Once Zeek has been deployed in an environment and monitoring live traffic, it will, in its default configuration, begin to produce human-readable ASCII logs. Each log file, produced by Zeek’s Logging Framework, is populated with organized, mostly connection-oriented data. As the standard log files are simple ASCII data, working with the data contained in them can be done from a command line terminal once you have been familiarized with the types of data that can be found in each file. In the following, we work through the logs general structure and then examine some standard ways of working with them.

Working with Log Files

Generally, all of Zeek’s log files are produced by a corresponding script that defines their individual structure. However, as each log file flows through the Logging Framework, they share a set of structural similarities. Without breaking into the scripting aspect of Zeek here, a bird’s eye view of how the log files are produced progresses as follows. The script’s author defines the kinds of data, such as the originating IP address or the duration of a connection, which will make up the fields (i.e., columns) of the log file. The author then decides what network activity should generate a single log file entry (i.e., one line). For example, this could be a connection having been completed or an HTTP GET request being issued by an originator. When these behaviors are observed during operation, the data is passed to the Logging Framework which adds the entry to the appropriate log file.

As the fields of the log entries can be further customized by the user, the Logging Framework makes use of a header block to ensure that it remains self-describing. Here’s the first few lines of a conn.log.

$ cat conn.log
#separator \x09
#set_separator    ,
#empty_field      (empty)
#unset_field      -
#path     conn
#open     2018-12-10-22-18-00
#fields   ts      uid     id.orig_h       id.orig_p       id.resp_h       id.resp_p       proto   service duration        orig_bytes      resp_bytes      conn_state      local_orig      local_resp      missed_bytes    history orig_pkts       orig_ip_bytes   resp_pkts       resp_ip_bytes   tunnel_parents
#types    time    string  addr    port    addr    port    enum    string  interval        count   count   string  bool    bool    count   string  count   count   count   count   set[string]
1300475167.096535 CHhAvVGS1DHFjwGM9 5353     5353    udp     dns     -       -       -       S0      -       -       0       D       1       73      0       0       -
1300475167.097012 ClEkJM2Vm5giqnMf4h      fe80::217:f2ff:fed7:cf65        5353    ff02::fb        5353    udp     dns     -       -       -       S0      -       -       0       D       1       199     0       0       -
1300475167.099816 C4J4Th3PJpwUYZZ6gc  5353     5353    udp     dns     -       -       -       S0      -       -       0       D       1       179     0       0       -

As you can see, the header consists of lines prefixed by # and includes information such as what separators are being used for various types of data, what an empty field looks like and what an unset field looks like. In this example, the default TAB separator is being used as the delimiter between fields (\x09 is the tab character in hex). It also lists the comma as the separator for set data, the string (empty) as the indicator for an empty field and the - character as the indicator for a field that hasn’t been set. The timestamp for when the file was created is included under #open. The header then goes on to detail the fields being listed in the file and the data types of those fields, in #fields and #types, respectively. These two entries are often the two most significant points of interest as they detail not only the field names but the data types used. When navigating through the different log files with tools like sed, awk, or grep, having the field definitions readily available saves the user some mental leg work. The field names are also a key resource for using the zeek-cut utility included with Zeek, see below.

Next to the header follows the main content. In this example we see 7 connections with their key properties, such as originator and responder IP addresses (note how Zeek transparently handles both IPv4 and IPv6), transport-layer ports, application-layer services ( - the service field is filled in as Zeek determines a specific protocol to be in use, independent of the connection’s ports), payload size, and more. See Conn::Info for a description of all fields.

In addition to conn.log, Zeek generates many further logs by default, including:

A summary of protocols encountered on non-standard ports.
All DNS activity.
A log of FTP session-level activity.
Summaries of files transferred over the network. This information is aggregated from different protocols, including HTTP, FTP, and SMTP.
A summary of all HTTP requests with their replies.
SSL certificates seen in use.
A summary of SMTP activity.
A record of SSL sessions, including certificates being used.
A log of unexpected protocol-level activity. Whenever Zeek’s protocol analysis encounters a situation it would not expect (e.g., an RFC violation) it logs it in this file. Note that in practice, real-world networks tend to exhibit a large number of such “crud” that is usually not worth following up on.

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 Log Files.

Using zeek-cut

The zeek-cut utility can be used in place of other tools to build terminal commands that remain flexible and accurate independent of possible changes to the log file itself. It accomplishes this by parsing the header in each file and allowing the user to refer to the specific columnar data available (in contrast to tools like awk that require the user to refer to fields referenced by their position). For example, the following command extracts just the given columns from a conn.log:

$ cat conn.log | zeek-cut id.orig_h id.orig_p id.resp_h duration   5353     -
fe80::217:f2ff:fed7:cf65  5353    ff02::fb        -    5353     -   43927     0.000435   37676     0.000420   40526     0.000392   32902     0.000317   59816     0.000343   59714     0.000375   58206     0.000339

The corresponding awk command will look like this:

$ awk '/^[^#]/ {print $3, $4, $5, $6, $9}' conn.log 5353 5353 -
fe80::217:f2ff:fed7:cf65 5353 ff02::fb 5353 - 5353 5353 - 43927 53 0.000435 37676 53 0.000420 40526 53 0.000392 32902 53 0.000317 59816 53 0.000343 59714 53 0.000375 58206 53 0.000339

While the output is similar, the advantages to using zeek-cut over awk lay in that, while awk is flexible and powerful, zeek-cut was specifically designed to work with Zeek’s log files. Firstly, the zeek-cut output includes only the log file entries, while the awk solution needs to skip the header manually. Secondly, since zeek-cut uses the field descriptors to identify and extract data, it allows for flexibility independent of the format and contents of the log file. It’s not uncommon for a Zeek configuration to add extra fields to various log files as required by the environment. In this case, the fields in the awk command would have to be altered to compensate for the new position whereas the zeek-cut output would not change.


The sequence of field names given to zeek-cut determines the output order, which means you can also use zeek-cut to reorder fields. That can be helpful when piping into, e.g., sort.

As you may have noticed, the command for zeek-cut uses the output redirection through the cat command and | operator. Whereas tools like awk allow you to indicate the log file as a command line option, zeek-cut only takes input through redirection such as | and <. There are a couple of ways to direct log file data into zeek-cut, each dependent upon the type of log file you’re processing. A caveat of its use, however, is that all of the header lines must be present.


zeek-cut provides an option -c to include a corresponding format header into the output, which allows to chain multiple zeek-cut instances or perform further post-processing that evaluates the header information.

In its default setup, Zeek will rotate log files on an hourly basis, moving the current log file into a directory with format YYYY-MM-DD and gzip compressing the file with a file format that includes the log file type and time range of the file. In the case of processing a compressed log file you simply adjust your command line tools to use the complementary z* versions of commands such as cat (zcat) or grep (zgrep).

Working with Timestamps

zeek-cut accepts the flag -d to convert the epoch time values in the log files to human-readable format. The following command includes the human readable time stamp, the unique identifier, the HTTP Host, and HTTP URI as extracted from the http.log file:

$ zeek-cut -d ts uid host uri < http.log
2011-03-18T19:06:08+0000  CUM0KZ3MLUfNB0cl11      bits.wikimedia.org      /skins-1.5/monobook/main.css
2011-03-18T19:06:08+0000  CwjjYJ2WqgTbAqiHl6      upload.wikimedia.org    /wikipedia/commons/6/63/Wikipedia-logo.png
2011-03-18T19:06:08+0000  C3eiCBGOLw3VtHfOj       upload.wikimedia.org    /wikipedia/commons/thumb/b/bb/Wikipedia_wordmark.svg/174px-Wikipedia_wordmark.svg.png
2011-03-18T19:06:08+0000  Ck51lg1bScffFj34Ri      upload.wikimedia.org    /wikipedia/commons/b/bd/Bookshelf-40x201_6.png
2011-03-18T19:06:08+0000  CtxTCR2Yer0FR1tIBg      upload.wikimedia.org    /wikipedia/commons/thumb/8/8a/Wikinews-logo.png/35px-Wikinews-logo.png

Often times log files from multiple sources are stored in UTC time to allow easy correlation. Converting the timestamp from a log file to UTC can be accomplished with the -u option:

$ zeek-cut -u ts uid host uri < http.log
2011-03-18T19:06:08+0000  CUM0KZ3MLUfNB0cl11      bits.wikimedia.org      /skins-1.5/monobook/main.css
2011-03-18T19:06:08+0000  CwjjYJ2WqgTbAqiHl6      upload.wikimedia.org    /wikipedia/commons/6/63/Wikipedia-logo.png
2011-03-18T19:06:08+0000  C3eiCBGOLw3VtHfOj       upload.wikimedia.org    /wikipedia/commons/thumb/b/bb/Wikipedia_wordmark.svg/174px-Wikipedia_wordmark.svg.png
2011-03-18T19:06:08+0000  Ck51lg1bScffFj34Ri      upload.wikimedia.org    /wikipedia/commons/b/bd/Bookshelf-40x201_6.png
2011-03-18T19:06:08+0000  CtxTCR2Yer0FR1tIBg      upload.wikimedia.org    /wikipedia/commons/thumb/8/8a/Wikinews-logo.png/35px-Wikinews-logo.png

The default time format when using the -d or -u is the strftime format string %Y-%m-%dT%H:%M:%S%z which results in a string with year, month, day of month, followed by hour, minutes, seconds and the timezone offset. The default format can be altered by using the -D and -U flags, using the standard strftime syntax. For example, to format the timestamp in the US-typical “Middle Endian” you could use a format string of: %d-%m-%YT%H:%M:%S%z

$ zeek-cut -D %d-%m-%YT%H:%M:%S%z ts uid host uri < http.log
18-03-2011T19:06:08+0000  CUM0KZ3MLUfNB0cl11      bits.wikimedia.org      /skins-1.5/monobook/main.css
18-03-2011T19:06:08+0000  CwjjYJ2WqgTbAqiHl6      upload.wikimedia.org    /wikipedia/commons/6/63/Wikipedia-logo.png
18-03-2011T19:06:08+0000  C3eiCBGOLw3VtHfOj       upload.wikimedia.org    /wikipedia/commons/thumb/b/bb/Wikipedia_wordmark.svg/174px-Wikipedia_wordmark.svg.png
18-03-2011T19:06:08+0000  Ck51lg1bScffFj34Ri      upload.wikimedia.org    /wikipedia/commons/b/bd/Bookshelf-40x201_6.png
18-03-2011T19:06:08+0000  CtxTCR2Yer0FR1tIBg      upload.wikimedia.org    /wikipedia/commons/thumb/8/8a/Wikinews-logo.png/35px-Wikinews-logo.png

See man strfime for more options for the format string.

Using UIDs

While Zeek can do signature-based analysis, its primary focus is on behavioral detection which alters the practice of log review from “reactionary review” to a process a little more akin to a hunting trip. A common progression of review includes correlating a session across multiple log files. As a connection is processed by Zeek, a unique identifier is assigned to each session. This unique identifier is generally included in any log file entry associated with that connection and can be used to cross-reference different log files.

A simple example would be to cross-reference a UID seen in a conn.log file. Here, we’re looking for the connection with the largest number of bytes from the responder by redirecting the output for cat conn.log into zeek-cut to extract the UID and the resp_bytes, then sorting that output by the resp_bytes field.

$ cat conn.log | zeek-cut uid resp_bytes | sort -nrk2 | head -5
CwjjYJ2WqgTbAqiHl6        734
CtxTCR2Yer0FR1tIBg        734
Ck51lg1bScffFj34Ri        734
CLNN1k2QMum1aexUK7        734
CykQaM33ztNt0csB9a        733

Taking the UID of the first of the top responses, we can now crossreference that with the UIDs in the http.log file.

$ cat http.log | zeek-cut uid id.resp_h method status_code host uri | grep UM0KZ3MLUfNB0cl11
CUM0KZ3MLUfNB0cl11  GET     304     bits.wikimedia.org      /skins-1.5/monobook/main.css

As you can see there are two HTTP GET requests within the session that Zeek identified and logged. Given that HTTP is a stream protocol, it can have multiple GET/POST/etc requests in a stream and Zeek is able to extract and track that information for you, giving you an in-depth and structured view into HTTP traffic on your network.