File extraction in Suricata

Posted on Nov 29, 2011

Today I pushed out a new feature in Suricata I’m very excited about. It has been long in the making and with over 6000 new lines of code it’s a significant effort. It’s available in the current git master. I’d consider it alpha quality, so handle with care.

So what is this all about? Simply put, we can now extract files from HTTP streams in Suricata. Both uploads and downloads. Fully controlled by the rule language. But thats not all. I’ve added a touch of magic. By utilizing libmagic (this powers the “file” command), we know the file type of files as well. Lots of interesting stuff that can be done there.

Rule keywords

Four new rule keywords were added: filename, fileext, filemagic and filestore.

Filename and fileext are pretty trivial: match on the full name or file extension of a file.

alert http any any -> any any (filename:“secret.xls”;) alert http any any -> any any (fileext:“pdf”;)

More interesting is the filemagic keyword. It runs on the magic output of inspecting the (start of) a file. This value is for example:

GIF image data, version 89a, 1 x 1 PE32 executable for MS Windows (GUI) Intel 80386 32-bit HTML document text Macromedia Flash data (compressed), version 9 MS Windows icon resource - 2 icons, 16x16, 256-colors PNG image data, 70 x 53, 8-bit/color RGBA, non-interlaced JPEG image data, JFIF standard 1.01 PDF document, version 1.6

So how the filemagic keyword allows you to match on this is pretty simple:

alert http any any -> any any (filemagic:“PDF document”;) alert http any any -> any any (filemagic:“PDF document, version 1.6”;)

Pretty cool, eh? You can match both very specifically and loosely. For example:

alert http any any -> any any (filemagic:“executable for MS Windows”;)

Will match on (among others) these types:

PE32 executable for MS Windows (DLL) (GUI) Intel 80386 32-bit PE32 executable for MS Windows (GUI) Intel 80386 32-bit PE32+ executable for MS Windows (GUI) Mono/.Net assembly

Finally there is the filestore keyword. It is the simplest of all: if the rule matches, the files will be written to disk.

Naturally you can combine the file keywords with the regular HTTP keywords, limiting to POST’s for example:

alert http $EXTERNAL_NET any -> $HOME_NET any (msg:“pdf upload claimed, but not pdf”; flow:established,to_server; content:“POST”; http_method; fileext:“pdf”; filemagic:!“PDF document”; filestore; sid:1; rev:1;)

This will alert on and store all files that are uploaded using a POST request that have a filename extension of pdf, but the actual file is not pdf.

Storage

The storage to disk is handled by a new output module called “file”. It’s config looks like this: enabled: yes # set to yes to enable log-dir: files # directory to store the files force-magic: no # force logging magic on all stored files

It needs to be enabled for file storing to work.

The files are stored to disk as “file.1”, “file.2”, etc. For each of the files a meta file is created containing the flow information, file name, size, etc. Example: TIME: 01/27/2010-17:41:11.579196 PCAP PKT NUM: 2847035 SRC IP: 68.142.93.214 DST IP: 10.7.185.57 PROTO: 6 SRC PORT: 80 DST PORT: 56207 FILENAME: /msdownload/update/software/defu/2010/01/mpas-fe_7af9217bac55e4a6f71c989231e424a9e3d9055b.exe MAGIC: PE32+ executable for MS Windows (GUI) Mono/.Net assembly STATE: CLOSED SIZE: 5204 Configuration

The file extraction is for HTTP only currently, and works on top of our HTTP parser. As the HTTP parser runs on top of the stream reassembly engine, configuration parameters of both these parts of Suricata affect handling of files.

The stream engine option “stream.reassembly.depth” (default 1 Mb) controls the depth into a stream in which we look. Set to 0 for no limit. The libhtp options request-body-limit and response-body-limit control how far into a HTTP request or response body we look. Again set to 0 for no limit. This can be controlled per HTTP server.

Performance

The file handling is fully streaming, so it’s very efficient. Nonetheless there will be an overhead for the extra parsing, book keeping, writing to disk, etc. Memory requirements appear to be limited as well. Suricata shouldn’t keep more than a few kb per flow in memory.

Limitations

Lack of limits is a limitation. For file storage no limits have been implemented yet. So it’s easy to clutter your disk up with files. Example: 118Gb enterprise pcap storing just JPG’s extracted 400.000 files. Better use a separate partition if you’re on a life link.

Future work

Apart from stabilizing this code and performance optimizing it, the next step will be SMTP file extraction. Possibly other protocols, although nothing is set in stone there yet.