Reading Zeek Log Formats
Zed is capable of reading both common Zeek log formats. This document provides guidance for what to expect when reading logs of these formats using the Zed command line tools.
Zeek TSV
Zeek TSV
is Zeek's default output format for logs. This format can be read automatically
(i.e., no -i
command line flag is necessary to indicate the input format)
with the Zed tools such as super
.
The following example shows a TSV conn.log
being read via zq
and
output as Super JSON.
conn.log
#separator \x09
#set_separator ,
#empty_field (empty)
#unset_field -
#path conn
#open 2019-11-08-11-44-16
#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]
1521911721.255387 C8Tful1TvM3Zf5x8fl 10.164.94.120 39681 10.47.3.155 3389 tcp - 0.004266 97 19 RSTR - - 0 ShADTdtr 10 730 6 342 -
Example
super -Z -c 'head 1' conn.log
Output
{
_path: "conn",
ts: 2018-03-24T17:15:21.255387Z,
uid: "C8Tful1TvM3Zf5x8fl",
id: {
orig_h: 10.164.94.120,
orig_p: 39681 (port=uint16),
resp_h: 10.47.3.155,
resp_p: 3389 (port)
},
proto: "tcp" (=zenum),
service: null (string),
duration: 4.266ms,
orig_bytes: 97 (uint64),
resp_bytes: 19 (uint64),
conn_state: "RSTR",
local_orig: null (bool),
local_resp: null (bool),
missed_bytes: 0 (uint64),
history: "ShADTdtr",
orig_pkts: 10 (uint64),
orig_ip_bytes: 730 (uint64),
resp_pkts: 6 (uint64),
resp_ip_bytes: 342 (uint64),
tunnel_parents: null (|[string]|)
}
Other than Zed, Zeek provides one of the richest data typing systems available and therefore such records typically need no adjustment to their data types once they've been read in as is. The Zed/Zeek Data Type Compatibility document provides further detail on how the rich data types in Zeek TSV map to the equivalent rich types in Zed.
Zeek JSON
As an alternative to the default TSV format, there are two common ways that Zeek may instead generate logs in JSON format.
- Using the JSON Streaming Logs package (recommended for use with Zed)
- Using the built-in ASCII logger
configured with
redef LogAscii::use_json = T;
In both cases, Zed tools such as zq
can read these logs automatically
as is, but with caveats.
Let's revisit the same conn
record we just examined from the Zeek TSV
log, but now as generated using the JSON Streaming Logs package.
conn.json
{"_path":"conn","_write_ts":"2018-03-24T17:15:21.400275Z","ts":"2018-03-24T17:15:21.255387Z","uid":"C8Tful1TvM3Zf5x8fl","id.orig_h":"10.164.94.120","id.orig_p":39681,"id.resp_h":"10.47.3.155","id.resp_p":3389,"proto":"tcp","duration":0.004266023635864258,"orig_bytes":97,"resp_bytes":19,"conn_state":"RSTR","missed_bytes":0,"history":"ShADTdtr","orig_pkts":10,"orig_ip_bytes":730,"resp_pkts":6,"resp_ip_bytes":342}
Example
super -Z -c 'head 1' conn.json
Output
{
_path: "conn",
_write_ts: "2018-03-24T17:15:21.400275Z",
ts: "2018-03-24T17:15:21.255387Z",
uid: "C8Tful1TvM3Zf5x8fl",
"id.orig_h": "10.164.94.120",
"id.orig_p": 39681,
"id.resp_h": "10.47.3.155",
"id.resp_p": 3389,
proto: "tcp",
duration: 0.004266023635864258,
orig_bytes: 97,
resp_bytes: 19,
conn_state: "RSTR",
missed_bytes: 0,
history: "ShADTdtr",
orig_pkts: 10,
orig_ip_bytes: 730,
resp_pkts: 6,
resp_ip_bytes: 342
}
When we compare this to the TSV example, we notice a few things right away that all follow from the records having been previously output as JSON.
- The timestamps like
_write_ts
andts
are printed as strings rather than the Zedtime
type. - The IP addresses such as
id.orig_h
andid.resp_h
are printed as strings rather than the Zedip
type. - The connection
duration
is printed as a floating point number rather than the Zedduration
type. - The keys for the null-valued fields in the record read from TSV are not present in the record read from JSON.
If you're familiar with the limitations of the JSON data types, it makes sense that Zeek chose to output these values as it did. Furthermore, if you were just seeking to do quick searches on the string values or simple math on the numbers, these limitations may be acceptable. However, if you intended to perform operations like aggregations with time-based grouping or CIDR matches on IP addresses, you would likely want to restore the rich Zed data types as the records are being read. The document on shaping Zeek JSON provides details on how this can be done.
The Role of _path
Zeek's _path
field plays an important role in differentiating between its
different log types
(conn
, dns
, etc.) For instance,
shaping Zeek JSON relies on the value of
the _path
field to know which Zed type to apply to an input JSON
record.
If reading Zeek TSV logs or logs generated by the JSON Streaming Logs
package, this _path
value is provided within the Zeek logs. However, if the
log was generated by Zeek's built-in ASCII logger when using the
redef LogAscii::use_json = T;
configuration, the value that would be used for
_path
is present in the log file name but is not in the JSON log
records. In this case you could adjust your Zeek configuration by following the
Log Extension Fields example
from the Zeek docs. If you enter path
in the locations where the example
shows stream
, you will see the field named _path
populated just like was
shown for the JSON Streaming Logs output.