed) { closed = is_closed; }
private:
bool idle;
bool closed;
};
}
#endif

314
src/iosource/Manager.cc Normal file
View file

@ -0,0 +1,314 @@
// See the file "COPYING" in the main distribution directory for copyright.
#include <sys/types.h>
#include <sys/time.h>
#include <unistd.h>
#include <assert.h>
#include <algorithm>
#include "Manager.h"
#include "IOSource.h"
#include "PktSrc.h"
#include "PktDumper.h"
#include "plugin/Manager.h"
#include "util.h"
#define DEFAULT_PREFIX "pcap"
using namespace iosource;
Manager::~Manager()
{
for ( SourceList::iterator i = sources.begin(); i != sources.end(); ++i )
{
(*i)->src->Done();
delete *i;
}
sources.clear();
for ( PktDumperList::iterator i = pkt_dumpers.begin(); i != pkt_dumpers.end(); ++i )
{
(*i)->Done();
delete *i;
}
pkt_dumpers.clear();
}
void Manager::RemoveAll()
{
// We're cheating a bit here ...
dont_counts = sources.size();
}
IOSource* Manager::FindSoonest(double* ts)
{
// Remove sources which have gone dry. For simplicity, we only
// remove at most one each time.
for ( SourceList::iterator i = sources.begin();
i != sources.end(); ++i )
if ( ! (*i)->src->IsOpen() )
{
(*i)->src->Done();
delete *i;
sources.erase(i);
break;
}
// Ideally, we would always call select on the fds to see which
// are ready, and return the soonest. Unfortunately, that'd mean
// one select-call per packet, which we can't afford in high-volume
// environments. Thus, we call select only every SELECT_FREQUENCY
// call (or if all sources report that they are dry).
++call_count;
IOSource* soonest_src = 0;
double soonest_ts = 1e20;
double soonest_local_network_time = 1e20;
bool all_idle = true;
// Find soonest source of those which tell us they have something to
// process.
for ( SourceList::iterator i = sources.begin(); i != sources.end(); ++i )
{
if ( ! (*i)->src->IsIdle() )
{
all_idle = false;
double local_network_time = 0;
double ts = (*i)->src->NextTimestamp(&local_network_time);
if ( ts > 0 && ts < soonest_ts )
{
soonest_ts = ts;
soonest_src = (*i)->src;
soonest_local_network_time =
local_network_time ?
local_network_time : ts;
}
}
}
// If we found one and aren't going to select this time,
// return it.
int maxx = 0;
if ( soonest_src && (call_count % SELECT_FREQUENCY) != 0 )
goto finished;
// Select on the join of all file descriptors.
fd_set fd_read, fd_write, fd_except;
FD_ZERO(&fd_read);
FD_ZERO(&fd_write);
FD_ZERO(&fd_except);
for ( SourceList::iterator i = sources.begin();
i != sources.end(); ++i )
{
Source* src = (*i);
if ( ! src->src->IsIdle() )
// No need to select on sources which we know to
// be ready.
continue;
src->Clear();
src->src->GetFds(&src->fd_read, &src->fd_write, &src->fd_except);
if ( src->fd_read.Empty() ) src->fd_read.Insert(0);
if ( src->fd_write.Empty() ) src->fd_write.Insert(0);
if ( src->fd_except.Empty() ) src->fd_except.Insert(0);
src->SetFds(&fd_read, &fd_write, &fd_except, &maxx);
}
// We can't block indefinitely even when all sources are dry:
// we're doing some IOSource-independent stuff in the main loop,
// so we need to return from time to time. (Instead of no time-out
// at all, we use a very small one. This lets FreeBSD trigger a
// BPF buffer switch on the next read when the hold buffer is empty
// while the store buffer isn't filled yet.
struct timeval timeout;
if ( all_idle )
{
// Interesting: when all sources are dry, simply sleeping a
// bit *without* watching for any fd becoming ready may
// decrease CPU load. I guess that's because it allows
// the kernel's packet buffers to fill. - Robin
timeout.tv_sec = 0;
timeout.tv_usec = 20; // SELECT_TIMEOUT;
select(0, 0, 0, 0, &timeout);
}
if ( ! maxx )
// No selectable fd at all.
goto finished;
timeout.tv_sec = 0;
timeout.tv_usec = 0;
if ( select(maxx + 1, &fd_read, &fd_write, &fd_except, &timeout) > 0 )
{ // Find soonest.
for ( SourceList::iterator i = sources.begin();
i != sources.end(); ++i )
{
Source* src = (*i);
if ( ! src->src->IsIdle() )
continue;
if ( src->Ready(&fd_read, &fd_write, &fd_except) )
{
double local_network_time = 0;
double ts = src->src->NextTimestamp(&local_network_time);
if ( ts > 0.0 && ts < soonest_ts )
{
soonest_ts = ts;
soonest_src = src->src;
soonest_local_network_time =
local_network_time ?
local_network_time : ts;
}
}
}
}
finished:
*ts = soonest_local_network_time;
return soonest_src;
}
void Manager::Register(IOSource* src, bool dont_count)
{
src->Init();
Source* s = new Source;
s->src = src;
if ( dont_count )
++dont_counts;
sources.push_back(s);
}
void Manager::Register(PktSrc* src)
{
pkt_srcs.push_back(src);
Register(src, false);
}
static std::pair<std::string, std::string> split_prefix(std::string path)
{
// See if the path comes with a prefix telling us which type of
// PktSrc to use. If not, choose default.
std::string prefix;
std::string::size_type i = path.find("::");
if ( i != std::string::npos )
{
prefix = path.substr(0, i);
path = path.substr(i + 2, std::string::npos);
}
else
prefix= DEFAULT_PREFIX;
return std::make_pair(prefix, path);
}
PktSrc* Manager::OpenPktSrc(const std::string& path, bool is_live)
{
std::pair<std::string, std::string> t = split_prefix(path);
std::string prefix = t.first;
std::string npath = t.second;
// Find the component providing packet sources of the requested prefix.
PktSrcComponent* component = 0;
std::list<PktSrcComponent*> all_components = plugin_mgr->Components<PktSrcComponent>();
for ( std::list<PktSrcComponent*>::const_iterator i = all_components.begin();
i != all_components.end(); i++ )
{
PktSrcComponent* c = *i;
if ( c->HandlesPrefix(prefix) &&
(( is_live && c->DoesLive() ) ||
(! is_live && c->DoesTrace())) )
{
component = c;
break;
}
}
if ( ! component )
reporter->FatalError("type of packet source '%s' not recognized, or mode not supported", prefix.c_str());
// Instantiate packet source.
PktSrc* ps = (*component->Factory())(npath, is_live);
assert(ps);
if ( ! ps->IsOpen() && ps->IsError() )
// Set an error message if it didn't open successfully.
ps->Error("could not open");
DBG_LOG(DBG_PKTIO, "Created packet source of type %s for %s", component->Name().c_str(), npath.c_str());
Register(ps);
return ps;
}
PktDumper* Manager::OpenPktDumper(const string& path, bool append)
{
std::pair<std::string, std::string> t = split_prefix(path);
std::string prefix = t.first;
std::string npath = t.second;
// Find the component providing packet dumpers of the requested prefix.
PktDumperComponent* component = 0;
std::list<PktDumperComponent*> all_components = plugin_mgr->Components<PktDumperComponent>();
for ( std::list<PktDumperComponent*>::const_iterator i = all_components.begin();
i != all_components.end(); i++ )
{
if ( (*i)->HandlesPrefix(prefix) )
{
component = (*i);
break;
}
}
if ( ! component )
reporter->FatalError("type of packet dumper '%s' not recognized", prefix.c_str());
// Instantiate packet dumper.
PktDumper* pd = (*component->Factory())(npath, append);
assert(pd);
if ( ! pd->IsOpen() && pd->IsError() )
// Set an error message if it didn't open successfully.
pd->Error("could not open");
DBG_LOG(DBG_PKTIO, "Created packer dumper of type %s for %s", component->Name().c_str(), npath.c_str());
pd->Init();
pkt_dumpers.push_back(pd);
return pd;
}
void Manager::Source::SetFds(fd_set* read, fd_set* write, fd_set* except,
int* maxx) const
{
*maxx = std::max(*maxx, fd_read.Set(read));
*maxx = std::max(*maxx, fd_write.Set(write));
*maxx = std::max(*maxx, fd_except.Set(except));
}

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// See the file "COPYING" in the main distribution directory for copyright.
#ifndef IOSOURCE_MANAGER_H
#define IOSOURCE_MANAGER_H
#include <string>
#include <list>
#include "iosource/FD_Set.h"
namespace iosource {
class IOSource;
class PktSrc;
class PktDumper;
/**
* Singleton class managing all IOSources.
*/
class Manager {
public:
/**
* Constructor.
*/
Manager() { call_count = 0; dont_counts = 0; }
/**
* Destructor.
*/
~Manager();
/**
* Registers an IOSource with the manager.
*
* @param src The source. The manager takes ownership.
*
* @param dont_count If true, this source does not contribute to the
* number of IOSources returned by Size(). The effect is that if all
* sources except for the non-counting ones have gone dry, processing
* will shut down.
*/
void Register(IOSource* src, bool dont_count = false);
/**
* Returns the packet source with the soonest available input. This
* may block for a little while if all are dry.
*
* @param ts A pointer where to store the timestamp of the input that
* the soonest source has available next.
*
* @return The source, or null if no source has input.
*/
IOSource* FindSoonest(double* ts);
/**
* Returns the number of registered and still active sources,
* excluding those that are registered as \a dont_cont.
*/
int Size() const { return sources.size() - dont_counts; }
typedef std::list<PktSrc *> PktSrcList;
/**
* Returns a list of all registered PktSrc instances. This is a
* subset of all registered IOSource instances.
*/
const PktSrcList& GetPktSrcs() const { return pkt_srcs; }
/**
* Terminate all processing immediately by removing all sources (and
* therefore now returning a Size() of zero).
*/
void Terminate() { RemoveAll(); }
/**
* Opens a new packet source.
*
* @param path The interface or file name, as one would give to Bro \c -i.
*
* @param is_live True if \a path represents a live interface, false
* for a file.
*
* @return The new packet source, or null if an error occured.
*/
PktSrc* OpenPktSrc(const std::string& path, bool is_live);
/**
* Opens a new packet dumper.
*
* @param path The file name to dump into.
*
* @param append True to append if \a path already exists.
*
* @return The new packet dumper, or null if an error occured.
*/
PktDumper* OpenPktDumper(const std::string& path, bool append);
private:
/**
* When looking for a source with something to process, every
* SELECT_FREQUENCY calls we will go ahead and block on a select().
*/
static const int SELECT_FREQUENCY = 25;
/**
* Microseconds to wait in an empty select if no source is ready.
*/
static const int SELECT_TIMEOUT = 50;
void Register(PktSrc* src);
void RemoveAll();
unsigned int call_count;
int dont_counts;
struct Source {
IOSource* src;
FD_Set fd_read;
FD_Set fd_write;
FD_Set fd_except;
bool Ready(fd_set* read, fd_set* write, fd_set* except) const
{ return fd_read.Ready(read) || fd_write.Ready(write) ||
fd_except.Ready(except); }
void SetFds(fd_set* read, fd_set* write, fd_set* except,
int* maxx) const;
void Clear()
{ fd_read.Clear(); fd_write.Clear(); fd_except.Clear(); }
};
typedef std::list<Source*> SourceList;
SourceList sources;
typedef std::list<PktDumper *> PktDumperList;
PktSrcList pkt_srcs;
PktDumperList pkt_dumpers;
};
}
extern iosource::Manager* iosource_mgr;
#endif

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// See the file "COPYING" in the main distribution directory for copyright.
#include <errno.h>
#include <sys/stat.h>
#include "config.h"
#include "PktDumper.h"
using namespace iosource;
PktDumper::PktDumper()
{
is_open = false;
errmsg = "";
}
PktDumper::~PktDumper()
{
}
void PktDumper::Init()
{
Open();
}
void PktDumper::Done()
{
Close();
}
const std::string& PktDumper::Path() const
{
return props.path;
}
bool PktDumper::IsOpen() const
{
return is_open;
}
double PktDumper::OpenTime() const
{
return is_open ? props.open_time : 0;
}
bool PktDumper::IsError() const
{
return errmsg.size();
}
const char* PktDumper::ErrorMsg() const
{
return errmsg.size() ? errmsg.c_str() : 0;
}
int PktDumper::HdrSize() const
{
return is_open ? props.hdr_size : -1;
}
void PktDumper::Opened(const Properties& arg_props)
{
is_open = true;
props = arg_props;
DBG_LOG(DBG_PKTIO, "Opened dumper %s", props.path.c_str());
}
void PktDumper::Closed()
{
is_open = false;
DBG_LOG(DBG_PKTIO, "Closed dumper %s", props.path.c_str());
props.path = "";
}
void PktDumper::Error(const std::string& msg)
{
errmsg = msg;
DBG_LOG(DBG_PKTIO, "Error with dumper %s: %s",
IsOpen() ? props.path.c_str() : "<not open>",
msg.c_str());
}

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// See the file "COPYING" in the main distribution directory for copyright.
#ifndef IOSOURCE_PKTSRC_PKTDUMPER_H
#define IOSOURCE_PKTSRC_PKTDUMPER_H
#include "IOSource.h"
namespace iosource {
/**
* Base class for packet dumpers.
*/
class PktDumper {
public:
/**
* Structure describing a packet.
*/
struct Packet {
/**
* The pcap header associated with the packet.
*/
const struct pcap_pkthdr* hdr;
/**
* The full content of the packet.
*/
const unsigned char* data;
};
/**
* Constructor.
*/
PktDumper();
/**
* Destructor.
*/
virtual ~PktDumper();
/**
* Returns the path associated with the dumper.
*/
const std::string& Path() const;
/**
* Returns true if the dumper is open for writing.
*/
bool IsOpen() const;
/**
* Returns the time when the dumper was opened for writing.
*/
double OpenTime() const;
/**
* Returns returns true if the dumper has encountered an error.
*/
bool IsError() const;
/**
* Returns if the dumper has encountered an error, returns a
* corresponding error message. Returns an emoty string otherwise.
*/
const char* ErrorMsg() const;
/**
* Returns the size of the link-layer headers with this dumper.
*/
int HdrSize() const;
/**
* Writes a packet to the dumper.
*
* @param pkt The packet to record.
*/
bool Record(const Packet* pkt);
// PktDumper interface for derived classes to implement.
/**
* Called by the manager system to open the source.
*
* Derived classes must implement this method. If successful, the
* implementation must call \a Opened(); if not, it must call Error()
* with a corresponding message.
*/
virtual void Open() = 0;
/**
* Called by the manager system to close the dumper.
*
* Derived classes must implement this method. If successful, the
* implementation must call \a Closed(); if not, it must call Error()
* with a corresponding message.
*/
virtual void Close() = 0;
/**
* Called to write a packet to the dumper.
*
* Derived classes must implement this method.
*
* @param pkt The packet to record.
*
* @return True if succesful, false otherwise (in which case \a
* Error() must have been called.)
*/
virtual bool Dump(const Packet* pkt) = 0;
protected:
friend class Manager;
/**
* Structure to pass back information about the packet dumper to the
* base class. Derived class pass an instance of this to \a Opened().
*/
struct Properties {
std::string path;
int hdr_size;
double open_time;
};
/**
* Called from the implementations of \a Open() to signal that the
* source has been successully opened.
*
* @param props A properties instance describing the now open source.
*/
void Opened(const Properties& props);
/**
* Called from the implementations of \a Close() to signal that the
* source has been closed.
*/
void Closed();
/**
* Called from derived classes to signal an error.
*
* @param msg A corresponding error message.
*/
void Error(const std::string& msg);
/**
* Called by the manager to initialize the dumper.
*/
void Init();
/**
* Called by the manager to shutdown the dumper.
*/
void Done();
private:
bool is_open;
Properties props;
std::string errmsg;
};
}
#endif

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// See the file "COPYING" in the main distribution directory for copyright.
#include <errno.h>
#include <sys/stat.h>
#include "config.h"
#include "util.h"
#include "PktSrc.h"
#include "Hash.h"
#include "Net.h"
#include "Sessions.h"
using namespace iosource;
PktSrc::PktSrc()
{
have_packet = false;
errbuf = "";
SetClosed(true);
next_sync_point = 0;
first_timestamp = 0.0;
first_wallclock = current_wallclock = 0;
}
PktSrc::~PktSrc()
{
BPF_Program* code;
IterCookie* cookie = filters.InitForIteration();
while ( (code = filters.NextEntry(cookie)) )
delete code;
}
const std::string& PktSrc::Path() const
{
static std::string not_open("not open");
return IsOpen() ? props.path : not_open;
}
const char* PktSrc::ErrorMsg() const
{
return errbuf.size() ? errbuf.c_str() : 0;
}
int PktSrc::LinkType() const
{
return IsOpen() ? props.link_type : -1;
}
uint32 PktSrc::Netmask() const
{
return IsOpen() ? props.netmask : PCAP_NETMASK_UNKNOWN;
}
bool PktSrc::IsError() const
{
return ErrorMsg();
}
int PktSrc::HdrSize() const
{
return IsOpen() ? props.hdr_size : -1;
}
int PktSrc::SnapLen() const
{
return snaplen; // That's a global. Change?
}
bool PktSrc::IsLive() const
{
return props.is_live;
}
double PktSrc::CurrentPacketTimestamp()
{
return current_pseudo;
}
double PktSrc::CurrentPacketWallClock()
{
// We stop time when we are suspended.
if ( net_is_processing_suspended() )
current_wallclock = current_time(true);
return current_wallclock;
}
void PktSrc::Opened(const Properties& arg_props)
{
if ( arg_props.hdr_size < 0 )
{
char buf[512];
safe_snprintf(buf, sizeof(buf),
"unknown data link type 0x%x", props.link_type);
Error(buf);
Close();
return;
}
props = arg_props;
SetClosed(false);
if ( ! PrecompileFilter(0, "") || ! SetFilter(0) )
{
Close();
return;
}
if ( props.is_live )
Info(fmt("listening on %s, capture length %d bytes\n", props.path.c_str(), SnapLen()));
DBG_LOG(DBG_PKTIO, "Opened source %s", props.path.c_str());
}
void PktSrc::Closed()
{
SetClosed(true);
DBG_LOG(DBG_PKTIO, "Closed source %s", props.path.c_str());
}
void PktSrc::Error(const std::string& msg)
{
// We don't report this immediately, Bro will ask us for the error
// once it notices we aren't open.
errbuf = msg;
DBG_LOG(DBG_PKTIO, "Error with source %s: %s",
IsOpen() ? props.path.c_str() : "<not open>",
msg.c_str());
}
void PktSrc::Info(const std::string& msg)
{
reporter->Info("%s", msg.c_str());
}
void PktSrc::Weird(const std::string& msg, const Packet* p)
{
sessions->Weird(msg.c_str(), p->hdr, p->data, 0);
}
void PktSrc::InternalError(const std::string& msg)
{
reporter->InternalError("%s", msg.c_str());
}
void PktSrc::ContinueAfterSuspend()
{
current_wallclock = current_time(true);
}
int PktSrc::GetLinkHeaderSize(int link_type)
{
switch ( link_type ) {
case DLT_NULL:
return 4;
case DLT_EN10MB:
return 14;
case DLT_FDDI:
return 13 + 8; // fddi_header + LLC
#ifdef DLT_LINUX_SLL
case DLT_LINUX_SLL:
return 16;
#endif
case DLT_PPP_SERIAL: // PPP_SERIAL
return 4;
case DLT_RAW:
return 0;
}
return -1;
}
double PktSrc::CheckPseudoTime()
{
if ( ! IsOpen() )
return 0;
if ( ! ExtractNextPacketInternal() )
return 0;
if ( remote_trace_sync_interval )
{
if ( next_sync_point == 0 || current_packet.ts >= next_sync_point )
{
int n = remote_serializer->SendSyncPoint();
next_sync_point = first_timestamp +
n * remote_trace_sync_interval;
remote_serializer->Log(RemoteSerializer::LogInfo,
fmt("stopping at packet %.6f, next sync-point at %.6f",
current_packet.ts, next_sync_point));
return 0;
}
}
double pseudo_time = current_packet.ts - first_timestamp;
double ct = (current_time(true) - first_wallclock) * pseudo_realtime;
return pseudo_time <= ct ? bro_start_time + pseudo_time : 0;
}
void PktSrc::Init()
{
Open();
}
void PktSrc::Done()
{
if ( IsOpen() )
Close();
}
void PktSrc::GetFds(iosource::FD_Set* read, iosource::FD_Set* write,
iosource::FD_Set* except)
{
if ( pseudo_realtime )
{
// Select would give erroneous results. But we simulate it
// by setting idle accordingly.
SetIdle(CheckPseudoTime() == 0);
return;
}
if ( IsOpen() && props.selectable_fd >= 0 )
read->Insert(props.selectable_fd);
}
double PktSrc::NextTimestamp(double* local_network_time)
{
if ( ! IsOpen() )
return -1.0;
if ( ! ExtractNextPacketInternal() )
return -1.0;
if ( pseudo_realtime )
{
// Delay packet if necessary.
double packet_time = CheckPseudoTime();
if ( packet_time )
return packet_time;
SetIdle(true);
return -1.0;
}
return current_packet.ts;
}
void PktSrc::Process()
{
if ( ! IsOpen() )
return;
if ( ! ExtractNextPacketInternal() )
return;
int pkt_hdr_size = props.hdr_size;
// Unfortunately some packets on the link might have MPLS labels
// while others don't. That means we need to ask the link-layer if
// labels are in place.
bool have_mpls = false;
int protocol = 0;
const u_char* data = current_packet.data;
switch ( props.link_type ) {
case DLT_NULL:
{
protocol = (data[3] << 24) + (data[2] << 16) + (data[1] << 8) + data[0];
// From the Wireshark Wiki: "AF_INET6, unfortunately, has
// different values in {NetBSD,OpenBSD,BSD/OS},
// {FreeBSD,DragonFlyBSD}, and {Darwin/Mac OS X}, so an IPv6
// packet might have a link-layer header with 24, 28, or 30
// as the AF_ value." As we may be reading traces captured on
// platforms other than what we're running on, we accept them
// all here.
if ( protocol != AF_INET
&& protocol != AF_INET6
&& protocol != 24
&& protocol != 28
&& protocol != 30 )
{
Weird("non_ip_packet_in_null_transport", &current_packet);
goto done;
}
break;
}
case DLT_EN10MB:
{
// Get protocol being carried from the ethernet frame.
protocol = (data[12] << 8) + data[13];
switch ( protocol )
{
// MPLS carried over the ethernet frame.
case 0x8847:
// Remove the data link layer and denote a
// header size of zero before the IP header.
have_mpls = true;
data += GetLinkHeaderSize(props.link_type);
pkt_hdr_size = 0;
break;
// VLAN carried over the ethernet frame.
case 0x8100:
data += GetLinkHeaderSize(props.link_type);
// Check for MPLS in VLAN.
if ( ((data[2] << 8) + data[3]) == 0x8847 )
have_mpls = true;
data += 4; // Skip the vlan header
pkt_hdr_size = 0;
// Check for 802.1ah (Q-in-Q) containing IP.
// Only do a second layer of vlan tag
// stripping because there is no
// specification that allows for deeper
// nesting.
if ( ((data[2] << 8) + data[3]) == 0x0800 )
data += 4;
break;
// PPPoE carried over the ethernet frame.
case 0x8864:
data += GetLinkHeaderSize(props.link_type);
protocol = (data[6] << 8) + data[7];
data += 8; // Skip the PPPoE session and PPP header
pkt_hdr_size = 0;
if ( protocol != 0x0021 && protocol != 0x0057 )
{
// Neither IPv4 nor IPv6.
Weird("non_ip_packet_in_pppoe_encapsulation", &current_packet);
goto done;
}
break;
}
break;
}
case DLT_PPP_SERIAL:
{
// Get PPP protocol.
protocol = (data[2] << 8) + data[3];
if ( protocol == 0x0281 )
{
// MPLS Unicast. Remove the data link layer and
// denote a header size of zero before the IP header.
have_mpls = true;
data += GetLinkHeaderSize(props.link_type);
pkt_hdr_size = 0;
}
else if ( protocol != 0x0021 && protocol != 0x0057 )
{
// Neither IPv4 nor IPv6.
Weird("non_ip_packet_in_ppp_encapsulation", &current_packet);
goto done;
}
break;
}
}
if ( have_mpls )
{
// Skip the MPLS label stack.
bool end_of_stack = false;
while ( ! end_of_stack )
{
end_of_stack = *(data + 2) & 0x01;
data += 4;
}
}
if ( pseudo_realtime )
{
current_pseudo = CheckPseudoTime();
net_packet_dispatch(current_pseudo, current_packet.hdr, data, pkt_hdr_size, this);
if ( ! first_wallclock )
first_wallclock = current_time(true);
}
else
net_packet_dispatch(current_packet.ts, current_packet.hdr, data, pkt_hdr_size, this);
done:
have_packet = 0;
DoneWithPacket();
}
const char* PktSrc::Tag()
{
return "PktSrc";
}
bool PktSrc::ExtractNextPacketInternal()
{
if ( have_packet )
return true;
have_packet = false;
// Don't return any packets if processing is suspended (except for the
// very first packet which we need to set up times).
if ( net_is_processing_suspended() && first_timestamp )
{
SetIdle(true);
return 0;
}
if ( pseudo_realtime )
current_wallclock = current_time(true);
if ( ExtractNextPacket(&current_packet) )
{
if ( ! first_timestamp )
first_timestamp = current_packet.ts;
SetIdle(false);
have_packet = true;
return 1;
}
if ( pseudo_realtime && using_communication && ! IsOpen() )
{
// Source has gone dry, we're done.
if ( remote_trace_sync_interval )
remote_serializer->SendFinalSyncPoint();
else
remote_serializer->Terminate();
}
SetIdle(true);
return 0;
}
bool PktSrc::PrecompileBPFFilter(int index, const std::string& filter)
{
if ( index < 0 )
return false;
char errbuf[PCAP_ERRBUF_SIZE];
// Compile filter.
BPF_Program* code = new BPF_Program();
if ( ! code->Compile(SnapLen(), LinkType(), filter.c_str(), Netmask(), errbuf, sizeof(errbuf)) )
{
string msg = fmt("cannot compile BPF filter \"%s\"", filter.c_str());
if ( *errbuf )
msg += ": " + string(errbuf);
Error(msg);
delete code;
return 0;
}
// Store it in hash.
HashKey* hash = new HashKey(HashKey(bro_int_t(index)));
BPF_Program* oldcode = filters.Lookup(hash);
if ( oldcode )
delete oldcode;
filters.Insert(hash, code);
delete hash;
return 1;
}
BPF_Program* PktSrc::GetBPFFilter(int index)
{
if ( index < 0 )
return 0;
HashKey* hash = new HashKey(HashKey(bro_int_t(index)));
BPF_Program* code = filters.Lookup(hash);
delete hash;
return code;
}
bool PktSrc::ApplyBPFFilter(int index, const struct pcap_pkthdr *hdr, const u_char *pkt)
{
BPF_Program* code = GetBPFFilter(index);
if ( ! code )
{
Error(fmt("BPF filter %d not compiled", index));
Close();
}
if ( code->MatchesAnything() )
return true;
return pcap_offline_filter(code->GetProgram(), hdr, pkt);
}
bool PktSrc::GetCurrentPacket(const pcap_pkthdr** hdr, const u_char** pkt)
{
if ( ! have_packet )
return false;
*hdr = current_packet.hdr;
*pkt = current_packet.data;
return true;
}

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// See the file "COPYING" in the main distribution directory for copyright.
#ifndef IOSOURCE_PKTSRC_PKTSRC_H
#define IOSOURCE_PKTSRC_PKTSRC_H
#include "IOSource.h"
#include "BPF_Program.h"
#include "Dict.h"
declare(PDict,BPF_Program);
namespace iosource {
/**
* Base class for packet sources.
*/
class PktSrc : public IOSource {
public:
/**
* Struct for returning statistics on a packet source.
*/
struct Stats {
/**
* Packets received by source after filtering (w/o drops).
*/
unsigned int received;
/**
* Packets dropped by source.
*/
unsigned int dropped; // pkts dropped
/**
* Total number of packets on link before filtering.
* Optional, can be left unset if not available.
*/
unsigned int link;
Stats() { received = dropped = link = 0; }
};
/**
* Constructor.
*/
PktSrc();
/**
* Destructor.
*/
virtual ~PktSrc();
/**
* Returns the path associated with the source. This is the interface
* name for live source, and a filename for offline sources.
*/
const std::string& Path() const;
/**
* Returns true if this is a live source.
*/
bool IsLive() const;
/**
* Returns the link type of the source.
*/
int LinkType() const;
/**
* Returns the netmask associated with the source, or \c
* PCAP_NETMASK_UNKNOWN if unknown.
*/
uint32 Netmask() const;
/**
* Returns true if the source has flagged an error.
*/
bool IsError() const;
/**
* If the source encountered an error, returns a corresponding error
* message. Returns an empty string otherwise.
*/
const char* ErrorMsg() const;
/**
* Returns the size of the link-layer header for this source.
*/
int HdrSize() const;
/**
* Returns the snap length for this source.
*/
int SnapLen() const;
/**
* In pseudo-realtime mode, returns the logical timestamp of the
* current packet. Undefined if not running pseudo-realtime mode.
*/
double CurrentPacketTimestamp();
/**
* In pseudo-realtime mode, returns the wall clock time associated
* with current packet. Undefined if not running pseudo-realtime
* mode.
*/
double CurrentPacketWallClock();
/**
* Signals packet source that processing is going to be continued
* after previous suspension.
*/
void ContinueAfterSuspend();
/**
* Precompiles a BPF filter and associates the given index with it.
* The compiled filter will be then available via \a GetBPFFilter().
*
* This is primarily a helper for packet source implementation that
* want to apply BPF filtering to their packets.
*
* @param index The index to associate with the filter.
*
* @param BPF filter The filter string to precompile.
*
* @return True on success, false if a problem occurred.
*/
bool PrecompileBPFFilter(int index, const std::string& filter);
/**
* Returns the precompiled BPF filter associated with a given index,
* if any, as compiled by \a PrecompileBPFFilter().
*
* This is primarily a helper for packet source implementation that
* want to apply BPF filtering to their packets.
*
* @return The BPF filter associated, or null if none has been
* (successfully) compiled.
*/
BPF_Program* GetBPFFilter(int index);
/**
* Applies a precompiled BPF filter to a packet. This will close the
* source with an error message if no filter with that index has been
* compiled.
*
* This is primarily a helper for packet source implementation that
* want to apply BPF filtering to their packets.
*
* @param index The index of the filter to apply.
*
* @param hdr The header of the packet to filter.
*
* @param pkt The content of the packet to filter.
*
* @return True if it maches. */
bool ApplyBPFFilter(int index, const struct pcap_pkthdr *hdr, const u_char *pkt);
/**
* Returns the packet currently being processed, if available.
*
* @param hdr A pointer to pass the header of the current packet back.
*
* @param pkt A pointer to pass the content of the current packet
* back.
*
* @return True if the current packet is available, or false if not.
*/
bool GetCurrentPacket(const pcap_pkthdr** hdr, const u_char** pkt);
// PacketSource interace for derived classes to override.
/**
* Precompiles a filter and associates a given index with it. The
* filter syntax is defined by the packet source's implenentation.
*
* Derived classes must implement this to implement their filtering.
* If they want to use BPF but don't support it natively, they can
* call the corresponding helper method provided by \a PktSrc.
*
* @param index The index to associate with the filter
*
* @param filter The filter string to precompile.
*
* @return True on success, false if a problem occurred or filtering
* is not supported.
*/
virtual bool PrecompileFilter(int index, const std::string& filter) = 0;
/**
* Activates a precompiled filter with the given index.
*
* Derived classes must implement this to implement their filtering.
* If they want to use BPF but don't support it natively, they can
* call the corresponding helper method provided by \a PktSrc.
*
* @param index The index of the filter to activate.
*
* @return True on success, false if a problem occurred or the
* filtering is not supported.
*/
virtual bool SetFilter(int index) = 0;
/**
* Returns current statistics about the source.
*
* Derived classes must implement this method.
*
* @param stats A statistics structure that the method fill out.
*/
virtual void Statistics(Stats* stats) = 0;
/**
* Helper method to return the header size for a given link tyoe.
*
* @param link_type The link tyoe.
*
* @return The header size in bytes.
*/
static int GetLinkHeaderSize(int link_type);
protected:
friend class Manager;
// Methods to use by derived classes.
/**
* Structure to pass back information about the packet source to the
* base class. Derived class pass an instance of this to \a Opened().
*/
struct Properties {
/**
* The path associated with the source. This is the interface
* name for live source, and a filename for offline sources.
*/
std::string path;
/**
* A file descriptor suitable to use with \a select() for
* determining if there's input available from this source.
*/
int selectable_fd;
/**
* The link type for packets from this source.
*/
int link_type;
/**
* The size of the link-layer header for packets from this
* source. \a GetLinkHeaderSize() may be used to derive this
* value.
*/
int hdr_size;
/**
* The netmask associated with the source, or \c
* PCAP_NETMASK_UNKNOWN if unknown.
*/
uint32 netmask;
/**
* True if the source is reading live inout, false for
* working offline.
*/
bool is_live;
Properties()
{
netmask = PCAP_NETMASK_UNKNOWN;
}
};
/**
* Structure describing a packet.
*/
struct Packet {
/**
* Time associated with the packet.
*/
double ts;
/**
* The pcap header associated with the packet.
*/
const struct ::pcap_pkthdr* hdr;
/**
* The full content of the packet.
*/
const u_char* data;
};
/**
* Called from the implementations of \a Open() to signal that the
* source has been successully opened.
*
* @param props A properties instance describing the now open source.
*/
void Opened(const Properties& props);
/**
* Called from the implementations of \a Close() to signal that the
* source has been closed.
*/
void Closed();
/**
* Can be called from derived classes to send an informational
* message to the user.
*
* @param msg The message to pass on.
*/
void Info(const std::string& msg);
/**
* Can be called from derived classes to flag send an error.
*
* @param msg The message going with the error.
*/
void Error(const std::string& msg);
/**
* Can be called from derived classes to flah a "weird" situation.
*
* @param msg The message to pass on.
*
* @param pkt The packet associated with the weird, or null if none.
*/
void Weird(const std::string& msg, const Packet* pkt);
/**
* Can be called from derived classes to flag an internal error,
* which will abort execution.
*
* @param msg The message to pass on.
*/
void InternalError(const std::string& msg);
// PktSrc interface for derived classes to implement.
/**
* Called by the manager system to open the source.
*
* Derived classes must implement this method. If successful, the
* implementation must call \a Opened(); if not, it must call Error()
* with a corresponding message.
*/
virtual void Open() = 0;
/**
* Called by the manager system to close the source.
*
* Derived classes must implement this method. If successful, the
* implementation must call \a Closed(); if not, it must call Error()
* with a corresponding message.
*/
virtual void Close() = 0;
/**
* Provides the next packet from the source.
*
* @param pkt The packet structure to fill in with the packet's
* information. The callee keep ownership of the data but must
* guaranetee that it stays available at least until \a
* DoneWithPacket() is called. It is guaranteed that no two calls to
* this method will hapen with \a DoneWithPacket() in between.
*
* @return True if a packet is available and *pkt* filled in. False
* if not packet is available or an error occured (which must be
* flageed via Error()).
*/
virtual bool ExtractNextPacket(Packet* pkt) = 0;
/**
* Signals that the data of previously extracted packet will no
* longer be needed.
*/
virtual void DoneWithPacket() = 0;
private:
// Checks if the current packet has a pseudo-time <= current_time. If
// yes, returns pseudo-time, otherwise 0.
double CheckPseudoTime();
// Internal helper for ExtractNextPacket().
bool ExtractNextPacketInternal();
// IOSource interface implementation.
virtual void Init();
virtual void Done();
virtual void GetFds(iosource::FD_Set* read, iosource::FD_Set* write,
iosource::FD_Set* except);
virtual double NextTimestamp(double* local_network_time);
virtual void Process();
virtual const char* Tag();
Properties props;
bool have_packet;
Packet current_packet;
// For BPF filtering support.
PDict(BPF_Program) filters;
// Only set in pseudo-realtime mode.
double first_timestamp;
double first_wallclock;
double current_wallclock;
double current_pseudo;
double next_sync_point; // For trace synchronziation in pseudo-realtime
std::string errbuf;
};
}
#endif

104
src/iosource/pcap.bif Normal file
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@ -0,0 +1,104 @@
## Precompiles a PCAP filter and binds it to a given identifier.
##
## id: The PCAP identifier to reference the filter *s* later on.
##
## s: The PCAP filter. See ``man tcpdump`` for valid expressions.
##
## Returns: True if *s* is valid and precompiles successfully.
##
## .. bro:see:: install_pcap_filter
## install_src_addr_filter
## install_src_net_filter
## uninstall_src_addr_filter
## uninstall_src_net_filter
## install_dst_addr_filter
## install_dst_net_filter
## uninstall_dst_addr_filter
## uninstall_dst_net_filter
## pcap_error
function precompile_pcap_filter%(id: PcapFilterID, s: string%): bool
%{
bool success = true;
const iosource::Manager::PktSrcList& pkt_srcs(iosource_mgr->GetPktSrcs());
for ( iosource::Manager::PktSrcList::const_iterator i = pkt_srcs.begin();
i != pkt_srcs.end(); i++ )
{
iosource::PktSrc* ps = *i;
if ( ! ps->PrecompileFilter(id->ForceAsInt(),
s->CheckString()) )
success = false;
}
return new Val(success, TYPE_BOOL);
%}
## Installs a PCAP filter that has been precompiled with
## :bro:id:`precompile_pcap_filter`.
##
## id: The PCAP filter id of a precompiled filter.
##
## Returns: True if the filter associated with *id* has been installed
## successfully.
##
## .. bro:see:: precompile_pcap_filter
## install_src_addr_filter
## install_src_net_filter
## uninstall_src_addr_filter
## uninstall_src_net_filter
## install_dst_addr_filter
## install_dst_net_filter
## uninstall_dst_addr_filter
## uninstall_dst_net_filter
## pcap_error
function install_pcap_filter%(id: PcapFilterID%): bool
%{
bool success = true;
const iosource::Manager::PktSrcList& pkt_srcs(iosource_mgr->GetPktSrcs());
for ( iosource::Manager::PktSrcList::const_iterator i = pkt_srcs.begin();
i != pkt_srcs.end(); i++ )
{
iosource::PktSrc* ps = *i;
if ( ! ps->SetFilter(id->ForceAsInt()) )
success = false;
}
return new Val(success, TYPE_BOOL);
%}
## Returns a string representation of the last PCAP error.
##
## Returns: A descriptive error message of the PCAP function that failed.
##
## .. bro:see:: precompile_pcap_filter
## install_pcap_filter
## install_src_addr_filter
## install_src_net_filter
## uninstall_src_addr_filter
## uninstall_src_net_filter
## install_dst_addr_filter
## install_dst_net_filter
## uninstall_dst_addr_filter
## uninstall_dst_net_filter
function pcap_error%(%): string
%{
const iosource::Manager::PktSrcList& pkt_srcs(iosource_mgr->GetPktSrcs());
for ( iosource::Manager::PktSrcList::const_iterator i = pkt_srcs.begin();
i != pkt_srcs.end(); i++ )
{
iosource::PktSrc* ps = *i;
const char* err = ps->ErrorMsg();
if ( *err )
return new StringVal(err);
}
return new StringVal("no error");
%}

8
src/iosource/pcap/CMakeLists.txt Normal file
View file

@ -0,0 +1,8 @@
include(BroPlugin)
include_directories(BEFORE ${CMAKE_CURRENT_SOURCE_DIR} ${CMAKE_CURRENT_BINARY_DIR})
bro_plugin_begin(Bro Pcap)
bro_plugin_cc(Source.cc Dumper.cc Plugin.cc)
bro_plugin_end()

112
src/iosource/pcap/Dumper.cc Normal file
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@ -0,0 +1,112 @@
// See the file "COPYING" in the main distribution directory for copyright.
#include <sys/stat.h>
#include <errno.h>
#include "Dumper.h"
#include "../PktSrc.h"
#include "../../Net.h"
using namespace iosource::pcap;
PcapDumper::PcapDumper(const std::string& path, bool arg_append)
{
append = arg_append;
props.path = path;
dumper = 0;
pd = 0;
}
PcapDumper::~PcapDumper()
{
}
void PcapDumper::Open()
{
int linktype = -1;
pd = pcap_open_dead(DLT_EN10MB, snaplen);
if ( ! pd )
{
Error("error for pcap_open_dead");
return;
}
if ( props.path.empty() )
{
Error("no filename given");
return;
}
struct stat s;
int exists = 0;
if ( append )
{
// See if output file already exists (and is non-empty).
exists = stat(props.path.c_str(), &s); ;
if ( exists < 0 && errno != ENOENT )
{
Error(fmt("can't stat file %s: %s", props.path.c_str(), strerror(errno)));
return;
}
}
if ( ! append || exists < 0 || s.st_size == 0 )
{
// Open new file.
dumper = pcap_dump_open(pd, props.path.c_str());
if ( ! dumper )
{
Error(pcap_geterr(pd));
return;
}
}
else
{
// Old file and we need to append, which, unfortunately,
// is not supported by libpcap. So, we have to hack a
// little bit, knowing that pcap_dumpter_t is, in fact,
// a FILE ... :-(
dumper = (pcap_dumper_t*) fopen(props.path.c_str(), "a");
if ( ! dumper )
{
Error(fmt("can't open dump %s: %s", props.path.c_str(), strerror(errno)));
return;
}
}
props.open_time = network_time;
props.hdr_size = PktSrc::GetLinkHeaderSize(pcap_datalink(pd));
Opened(props);
}
void PcapDumper::Close()
{
if ( ! dumper )
return;
pcap_dump_close(dumper);
pcap_close(pd);
dumper = 0;
pd = 0;
Closed();
}
bool PcapDumper::Dump(const Packet* pkt)
{
if ( ! dumper )
return false;
pcap_dump((u_char*) dumper, pkt->hdr, pkt->data);
return true;
}
iosource::PktDumper* PcapDumper::Instantiate(const std::string& path, bool append)
{
return new PcapDumper(path, append);
}

41
src/iosource/pcap/Dumper.h Normal file
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@ -0,0 +1,41 @@
// See the file in the main distribution directory for copyright.
#ifndef IOSOURCE_PKTSRC_PCAP_DUMPER_H
#define IOSOURCE_PKTSRC_PCAP_DUMPER_H
extern "C" {
#include <pcap.h>
}
#include "../PktDumper.h"
namespace iosource {
namespace pcap {
class PcapDumper : public PktDumper {
public:
PcapDumper(const std::string& path, bool append);
virtual ~PcapDumper();
static PktDumper* Instantiate(const std::string& path, bool appen);
protected:
// PktDumper interface.
virtual void Open();
virtual void Close();
virtual bool Dump(const Packet* pkt);
private:
Properties props;
bool append;
pcap_dumper_t* dumper;
pcap_t* pd;
};
}
}
#endif

27
src/iosource/pcap/Plugin.cc Normal file
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@ -0,0 +1,27 @@
// See the file in the main distribution directory for copyright.
#include "plugin/Plugin.h"
#include "Source.h"
#include "Dumper.h"
namespace plugin {
namespace Bro_Pcap {
class Plugin : public plugin::Plugin {
public:
plugin::Configuration Configure()
{
AddComponent(new ::iosource::PktSrcComponent("PcapReader", "pcap", ::iosource::PktSrcComponent::BOTH, ::iosource::pcap::PcapSource::Instantiate));
AddComponent(new ::iosource::PktDumperComponent("PcapWriter", "pcap", ::iosource::pcap::PcapDumper::Instantiate));
plugin::Configuration config;
config.name = "Bro::Pcap";
config.description = "Packet aquisition via libpcap";
return config;
}
} plugin;
}
}

272
src/iosource/pcap/Source.cc Normal file
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@ -0,0 +1,272 @@
// See the file in the main distribution directory for copyright.
#include <assert.h>
#include "config.h"
#include "Source.h"
#ifdef HAVE_PCAP_INT_H
#include <pcap-int.h>
#endif
using namespace iosource::pcap;
PcapSource::~PcapSource()
{
Close();
}
PcapSource::PcapSource(const std::string& path, bool is_live)
{
props.path = path;
props.is_live = is_live;
last_data = 0;
}
void PcapSource::Open()
{
if ( props.is_live )
OpenLive();
else
OpenOffline();
}
void PcapSource::Close()
{
if ( ! pd )
return;
pcap_close(pd);
pd = 0;
last_data = 0;
Closed();
}
void PcapSource::OpenLive()
{
char errbuf[PCAP_ERRBUF_SIZE];
char tmp_errbuf[PCAP_ERRBUF_SIZE];
// Determine interface if not specified.
if ( props.path.empty() )
props.path = pcap_lookupdev(tmp_errbuf);
if ( props.path.empty() )
{
safe_snprintf(errbuf, sizeof(errbuf),
"pcap_lookupdev: %s", tmp_errbuf);
Error(errbuf);
return;
}
// Determine network and netmask.
uint32 net;
if ( pcap_lookupnet(props.path.c_str(), &net, &props.netmask, tmp_errbuf) < 0 )
{
// ### The lookup can fail if no address is assigned to
// the interface; and libpcap doesn't have any useful notion
// of error codes, just error std::strings - how bogus - so we
// just kludge around the error :-(.
// sprintf(errbuf, "pcap_lookupnet %s", tmp_errbuf);
// return;
props.netmask = 0xffffff00;
}
// We use the smallest time-out possible to return almost immediately if
// no packets are available. (We can't use set_nonblocking() as it's
// broken on FreeBSD: even when select() indicates that we can read
// something, we may get nothing if the store buffer hasn't filled up
// yet.)
pd = pcap_open_live(props.path.c_str(), SnapLen(), 1, 1, tmp_errbuf);
if ( ! pd )
{
Error(tmp_errbuf);
return;
}
// ### This needs autoconf'ing.
#ifdef HAVE_PCAP_INT_H
Info(fmt("pcap bufsize = %d\n", ((struct pcap *) pd)->bufsize));
#endif
#ifdef HAVE_LINUX
if ( pcap_setnonblock(pd, 1, tmp_errbuf) < 0 )
{
PcapError();
return;
}
#endif
props.selectable_fd = pcap_fileno(pd);
SetHdrSize();
if ( ! pd )
// Was closed, couldn't get header size.
return;
props.is_live = true;
Opened(props);
}
void PcapSource::OpenOffline()
{
char errbuf[PCAP_ERRBUF_SIZE];
pd = pcap_open_offline(props.path.c_str(), errbuf);
if ( ! pd )
{
Error(errbuf);
return;
}
SetHdrSize();
if ( ! pd )
// Was closed, unknown link layer type.
return;
props.selectable_fd = fileno(pcap_file(pd));
if ( props.selectable_fd < 0 )
InternalError("OS does not support selectable pcap fd");
props.is_live = false;
Opened(props);
}
bool PcapSource::ExtractNextPacket(Packet* pkt)
{
if ( ! pd )
return false;
const u_char* data = pcap_next(pd, &current_hdr);
if ( ! data )
{
// Source has gone dry. If it's a network interface, this just means
// it's timed out. If it's a file, though, then the file has been
// exhausted.
if ( ! props.is_live )
Close();
return false;
}
pkt->ts = current_hdr.ts.tv_sec + double(current_hdr.ts.tv_usec) / 1e6;
pkt->hdr = &current_hdr;
pkt->data = last_data = data;
if ( current_hdr.len == 0 || current_hdr.caplen == 0 )
{
Weird("empty_pcap_header", pkt);
return false;
}
last_hdr = current_hdr;
last_data = data;
++stats.received;
return true;
}
void PcapSource::DoneWithPacket()
{
// Nothing to do.
}
bool PcapSource::PrecompileFilter(int index, const std::string& filter)
{
return PktSrc::PrecompileBPFFilter(index, filter);
}
bool PcapSource::SetFilter(int index)
{
if ( ! pd )
return true; // Prevent error message
char errbuf[PCAP_ERRBUF_SIZE];
BPF_Program* code = GetBPFFilter(index);
if ( ! code )
{
safe_snprintf(errbuf, sizeof(errbuf),
"No precompiled pcap filter for index %d",
index);
Error(errbuf);
return false;
}
if ( pcap_setfilter(pd, code->GetProgram()) < 0 )
{
PcapError();
return false;
}
#ifndef HAVE_LINUX
// Linux doesn't clear counters when resetting filter.
stats.received = stats.dropped = stats.link = 0;
#endif
return true;
}
void PcapSource::Statistics(Stats* s)
{
char errbuf[PCAP_ERRBUF_SIZE];
if ( ! (props.is_live && pd) )
s->received = s->dropped = s->link = 0;
else
{
struct pcap_stat pstat;
if ( pcap_stats(pd, &pstat) < 0 )
{
PcapError();
s->received = s->dropped = s->link = 0;
}
else
{
s->dropped = pstat.ps_drop;
s->link = pstat.ps_recv;
}
}
s->received = stats.received;
if ( ! props.is_live )
s->dropped = 0;
}
void PcapSource::PcapError()
{
if ( pd )
Error(fmt("pcap_error: %s", pcap_geterr(pd)));
else
Error("pcap_error: not open");
Close();
}
void PcapSource::SetHdrSize()
{
if ( ! pd )
return;
char errbuf[PCAP_ERRBUF_SIZE];
props.link_type = pcap_datalink(pd);
props.hdr_size = GetLinkHeaderSize(props.link_type);
}
iosource::PktSrc* PcapSource::Instantiate(const std::string& path, bool is_live)
{
return new PcapSource(path, is_live);
}

47
src/iosource/pcap/Source.h Normal file
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@ -0,0 +1,47 @@
// See the file "COPYING" in the main distribution directory for copyright.
#ifndef IOSOURCE_PKTSRC_PCAP_SOURCE_H
#define IOSOURCE_PKTSRC_PCAP_SOURCE_H
#include "../PktSrc.h"
namespace iosource {
namespace pcap {
class PcapSource : public iosource::PktSrc {
public:
PcapSource(const std::string& path, bool is_live);
virtual ~PcapSource();
static PktSrc* Instantiate(const std::string& path, bool is_live);
protected:
// PktSrc interface.
virtual void Open();
virtual void Close();
virtual bool ExtractNextPacket(Packet* pkt);
virtual void DoneWithPacket();
virtual bool PrecompileFilter(int index, const std::string& filter);
virtual bool SetFilter(int index);
virtual void Statistics(Stats* stats);
private:
void OpenLive();
void OpenOffline();
void PcapError();
void SetHdrSize();
Properties props;
Stats stats;
pcap_t *pd;
struct pcap_pkthdr current_hdr;
struct pcap_pkthdr last_hdr;
const u_char* last_data;
};
}
}
#endif

57
src/main.cc
View file

@ -57,6 +57,7 @@ extern "C" void OPENSSL_add_all_algorithms_conf(void);
#include "plugin/Manager.h"
#include "file_analysis/Manager.h"
#include "broxygen/Manager.h"
#include "iosource/Manager.h"
#include "binpac_bro.h"
@ -92,6 +93,7 @@ plugin::Manager* plugin_mgr = 0;
analyzer::Manager* analyzer_mgr = 0;
file_analysis::Manager* file_mgr = 0;
broxygen::Manager* broxygen_mgr = 0;
iosource::Manager* iosource_mgr = 0;
Stmt* stmts;
EventHandlerPtr net_done = 0;
RuleMatcher* rule_matcher = 0;
@ -108,7 +110,6 @@ int signal_val = 0;
int optimize = 0;
int do_notice_analysis = 0;
int rule_bench = 0;
SecondaryPath* secondary_path = 0;
extern char version[];
char* command_line_policy = 0;
vector<string> params;
@ -340,6 +341,10 @@ void terminate_bro()
terminating = true;
// File analysis termination may produce events, so do it early on in
// the termination process.
file_mgr->Terminate();
brofiler.WriteStats();
EventHandlerPtr bro_done = internal_handler("bro_done");
@ -364,7 +369,6 @@ void terminate_bro()
mgr.Drain();
file_mgr->Terminate();
log_mgr->Terminate();
input_mgr->Terminate();
thread_mgr->Terminate();
@ -375,20 +379,16 @@ void terminate_bro()
delete broxygen_mgr;
delete timer_mgr;
delete dns_mgr;
delete persistence_serializer;
delete event_player;
delete event_serializer;
delete state_serializer;
delete event_registry;
delete secondary_path;
delete remote_serializer;
delete analyzer_mgr;
delete file_mgr;
delete log_mgr;
delete plugin_mgr;
delete thread_mgr;
delete reporter;
delete iosource_mgr;
reporter = 0;
}
@ -448,8 +448,6 @@ int main(int argc, char** argv)
name_list interfaces;
name_list read_files;
name_list netflows;
name_list flow_files;
name_list rule_files;
char* bst_file = 0;
char* id_name = 0;
@ -551,7 +549,7 @@ int main(int argc, char** argv)
opterr = 0;
char opts[256];
safe_strncpy(opts, "B:D:e:f:I:i:K:l:n:p:R:r:s:T:t:U:w:x:X:y:Y:z:CFGLNOPSWabdghvZQ",
safe_strncpy(opts, "B:D:e:f:I:i:K:l:n:p:R:r:s:T:t:U:w:x:X:z:CFGLNOPSWabdghvZQ",
sizeof(opts));
#ifdef USE_PERFTOOLS_DEBUG
@ -611,10 +609,6 @@ int main(int argc, char** argv)
writefile = optarg;
break;
case 'y':
flow_files.append(optarg);
break;
case 'z':
if ( streq(optarg, "notice") )
do_notice_analysis = 1;
@ -708,10 +702,6 @@ int main(int argc, char** argv)
do_watchdog = 1;
break;
case 'Y':
netflows.append(optarg);
break;
case 'h':
usage();
break;
@ -799,8 +789,7 @@ int main(int argc, char** argv)
// seed the PRNG. We should do this here (but at least Linux, FreeBSD
// and Solaris provide /dev/urandom).
if ( (interfaces.length() > 0 || netflows.length() > 0) &&
(read_files.length() > 0 || flow_files.length() > 0 ))
if ( interfaces.length() > 0 && read_files.length() > 0 )
usage();
#ifdef USE_IDMEF
@ -823,7 +812,7 @@ int main(int argc, char** argv)
plugin_mgr->SearchDynamicPlugins(bro_plugin_path());
if ( optind == argc &&
read_files.length() == 0 && flow_files.length() == 0 &&
read_files.length() == 0 &&
interfaces.length() == 0 &&
! (id_name || bst_file) && ! command_line_policy && ! print_plugins )
add_input_file("-");
@ -850,6 +839,7 @@ int main(int argc, char** argv)
// policy, but we can't parse policy without DNS resolution.
dns_mgr->SetDir(".state");
iosource_mgr = new iosource::Manager();
persistence_serializer = new PersistenceSerializer();
remote_serializer = new RemoteSerializer();
event_registry = new EventRegistry();
@ -863,9 +853,17 @@ int main(int argc, char** argv)
file_mgr->InitPreScript();
broxygen_mgr->InitPreScript();
bool missing_plugin = false;
for ( set<string>::const_iterator i = requested_plugins.begin();
i != requested_plugins.end(); i++ )
plugin_mgr->ActivateDynamicPlugin(*i);
{
if ( ! plugin_mgr->ActivateDynamicPlugin(*i) )
missing_plugin = true;
}
if ( missing_plugin )
reporter->FatalError("Failed to activate requested dynamic plugin(s).");
plugin_mgr->ActivateDynamicPlugins(! bare_mode);
@ -916,6 +914,7 @@ int main(int argc, char** argv)
analyzer_mgr->InitPostScript();
file_mgr->InitPostScript();
dns_mgr->InitPostScript();
if ( parse_only )
{
@ -981,8 +980,7 @@ int main(int argc, char** argv)
// ### Add support for debug command file.
dbg_init_debugger(0);
if ( (flow_files.length() == 0 || read_files.length() == 0) &&
(netflows.length() == 0 || interfaces.length() == 0) )
if ( read_files.length() == 0 && interfaces.length() == 0 )
{
Val* interfaces_val = internal_val("interfaces");
if ( interfaces_val )
@ -999,13 +997,8 @@ int main(int argc, char** argv)
snaplen = internal_val("snaplen")->AsCount();
// Initialize the secondary path, if it's needed.
secondary_path = new SecondaryPath();
if ( dns_type != DNS_PRIME )
net_init(interfaces, read_files, netflows, flow_files,
writefile, "",
secondary_path->Filter(), do_watchdog);
net_init(interfaces, read_files, writefile, do_watchdog);
BroFile::SetDefaultRotation(log_rotate_interval, log_max_size);
@ -1164,9 +1157,9 @@ int main(int argc, char** argv)
have_pending_timers = ! reading_traces && timer_mgr->Size() > 0;
io_sources.Register(thread_mgr, true);
iosource_mgr->Register(thread_mgr, true);
if ( io_sources.Size() > 0 ||
if ( iosource_mgr->Size() > 0 ||
have_pending_timers ||
BifConst::exit_only_after_terminate )
{

12
src/plugin/Component.cc
View file

@ -50,6 +50,18 @@ void Component::Describe(ODesc* d) const
d->Add("File Analyzer");
break;
case component::IOSOURCE:
d->Add("I/O Source");
break;
case component::PKTSRC:
d->Add("Packet Source");
break;
case component::PKTDUMPER:
d->Add("Packet Dumper");
break;
default:
reporter->InternalWarning("unknown component type in plugin::Component::Describe");
d->Add("<unknown component type>");

5
src/plugin/Component.h
View file

@ -18,7 +18,10 @@ enum Type {
READER, /// An input reader (not currently used).
WRITER, /// A logging writer (not currenly used).
ANALYZER, /// A protocol analyzer.
FILE_ANALYZER /// A file analyzer.
FILE_ANALYZER, /// A file analyzer.
IOSOURCE, /// An I/O source, excluding packet sources.
PKTSRC, /// A packet source.
PKTDUMPER /// A packet dumper.
};
}

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