17.1.2. Eve JSON Format
Example:
{
"timestamp": "2017-04-07T22:24:37.251547+0100",
"flow_id": 586497171462735,
"pcap_cnt": 53381,
"event_type": "alert",
"src_ip": "192.168.2.14",
"src_port": 50096,
"dest_ip": "209.53.113.5",
"dest_port": 80,
"proto": "TCP",
"metadata": {
"flowbits": [
"http.dottedquadhost"
]
},
"tx_id": 4,
"alert": {
"action": "allowed",
"gid": 1,
"signature_id": 2018358,
"rev": 10,
"signature": "ET HUNTING GENERIC SUSPICIOUS POST to Dotted Quad with Fake Browser 1",
"category": "Potentially Bad Traffic",
"severity": 2
},
"app_proto": "http"
}
17.1.2.1. Common Section
All the JSON log types share a common structure:
{"timestamp":"2009-11-24T21:27:09.534255","flow_id":ID_NUMBER, "event_type":"TYPE", ...tuple... ,"TYPE":{ ... type specific content ... }}
17.1.2.1.1. Field: flow_id
Correlates the network protocol, flow logs EVE data and any evidence that
Suricata has logged to an alert
event and that alert's metadata, as well as
to fileinfo
/file transaction and anomaly logs, if available. The same correlation
and logs are produced regardless if there is an alert, for any session/flow.
The ability to correlate EVE logs belonging to a specific session/flow was introduced in 2014 (see commit f1185d051c21).
Further below, you can see several examples of events logged by Suricata: an
alert for an HTTP
rule, fileinfo
, http,
anomaly, and flow events, all
easily correlated using the flow_id
EVE field:
$ jq 'select(.flow_id==1676750115612680)' eve.json
Event type: alert
:
{
"timestamp": "2023-09-18T06:13:41.532140+0000",
"flow_id": 1676750115612680,
"pcap_cnt": 130,
"event_type": "alert",
"src_ip": "142.11.240.191",
"src_port": 35361,
"dest_ip": "192.168.100.237",
"dest_port": 49175,
"proto": "TCP",
"pkt_src": "wire/pcap",
"ether": {
"src_mac": "52:54:00:36:3e:ff",
"dest_mac": "12:a9:86:6c:77:de"
},
"tx_id": 1,
"alert": {
"action": "allowed",
"gid": 1,
"signature_id": 2045001,
"rev": 1,
"signature": "ET ATTACK_RESPONSE Win32/LeftHook Stealer Browser Extension Config Inbound",
"category": "A Network Trojan was detected",
"severity": 1,
"metadata": {
"affected_product": [
"Windows_XP_Vista_7_8_10_Server_32_64_Bit"
],
"attack_target": [
"Client_Endpoint"
],
"created_at": [
"2023_04_17"
],
"deployment": [
"Perimeter"
],
"former_category": [
"ATTACK_RESPONSE"
],
"signature_severity": [
"Major"
],
"updated_at": [
"2023_04_18"
]
}
},
"http": {
"hostname": "142.11.240.191",
"http_port": 35361,
"url": "/",
"http_content_type": "text/xml",
"http_method": "POST",
"protocol": "HTTP/1.1",
"status": 200,
"length": 5362
},
"files": [
{
"filename": "/",
"gaps": false,
"state": "CLOSED",
"stored": false,
"size": 5362,
"tx_id": 1
}
],
"app_proto": "http",
"direction": "to_client",
"flow": {
"pkts_toserver": 13,
"pkts_toclient": 12,
"bytes_toserver": 1616,
"bytes_toclient": 8044,
"start": "2023-09-18T06:13:33.324862+0000",
"src_ip": "192.168.100.237",
"dest_ip": "142.11.240.191",
"src_port": 49175,
"dest_port": 35361
}
}
Event type: fileinfo
:
{
"timestamp": "2023-09-18T06:13:33.903924+0000",
"flow_id": 1676750115612680,
"pcap_cnt": 70,
"event_type": "fileinfo",
"src_ip": "192.168.100.237",
"src_port": 49175,
"dest_ip": "142.11.240.191",
"dest_port": 35361,
"proto": "TCP",
"pkt_src": "wire/pcap",
"ether": {
"src_mac": "12:a9:86:6c:77:de",
"dest_mac": "52:54:00:36:3e:ff"
},
"http": {
"hostname": "142.11.240.191",
"http_port": 35361,
"url": "/",
"http_content_type": "text/xml",
"http_method": "POST",
"protocol": "HTTP/1.1",
"status": 200,
"length": 212
},
"app_proto": "http",
"fileinfo": {
"filename": "/",
"gaps": false,
"state": "CLOSED",
"stored": false,
"size": 137,
"tx_id": 0
}
}
Event type: HTTP
:
{
"timestamp": "2023-09-18T06:13:33.903924+0000",
"flow_id": 1676750115612680,
"pcap_cnt": 70,
"event_type": "http",
"src_ip": "192.168.100.237",
"src_port": 49175,
"dest_ip": "142.11.240.191",
"dest_port": 35361,
"proto": "TCP",
"pkt_src": "wire/pcap",
"ether": {
"src_mac": "12:a9:86:6c:77:de",
"dest_mac": "52:54:00:36:3e:ff"
},
"tx_id": 0,
"http": {
"hostname": "142.11.240.191",
"http_port": 35361,
"url": "/",
"http_content_type": "text/xml",
"http_method": "POST",
"protocol": "HTTP/1.1",
"status": 200,
"length": 212,
"request_headers": [
{
"name": "Content-Type",
"value": "text/xml; charset=utf-8"
},
{
"name": "SOAPAction",
"value": "\"http://tempuri.org/Endpoint/CheckConnect\""
},
{
"name": "Host",
"value": "142.11.240.191:35361"
},
{
"name": "Content-Length",
"value": "137"
},
{
"name": "Expect",
"value": "100-continue"
},
{
"name": "Accept-Encoding",
"value": "gzip, deflate"
},
{
"name": "Connection",
"value": "Keep-Alive"
}
],
"response_headers": [
{
"name": "Content-Length",
"value": "212"
},
{
"name": "Content-Type",
"value": "text/xml; charset=utf-8"
},
{
"name": "Server",
"value": "Microsoft-HTTPAPI/2.0"
},
{
"name": "Date",
"value": "Mon, 18 Sep 2023 06:13:33 GMT"
}
]
}
}
Event type: anomaly
:
{
"timestamp": "2023-09-18T06:13:58.882971+0000",
"flow_id": 1676750115612680,
"pcap_cnt": 2878,
"event_type": "anomaly",
"src_ip": "192.168.100.237",
"src_port": 49175,
"dest_ip": "142.11.240.191",
"dest_port": 35361,
"proto": "TCP",
"pkt_src": "wire/pcap",
"ether": {
"src_mac": "12:a9:86:6c:77:de",
"dest_mac": "52:54:00:36:3e:ff"
},
"tx_id": 3,
"anomaly": {
"app_proto": "http",
"type": "applayer",
"event": "UNABLE_TO_MATCH_RESPONSE_TO_REQUEST",
"layer": "proto_parser"
}
}
Event type: flow
:
{
"timestamp": "2023-09-18T06:13:21.216460+0000",
"flow_id": 1676750115612680,
"event_type": "flow",
"src_ip": "192.168.100.237",
"src_port": 49175,
"dest_ip": "142.11.240.191",
"dest_port": 35361,
"proto": "TCP",
"app_proto": "http",
"flow": {
"pkts_toserver": 3869,
"pkts_toclient": 1523,
"bytes_toserver": 3536402,
"bytes_toclient": 94102,
"start": "2023-09-18T06:13:33.324862+0000",
"end": "2023-09-18T06:14:13.752399+0000",
"age": 40,
"state": "closed",
"reason": "shutdown",
"alerted": true
},
"ether": {
"dest_macs": [
"52:54:00:36:3e:ff"
],
"src_macs": [
"12:a9:86:6c:77:de"
]
},
"tcp": {
"tcp_flags": "1e",
"tcp_flags_ts": "1e",
"tcp_flags_tc": "1a",
"syn": true,
"rst": true,
"psh": true,
"ack": true,
"state": "closed",
"ts_max_regions": 1,
"tc_max_regions": 1
}
}
Note
It is possible to have even more detailed alert records, by enabling for instance logging http-body, or alert metadata (alert output).
Examples come from pcap found at https://app.any.run/tasks/ce7ca983-9e4b-4251-a7c3-fefa3da02ebe/.
17.1.2.1.2. Event types
The common part has a field "event_type" to indicate the log type.
"event_type":"TYPE"
When an application layer protocol event is detected, the common section will
have an app_proto
field.
"app_proto": "http"
17.1.2.1.3. PCAP fields
If Suricata is processing a pcap file, additional fields are added:
"pcap_cnt": 123
pcap_cnt
contains the packet number in the pcap. This can be used to look
up a packet in Wireshark for example.
"pcap_filename":"/path/to/file.pcap"
pcap_filename
contains the file name and location of the pcap that
generated the event.
Note
the pcap fields are only available on "real" packets, and are omitted from internal "pseudo" packets such as flow timeout packets.
17.1.2.2. Event type: Alert
This field contains data about a signature that matched, such as
signature_id
(sid
in the rule) and the signature
(msg
in the
rule).
It can also contain information about Source and Target of the attack in the
alert.source
and alert.target
field if target keyword is used in
the signature.
This event will also have the pcap_cnt
field, when running in pcap mode, to
indicate which packet triggered the signature.
"alert": {
"action": "allowed",
"gid": 1,
"signature_id": 2024056,
"rev": 4,
"signature": "ET MALWARE Win32/CryptFile2 / Revenge Ransomware Checkin M3",
"category": "Malware Command and Control Activity Detected",
"severity": 1,
"metadata": {
"affected_product": [
"Windows_XP_Vista_7_8_10_Server_32_64_Bit"
],
"attack_target": [
"Client_Endpoint"
],
"created_at": [
"2017_03_15"
],
"deployment": [
"Perimeter"
],
"former_category": [
"MALWARE"
],
"malware_family": [
"CryptFile2"
],
"performance_impact": [
"Moderate"
],
"signature_severity": [
"Major"
],
"updated_at": [
"2020_08_04"
]
}
},
17.1.2.2.1. Action field
Possible values: "allowed" and "blocked".
Example:
"action":"allowed"
Action is set to "allowed" unless a rule used the "drop" action and Suricata is in IPS mode, or when the rule used the "reject" action. It is important to note that this does not necessarily indicate the final verdict for a given packet or flow, since one packet may match on several rules.
17.1.2.2.2. Verdict
An object containning info on the final action that will be applied to a given
packet, based on all the signatures triggered by it and other possible events
(e.g., a flow drop). For that reason, it is possible for an alert with
an action allowed
to have a verdict drop
, in IPS mode, for instance, if
that packet was dropped due to a different alert.
Action:
alert
,pass
,drop
(this latter only occurs in IPS mode)Reject-target:
to_server
,to_client
,both
(only occurs for 'reject' rules)Reject: an array of strings with possible reject types:
tcp-reset
,icmp-prohib
(only occurs for 'reject' rules)
Example:
"verdict": {
"action": "drop",
"reject-target": "to_client",
"reject": "[icmp-prohib]"
}
17.1.2.2.3. Pcap Field
If pcap log capture is active in multi mode, a capture_file key will be added to the event with value being the full path of the pcap file where the corresponding packets have been extracted.
17.1.2.3. Event type: Anomaly
Events with type "anomaly" report unexpected conditions such as truncated packets, packets with invalid values, events that render the packet invalid for further processing or unexpected behaviors.
Networks which experience high occurrences of anomalies may experience packet processing degradation when anomaly logging is enabled.
17.1.2.3.1. Fields
"type": Either "decode", "stream" or "applayer". In rare cases, type will be "unknown". When this occurs, an additional field named "code" will be present. Events with type "applayer" are detected by the application layer parsers.
"event" The name of the anomalous event. Events of type "decode" are prefixed with "decoder"; events of type "stream" are prefixed with "stream".
"code" If "type" is "unknown", than "code" contains the unrecognized event code. Otherwise, this field is not present.
The following field is included when "type" has the value "applayer":
"layer" Indicates the handling layer that detected the event. This will be "proto_parser" (protocol parser), "proto_detect" (protocol detection) or "parser."
When packethdr
is enabled, the first 32 bytes of the packet are included
as a byte64-encoded blob in the main part of record. This applies to events
of "type" "packet" or "stream" only.
17.1.2.3.2. Examples
"anomaly": {
"type": "decode",
"event": "decoder.icmpv4.unknown_type"
}
"anomaly": {
"type": "decode",
"event": "decoder.udp.pkt_too_small"
}
"anomaly": {
"type": "decode",
"event": "decoder.ipv4.wrong_ip_version"
}
"anomaly": {
"type": "stream",
"event": "stream.pkt_invalid_timestamp"
}
{
"timestamp": "1969-12-31T16:04:21.000000-0800",
"pcap_cnt": 9262,
"event_type": "anomaly",
"src_ip": "208.21.2.184",
"src_port": 0,
"dest_ip": "10.1.1.99",
"dest_port": 0,
"proto": "UDP",
"packet": "////////AQEBAQEBCABFAAA8xZ5AAP8R1+DQFQK4CgE=",
"packet_info": {
"linktype": 1
},
"anomaly": {
"type": "decode",
"event": "decoder.udp.pkt_too_small"
}
}
{
"timestamp": "2016-01-11T05:10:54.612110-0800",
"flow_id": 412547343494194,
"pcap_cnt": 1391293,
"event_type": "anomaly",
"src_ip": "192.168.122.149",
"src_port": 49324,
"dest_ip": "69.195.71.174",
"dest_port": 443,
"proto": "TCP",
"app_proto": "tls",
"anomaly": {
"type": "applayer",
"event": "APPLAYER_DETECT_PROTOCOL_ONLY_ONE_DIRECTION",
"layer": "proto_detect"
}
}
{
"timestamp": "2016-01-11T05:10:52.828802-0800",
"flow_id": 201217772575257,
"pcap_cnt": 1391281,
"event_type": "anomaly",
"src_ip": "192.168.122.149",
"src_port": 49323,
"dest_ip": "69.195.71.174",
"dest_port": 443,
"proto": "TCP",
"tx_id": 0,
"app_proto": "tls",
"anomaly": {
"type": "applayer",
"event": "INVALID_RECORD_TYPE",
"layer": "proto_parser"
}
}
17.1.2.4. Event type: HTTP
17.1.2.4.1. Fields
"hostname": The hostname this HTTP event is attributed to
"url": URL at the hostname that was accessed
"http_user_agent": The user-agent of the software that was used
"http_content_type": The type of data returned (ex: application/x-gzip)
"cookie"
In addition to these fields, if the extended logging is enabled in the suricata.yaml file the following fields are (can) also included:
"length": The content size of the HTTP body
"status": HTTP status code
"protocol": Protocol / Version of HTTP (ex: HTTP/1.1)
"http_method": The HTTP method (ex: GET, POST, HEAD)
"http_refer": The referer for this action
In addition to the extended logging fields one can also choose to enable/add from more than 50 additional custom logging HTTP fields enabled in the suricata.yaml file. The additional fields can be enabled as following:
- eve-log:
enabled: yes
type: file #file|syslog|unix_dgram|unix_stream
filename: eve.json
# the following are valid when type: syslog above
#identity: "suricata"
#facility: local5
#level: Info ## possible levels: Emergency, Alert, Critical,
## Error, Warning, Notice, Info, Debug
types:
- alert
- http:
extended: yes # enable this for extended logging information
# custom allows additional http fields to be included in eve-log
# the example below adds three additional fields when uncommented
#custom: [Accept-Encoding, Accept-Language, Authorization]
custom: [accept, accept-charset, accept-encoding, accept-language,
accept-datetime, authorization, cache-control, cookie, from,
max-forwards, origin, pragma, proxy-authorization, range, te, via,
x-requested-with, dnt, x-forwarded-proto, accept-range, age,
allow, connection, content-encoding, content-language,
content-length, content-location, content-md5, content-range,
content-type, date, etags, expires, last-modified, link, location,
proxy-authenticate, referer, refresh, retry-after, server,
set-cookie, trailer, transfer-encoding, upgrade, vary, warning,
www-authenticate, x-flash-version, x-authenticated-user]
The benefits here of using the extended logging is to see if this action for example was a POST or perhaps if a download of an executable actually returned any bytes.
It is also possible to dump every header for HTTP requests/responses or both
via the keyword dump-all-headers
.
17.1.2.4.2. Examples
Event with non-extended logging:
"http": {
"hostname": "www.digip.org",
"url" :"\/jansson\/releases\/jansson-2.6.tar.gz",
"http_user_agent": "<User-Agent>",
"http_content_type": "application\/x-gzip"
}
In case the hostname shows a port number, such as in case there is a header "Host: www.test.org:1337":
"http": {
"http_port": 1337,
"hostname": "www.test.org",
"url" :"\/this\/is\/test.tar.gz",
"http_user_agent": "<User-Agent>",
"http_content_type": "application\/x-gzip"
}
Event with extended logging:
"http": {
"hostname": "direkte.vg.no",
"url":".....",
"http_user_agent": "<User-Agent>",
"http_content_type": "application\/json",
"http_refer": "http:\/\/www.vg.no\/",
"http_method": "GET",
"protocol": "HTTP\/1.1",
"status":"200",
"length":310
}
Event with dump-all-headers
set to "both":
"http": {
"hostname": "test.co.uk",
"url":"\/test\/file.json",
"http_user_agent": "<User-Agent>",
"http_content_type": "application\/json",
"http_refer": "http:\/\/www.test.com\/",
"http_method": "GET",
"protocol": "HTTP\/1.1",
"status":"200",
"length":310,
"request_headers": [
{
"name": "User-Agent",
"value": "Wget/1.13.4 (linux-gnu)"
},
{
"name": "Accept",
"value": "*/*"
},
],
"response_headers": [
{
"name": "Date",
"value": "Wed, 25 Mar 2015 15:40:41 GMT"
},
]
}
17.1.2.5. Event type: DNS
DNS has 2 logging style that can be used together or independently:
"detailed": "rrname", "rrtype", "rdata" and "ttl" fields are logged for each answer
"grouped": answers logged are aggregated by their type (A, AAAA, NS, ...)
If no format is chosen, "detailed" will be used by default.
It will be still possible to use the old DNS logging format, you can control it with "version" option in dns configuration section.
Suricata 8.0.0 introduces version 3 of the DNS logging format. This
update unifies the DNS logging style used by dns
events as well as
the dns
object in alert
records. See DNS Logging Changes
for 8.0 for more details on the
changes to logging format.
Note
Suricata 7 style DNS logging can be retained by setting the
version
field to 2, however this will be removed in
Suricata 9.
17.1.2.5.1. Fields
Outline of fields seen in the different kinds of DNS events:
"type": Indicating DNS message type, can be "request" or "response".
"id": Identifier field
"version": Indicating DNS logging version in use
"flags": Indicating DNS answer flag, in hexadecimal (ex: 8180 , please note 0x is not output)
"qr": Indicating in case of DNS answer flag, Query/Response flag (ex: true if set)
"aa": Indicating in case of DNS answer flag, Authoritative Answer flag (ex: true if set)
"tc": Indicating in case of DNS answer flag, Truncation flag (ex: true if set)
"rd": Indicating in case of DNS answer flag, Recursion Desired flag (ex: true if set)
"ra": Indicating in case of DNS answer flag, Recursion Available flag (ex: true if set)
"z": Indicating in case of DNS answer flag, Reserved bit (ex: true if set)
"rcode": (ex: NOERROR)
"ttl": Time-To-Live for this resource record
"queries": A list of query objects
"answers": A list of answer objects
"authorities": A list of authority objects
"additionals": A list of additional objects
More complex DNS record types may log additional fields for resource data:
"soa": Section containing fields for the SOA (start of authority) record type
"mname": Primary name server for this zone
"rname": Authority's mailbox
"serial": Serial version number
"refresh": Refresh interval (seconds)
"retry": Retry interval (seconds)
"expire": Upper time limit until zone is no longer authoritative (seconds)
"minimum": Minimum ttl for records in this zone (seconds)
"sshfp": section containing fields for the SSHFP (ssh fingerprint) record type
"fingerprint": Hex format of the fingerprint (ex:
12:34:56:78:9a:bc:de:...
)"algo": Algorithm number (ex: 1 for RSA, 2 for DSS)
"type": Fingerprint type (ex: 1 for SHA-1)
"srv": section containing fields for the SRV (location of services) record type
"target": Domain name of the target host (ex:
foo.bar.baz
)"priority": Target priority (ex: 20)
"weight": Weight for target selection (ex: 1)
"port": Port on this target host of this service (ex: 5060)
One can control which RR types are logged by using the "types" field in the suricata.yaml file. If this field is not specified, all RR types are logged. More than 50 values can be specified with this field as shown below:
Configuration:
- eve-log:
enabled: yes
type: file #file|syslog|unix_dgram|unix_stream
filename: eve.json
# the following are valid when type: syslog above
#identity: "suricata"
#facility: local5
#level: Info ## possible levels: Emergency, Alert, Critical,
## Error, Warning, Notice, Info, Debug
types:
- alert
- dns:
# Logging format. In 8.0 version 3 is the default. Can be
# set to 2 to keep compatibility with Suricata 7.0.
# version: 3
# Control logging of requests and responses:
# - requests: enable logging of DNS queries
# - responses: enable logging of DNS answers
# By default both requests and responses are logged.
requests: yes
responses: yes
# DNS record types to log, based on the query type.
# Default: all.
#types: [a, aaaa, cname, mx, ns, ptr, txt]
types: [a, ns, md, mf, cname, soa, mb, mg, mr, null,
wks, ptr, hinfo, minfo, mx, txt, rp, afsdb, x25, isdn,
rt, nsap, nsapptr, sig, key, px, gpos, aaaa, loc, nxt,
srv, atma, naptr, kx, cert, a6, dname, opt, apl, ds,
sshfp, ipseckey, rrsig, nsec, dnskey, dhcid, nsec3,
nsec3param, tlsa, hip, cds, cdnskey, spf, tkey,
tsig, maila, any, uri]
17.1.2.5.2. Examples
Example of a DNS query for the IPv4 address of "twitter.com" (resource record type 'A'):
"dns": {
"version": 3,
"type": "request",
"id": 16000,
"queries": [
{
"rrname": "twitter.com",
"rrtype": "A"
}
]
}
Example of a DNS answer with "detailed" format:
"dns": {
"version": 3,
"type": "answer",
"id": 45444,
"flags": "8180",
"qr": true,
"rd": true,
"ra": true,
"rcode": "NOERROR",
"queries": [
{
"rrname": "www.suricata.io",
"rrtype": "A"
}
],
"answers": [
{
"rrname": "www.suricata.io",
"rrtype": "CNAME",
"ttl": 3324,
"rdata": "suricata.io"
},
{
"rrname": "suricata.io",
"rrtype": "A",
"ttl": 10,
"rdata": "192.0.78.24"
},
{
"rrname": "suricata.io",
"rrtype": "A",
"ttl": 10,
"rdata": "192.0.78.25"
}
]
}
Example of a DNS answer with "grouped" format:
"dns": {
"version": 3,
"type": "answer",
"id": 18523,
"flags": "8180",
"qr": true,
"rd": true,
"ra": true,
"rcode": "NOERROR",
"grouped": {
"A": [
"192.0.78.24",
"192.0.78.25"
],
"CNAME": [
"suricata.io"
]
}
}
17.1.2.6. Event type: FTP
17.1.2.6.1. Fields
"command": The FTP command.
"command_data": The data accompanying the command.
"reply": The command reply, which may contain multiple lines, in array format.
"completion_code": The 3-digit completion code. The first digit indicates whether the response is good, bad or incomplete. This is also in array format and may contain multiple completion codes matching multiple reply lines.
"dynamic_port": The dynamic port established for subsequent data transfers, when applicable, with a "PORT" or "EPRT" command.
"mode": The type of FTP connection. Most connections are "passive" but may be "active".
"reply_received": Indicates whether a response was matched to the command. In some non-typical cases, a command may lack a response.
17.1.2.6.2. Examples
Example of regular FTP logging:
"ftp": {
"command": "RETR",
"command_data": "100KB.zip",
"reply": [
"Opening BINARY mode data connection for 100KB.zip (102400 bytes).",
"Transfer complete."
],
"completion_code": [
"150",
"226"
],
Example showing all fields:
"ftp": {
"command": "EPRT",
"command_data": "|2|2a01:e34:ee97:b130:8c3e:45ea:5ac6:e301|41813|",
"reply": [
"EPRT command successful. Consider using EPSV."
],
"completion_code": [
"200"
],
"dynamic_port": 41813,
"mode": "active",
"reply_received": "yes"
}
17.1.2.7. Event type: FTP_DATA
17.1.2.7.1. Fields
"command": The FTP command associated with the event.
"filename": The name of the involved file.
17.1.2.7.2. Examples
Example of FTP_DATA logging:
"ftp_data": {
"filename": "temp.txt",
"command": "RETR"
}
17.1.2.8. Event type: TLS
17.1.2.8.1. Fields
"subject": The subject field from the TLS certificate
"issuer": The issuer field from the TLS certificate
"session_resumed": This field has the value of "true" if the TLS session was resumed via a session id. If this field appears, "subject" and "issuer" do not appear, since a TLS certificate is not seen.
If extended logging is enabled the following fields are also included:
"serial": The serial number of the TLS certificate
"fingerprint": The (SHA1) fingerprint of the TLS certificate
"sni": The Server Name Indication (SNI) extension sent by the client
"version": The SSL/TLS version used
"notbefore": The NotBefore field from the TLS certificate
"notafter": The NotAfter field from the TLS certificate
"ja3": The JA3 fingerprint consisting of both a JA3 hash and a JA3 string
"ja3s": The JA3S fingerprint consisting of both a JA3 hash and a JA3 string
"ja4": The JA4 client fingerprint for TLS
"client_alpns": array of strings with ALPN values
"server_alpns": array of strings with ALPN values
JA3 and JA4 must be enabled in the Suricata config file (set 'app-layer.protocols.tls.ja3-fingerprints'/'app-layer.protocols.tls.ja4-fingerprints' to 'yes').
In addition to this, custom logging also allows the following fields:
"certificate": The TLS certificate base64 encoded
"chain": The entire TLS certificate chain base64 encoded
17.1.2.8.2. Examples
Example of regular TLS logging:
"tls": {
"subject": "C=US, ST=California, L=Mountain View, O=Google Inc, CN=*.google.com",
"issuerdn": "C=US, O=Google Inc, CN=Google Internet Authority G2"
}
Example of regular TLS logging for resumed sessions:
"tls": {
"session_resumed": true
}
Example of extended TLS logging:
"tls": {
"subject": "C=US, ST=California, L=Mountain View, O=Google Inc, CN=*.google.com",
"issuerdn": "C=US, O=Google Inc, CN=Google Internet Authority G2",
"serial": "0C:00:99:B7:D7:54:C9:F6:77:26:31:7E:BA:EA:7C:1C",
"fingerprint": "8f:51:12:06:a0:cc:4e:cd:e8:a3:8b:38:f8:87:59:e5:af:95:ca:cd",
"sni": "calendar.google.com",
"version": "TLS 1.2",
"notbefore": "2017-01-04T10:48:43",
"notafter": "2017-03-29T10:18:00"
}
Example of certificate logging using TLS custom logging (subject, sni, certificate):
"tls": {
"subject": "C=US, ST=California, L=Mountain View, O=Google Inc, CN=*.googleapis.com
"sni": "www.googleapis.com",
"certificate": "MIIE3TCCA8WgAwIBAgIIQPsvobRZN0gwDQYJKoZIhvcNAQELBQAwSTELMA [...]"
}
17.1.2.9. Event type: TFTP
17.1.2.9.1. Fields
"packet": The operation code, can be "read" or "write" or "error"
"file": The filename transported with the tftp protocol
"mode": The mode field, can be "octet" or "mail" or "netascii" (or any combination of upper and lower case)
Example of TFTP logging:
"tftp": {
"packet": "write",
"file": "rfc1350.txt",
"mode": "octet"
}
17.1.2.10. Event type: SMB
17.1.2.10.1. SMB Fields
"id" (integer): internal transaction id
"dialect" (string): the negotiated protocol dialect, or "unknown" if missing
"command" (string): command name. E.g. SMB2_COMMAND_CREATE or SMB1_COMMAND_WRITE_ANDX
"status" (string): status string. Can be both NT_STATUS or DOS_ERR and other variants
"status_code" (string): status code as hex string
"session_id" (integer): SMB2+ session_id. SMB1 user id.
"tree_id" (integer): Tree ID
"filename" (string): filename for CREATE and other commands.
"disposition" (string): requested disposition. E.g. FILE_OPEN, FILE_CREATE and FILE_OVERWRITE. See https://msdn.microsoft.com/en-us/library/ee442175.aspx#Appendix_A_Target_119
"access" (string): indication of how the file was opened. "normal" or "delete on close" (field is subject to change)
"created", "accessed", "modified", "changed" (integer): timestamps in seconds since unix epoch
"size" (integer): size of the requested file
"fuid" (string): SMB2+ file GUID. SMB1 FID as hex.
"share" (string): share name.
"share_type" (string): FILE, PIPE, PRINT or unknown.
"client_dialects" (array of strings): list of SMB dialects the client speaks.
"client_guid" (string): client GUID
"server_guid" (string): server GUID
"request.native_os" (string): SMB1 native OS string
"request.native_lm" (string): SMB1 native Lan Manager string
"response.native_os" (string): SMB1 native OS string
"response.native_lm" (string): SMB1 native Lan Manager string
Examples of SMB logging:
Pipe open:
"smb": {
"id": 1,
"dialect": "unknown",
"command": "SMB2_COMMAND_CREATE",
"status": "STATUS_SUCCESS",
"status_code": "0x0",
"session_id": 4398046511201,
"tree_id": 1,
"filename": "atsvc",
"disposition": "FILE_OPEN",
"access": "normal",
"created": 0,
"accessed": 0,
"modified": 0,
"changed": 0,
"size": 0,
"fuid": "0000004d-0000-0000-0005-0000ffffffff"
}
File/pipe close:
"smb": {
"id": 15,
"dialect": "2.10",
"command": "SMB2_COMMAND_CLOSE",
"status": "STATUS_SUCCESS",
"status_code": "0x0",
"session_id": 4398046511121,
"tree_id": 1,
}
Tree connect (share open):
"smb": {
"id": 3,
"dialect": "2.10",
"command": "SMB2_COMMAND_TREE_CONNECT",
"status": "STATUS_SUCCESS",
"status_code": "0x0",
"session_id": 4398046511121,
"tree_id": 1,
"share": "\\\\admin-pc\\c$",
"share_type": "FILE"
}
Dialect negotiation from SMB1 to SMB2 dialect 2.10:
"smb": {
"id": 1,
"dialect": "2.??",
"command": "SMB1_COMMAND_NEGOTIATE_PROTOCOL",
"status": "STATUS_SUCCESS",
"status_code": "0x0",
"session_id": 0,
"tree_id": 0,
"client_dialects": [
"PC NETWORK PROGRAM 1.0",
"LANMAN1.0",
"Windows for Workgroups 3.1a",
"LM1.2X002",
"LANMAN2.1",
"NT LM 0.12",
"SMB 2.002",
"SMB 2.???"
],
"server_guid": "aec6e793-2b11-4019-2d95-55453a0ad2f1"
}
"smb": {
"id": 2,
"dialect": "2.10",
"command": "SMB2_COMMAND_NEGOTIATE_PROTOCOL",
"status": "STATUS_SUCCESS",
"status_code": "0x0",
"session_id": 0,
"tree_id": 0,
"client_dialects": [
"2.02",
"2.10"
],
"client_guid": "601985d2-aad9-11e7-8494-00088bb57f27",
"server_guid": "aec6e793-2b11-4019-2d95-55453a0ad2f1"
}
SMB1 partial SMB1_COMMAND_SESSION_SETUP_ANDX:
"request": {
"native_os": "Unix",
"native_lm": "Samba 3.9.0-SVN-build-11572"
},
"response": {
"native_os": "Windows (TM) Code Name \"Longhorn\" Ultimate 5231",
"native_lm": "Windows (TM) Code Name \"Longhorn\" Ultimate 6.0"
}
17.1.2.10.2. DCERPC fields
"request" (string): command. E.g. REQUEST, BIND.
"response" (string): reply. E.g. RESPONSE, BINDACK or FAULT.
"opnum" (integer): the opnum
"call_id" (integer): the call id
"frag_cnt" (integer): the number of fragments for the stub data
"stub_data_size": total stub data size
"interfaces" (array): list of interfaces
"interfaces.uuid" (string): string representation of the UUID
"interfaces.version" (string): interface version
"interfaces.ack_result" (integer): ack result
"interfaces.ack_reason" (integer): ack reason
DCERPC REQUEST/RESPONSE:
"smb": {
"id": 4,
"dialect": "unknown",
"command": "SMB2_COMMAND_IOCTL",
"status": "STATUS_SUCCESS",
"status_code": "0x0",
"session_id": 4398046511201,
"tree_id": 0,
"dcerpc": {
"request": "REQUEST",
"response": "RESPONSE",
"opnum": 0,
"req": {
"frag_cnt": 1,
"stub_data_size": 136
},
"res": {
"frag_cnt": 1,
"stub_data_size": 8
},
"call_id": 2
}
}
DCERPC BIND/BINDACK:
"smb": {
"id": 53,
"dialect": "2.10",
"command": "SMB2_COMMAND_WRITE",
"status": "STATUS_SUCCESS",
"status_code": "0x0",
"session_id": 35184439197745,
"tree_id": 1,
"dcerpc": {
"request": "BIND",
"response": "BINDACK",
"interfaces": [
{
"uuid": "12345778-1234-abcd-ef00-0123456789ac",
"version": "1.0",
"ack_result": 2,
"ack_reason": 0
},
{
"uuid": "12345778-1234-abcd-ef00-0123456789ac",
"version": "1.0",
"ack_result": 0,
"ack_reason": 0
},
{
"uuid": "12345778-1234-abcd-ef00-0123456789ac",
"version": "1.0",
"ack_result": 3,
"ack_reason": 0
}
],
"call_id": 2
}
17.1.2.11. Event type: BITTORRENT-DHT
17.1.2.11.1. Common fields:
"transaction_id" (hex): the unique id of the transaction, generated by node making the request (a.k.a the querying node). Same transaction_id is echoed back by responding nodes.
"client_version" (hex): identifies the type and version of the bittorrent-dht client. Some implementations may be missing this field.
17.1.2.11.2. Extra fields:
Packets should also contain one of either the fields:
- "error": details of an error which occurred while processing the request
"error.num" (num): the error code
"error.msg" (string): the error message
"request_type" (string): the type of the request (a.k.a. the query). Included if this packet was a request
- "request": a request (a.k.a. a query) sent by the bittorrent-dht client
"request.id" (hex): the node ID of the node which sent the request (20 bytes in network byte order)
"request.target" (hex): the target node ID. Used by the find_node request_type
"request.info_hash" (hex): info hash of target torrent (20 bytes). Used by the get_peers and announce_peer request_types
"request.token" (hex): token key received from previous get_peers request. Used by the announce_peer request type
"request.implied_port" (num): 0 or 1, if 1 ignore provided port and use source port of UDP packet. Used by the announce_peer request_type
"request.port" (num): port on which peer will download torrent. Used by the announce_peer request_type
- "response": a response to the client's request
"response.id" (hex): the node ID of the node which sent the response (20 bytes in network byte order)
"response.nodes" (array): find_node/get_peers - a list of info objects for target node or K(8) closest good nodes in routing table
"response.nodes6" (array): find_node/get_peers - a list of info objects for target node or K(8) closest good nodes in routing table (ipv6)
"response.values" (array): list of compact peer info strings. Used by the get_peers request_type
"response.token" (hex): token key required for sender's future announce_peer query
"id" (hex): node ID
"ip" (string): IPv4 or IPv6 address of node
"port" (integer): node port
"ip" (string): IPv6 or IPv6 address of node
"port" (integer): node port
17.1.2.11.3. Examples:
Ping and response:
"bittorrent_dht": {
"transaction_id": "0c17",
"client_version": "4c540126",
"request_type": "ping",
"request": {
"id": "41aff1580119f074e2f537f231f12adf684f0d1f"
}
}
"bittorrent_dht": {
"transaction_id": "0c17",
"client_version": "5554b50c",
"response": {
"id": "42aeb304a0845b3b9ee089327b48967b8e87b2e2"
}
}
Find_node and response:
"bittorrent_dht": {
"transaction_id": "420f0000",
"client_version": "5554b50c",
"request_type": "find_node",
"request": {
"id": "37579bad1bad166af4329508096fae8c553c6cf4",
"target": "37579bad1bad166af4329508096fae8c553c6cf4"
}
}
Get_peers and response with values param:
"bittorrent_dht": {
"transaction_id": "05e4",
"client_version": "4c540126",
"request_type": "get_peers",
"request": {
"id": "41aff1580119f074e2f537f231f12adf684f0d1f",
"info_hash": "19a6fcfcba6cc2c6d371eb754074d095adb5d291"
}
}
"bittorrent_dht": {
"transaction_id": "05e4",
"client_version": "555462d6",
"response": {
"id": "19a6f98be177e32e7b5bd77276d529f03e3ba8a9",
"values": [
{
"ip": "45.238.190.2",
"port": 6881
},
{
"ip": "185.70.52.245",
"port": 51215
},
{
"ip": "45.21.238.247",
"port": 55909
},
{
"ip": "62.28.248.195",
"port": 6881
}
],
"token": "c17094641ca8844d711120baecb2b5cf25435614"
}
}
Get_peers and response with nodes param:
"bittorrent_dht": {
"transaction_id": "44e6",
"client_version": "4c540126",
"request_type": "get_peers",
"request": {
"id": "41aff1580119f074e2f537f231f12adf684f0d1f",
"info_hash": "19a6fcfcba6cc2c6d371eb754074d095adb5d291"
}
}
"bittorrent_dht": {
"transaction_id": "44e6",
"response": {
"id": "19a7c8f4f6d14d9f87a67671720633e551f30cb7",
"values": [
{
"ip": "45.22.252.153",
"port": 36798
},
{
"ip": "94.41.206.37",
"port": 30850
},
{
"ip": "84.228.120.50",
"port": 6881
},
{
"ip": "178.81.206.84",
"port": 12373
},
{
"ip": "110.188.93.186",
"port": 22223
}
],
"token": "c897ee539e02a54595b4d7cfb6319ad48e71b282"
}
}
Announce_peer and response:
"bittorrent_dht": {
"transaction_id": "aa",
"request_type": "announce_peer",
"request": {
"id": "abcdefghij0123456789",
"info_hash": "mnopqrstuvwxyz123456",
"token": "aoeusnth",
"port": 6881
}
}
"bittorrent_dht": {
"transaction_id": "aa",
"response": {
"id": "mnopqrstuvwxyz123456"
}
}
Announce_peer with implied_port param and response:
"bittorrent_dht": {
"transaction_id": "7fe9",
"client_version": "4c540126",
"request_type": "announce_peer",
"request": {
"id": "51bc83f53417a62a40e8a48170cad369a13fef3c",
"info_hash": "19a6fcfcba6cc2c6d371eb754074d095adb5d291",
"token": "cacbef35",
"implied_port": 1,
"port": 54892
}
}
"bittorrent_dht": {
"transaction_id": "7fe9",
"client_version": "4c54012f",
"response": {
"id": "19a66dece45e0288ab75d141e0255738a1ce8508"
}
}
Sample error responses:
"bittorrent_dht": {
"transaction_id": "aa",
"error": {
"num": 201,
"msg": "A Generic Error Ocurred"
}
}
"bittorrent_dht": {
"transaction_id": "aa",
"error": {
"num": 203,
"msg": "Malformed Packet"
}
}
17.1.2.11.4. NTLMSSP fields
"domain" (string): the Windows domain.
"user" (string): the user.
"host" (string): the host.
"version" (string): the client version.
Example:
"ntlmssp": {
"domain": "VNET3",
"user": "administrator",
"host": "BLU",
"version": "60.230 build 13699 rev 188"
}
More complete example:
"smb": {
"id": 3,
"dialect": "NT LM 0.12",
"command": "SMB1_COMMAND_SESSION_SETUP_ANDX",
"status": "STATUS_SUCCESS",
"status_code": "0x0",
"session_id": 2048,
"tree_id": 0,
"ntlmssp": {
"domain": "VNET3",
"user": "administrator",
"host": "BLU",
"version": "60.230 build 13699 rev 188"
},
"request": {
"native_os": "Unix",
"native_lm": "Samba 3.9.0-SVN-build-11572"
},
"response": {
"native_os": "Windows (TM) Code Name \"Longhorn\" Ultimate 5231",
"native_lm": "Windows (TM) Code Name \"Longhorn\" Ultimate 6.0"
}
}
17.1.2.11.5. Kerberos fields
"kerberos.realm" (string): the Kerberos Realm.
"kerberos.snames (array of strings): snames.
Example:
"smb": {
"dialect": "2.10",
"command": "SMB2_COMMAND_SESSION_SETUP",
"status": "STATUS_SUCCESS",
"status_code": "0x0",
"session_id": 35184439197745,
"tree_id": 0,
"kerberos": {
"realm": "CONTOSO.LOCAL",
"snames": [
"cifs",
"DC1.contoso.local"
]
}
}
17.1.2.12. Event type: SSH
17.1.2.12.1. Fields
"proto_version": The protocol version transported with the ssh protocol (1.x, 2.x)
"software_version": The software version used by end user
"hassh.hash": MD5 of hassh algorithms of client or server
"hassh.string": hassh algorithms of client or server
Hassh must be enabled in the Suricata config file (set 'app-layer.protocols.ssh.hassh' to 'yes').
Example of SSH logging:
"ssh": {
"client": {
"proto_version": "2.0",
"software_version": "OpenSSH_6.7",
"hassh": {
"hash": "ec7378c1a92f5a8dde7e8b7a1ddf33d1",
"string": "curve25519-sha256,diffie-hellman-group14-sha256,diffie-hellman-group14-sha1,ext-info-c",
}
},
"server": {
"proto_version": "2.0",
"software_version": "OpenSSH_6.7",
"hassh": {
"hash": "ec7378c1a92f5a8dde7e8b7a1ddf33d1",
"string": "curve25519-sha256,curve25519-sha256@libssh.org,ecdh-sha2-nistp256",
}
}
}
17.1.2.13. Event type: Flow
17.1.2.13.1. Fields
"pkts_toserver": total number of packets to server, include bypassed packets
"pkts_toclient": total number of packets to client
"bytes_toserver": total bytes count to server
"bytes_toclient": total bytes count to client
"bypassed.pkts_toserver": number of bypassed packets to server
"bypassed.pkts_toclient": number of bypassed packets to client
"bypassed.bytes_toserver": bypassed bytes count to server
"bypassed.bytes_toclient": bypassed bytes count to client
"start": date of start of the flow
"end": date of end of flow (last seen packet)
"age": duration of the flow
"bypass": if the flow has been bypassed, it is set to "local" (internal bypass) or "capture"
"state": display state of the flow (include "new", "established", "closed", "bypassed")
"reason": mechanism that did trigger the end of the flow (include "timeout", "forced" and "shutdown")
"alerted": "true" or "false" depending if an alert has been seen on flow
Example
"flow": {
"pkts_toserver": 23,
"pkts_toclient": 21,
"bytes_toserver": 4884,
"bytes_toclient": 7392,
"bypassed": {
"pkts_toserver": 10,
"pkts_toclient": 8,
"bytes_toserver": 1305,
"bytes_toclient": 984
},
"start": "2019-05-28T23:32:29.025256+0200",
"end": "2019-05-28T23:35:28.071281+0200",
"age": 179,
"bypass": "capture",
"state": "bypassed",
"reason": "timeout",
"alerted": false
}
17.1.2.14. Event type: RDP
Initial negotiations between RDP client and server are stored as transactions and logged.
Each RDP record contains a per-flow incrementing "tx_id" field.
The "event_type" field indicates an RDP event subtype. Possible values:
"initial_request"
"initial_response"
"connect_request"
"connect_response"
"tls_handshake"
17.1.2.14.1. RDP type: Initial Request
The optional "cookie" field is a string identifier the RDP client has chosen to provide.
The optional "flags" field is a list of client directives. Possible values:
"restricted_admin_mode_required"
"redirected_authentication_mode_required"
"correlation_info_present"
17.1.2.14.2. RDP type: Initial Response
In the event of a standard initial response:
The "protocol" field is the selected protocol. Possible values:
"rdp"
"ssl"
"hybrid"
"rds_tls"
"hybrid_ex"
The optional "flags" field is a list of support server modes. Possible values:
"extended_client_data"
"dynvc_gfx"
"restricted_admin"
"redirected_authentication"
Alternatively, in the event of an error-indicating initial response:
There will be no "protocol" or "flags" fields.
The "error_code" field will contain the numeric code provided by the RDP server.
The "reason" field will contain a text summary of this code. Possible values:
"ssl required by server" (error code 0x1)
"ssl not allowed by server" (error code 0x2)
"ssl cert not on server" (error code 0x3)
"inconsistent flags" (error code 0x4)
"hybrid required by server" (error code 0x5)
"ssl with user auth required by server" (error code 0x6)
17.1.2.14.3. RDP type: Connect Request
The optional "channel" field is a list of requested data channel names.
Common channels:
"rdpdr" (device redirection)
"cliprdr" (shared clipboard)
"rdpsnd" (sound)
The optional "client" field is a sub-object that may contain the following:
"version": RDP protocol version. Possible values are "v4", "v5", "v10.0", "v10.1", "v10.2", "v10.3", "v10.4", "v10.5", "v10.6", "v10.7", "unknown".
"desktop_width": Numeric desktop width value.
"desktop_height": Numeric desktop height value.
"color_depth": Numeric color depth. Possible values are 4, 8, 15, 16, 24.
"keyboard_layout": Locale identifier name, e.g., "en-US".
"build": OS and SP level, e.g., "Windows XP", "Windows 7 SP1".
"client_name": Client computer name.
"keyboard_type": Possible values are "xt", "ico", "at", "enhanced", "1050", "9140", "jp".
"keyboard_subtype": Numeric code for keyboard.
"function_keys": Number of function keys on client keyboard.
"ime": Input method editor (IME) file name.
"product_id": Product id string.
"serial_number": Numeric value.
"capabilities": List of any of the following: "support_errinfo_pdf", "want_32bpp_session", "support_statusinfo_pdu", "strong_asymmetric_keys", "valid_connection_type", "support_monitor_layout_pdu", "support_netchar_autodetect", "support_dynvc_gfx_protocol", "support_dynamic_time_zone", "support_heartbeat_pdu".
"id": Client product id string.
"connection_hint": Possible values are "modem", "low_broadband", "satellite", "high_broadband", "wan", "lan", "autodetect".
"physical_width": Numeric physical width of display.
"physical_height": Numeric physical height of display.
"desktop_orientation": Numeric angle of orientation.
"scale_factor": Numeric scale factor of desktop.
"device_scale_factor": Numeric scale factor of display.
17.1.2.14.4. RDP type: Connect Response
With this event, the initial RDP negotiation is complete in terms of tracking and logging.
17.1.2.14.5. RDP type: TLS Handshake
With this event, the initial RDP negotiation is complete in terms of tracking and logging.
The session will use TLS encryption.
The "x509_serials" field is a list of observed certificate serial numbers, e.g., "16ed2aa0495f259d4f5d99edada570d1".
17.1.2.14.6. Examples
RDP logging:
"rdp": {
"tx_id": 0,
"event_type": "initial_request",
"cookie": "A70067"
}
"rdp": {
"tx_id": 1,
"event_type": "initial_response"
}
"rdp": {
"tx_id": 2,
"event_type": "connect_request",
"client": {
"version": "v5",
"desktop_width": 1152,
"desktop_height": 864,
"color_depth": 15,
"keyboard_layout": "en-US",
"build": "Windows XP",
"client_name": "ISD2-KM84178",
"keyboard_type": "enhanced",
"function_keys": 12,
"product_id": 1,
"capabilities": [
"support_errinfo_pdf"
],
"id": "55274-OEM-0011903-00107"
},
"channels": [
"rdpdr",
"cliprdr",
"rdpsnd"
]
}
"rdp": {
"tx_id": 3,
"event_type": "connect_response"
}
RDP logging, with transition to TLS:
"rdp": {
"tx_id": 0,
"event_type": "initial_request",
"cookie": "AWAKECODI"
}
"rdp": {
"tx_id": 1,
"event_type": "initial_response",
"server_supports": [
"extended_client_data"
],
"protocol": "hybrid"
}
"rdp": {
"tx_id": 2,
"event_type": "tls_handshake",
"x509_serials": [
"16ed2aa0495f259d4f5d99edada570d1"
]
}
17.1.2.15. Event type: RFB
17.1.2.15.1. Fields
"server_protocol_version.major", "server_protocol_version.minor": The RFB protocol version offered by the server.
"client_protocol_version.major", "client_protocol_version.minor": The RFB protocol version agreed by the client.
"authentication.security_type": Security type agreed upon in the logged transaction, e.g.
2
is VNC auth."authentication.vnc.challenge", "authentication.vnc.response": Only available when security type 2 is used. Contains the challenge and response byte buffers exchanged by the server and client as hex strings.
"authentication.security_result": Result of the authentication process (
OK
,FAIL
orTOOMANY
)."screen_shared": Boolean value describing whether the client requested screen sharing.
"framebuffer": Contains metadata about the initial screen setup process. Only available when the handshake completed this far.
"framebuffer.width", "framebuffer.height": Screen size as offered by the server.
"framebuffer.name": Desktop name as advertised by the server.
"framebuffer.pixel_format": Pixel representation information, such as color depth. See RFC6143 (https://tools.ietf.org/html/rfc6143) for details.
17.1.2.15.2. Examples
Example of RFB logging, with full VNC style authentication parameters:
"rfb": {
"server_protocol_version": {
"major": "003",
"minor": "007"
},
"client_protocol_version": {
"major": "003",
"minor": "007"
},
"authentication": {
"security_type": 2,
"vnc": {
"challenge": "0805b790b58e967f2b350a0c99de3881",
"response": "aecb26faeaaa62179636a5934bac1078"
},
"security_result": "OK"
},
"screen_shared": false,
"framebuffer": {
"width": 1280,
"height": 800,
"name": "foobar@localhost.localdomain",
"pixel_format": {
"bits_per_pixel": 32,
"depth": 24,
"big_endian": false,
"true_color": true,
"red_max": 255,
"green_max": 255,
"blue_max": 255,
"red_shift": 16,
"green_shift": 8,
"blue_shift": 0
}
}
17.1.2.16. Event type: MQTT
EVE-JSON output for MQTT consists of one object per MQTT transaction, with some common and various type-specific fields.
17.1.2.16.1. Transactions
A single MQTT communication can consist of multiple messages that need to be exchanged between broker and client. For example, some actions at higher QoS levels (> 0) usually involve a combination of requests and acknowledgement messages that are linked by a common identifier:
CONNECT
followed byCONNACK
PUBLISH
followed byPUBACK
(QoS 1) orPUBREC
/PUBREL
/PUBCOMP
(QoS 2)
SUBSCRIBE
followed bySUBACK
UNSUBSCRIBE
followed byUNSUBACK
The MQTT parser merges individual messages into one EVE output item if they belong to one transaction. In such cases, the source and destination information (IP/port) reflect the direction of the initial request, but contain messages from both sides.
Example for a PUBLISH at QoS 2:
{
"timestamp": "2020-05-19T18:00:39.016985+0200",
"flow_id": 1454127794305760,
"pcap_cnt": 65,
"event_type": "mqtt",
"src_ip": "0000:0000:0000:0000:0000:0000:0000:0001",
"src_port": 60105,
"dest_ip": "0000:0000:0000:0000:0000:0000:0000:0001",
"dest_port": 1883,
"proto": "TCP",
"mqtt": {
"publish": {
"qos": 2,
"retain": false,
"dup": false,
"topic": "house/bulbs/bulb1",
"message_id": 3,
"message": "OFF"
},
"pubrec": {
"qos": 0,
"retain": false,
"dup": false,
"message_id": 3
},
"pubrel": {
"qos": 1,
"retain": false,
"dup": false,
"message_id": 3
},
"pubcomp": {
"qos": 0,
"retain": false,
"dup": false,
"message_id": 3
}
}
}
Note that some message types (aka control packet types), such as PINGREQ
and PINGRESP
, have no type-specific
data, nor do they have information that facilitate grouping into transactions. These will be logged as single items
and only contain the common fields listed below.
17.1.2.16.2. Common fields
Common fields from the MQTT fixed header:
"*.qos": Quality of service level for the message, integer between 0 and 2.
"*.retain": Boolean value of the MQTT 'retain' flag.
"*.dup": Boolean value of the MQTT 'dup' (duplicate) flag.
17.1.2.16.3. MQTT CONNECT fields
"connect.protocol_string": Protocol string as defined in the spec, e.g.
MQTT
(MQTT 3.1.1 and later) orMQIsdp
(MQTT 3.1)."connect.protocol_version": Protocol version as defined in the specification:
protocol version
3
: MQTT 3.1protocol version
4
: MQTT 3.1.1protocol version
5
: MQTT 5.0
"connect.flags.username", "connect.flags.password": Set to true if credentials are submitted with the connect request.
"connect.flags.will": Set to true if a will is set.
"connect.flags.will_retain": Set to true if the will is to be retained on the broker.
"connect.will.clean_session": Set to true if the connection is to made with a clean session.
"connect.client_id": Client ID string submitted my the connecting client.
"connect.username", "connect.password": User/password authentication credentials submitted with the connect request. Passwords are only logged when the corresponding configuration setting is enabled (
mqtt.passwords: yes
)."connect.will.topic": Topic to publish the will message to.
"connect.will.message": Message to be published on connection loss.
"connect.will.properties": (Optional, MQTT 5.0) Will properties set on this request. See 3.1.3.2 in the spec for more information on will properties.
"connect.properties": (Optional, MQTT 5.0) CONNECT properties set on this request. See 3.1.2.11 in the spec for more information on CONNECT properties.
Example of MQTT CONNECT logging:
"connect": {
"qos": 0,
"retain": false,
"dup": false,
"protocol_string": "MQTT",
"protocol_version": 5,
"flags": {
"username": true,
"password": true,
"will_retain": false,
"will": true,
"clean_session": true
},
"client_id": "client",
"username": "user",
"password": "pass",
"will": {
"topic": "willtopic",
"message": "willmessage",
"properties": {
"content_type": "mywilltype",
"correlation_data": "3c32aa4313b3e",
"message_expiry_interval": 133,
"payload_format_indicator": 144,
"response_topic": "response_topic1",
"userprop": "uservalue",
"will_delay_interval": 200
}
},
"properties": {
"maximum_packet_size": 11111,
"receive_maximum": 222,
"session_expiry_interval": 555,
"topic_alias_maximum": 666,
"userprop1": "userval1",
"userprop2": "userval2"
}
}
17.1.2.16.4. MQTT CONNACK fields
"connack.session_present": Set to true if a session is continued on connection.
"connack.return_code": Return code/reason code for this reply. See 3.2.2.2 in the spec for more information on these codes.
"connect.properties": (Optional, MQTT 5.0) CONNACK properties set on this request. See 3.2.2.3 in the spec for more information on CONNACK properties.
Example of MQTT CONNACK logging:
"connack": {
"qos": 0,
"retain": false,
"dup": false,
"session_present": false,
"return_code": 0,
"properties": {
"topic_alias_maximum": 10
}
}
17.1.2.16.5. MQTT PUBLISH fields
"publish.topic": Topic this message is published to.
"publish.message_id": (Only present if QOS level > 0) Message ID for this publication.
"publish.message": Message to be published.
"publish.properties": (Optional, MQTT 5.0) PUBLISH properties set on this request. See 3.3.2.3 in the spec for more information on PUBLISH properties.
Example of MQTT PUBLISH logging:
"publish": {
"qos": 1,
"retain": false,
"dup": false,
"topic": "topic",
"message_id": 1,
"message": "baa baa sheep",
"properties": {
"content_type": "mytype",
"correlation_data": "3c32aa4313b3e",
"message_expiry_interval": 77,
"payload_format_indicator": 88,
"response_topic": "response_topic1",
"topic_alias": 5,
"userprop": "userval"
}
}
17.1.2.16.6. MQTT PUBACK/PUBREL/PUBREC/PUBCOMP fields
"[puback|pubrel|pubrec|pubcomp].message_id": Original message ID this message refers to.
"[puback|pubrel|pubrec|pubcomp].reason_code": Return code/reason code for this reply. See the spec for more information on these codes.
"[puback|pubrel|pubrec|pubcomp].properties": (Optional, MQTT 5.0) Properties set on this request. See the spec for more information on these properties.
Example of MQTT PUBACK/PUBREL/PUBREC/PUBCOMP logging:
"puback": {
"qos": 0,
"retain": false,
"dup": false,
"message_id": 1,
"reason_code": 16
}
17.1.2.16.7. MQTT SUBSCRIBE fields
"subscribe.message_id": (Only present if QOS level > 0) Message ID for this subscription.
"subscribe.topics": Array of pairs describing the subscribed topics:
"subscribe.topics[].topic": Topic to subscribe to.
"subscribe.topics[].qos": QOS level to apply for when subscribing.
"subscribe.properties": (Optional, MQTT 5.0) SUBSCRIBE properties set on this request. See 3.8.2.1 in the spec for more information on SUBSCRIBE properties.
Example of MQTT SUBSCRIBE logging:
"subscribe": {
"qos": 1,
"retain": false,
"dup": false,
"message_id": 1,
"topics": [
{
"topic": "topicX",
"qos": 0
},
{
"topic": "topicY",
"qos": 0
}
]
}
17.1.2.16.8. MQTT SUBACK fields
"suback.message_id": Original message ID this message refers to.
"suback.qos_granted": Array of QOS levels granted for the subscribed topics, in the order of the original request.
"suback.properties": (Optional, MQTT 5.0) SUBACK properties set on this request. See 3.9.2.1 in the spec for more information on SUBACK properties.
Example of MQTT SUBACK logging:
"suback": {
"qos": 0,
"retain": false,
"dup": false,
"message_id": 1,
"qos_granted": [
0,
0
]
}
17.1.2.16.9. MQTT UNSUBSCRIBE fields
"unsubscribe.message_id": (Only present if QOS level > 0) Message ID for this unsubscribe action.
"unsubscribe.topics": Array of topics to be unsubscribed from.
"unsubscribe.properties": (Optional, MQTT 5.0) UNSUBSCRIBE properties set on this request. See 3.10.2.1 in the spec for more information on UNSUBSCRIBE properties.
Example of MQTT UNSUBSCRIBE logging:
"unsubscribe": {
"qos": 1,
"retain": false,
"dup": false,
"message_id": 1,
"topics": [
"topicX",
"topicY"
]
}
17.1.2.16.10. MQTT UNSUBACK fields
"unsuback.message_id": Original message ID this message refers to.
Example of MQTT UNSUBACK logging:
"unsuback": {
"qos": 0,
"retain": false,
"dup": false,
"message_id": 1
}
17.1.2.16.11. MQTT AUTH fields (MQTT 5.0)
"auth.reason_code": Return code/reason code for this message. See 3.15.2.1 in the spec for more information on these codes.
"auth.properties": (Optional, MQTT 5.0) Properties set on this request. See 3.15.2.2 in the spec for more information on these properties.
Example of MQTT AUTH logging:
"auth": {
"qos": 0,
"retain": false,
"dup": false,
"reason_code": 16
}
17.1.2.16.12. MQTT DISCONNECT fields
"auth.reason_code": (Optional) Return code/reason code for this message. See 3.14.2.1 in the spec for more information on these codes.
"auth.properties": (Optional, MQTT 5.0) Properties set on this request. See 3.14.2.2 in the spec for more information on DISCONNECT properties.
Example of MQTT DISCONNECT logging:
"disconnect": {
"qos": 0,
"retain": false,
"dup": false,
"reason_code": 4,
"properties": {
"session_expiry_interval": 122,
}
}
17.1.2.16.13. Truncated MQTT data
Messages exceeding the maximum message length limit (config setting app-layer.protocols.mqtt.max-msg-length
)
will not be parsed entirely to reduce the danger of denial of service issues. In such cases, only reduced
metadata will be included in the EVE-JSON output. Furthermore, since no message ID is parsed, such messages
can not be placed into transactions, hence, they will always appear as a single transaction.
These truncated events will -- besides basic communication metadata -- only contain the following fields:
"truncated": Set to true if the entry is truncated.
"skipped_length": Size of the original message.
Example of a truncated MQTT PUBLISH message (with 10000 being the maximum length):
{
"timestamp": "2020-06-23T16:25:48.729785+0200",
"flow_id": 1872904524326406,
"pcap_cnt": 107,
"event_type": "mqtt",
"src_ip": "0000:0000:0000:0000:0000:0000:0000:0001",
"src_port": 53335,
"dest_ip": "0000:0000:0000:0000:0000:0000:0000:0001",
"dest_port": 1883,
"proto": "TCP",
"mqtt": {
"publish": {
"qos": 0,
"retain": false,
"dup": false,
"truncated": true,
"skipped_length": 100011
}
17.1.2.17. Event type: HTTP2
17.1.2.17.1. Fields
There are the two fields "request" and "response" which can each contain the same set of fields : * "settings": a list of settings with "name" and "value" * "headers": a list of headers with either "name" and "value", or "table_size_update", or "error" if any * "error_code": the error code from GOAWAY or RST_STREAM, which can be "NO_ERROR" * "priority": the stream priority.
17.1.2.17.2. Examples
Example of HTTP2 logging, of a settings frame:
"http2": {
"request": {
"settings": [
{
"settings_id": "SETTINGSMAXCONCURRENTSTREAMS",
"settings_value": 100
},
{
"settings_id": "SETTINGSINITIALWINDOWSIZE",
"settings_value": 65535
}
]
},
"response": {}
}
Example of HTTP2 logging, of a request and response:
"http2": {
"request": {
"headers": [
{
"name": ":authority",
"value": "localhost:3000"
},
{
"name": ":method",
"value": "GET"
},
{
"name": ":path",
"value": "/doc/manual/html/index.html"
},
{
"name": ":scheme",
"value": "http"
},
{
"name": "accept",
"value": "*/*"
},
{
"name": "accept-encoding",
"value": "gzip, deflate"
},
{
"name": "user-agent",
"value": "nghttp2/0.5.2-DEV"
}
]
},
"response": {
"headers": [
{
"name": ":status",
"value": "200"
},
{
"name": "server",
"value": "nghttpd nghttp2/0.5.2-DEV"
},
{
"name": "content-length",
"value": "22617"
},
{
"name": "cache-control",
"value": "max-age=3600"
},
{
"name": "date",
"value": "Sat, 02 Aug 2014 10:50:25 GMT"
},
{
"name": "last-modified",
"value": "Sat, 02 Aug 2014 07:58:59 GMT"
}
]
}
}
17.1.2.18. Event type: PGSQL
PGSQL eve-logs reflect the bidirectional nature of the protocol transactions. Each PGSQL event lists at most one "Request" message field and one or more "Response" messages.
The PGSQL parser merges individual messages into one EVE output item if they belong to the same transaction. In such cases, the source and destination information (IP/port) reflect the direction of the initial request, but contain messages from both sides.
Example of pgsql
event for a SimpleQuery transaction complete with request
with a SELECT
statement and its response:
{
"timestamp": "2021-11-24T16:56:24.403417+0000",
"flow_id": 1960113262002448,
"pcap_cnt": 780,
"event_type": "pgsql",
"src_ip": "172.18.0.1",
"src_port": 54408,
"dest_ip": "172.18.0.2",
"dest_port": 5432,
"proto": "TCP",
"pgsql": {
"tx_id": 4,
"request": {
"simple_query": "select * from rule limit 5000;"
},
"response": {
"field_count": 7,
"data_rows": 5000,
"data_size": 3035751,
"command_completed": "SELECT 5000"
}
}
}
While on the wire PGSQL messages follow basically two types (startup messages and regular messages), those may have different subfields and/or meanings, based on the message type. Messages are logged based on their type and relevant fields.
We list a few possible message types and what they mean in Suricata. For more details on message types and formats as well as what each message and field mean for PGSQL, check PostgreSQL's official documentation.
17.1.2.18.1. Fields
"tx_id": internal transaction id.
"request": each PGSQL transaction may have up to one request message. The possible messages will be described in another section.
"response": even when there are several "Response" messages, there is one
response
field that summarizes all responses for that transaction. The possible messages will be described in another section.
17.1.2.18.2. Request Messages
Requests are sent by the frontend (client), which would be the source of a pgsql flow. Some of the possible request messages are:
"startup_message": message sent to start a new PostgreSQL connection
"password_message": if password output for PGSQL is enabled in suricata.yaml, carries the password sent during Authentication phase
"simple_query": issued SQL command during simple query subprotocol. PostgreSQL identifies specific sets of commands that change the set of expected messages to be exchanged as subprotocols.
"message": "cancel_request"
: sent after a query, when the frontend attempts to cancel said query. This message is sent over a different port, thus bring shown as a different flow. It has no direct answer from the backend, but if successful will lead to anErrorResponse
in the transaction where the query was sent."message": requests which do not have meaningful payloads are logged like this, where the field value is the message type
There are several different authentication messages possible, based on selected
authentication method. (e.g. the SASL authentication will have a set of
authentication messages different from when md5
authentication is chosen).
17.1.2.18.3. Response Messages
Responses are sent by the backend (server), which would be the destination of a pgsql flow. Some of the possible request messages are:
"authentication_sasl_final": final SCRAM
server-final-message
, as explained at https://www.postgresql.org/docs/14/sasl-authentication.html#SASL-SCRAM-SHA-256"message": Backend responses which do not have meaningful payloads are logged like this, where the field value is the message type
"error_response"
"notice_response"
"notification_response"
"authentication_md5_password": a string with the
md5
salt value"parameter_status": logged as an array
"backend_key_data"
"data_rows": integer. When one or many
DataRow
messages are parsed, the total returned rows"data_size": in bytes. When one or many
DataRow
messages are parsed, the total size in bytes of the data returned"command_completed": string. Informs the command just completed by the backend
"ssl_accepted": bool. With this event, the initial PGSQL SSL Handshake negotiation is complete in terms of tracking and logging. The session will be upgraded to use TLS encryption
17.1.2.18.4. Examples
The two pgsql
events in this example represent a rejected SSL handshake
and a following connection request where the authentication method indicated by
the backend was md5
:
{
"timestamp": "2021-11-24T16:56:19.435242+0000",
"flow_id": 1960113262002448,
"pcap_cnt": 21,
"event_type": "pgsql",
"src_ip": "172.18.0.1",
"src_port": 54408,
"dest_ip": "172.18.0.2",
"dest_port": 5432,
"proto": "TCP",
"pgsql": {
"tx_id": 1,
"request": {
"message": "SSL Request"
},
"response": {
"accepted": false
}
}
}
{
"timestamp": "2021-11-24T16:56:19.436228+0000",
"flow_id": 1960113262002448,
"pcap_cnt": 25,
"event_type": "pgsql",
"src_ip": "172.18.0.1",
"src_port": 54408,
"dest_ip": "172.18.0.2",
"dest_port": 5432,
"proto": "TCP",
"pgsql": {
"tx_id": 2,
"request": {
"protocol_version": "3.0",
"startup_parameters": {
"user": "rules",
"database": "rules",
"optional_parameters": [
{
"application_name": "psql"
},
{
"client_encoding": "UTF8"
}
]
}
},
"response": {
"authentication_md5_password": "Z\\xdc\\xfdf"
}
}
}
AuthenticationOk
: a response indicating that the connection was successfully
established.:
{
"pgsql": {
"tx_id": 3,
"response": {
"message": "authentication_ok",
"parameter_status": [
{
"application_name": "psql"
},
{
"client_encoding": "UTF8"
},
{
"date_style": "ISO, MDY"
},
{
"integer_datetimes": "on"
},
{
"interval_style": "postgres"
},
{
"is_superuser": "on"
},
{
"server_encoding": "UTF8"
},
{
"server_version": "13.6 (Debian 13.6-1.pgdg110+1)"
},
{
"session_authorization": "rules"
},
{
"standard_conforming_strings": "on"
},
{
"time_zone": "Etc/UTC"
}
],
"process_id": 28954,
"secret_key": 889887985
}
}
}
Note
In Suricata, the AuthenticationOk
message is also where the backend's
process_id
and secret_key
are logged. These must be sent by the
frontend when it issues a CancelRequest
message (seen below).
A CancelRequest
message:
{
"timestamp": "2023-12-07T15:46:56.971150+0000",
"flow_id": 775771889500133,
"event_type": "pgsql",
"src_ip": "100.88.2.140",
"src_port": 39706,
"dest_ip": "100.96.199.113",
"dest_port": 5432,
"proto": "TCP",
"pkt_src": "stream (flow timeout)",
"pgsql": {
"tx_id": 1,
"request": {
"message": "cancel_request",
"process_id": 28954,
"secret_key": 889887985
}
}
}
Note
As the CancelRequest
message is sent over a new connection, the way to
correlate it with the proper frontend/flow from which it originates is by
querying on process_id
and secret_key
seen in the
AuthenticationOk
event.
17.1.2.18.5. Field Reference
17.1.2.18.5.1. Top Level (object)
Name |
Type |
Description |
---|---|---|
request |
object |
|
response |
object |
|
tx_id |
integer |
17.1.2.18.5.2. response (object)
Name |
Type |
Description |
---|---|---|
authentication_md5_password |
string |
|
authentication_sasl_final |
string |
|
code |
string |
|
command_completed |
string |
|
data_rows |
integer |
|
data_size |
integer |
|
field_count |
integer |
|
file |
string |
|
line |
string |
|
message |
string |
|
parameter_status |
array of objects |
|
process_id |
integer |
|
routine |
string |
|
secret_key |
integer |
|
severity_localizable |
string |
|
severity_non_localizable |
string |
|
ssl_accepted |
boolean |
17.1.2.18.5.3. response.parameter_status (array of objects)
Name |
Type |
Description |
---|---|---|
application_name |
string |
|
client_encoding |
string |
|
date_style |
string |
|
integer_datetimes |
string |
|
interval_style |
string |
|
is_superuser |
string |
|
server_encoding |
string |
|
server_version |
string |
|
session_authorization |
string |
|
standard_conforming_strings |
string |
|
time_zone |
string |
17.1.2.18.5.4. request (object)
Name |
Type |
Description |
---|---|---|
message |
string |
|
password |
string |
|
password_message |
string |
|
process_id |
integer |
|
protocol_version |
string |
|
sasl_authentication_mechanism |
string |
|
sasl_param |
string |
|
sasl_response |
string |
|
secret_key |
integer |
|
simple_query |
string |
|
startup_parameters |
object |
17.1.2.18.5.5. request.startup_parameters (object)
Name |
Type |
Description |
---|---|---|
optional_parameters |
array of objects |
|
user |
string |
17.1.2.18.5.6. request.startup_parameters.optional_parameters (array of objects)
Name |
Type |
Description |
---|---|---|
application_name |
string |
|
client_encoding |
string |
|
database |
string |
|
datestyle |
string |
|
extra_float_digits |
string |
|
options |
string |
|
replication |
string |
17.1.2.19. Event type: IKE
The parser implementations for IKEv1 and IKEv2 have a slightly different feature set. They can be distinguished using the "version_major" field (which equals either 1 or 2). The unique properties are contained within a separate "ikev1" and "ikev2" sub-object.
17.1.2.19.1. Fields
"init_spi", "resp_spi": The Security Parameter Index (SPI) of the initiator and responder.
"version_major": Major version of the ISAKMP header.
"version_minor": Minor version of the ISAKMP header.
"payload": List of payload types in the current packet.
"exchange_type": Type of the exchange, as numeric values.
"exchange_type_verbose": Type of the exchange, in human-readable form. Needs
extended: yes
set in theike
EVE output option."alg_enc", "alg_hash", "alg_auth", "alg_dh", "alg_esn": Properties of the chosen security association by the server.
"ikev1.encrypted_payloads": Set to
true
if the payloads in the packet are encrypted."ikev1.doi": Value of the domain of interpretation (DOI).
"ikev1.server.key_exchange_payload", "ikev1.client.key_exchange_payload": Public key exchange payloads of the server and client.
"ikev1.server.key_exchange_payload_length", "ikev1.client.key_exchange_payload_length": Length of the public key exchange payload.
"ikev1.server.nonce_payload", "ikev1.client.nonce_payload": Nonce payload of the server and client.
"ikev1.server.nonce_payload_length", "ikev1.client.nonce_payload_length": Length of the nonce payload.
"ikev1.client.client_proposals": List of the security associations proposed to the server.
"ikev1.vendor_ids": List of the vendor IDs observed in the communication.
"server_proposals": List of server proposals with parameters, if there are more than one. This is a non-standard case; this field is only present if such a situation was observed in the inspected traffic.
17.1.2.19.2. Examples
Example of IKE logging:
"ike": {
"version_major": 1,
"version_minor": 0,
"init_spi": "8511617bfea2f172",
"resp_spi": "c0fc6bae013de0f5",
"message_id": 0,
"exchange_type": 2,
"exchange_type_verbose": "Identity Protection",
"sa_life_type": "LifeTypeSeconds",
"sa_life_type_raw": 1,
"sa_life_duration": "Unknown",
"sa_life_duration_raw": 900,
"alg_enc": "EncAesCbc",
"alg_enc_raw": 7,
"alg_hash": "HashSha2_256",
"alg_hash_raw": 4,
"alg_auth": "AuthPreSharedKey",
"alg_auth_raw": 1,
"alg_dh": "GroupModp2048Bit",
"alg_dh_raw": 14,
"sa_key_length": "Unknown",
"sa_key_length_raw": 256,
"alg_esn": "NoESN",
"payload": [
"VendorID",
"Transform",
"Proposal",
"SecurityAssociation"
],
"ikev1": {
"doi": 1,
"encrypted_payloads": false,
"client": {
"key_exchange_payload": "0bf7907681a656aabed38fb1ba8918b10d707a8e635a...",
"key_exchange_payload_length": 256,
"nonce_payload": "1427d158fc1ed6bbbc1bd81e6b74960809c87d18af5f0abef14d5274ac232904",
"nonce_payload_length": 32,
"proposals": [
{
"sa_life_type": "LifeTypeSeconds",
"sa_life_type_raw": 1,
"sa_life_duration": "Unknown",
"sa_life_duration_raw": 900,
"alg_enc": "EncAesCbc",
"alg_enc_raw": 7,
"alg_hash": "HashSha2_256",
"alg_hash_raw": 4,
"alg_auth": "AuthPreSharedKey",
"alg_auth_raw": 1,
"alg_dh": "GroupModp2048Bit",
"alg_dh_raw": 14,
"sa_key_length": "Unknown",
"sa_key_length_raw": 256
}
]
},
"server": {
"key_exchange_payload": "1e43be52b088ec840ff81865074b6d459b5ca7813b46...",
"key_exchange_payload_length": 256,
"nonce_payload": "04d78293ead007bc1a0f0c6c821a3515286a935af12ca50e08905b15d6c8fcd4",
"nonce_payload_length": 32
},
"vendor_ids": [
"4048b7d56ebce88525e7de7f00d6c2d3",
"4a131c81070358455c5728f20e95452f",
"afcad71368a1f1c96b8696fc77570100",
"7d9419a65310ca6f2c179d9215529d56",
"cd60464335df21f87cfdb2fc68b6a448",
"90cb80913ebb696e086381b5ec427b1f"
]
},
}
17.1.2.20. Event type: Modbus
17.1.2.20.1. Common fields
"id": The unique transaction number given by Suricata
17.1.2.20.2. Request/Response fields
"transaction_id": The transaction id found in the packet
"protocol_id": The modbus version
"unit_id": ID of the remote server to interact with
"function_raw": Raw value of the function code byte
"function_code": Associated name of the raw function value
"access_type": Type of access requested by the function
"category": The function code's category
"error_flags": Errors found in the data while parsing
17.1.2.20.3. Exception fields
"raw": Raw value of the exception code byte
"code": Associated name of the raw exception value
17.1.2.20.4. Diagnostic fields
"raw": Raw value of the subfunction code bytes
"code": Associated name of the raw subfunction value
"data": Bytes following the subfunction code
17.1.2.20.5. MEI fields
"raw": Raw value of the mei function code bytes
"code": Associated name of the raw mei function value
"data": Bytes following the mei function code
17.1.2.20.6. Read Request fields
"address": Starting address to read from
"quantity": Amount to read
17.1.2.20.7. Read Response fields
"data": Data that was read
17.1.2.20.8. Multiple Write Request fields
"address": Starting address to write to
"quantity": Amount to write
"data": Data to write
17.1.2.20.9. Mask Write fields
"address": Starting address of content modification
"and_mask": And mask to modify content with
"or_mask": Or mask to modify content with
17.1.2.20.10. Other Write fields
"address": Starting address to write to
"data": Data to write
17.1.2.20.11. Generic Data fields
"data": Data following the function code
17.1.2.20.12. Example
Example of Modbus logging of a request and response:
"modbus": {
"id": 1,
"request": {
"transaction_id": 0,
"protocol_id": 0,
"unit_id": 0,
"function_raw": 1,
"function_code": "RdCoils",
"access_type": "READ | COILS",
"category": "PUBLIC_ASSIGNED",
"error_flags": "NONE",
},
"response": {
"transaction_id": 0,
"protocol_id": 0,
"unit_id": 0,
"function_raw": 1,
"function_code": "RdCoils",
"access_type": "READ | COILS",
"category": "PUBLIC_ASSIGNED",
"error_flags": "DATA_VALUE",
},
}
17.1.2.21. Event type: QUIC
17.1.2.21.1. Fields
"version": Version of the QUIC packet if contained in the packet, 0 if not
"cyu": List of found CYUs in the packet
"cyu[].hash": CYU hash
"cyu[].string": CYU string
"ja3": The JA3 fingerprint consisting of both a JA3 hash and a JA3 string
"ja3s": The JA3S fingerprint consisting of both a JA3 hash and a JA3 string
"ja4": The JA4 client fingerprint for QUIC
17.1.2.21.2. Examples
Example of QUIC logging with CYU, JA3 and JA4 hashes (note that the JA4 hash is only an example to illustrate the format and does not correlate with the others):
"quic": {
"version": 1362113590,
"cyu": [
{
"hash": "7b3ceb1adc974ad360cfa634e8d0a730",
"string": "46,PAD-SNI-STK-SNO-VER-CCS-NONC-AEAD-UAID-SCID-TCID-PDMD-SMHL-ICSL-NONP-PUBS-MIDS-SCLS-KEXS-XLCT-CSCT-COPT-CCRT-IRTT-CFCW-SFCW"
}
],
"ja3": {
"hash": "324f8c50e267adba4b5dd06c964faf67",
"string": "771,4865-4866-4867,51-43-13-27-17513-16-45-0-10-57,29-23-24,"
},
"ja4": "q13d0310h3_55b375c5d22e_cd85d2d88918"
}
17.1.2.21.3. Output Reference
17.1.2.21.3.1. Top Level (object)
Name |
Type |
Description |
---|---|---|
cyu |
array of objects |
ja3-like fingerprint for versions of QUIC before standardization |
extensions |
array of objects |
list of extensions in hello |
ja3 |
object |
ja3 from client, as in TLS |
ja3s |
object |
ja3 from server, as in TLS |
ja4 |
string |
|
sni |
string |
Server Name Indication |
ua |
string |
User Agent for versions of QUIC before standardization |
version |
string |
Quic protocol version |
17.1.2.21.3.2. ja3s (object)
Name |
Type |
Description |
---|---|---|
hash |
string |
ja3s hex representation |
string |
string |
ja3s string representation |
17.1.2.21.3.3. ja3 (object)
Name |
Type |
Description |
---|---|---|
hash |
string |
ja3 hex representation |
string |
string |
ja3 string representation |
17.1.2.21.3.4. extensions (array of objects)
Name |
Type |
Description |
---|---|---|
name |
string |
human-friendly name of the extension |
type |
integer |
integer identifier of the extension |
values |
array of strings |
extension values |
17.1.2.21.3.5. cyu (array of objects)
Name |
Type |
Description |
---|---|---|
hash |
string |
cyu hash hex representation |
string |
string |
cyu hash string representation |
17.1.2.22. Event type: DHCP
The default DHCP logging level only logs enough information to map a MAC address to an IP address. Enable extended mode to log all DHCP message types in full detail.
17.1.2.22.1. Fields
"type": message type (e.g. request, reply)
"id": DHCP transaction id
"client_mac": client MAC address
"assigned_ip": IP address given by DHCP server
"client_ip": client IP address
"dhcp_type": DHCP message type
"client_id": DHCP client identifier
"hostname": DHCP client host name
"params": DHCP parameter request list
"requested_ip": DHCP client requesting specific IP address
"relay_ip": BOOTP relay agent IP address
"next_server_ip": BOOTP next IP address to use for booting process
"subnet_mask": subnet mask to use with client IP address
"routers": IP address(es) to be used as default gateways on DHCP client
"lease_time": Duration of IP address assignment to client
"renewal_time": Time in seconds since client began IP address request or renewal process
"rebinding_time": Time in seconds before the client begins to renew its IP address lease
"dns_servers": IP address(es) of servers the client will use for DNS queries
17.1.2.22.2. Examples
Example of DHCP log entry (default logging level):
"dhcp": {
"type":"reply",
"id":755466399,
"client_mac":"54:ee:75:51:e0:66",
"assigned_ip":"100.78.202.125",
"dhcp_type":"ack",
"renewal_time":21600,
"client_id":"54:ee:75:51:e0:66"
}
Example of DHCP log entry (extended logging enabled):
"dhcp": {
"type":"reply",
"id":2787908432,
"client_mac":"54:ee:75:51:e0:66",
"assigned_ip":"192.168.1.120",
"client_ip":"0.0.0.0",
"relay_ip":"192.168.1.1",
"next_server_ip":"0.0.0.0",
"dhcp_type":"offer",
"subnet_mask":"255.255.255.0",
"routers":["192.168.1.100"],
"hostname":"test",
"lease_time":86400,
"renewal_time":21600,
"rebinding_time":43200,
"client_id":"54:ee:75:51:e0:66",
"dns_servers":["192.168.1.50","192.168.1.49"]
}
17.1.2.23. Event type: ARP
17.1.2.23.1. Fields
"hw_type": network link protocol type
"proto_type": internetwork protocol for which the request is intended
"opcode": operation that the sender is performing (e.g. request, response)
"src_mac": source MAC address
"src_ip": source IP address
"dest_mac": destination MAC address
"dest_ip": destination IP address
17.1.2.23.2. Examples
Example of ARP logging: request and response
"arp": {
"hw_type": "ethernet",
"proto_type": "ipv4",
"opcode": "request",
"src_mac": "00:1a:6b:6c:0c:cc",
"src_ip": "10.10.10.2",
"dest_mac": "00:00:00:00:00:00",
"dest_ip": "10.10.10.1"
}
"arp": {
"hw_type": "ethernet",
"proto_type": "ipv4",
"opcode": "reply",
"src_mac": "00:1a:6b:6c:0c:cc",
"src_ip": "10.10.10.2",
"dest_mac": "00:1d:09:f0:92:ab",
"dest_ip": "10.10.10.1"
}