22. Interacting via Unix Socket
22.1. Introduction
Suricata can listen to a unix socket and accept commands from the user. The exchange protocol is JSON-based and the format of the message is generic.
An example script called suricatasc
is provided in the source and installed
automatically when installing/updating Suricata.
The unix socket is always enabled by default.
You'll need to have JSON support in Python:
python-simplejson - simple, fast, extensible JSON encoder/decoder for Python
Debian/Ubuntu:
apt-get install python-simplejson
The creation of the socket is managed by setting enabled to 'yes' or 'auto' under unix-command in Suricata YAML configuration file:
unix-command:
enabled: yes
#filename: custom.socket # use this to specify an alternate file
The filename
variable can be used to set an alternate socket
filename. The filename is always relative to the local state base
directory.
Clients are implemented for some programming languages and can be used as code example to write custom scripts:
Python: https://github.com/OISF/suricata/blob/master/python/suricata/sc/suricatasc.py (provided with Suricata and used in this document)
Perl: https://github.com/aflab/suricatac (a simple Perl client with interactive mode)
C: https://github.com/regit/SuricataC (a Unix socket mode client in C without interactive mode)
22.2. Commands in standard running mode
Runnable script for suricatasc is available in python/bin directory of suricata. You can run it with the following commands.
cd python
sudo ./bin/suricatasc
The set of existing commands is the following:
command-list: list available commands
shutdown: shutdown Suricata
iface-list: list interfaces where Suricata is sniffing packets
iface-stat: list statistics for an interface
help: alias of command-list
version: display Suricata's version
uptime: display Suricata's uptime
running-mode: display running mode (workers, autofp, simple)
capture-mode: display capture system used
conf-get: get configuration item (see example below)
dump-counters: dump Suricata's performance counters
reopen-log-files: reopen log files (to be run after external log rotation)
ruleset-reload-rules: reload ruleset and wait for completion
ruleset-reload-nonblocking: reload ruleset and proceed without waiting
ruleset-reload-time: return time of last reload
ruleset-stats: display the number of rules loaded and failed
ruleset-failed-rules: display the list of failed rules
memcap-set: update memcap value of the specified item
memcap-show: show memcap value of the specified item
memcap-list: list all memcap values available
reload-rules: alias of ruleset-reload-rules
register-tenant-handler: register a tenant handler with the specified mapping
unregister-tenant-handler: unregister a tenant handler with the specified mapping
register-tenant: register tenant with a particular ID and filename
unregister-tenant: unregister tenant with a particular ID
reload-tenant: reload a tenant with specified ID and filename
add-hostbit: add hostbit on a host IP with a particular bit name and time of expiry
remove-hostbit: remove hostbit on a host IP with specified bit name
list-hostbit: list hostbit for a particular host IP
You can access these commands with the provided example suricatasc
script.
A typical session with suricatasc
looks like:
# suricatasc
Command list: shutdown, command-list, help, version, uptime, running-mode, capture-mode, conf-get, dump-counters, iface-stat, iface-list, quit
>>> iface-list
Success: {'count': 2, 'ifaces': ['eth0', 'eth1']}
>>> iface-stat eth0
Success: {'pkts': 378, 'drop': 0, 'invalid-checksums': 0}
>>> conf-get unix-command.enabled
Success:
"yes"
22.3. Commands on the cmd prompt
You can use suricatasc
directly on the command prompt:
root@debian64:~# suricatasc -c version
{'message': '5.0.3 RELEASE', 'return': 'OK'}
root@debian64:~#
root@debian64:~# suricatasc -c uptime
{'message': 35264, 'return': 'OK'}
root@debian64:~#
NOTE: You need to quote commands with more than one argument:
root@debian64:~# suricatasc -c "iface-stat eth0"
{'message': {'pkts': 5110429, 'drop': 0, 'invalid-checksums': 0}, 'return': 'OK'}
root@debian64:~#
22.4. PCAP processing mode
This mode is one of main motivations behind this code. The idea is to be able to provide different pcap files to Suricata without having to restart Suricata for each file. This saves time since you don't need to wait for the signature engine to initialize.
To use this mode, start Suricata with your preferred configuration YAML file and
provide the option --unix-socket
as argument:
suricata -c /etc/suricata-full-sigs.yaml --unix-socket
It is also possible to specify the socket filename as an argument:
suricata --unix-socket=custom.socket
In this last case, you will need to provide the complete path to the
socket to suricatasc
. To do so, you need to pass the filename as
first argument of suricatasc
:
suricatasc custom.socket
Once Suricata is started, you can use suricatasc
to connect to the
command socket and provide different pcap files:
root@tiger:~# suricatasc
>>> pcap-file /home/benches/file1.pcap /tmp/file1
Success: Successfully added file to list
>>> pcap-file /home/benches/file2.pcap /tmp/file2
Success: Successfully added file to list
>>> pcap-file-continuous /home/pcaps /tmp/dirout
Success: Successfully added file to list
You can add multiple files without waiting for each to be processed; they will be
sequentially processed and the generated log/alert files will be put
into the directory specified as second argument of the pcap-file
command. You need to provide an absolute path to the files and directory
as Suricata doesn't know from where the script has been run. If you pass
a directory instead of a file, all files in the directory will be processed. If
using pcap-file-continuous
and passing in a directory, the directory will
be monitored for new files being added until you use pcap-interrupt
or
delete/move the directory.
To display how many files are waiting to get processed, you can do:
>>> pcap-file-number
Success: 3
To display the list of queued files, do:
>>> pcap-file-list
Success: {'count': 2, 'files': ['/home/benches/file1.pcap', '/home/benches/file2.pcap']}
To display current processed file:
>>> pcap-current
Success:
"/tmp/test.pcap"
When passing in a directory, you can see last processed time (modified time of last file) in milliseconds since epoch:
>>> pcap-last-processed
Success:
1509138964000
To interrupt directory processing which terminates the current state:
>>> pcap-interrupt
Success:
"Interrupted"
22.5. Build your own client
The protocol is documented in the following page https://redmine.openinfosecfoundation.org/projects/suricata/wiki/Unix_Socket#Protocol
The following session show what is sent (SND) and received (RCV) by the server. Initial negotiation is the following:
# suricatasc
SND: {"version": "0.1"}
RCV: {"return": "OK"}
Once this is done, commands can be issued:
>>> iface-list
SND: {"command": "iface-list"}
RCV: {"message": {"count": 1, "ifaces": ["wlan0"]}, "return": "OK"}
Success: {'count': 1, 'ifaces': ['wlan0']}
>>> iface-stat wlan0
SND: {"command": "iface-stat", "arguments": {"iface": "wlan0"}}
RCV: {"message": {"pkts": 41508, "drop": 0, "invalid-checksums": 0}, "return": "OK"}
Success: {'pkts': 41508, 'drop': 0, 'invalid-checksums': 0}
In pcap-file mode, this gives:
>>> pcap-file /home/eric/git/oisf/benches/sandnet.pcap /tmp/bench
SND: {"command": "pcap-file", "arguments": {"output-dir": "/tmp/bench", "filename": "/home/eric/git/oisf/benches/sandnet.pcap"}}
RCV: {"message": "Successfully added file to list", "return": "OK"}
Success: Successfully added file to list
>>> pcap-file-number
SND: {"command": "pcap-file-number"}
RCV: {"message": 1, "return": "OK"}
>>> pcap-file-list
SND: {"command": "pcap-file-list"}
RCV: {"message": {"count": 1, "files": ["/home/eric/git/oisf/benches/sandnet.pcap"]}, "return": "OK"}
Success: {'count': 1, 'files': ['/home/eric/git/oisf/benches/sandnet.pcap']}
>>> pcap-file-continuous /home/eric/git/oisf/benches /tmp/bench 0 true
SND: {"command": "pcap-file", "arguments": {"output-dir": "/tmp/bench", "filename": "/home/eric/git/oisf/benches/sandnet.pcap", "tenant": 0, "delete-when-done": true}}
RCV: {"message": "Successfully added file to list", "return": "OK"}
Success: Successfully added file to list
There is one thing to be careful about: a Suricata message is sent in multiple send operations. This result in possible incomplete read on client side. The worse workaround is to sleep a bit before trying a recv call. An other solution is to use non blocking socket and retry a recv if the previous one has failed.
Pcap-file json format is:
{
"command": "pcap-file",
"arguments": {
"output-dir": "path to output dir",
"filename": "path to file or directory to run",
"tenant": 0,
"continuous": false,
"delete-when-done": false
}
}
output-dir and filename are required. tenant is optional and should be a number, indicating which tenant the file or directory should run under. continuous is optional and should be true/false, indicating that file or directory should be run until pcap-interrupt is sent or ctrl-c is invoked. delete-when-done is optional and should be true/false, indicating that the file or files under the directory specified by filename should be deleted when processing is complete. delete-when-done defaults to false, indicating files will be kept after processing.