Trigger API Reference
Overview
Application Inspection triggers are composed of user-defined code that automatically executes on system events through the ExtraHop trigger API. By writing triggers, you can collect custom metric data about the activities on your network. In addition, triggers can perform operations on protocol messages (such as an HTTP request) before the packet is discarded.
The ExtraHop system monitors, extracts, and records a core set of Layer 7 (L7) metrics for devices on the network, such as response counts, error counts, and processing times. After these metrics are recorded for a given L7 protocol, the packets are discarded, freeing resources for continued processing.
Triggers enable you to:
- Generate and store custom metrics to the internal datastore of the ExtraHop system. For example, while the ExtraHop system does not collect information about which user agent generated an HTTP request, you can generate and collect that level of detail by writing a trigger and committing the data to the datastore. You can also view custom data that is stored in the datastore by creating custom metrics pages and displaying those metrics through the Metric Explorer and dashboards.
- Generate and send records for long-term storage and retrieval to a recordstore.
- Create a user-defined application that collects metrics across multiple types of network traffic to capture information with cross-tier impact. For example, to gain a unified view of all the network traffic associated with a website—from web transactions to DNS requests and responses to database transactions—you can create an application that contains all of these website-related metrics.
- Generate custom metrics and send the information to syslog consumers such as Splunk, or to third party databases such as MongoDB or Kafka.
- Initiate a packet capture to record individual flows based on user-specified criteria. You can download captured flows and process them through third-party tools. Your ExtraHop system must be licensed for packet capture to access this feature.
The purpose of this guide is to provide reference material when writing the blocks of JavaScript code that run when trigger conditions are met. The Trigger API resources section contains a list of topics that provide a comprehensive overview of trigger concepts and procedures.
Trigger API resources
This section contains a list of topics that will help familiarize you with trigger concepts, building a trigger, and best practices.
- Triggers
- Build a trigger
- Monitor trigger performance
- Triggers Best Practices Guide
- Triggers FAQ
- Walkthrough: Build a trigger to collect custom metrics for HTTP 404 errors
- Walkthrough: Initiate precision packet captures to analyze zero window conditions
- Walkthrough: Build a trigger to monitor responses to NTP monlist requests
Data types for custom metrics
The ExtraHop Trigger API enables you to create custom metrics that collect data about your environment, beyond what is provided by built-in protocol metrics.
You can create custom metrics of the following data types:
- count
-
The number of metric events that occurred over a specific time range. For example, to record information about the number of HTTP requests over time, select a top-level count metric. You could also select a detail count metric to record information about the number of times clients accessed a server, with the IPAddress key and an integer representing the number of accesses as a value.
- snapshot
- A special type of count metric that, when queried over time, returns the most recent value (such as TCP established connections).
- distinct
- The estimated number of unique items observed over time, such as the number of unique ports that received SYN packets, where a high number might indicate port scanning.
- dataset
- A statistical summary of timing information, such as 5-number summary: min, 25th-percentile, median, 75th-percentile, max. For example, to record information about HTTP processing time over time, select a top-level dataset metric.
- sampleset
- A statistical summary of timing information, such as mean and standard deviation. For example, to record information about the length of time it took the server to process each URI, select a detail sampleset with the URI string key and an integer representing processing time as a value.
- max
- A special type of count metric that preserves the maximum. For example, to record the slowest HTTP statements over time without relying on a session table, select a top-level and a detail max metric.
Custom metrics are supported for the following source types:
For more information about the differences between top-level and detail metrics, see the Metrics FAQ.
Global functions
Global functions can be called on any event.
- cache (key: String, valueFn: () => Any): Any
- Caches the specified parameters in a table to enable efficient lookup and return of
large data sets.
- key: String
- An identifier that indicates the location of the cached value. A key must be unique within a trigger.
- valueFn: () => Any
- A zero-argument function that returns a non-null value.
In the following example, the cache method is called with large amounts of data hard-coded into the trigger script:
let storeLookup = cache("storesByNumber", () => ({ 1 : "Newark", 2 : "Paul", 3 : "Newark", 4 : "St Paul"// 620 lines omitted })); var storeCity; var query = HTTP.parseQuery(HTTP.query); if (query.storeCode) { storeCity = storeLookup[parseInt(query.storeCode)]; }
In the following example, a list of known user agents in a JBoss trigger is normalized before it is compared with the observed user agent. The trigger converts the list to lowercase and trims excess whitespace, and then caches the entries.
function jbossUserAgents() { return [ // Add your own user agents here, followed by a comma "Gecko-like (Edge 14.0; Windows 10; Silverlight or similar)", "Mozilla/5.0 (Macintosh; Intel Mac OS X 10_10_5) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/51.0.2704.79 Safari/537.36", "Mozilla/5.0 (Android)" ].map(ua => ua.trim().toLowerCase()); } var badUserAgents = cache("badUserAgents", jbossUserAgents);
- commitDetection (type: String, options: Object)
- Generates a detection on the ExtraHop system.
- type: String
- A user-defined type for the definition, such as brute_force_attack. You can tune detections to hide multiple detections with the same type. The string can only contain letters, numbers, and underscores.
- options: Object
- An object that specifies the following properties for the detection:
- title: String
- A user-defined title that identifies the detection.
- description: String
- A description of the detection.
- categories: Array of Strings
- An array of categories the detection can be assigned to. You can filter detections by category in the ExtraHop system.
The following values are valid for the related categories:
Value Category sec Security sec.action Actions on Objective sec.botnet Botnet sec.caution Caution sec.command Command & Control sec.cryptomining Cryptomining sec.dos Denial of Service sec.exfil Exfiltration sec.exploit Exploitation sec.hardening Hardening sec.lateral Lateral Movement sec.ransomware Ransomware sec.recon Reconnaissance perf Performance perf.auth Authorization & Access Control perf.db Database perf.network Network Infrastructure perf.service Service Degradation perf.storage Storage perf.virtual Desktop & App Virtualization perf.web Web Application - riskScore: Number | null
- An optional number between 1 and 99 that represents the risk score of the detection.
- participants: Array of Objects
- An optional array of participant objects associated with the detection. A
participant object must contain the following properties:
- object: Object
- The Device, Application, or IP address object associated with the participant.
- role: String
- The role of the participant in the detection. The following values
are valid:
- offender
- victim
- identityKey: String | null
- A unique identifier that enables ongoing detections. If multiple
detections with the same identity key and detection type are generated
within the time period specified by the identityTtl
property, the detections are consolidated into a single ongoing
detection.
Note: If the ExtraHop system is generating a large number of detections with unique identity keys, the system might fail to consolidate some ongoing detections. However, the system will not generate more than 250 individual detections for a trigger in a day. - identityTtl: String
- The amount of time after a detection is generated that duplicate
detections are consolidated into an ongoing detection.
After a detection is generated, if another detection with the same identity key and detection type is generated within the specified time period, the two detections are consolidated into a single ongoing detection. Each time a detection is consolidated into an ongoing detection, the time period is reset, and the detection does not end until the time period expires. For example, if identityTtl is set to day, and four duplicate detections are each generated 12 hours apart, the ongoing detection spans three days. The following time periods are valid:
- hour
- day
- week
The default time period is hour.
- commitRecord (id: String, record: Object): void
- Sends a custom record object to the configured recordstore.
- id: String
- The ID of the record type to be created. The ID cannot begin with a tilde (~).
- record: Object
- An object containing a list of property and value pairs to be sent to the
configured recordstore as a custom record.
The following properties are automatically added to records and are not represented on the objects returned by the built-in record accessors, such as HTTP.record:
- ex
- flowID
- client
- clientAddr
- clientPort
- receiver
- receiverAddr
- receiverPort
- sender
- senderAddr
- senderPort
- server
- serverAddr
- serverPort
- timestamp
- vlan
For example, to access the flowID property in an HTTP record, you would include HTTP.record.Flow.id in your statement.
Important: To avoid unexpected data in the record or an exception when the method is called, the property names listed above cannot be specified as a property name in custom records. In addition, a property name in custom records cannot contain any of the following characters:
- "." - period
- ":" - colon
- "[" and "]" - square brackets
In the following example, the two property and value pairs that have been added to the record variable are committed to a custom record by the commitRecord function:
var record = { 'field1': myfield1, 'field2': myfield2 }; commitRecord('record_type_id', record);
On most events, you can commit a built-in record that contains default properties. For example, a built-in record such as the HTTP.record object can be the basis for a custom record.
The following example code commits a custom record that includes all of the built-in metrics from the HTTP.record object and an additional metric from the HTTP.headers property:
var record = Object.assign( {'server': HTTP.headers.server}, HTTP.record ); commitRecord('custom-http-record', record);
You can access a built-in record object on the following events:
Class Events AAA AAA_REQUEST AAA_RESPONSE
ActiveMQ ACTIVEMQ_MESSAGE AJP AJP_RESPONSE CIFS CIFS_RESPONSE DB DB_RESPONSE DHCP DHCP_REQUEST DHCP_RESPONSE
DICOM DICOM_REQUEST DICOM_RESPONSE
DNS DNS_REQUEST DNS_RESPONSE
FIX FIX_REQUEST FIX_RESPONSE
Flow FLOW_RECORD FTP FTP_RESPONSE HL7 HL7_RESPONSE HTTP HTTP_RESPONSE IBMMQ IBMMQ_REQUEST IBMMQ_RESPONSE
ICA ICA_OPEN ICA_CLOSE
ICA_TICK
ICMP ICMP_MESSAGE Kerberos KERBEROS_REQUEST KERBEROS_RESPONSE
LDAP LDAP_REQUEST LDAP_RESPONSE
Memcache MEMCACHE_REQUEST MEMCACHE_RESPONSE
Modbus MODBUS_RESPONSE MongoDB MONGODB_REQUEST MONGODB_RESPONSE
MSMQ MSMQ_MESSAGE NetFlow NETFLOW_RECORD NFS NFS_RESPONSE NTLM NTLM_MESSAGE POP3 POP3_RESPONSE RDP RDP_OPEN RDP_CLOSE
RDP_TICK
Redis REDIS_REQUEST REDIS_RESPONSE
RTCP RTCP_MESSAGE RTP RTP_TICK SCCP SCCP_MESSAGE SFlow SFLOW_RECORD SIP SIP_REQUEST SIP_RESPONSE
SMPP SMPP_RESPONSE SMTP SMTP_RESPONSE SSH SSH_OPEN SSH_CLOSE
SSH_TICK
SSL SSL_ALERT SSL_OPEN
SSL_CLOSE
SSL_HEARTBEAT
SSL_RENEGOTIATE
Telnet TELNET_MESSAGE - debug (message: String): void
- Writes to the debug log if debugging is enabled.
- getTimestamp(): Number
- Returns the timestamp from the packet that caused the trigger event to run, expressed in milliseconds with microseconds as the fractional segment after the decimal.
- log (message: String): void
- Writes to the debug log regardless of whether debugging is enabled.
Multiple calls to debug and log statements in which the message is the same value will display once every 30 seconds.
The limit for debug log entries is 2048 bytes. To log larger entries, see Remote.Syslog.
- md5 (message: String|Buffer): String
- Hashes the UTF-8 representation of the specified message Buffer object or string and returns the MD5 sum of the string.
- sha1 (message: String|Buffer): String
- Hashes the UTF-8 representation of the specified message Buffer object or string and returns the SHA-1 sum of the string.
- sha256 (message: String|Buffer): String
- Hashes the UTF-8 representation of the specified message Buffer object or string and returns the SHA-256 sum of the string.
- sha512 (message: String|Buffer): String
- Hashes the UTF-8 representation of the specified message Buffer object or string and returns the SHA-512 sum of the string.
- uuid(): String
- Returns a random version 4 Universally Unique Identifier (UUID).
General purpose classes
The Trigger API classes in this section provide functionality that is broadly applicable across all events.
Class | Description |
---|---|
Application | Enables you to create new applications and adds custom metrics at the application level. |
Buffer | Enables you to access buffer content. |
Detection | Enables you to retrieve information about detections on the ExtraHop system. |
Device | Enables you to retrieve device attributes and add custom metrics at the device level. |
Discover | Enables you to access newly discovered devices and applications. |
Flow | Flow refers to a conversation between two endpoints over a protocol such as TCP, UDP or ICMP. The Flow class provides access to elements of these conversations, such as endpoint IP addresses and age of the flow. The Flow class also contains a flow store designed to pass objects from request to response on the same flow. |
FlowInterface | Enables you to retrieve flow interface attributes and add custom metrics at the interface level. |
FlowNetwork | Enables you to retrieve flow network attributes and add custom metrics at the flow network level. |
GeoIP | Enables you to retrieve the approximate country-level or city-level location of a specific IP address. |
IPAddress | Enables you to retrieve IP address attributes. |
Network | Enables you to add custom metrics at the global level. |
Session | Enables you to access the session table,which supports coordination across multiple independently executing triggers. |
System | Enables you to access properties that identify the ExtraHop system on which a trigger is running. |
ThreatIntel | Enables you to see whether an IP address, hostname, or URI is suspect. |
Trigger | Enables you to access details about a running trigger. |
VLAN | Enables you to access information about a VLAN on the network. |
Application
The Application class enables you collect metrics across multiple types of network traffic to capture information with cross-tier impact. For example, if you want a unified view of all the network traffic associated with a website—from web transactions to DNS requests and responses to database transactions—you can write a trigger to create a custom application that contains all of these related metrics. The Application class also enables you to create custom metrics and commit the metric data to applications. Applications can only be created and defined through triggers.
Instance methods
The methods in this section cannot be called directly on the Application class. You can only call these methods on specific Application class instances. For example, the following statement is valid:
Application("sampleApp").metricAddCount("responses", 1);
However, the following statement is invalid:
Application.metricAddCount("responses", 1);
- commit(id: String): void
- Creates an application, commits built-in metrics associated with the event to the
application, and adds the application to any built-in or custom records committed during
the event.
The application ID must be a string. For built-in application metrics, the metrics are committed only once, even if the commit() method is called multiple times on the same event.
The following statement creates an application named "myApp" and commits built-in metrics to the application:
Application("myApp").commit();
If you plan to commit custom metrics to an application, you can create the application without calling the commit() method. For example, if the application does not already exist, the following statement creates the application and commits the custom metric to the application:
Application("myApp").metricAddCount("requests", 1);
You can call the Application.commit method only on the following events:
Metric types Event AAA AAA_REQUEST -and- AAA_RESPONSE AJP AJP_RESPONSE CIFS CIFS_RESPONSE DB DB_RESPONSE DHCP DHCP_REQUEST -and- DHCP_RESPONSE DNS DNS_REQUEST -and- DNS_RESPONSE FIX FIX_REQUEST -and- FIX_RESPONSE FTP FTP_RESPONSE HTTP HTTP_RESPONSE IBMMQ IBMMQ_REQUEST -and- IBMMQ_RESPONSE ICA ICA_TICK -and- ICA_CLOSE Kerberos KERBEROS_REQUEST -and- KERBEROS_RESPONSE LDAP LDAP_REQUEST -and- LDAP_RESPONSE Memcache MEMCACHE_REQUEST -and- MEMCACHE_RESPONSE Modbus MODBUS_RESPONSE MongoDB MONGODB_REQUEST -and- MONGODB_RESPONSE NAS CIFS_RESPONSE -and/or- NFS_RESPONSE NetFlow NETFLOW_RECORD Note that the commit will not occur if enterprise IDs are present in the NetFlow record.
NFS NFS_RESPONSE RDP RDP_TICK Redis REDIS_REQUEST -and- REDIS_RESPONSE RPC RPC_REQUEST -and- RPC_RESPONSE RTP RTP_TICK RTCP RTCP_MESSAGE SCCP SCCP_MESSAGE SIP SIP_REQUEST -and- SIP_RESPONSE SFlow SFLOW_RECORD SMTP SMTP_RESPONSE SSH SSH_CLOSE -and- SSH_TICK SSL SSL_RECORD -and- SSL_CLOSE WebSocket WEBSOCKET_OPEN, WEBSOCKET_CLOSE, and WEBSOCKET_MESSAGE - metricAddCount (metric_name: String, count: Number, options: Object):void
- Creates a custom top-level
count metric. Commits the metric data to the
specified application.
- metric_name: String
- The name of the top-level count metric.
- count: Number
- The increment value. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following property:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailCount (metric_name: String, key: String | IPAddress, count: Number, options: Object):void
- Creates a custom detail
count metric by which you can drill down. Commits the
metric data to the specified application.
- metric_name: String
- The name of the detail count metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- count: Number
- The increment value. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following property:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDataset (metric_name: String, val: Number, options: Object):void
- Creates a custom top-level
dataset metric. Commits the metric data to the
specified application.
- metric_name: String
- The name of the top-level dataset metric.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- freq: Number
- An option that enables you to simultaneously record multiple occurrences of particular values in the dataset when set to the number of occurrences specified by the val parameter. If no value is specified, the default value is 1.
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailDataset (metric_name: String, key: String | IPAddress, val: Number, options: Object):void
- Creates a custom detail
dataset metric by which you can drill down.
Commits the metric data to the specified application.
- metric_name: String
- The name of the detail count metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- freq: Number
- An option that enables you to simultaneously record multiple occurrences of particular values in the dataset when set to the number of occurrences specified by the val parameter. If no value is specified, the default value is 1.
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDistinct (metric_name: String, item: Number | String | IPAddress:void
- Creates a custom top-level
distinct count metric. Commits the metric data to the specified application.
- metric_name: String
- The name of the top-level distinct count metric.
- item: Number | String | IPAddress
- The value to be placed into the set. The value is converted to a string before it is placed in the set.
- metricAddDetailDistinct (metric_name: String, key: String | IPAddress, item: Number | String | IPAddress:void
- Creates a custom detail
distinct count metric by which you can drill
down. Commits the metric data to the specified application.
- metric_name: String
- The name of the detail distinct count metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- item: Number | String | IPAddress
- The value to be placed into the set. The value is converted to a string before it is placed in the set.
- metricAddMax (metric_name: String, val: Number, options: Object):void
- Creates a custom top-level
maximum metric. Commits the metric data to the
specified application.
- metric_name: String
- The name of the top-level maximum metric.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailMax (metric_name: String, key: String | IPAddress, val: Number, options: Object):void
- Creates a custom detail
maximum metric by which you can drill down.
Commits the metric data to the specified application.
- metric_name: String
- The name of the detail maximum metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddSampleset (metric_name: String, val: Number, options: Object):void
- Creates a custom top-level
sampleset metric. Commits the metric data to
the specified application.
- metric_name: String
- The name of the top-level sampleset metric.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailSampleset (metric_name: String, key: String | IPAddress, val: Number, options: Object):void
- Creates a custom detail
sampleset metric by which you can drill
down. Commits the metric data to the specified application.
- metric_name: String
- The name of the detail sampleset metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddSnap (metric_name: String, count: Number, options: Object):void
- Creates a custom top-level
snapshot metric. Commits the metric data to
the specified application.
- metric_name: String
- The name of the top-level snapshot metric.
- count: Number
- The observed value, such as current established connections. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailSnap (metric_name: String, key: String | IPAddress, count: Number, options: Object):void
- Creates a custom detail
snapshot metric by which you can drill down.
Commits the metric data to the specified application.
- metric_name: String
- The name of the detail sampleset metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- count: Number
- The observed value, such as current established connections. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- toString(): String
- Returns the Application object as a string in the following
format:
[object Application <application_id>]
Instance properties
- id: String
- The unique ID of the application, as shown in the ExtraHop system on the page for that application.
Buffer
The Buffer class provides access to binary data.
A buffer is an object with the characteristics of an array. Each element in the array is a number between 0 and 255, representing one byte. Each buffer object has a length property (the number of items in an array) and a square bracket operator.
Encrypted payload is not decrypted for TCP and UDP payload analysis.
UDP_PAYLOAD requires a matching string but TCP_PAYLOAD does not. If you do not specify a matching string for TCP_PAYLOAD, the trigger runs one time after the first N bytes of payload.
Methods
- Buffer (string: String | format: String)
- Constructor for the Buffer class that decodes an encoded string into a Buffer object.
The following parameters are required:
- string: String
- The encoded string.
- format: String
- The format that the string argument is encoded with. The following encoding
formats are valid:
- base64
- base64url
Instance methods
- decode(type: String): String
- Interprets the contents of the buffer and returns a string with one of the following
options:
- utf-8
- utf-16
- ucs2
- hex
- equals(buffer: Buffer): Boolean
- Performs an equality test between Buffer objects, where buffer is the object to be compared against.
- slice(start: Number, end: Number): Buffer
- Returns the specified bytes in a buffer as a new buffer. Bytes are selected starting
at the given start argument and ending at (but not including) the end argument.
- start: Number
- Integer that specifies where to start the selection. Specify negative numbers to select from the end of a buffer. This is zero-based.
- end: Number
- Optional integer that specifies where to end the selection. If omitted, all elements from the start position and to the end of the buffer will be selected. Specify negative numbers to select from the end of a buffer. This is zero-based.
- toString(format: String): String
- Converts the buffer to a string. The following parameter is optional:
- format: String
- The format to encode the string with. If no encoding is specified, the string is
unencoded. The following encoding formats are valid:
- base64
- base64url
- hex
- unpack(format: String, offset: Number): Array
- Processes binary or fixed-width data from any buffer object, such as one returned by
HTTP.payload, Flow.client.payload, or
Flow.sender.payload, according to the given format string and,
optionally, at the specified offset.
Returns a JavaScript array that contains one or more unpacked fields and contains the absolute payload byte position +1 of the last byte in the unpacked object. The bytes value can be specified as the offset in further calls to unpack a buffer.
Note: - The buffer.unpack method interprets bytes in big-endian order by default. To interpret bytes in little-endian order, prefix the format string with a less than sign (<).
- The format does not have to consume the entire buffer.
- Null bytes are not included in unpacked strings. For example: buf.unpack('4s')[0] - > 'example'.
- The z format character represents variable-length, null-terminated strings. If the last field is z, the string is produced whether or not the null character is present.
- An exception is throw when all of the fields cannot be unpacked because the buffer does not contain enough data.
The table below displays supported buffer string formats:
Format C type JavaScript type Standard size x pad type no value A struct in6_addr IPAddress 16 a struct in_addr IPAddress 4 b signed char string of length 1 1 B unsigned char number 1 ? _Bool boolean 1 h short number 2 H unsigned short number 2 i int number 4 I unsigned int number 4 l long number 4 L unsigned long number 4 q long long number 8 Q unsigned long long number 8 f number number 4 d double number 4 s char[] string z char[] string
Detection
The Detection class enables you to retrieve information about detections on the ExtraHop system.
Note: | Machine learning detections require a connection to ExtraHop Cloud Services. |
Events
- DETECTION_UPDATE
- Runs when a detection is created or updated on the ExtraHop system.
Note: This event does not run when a detection ticket status is updated. For example, changing a detection assignee will not cause the DETECTION_UPDATE event to run. This event also does not run for hidden detections. Note: You cannot assign triggers that run only on this event to specific devices or device groups. Triggers that run on this event will run whenever this event occurs.
Properties
- applianceId: Number
- If called on a console, returns the ID of the connected sensor that the detection occurred on. If called on a sensor, returns 0.
- assignee: String
- The assignee of the ticket associated with the detection.
- categories: Array of Strings
- The list of categories the detection belongs to.
- description: String
- The description of the detection.
Tip: It is often easier to extract information about a detection from the Detection.properties property than parsing the Detection.description text. For more information, see the Detection.properties description. The following table shows common Markdown formats that you can include in the description:
Format Description Example Headings Place a number sign (#) before your text to format headings. The level of heading is determined by the amount of number signs. ####Example H4 heading Unordered lists Place a single asterisk (*) before your text. * First example * Second example Ordered lists Place a single number and period (1.) before your text. 1. First example 2. Second example Bold Place double asterisks before and after your text. **bold text** Italics Place an underscore before and after your text. _italicized text_ Hyperlinks Place link text in brackets before the URL in parentheses. Or type your URL.
Links to external websites open in a new browser tab. Links within the ExtraHop system, such as dashboards, open in the current browser tab.
[Visit our home page](https://www.extrahop.com)
https://www.extrahop.com
Blockquotes Place a right angle bracket and a space before your text. On the ExtraHop website:
> Access the live demo and review case studies.
Emojis Copy and paste an emoji image into the text box. See the Unicode Emoji Chart website for images. Markdown syntax does not support emoji shortcodes.
- endTime: Number
- The time that the detection ended, expressed in milliseconds since the epoch.
- id: Number
- The unique identifier for the detection.
- isCustom: Boolean
- The value is true if the detection is a custom detection generated by a trigger.
- mitreCategories: Array of Objects
- An array of objects that contains the MITRE techniques and tactics associated with the
detection. Each object contains the following properties:
- id
- The ID of the MITRE technique or tactic.
- name
- The name of the MITRE technique or tactic.
- url
- The web address of the technique or tactic on the MITRE website.
- participants: Array of Objects
- An array of participant objects associated with the detection. A participant object
contains the following properties:
- object: Object
- The Device, Application, or IP address object associated with the participant.
- id: Number
- The ID of the participant.
- role: String
- The role of the participant in the detection. The following values are valid:
- offender
- victim
- properties: Object
- An object that contains the properties of the detection. Only built-in detection types
include detection properties. The detection type determines which properties are
available.
The field names of the object are the names of the detection properties. For example, the Anonymous FTP Auth Enabled detection type includes the client_port property, which you can access with the following code:
Detection.properties.client_port
To view detection property names, view detection types with the GET /detections/formats operation in the ExtraHop REST API.
Tip: In the trigger editor, you can view valid detection properties with the autocomplete functionality if you include logic that determines the detection type. For example, if the trigger contains the following code, and you type a period after "properties", the trigger editor displays the valid properties for the Anonymous FTP Auth Enabled detection: if (Detection.type === 'anonymous_ftp') { Detection.properties }
- resolution: String
- The resolution of the ticket associated with the detection. Valid values are action_taken and no_action_taken.
- riskScore: number | null
- The risk score of the detection.
- startTime: Number
- The time that the detection started, expressed in milliseconds since the epoch.
- status: String
- The status of the ticket associated with the detection. Valid values are acknowledged, new, in_progress, and closed.
- ticketId: String
- The ID of the ticket associated with the detection.
- title: String
- The title of the detection.
- type: String
- The type of detection. For custom detections, "custom" is prepended to the user-defined string. For example, if you specify brute_force_attack in the commitDetection function, the detection type is custom.brute_force_attack.
- updateTime: Number
- The last time that the detection was updated, expressed in milliseconds since the epoch.
Device
The Device class enables you to retrieve device attributes and add custom metrics at the device level.
Methods
- Device(id: String)
- Constructor for the Device object that accepts one parameter, which is a unique
16-character string ID.
If supplied with an ID from an existing Device object, the constructor creates a copy of that object with all of the object properties, as shown in the following example:
myDevice = new Device(Flow.server.device.id); debug("myDevice MAC: " + myDevice.hwaddr);
Metrics committed to a Device object through a metricAdd* function are persisted to the datastore
- lookupByIP(addr: IPAddress | String, vlan: Number): Device
- Returns the L3 device that matches the specified IP address and VLAN ID. Returns
null if no match is found.
- addr: IPAddress | String
- The IP address for the device. The IP address can be specified as an IPAddress object or as a string.
- vlan: number
- The VLAN ID for the device. Returns a default value of 0 if a VLAN ID is not provided or if the value of the devices_across_vlans settings is set to true in the running configuration file.
- lookupByMAC(addr: String, vlan: Number): Device
- Returns the L2 device that matches the specified MAC address and VLAN ID. Returns
null if no match is found.
- addr: String
- The MAC address for the device.
- vlan: Number
- The VLAN ID for the device. Returns a default value of 0 if a VLAN ID is not provided or if the value of the devices_across_vlans settings is set to true in the running configuration file.
- toString(): String
- Returns the Device object as a string in the following
format:
[object Device <discovery_id>]
Instance methods
The methods described in this section are present only on instances of the Device class. The majority of the methods enable you to create device-level custom metrics, as shown in the following example:
Flow.server.device.metricAddCount("slow_rsp", 1);
Note: | A device might sometimes act as a client and sometimes as a server on a flow.
|
- equals(device: Device): Boolean
- Performs an equality test between Device objects, where device is the object to be compared against.
- metricAddCount (metric_name: String, count: Number, options: Object):void
- Creates a custom top-level
count metric. Commits the metric data to the specified device.
- metric_name: String
- The name of the top-level count metric.
- count: Number
- The increment value. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following property:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailCount (metric_name: String, key: String | IPAddress, count: Number, options: Object):void
- Creates a custom detail
count metric by which you can drill down. Commits the
metric data to the specified device.
- metric_name: String
- The name of the detail count metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- count: Number
- The increment value. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following property:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDataset (metric_name: String, val: Number, options: Object):void
- Creates a custom top-level
dataset metric. Commits the metric data to the
specified device.
- metric_name: String
- The name of the top-level dataset metric.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- freq: Number
- An option that enables you to simultaneously record multiple occurrences of particular values in the dataset when set to the number of occurrences specified by the val parameter. If no value is specified, the default value is 1.
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailDataset (metric_name: String, key: String | IPAddress, val: Number, options: Object):void
- Creates a custom detail
dataset metric by which you can drill down.
Commits the metric data to the specified device.
- metric_name: String
- The name of the detail count metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- freq: Number
- An option that enables you to simultaneously record multiple occurrences of particular values in the dataset when set to the number of occurrences specified by the val parameter. If no value is specified, the default value is 1.
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDistinct (metric_name: String, item: Number | String | IPAddress:void
- Creates a custom top-level
distinct count metric. Commits the metric
data to the specified device.
- metric_name: String
- The name of the top-level distinct count metric.
- item: Number | String | IPAddress
- The value to be placed into the set. The value is converted to a string before it is placed in the set.
- metricAddDetailDistinct (metric_name: String, key: String | IPAddress, item: Number | String | IPAddress:void
- Creates a custom detail
distinct count metric by which you can drill
down. Commits the metric data to the specified device.
- metric_name: String
- The name of the detail distinct count metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- item: Number | String | IPAddress
- The value to be placed into the set. The value is converted to a string before it is placed in the set.
- metricAddMax (metric_name: String, val: Number, options: Object):void
- Creates a custom top-level
maximum metric. Commits the metric data to the
specified device.
- metric_name: String
- The name of the top-level maximum metric.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailMax (metric_name: String, key: String | IPAddress, val: Number, options: Object):void
- Creates a custom detail
maximum metric by which you can drill down.
Commits the metric data to the specified device.
- metric_name: String
- The name of the detail maximum metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddSampleset (metric_name: String, val: Number, options: Object):void
- Creates a custom top-level
sampleset metric. Commits the metric data to
the specified device.
- metric_name: String
- The name of the top-level sampleset metric.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailSampleset (metric_name: String, key: String | IPAddress, val: Number, options: Object):void
- Creates a custom detail
sampleset metric by which you can drill
down. Commits the metric data to the specified device.
- metric_name: String
- The name of the detail sampleset metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddSnap (metric_name: String, count: Number, options: Object):void
- Creates a custom top-level
snapshot metric. Commits the metric data to
the specified device.
- metric_name: String
- The name of the top-level snapshot metric.
- count: Number
- The observed value, such as current established connections. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailSnap (metric_name: String, key: String | IPAddress, count: Number, options: Object):void
- Creates a custom detail
snapshot metric by which you can drill down.
Commits the metric data to the specified device.
- metric_name: String
- The name of the detail sampleset metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- count: Number
- The observed value, such as current established connections. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
Instance properties
The following properties enable you to retrieve device attributes and are present only on instances of the Device class.
- cdpName: String
- The CDP name associated with the device, if present.
- dhcpName: String
- The DHCP name associated with the device, if present.
- discoverTime: Number
- The last time the capture process discovered the device (not the original discovery
time), expressed in milliseconds since the epoch (January 1, 1970). Previously
discovered devices can be rediscovered by the capture process if they become idle and
later become active again, or if the capture process is restarted.
To direct a trigger to run only on the initial discovery of a device, see the NEW_DEVICE event discussed in the Discover class.
- dnsNames: Array
- An array of strings listing the DNS names associated with the device, if present.
- hasTrigger: Boolean
- The value is true if a trigger assigned to the Device object is
currently running.
If the trigger is running on an event associated with a Flow object, the hasTrigger property value is true on at least one of the Device objects in the flow.
The hasTrigger property is useful to distinguish device roles. For example, if a trigger is assigned to a group of proxy servers, you can easily determine whether a device is acting as the client or the server, rather than checking for IP addresses or device IDs, such as in the following example:
//Event: HTTP_REQUEST if (Flow.server.device.hasTrigger) { // Incoming request } else { // Outgoing request }
- hwaddr: String
- The MAC address of the device, if present.
- id: String
- The 16-character unique ID of the device, as shown in the ExtraHop system on the page for that device.
- ipaddrs: Array
- An array of IPAddress objects representing the device's known IP addresses. For L3 devices, the array always contains one IPAddress.
- isGateway: Boolean
- The value is true if the device is a gateway.
- isL3: Boolean
- The value is true if the device is an L3
child device.
Important: If you have not enabled the ExtraHop system to discover devices by IP address, the isL3 property is always set to False because the system does not make a distinction between L3 child and L2 parent devices. - netbiosName: String
- The NetBIOS name associated with the device, if present.
- vlanId: Number
- The VLAN ID for the device.
Trigger Examples
- Example: Monitor CIFS actions on devices
- Example: Track 500-level HTTP responses by customer ID and URI
- Example: Collect response metrics on database queries
- Example: Send discovered device data to a remote syslog server
- Example: Access HTTP header attributes
- Example: Record Memcache hits and misses
- Example: Parse memcache keys
- Example: Parse custom PoS messages with universal payload analysis
- Example: Add metrics to the metric cycle store
Discover
The Discover class enables you to retrieve information about newly discovered devices and applications.
Events
- NEW_APPLICATION
- Runs when an application is first discovered. This event consumes capture
resources.
Note: You cannot assign triggers that run only on this event to specific devices or device groups. Triggers that run on this event will run whenever this event occurs. - NEW_DEVICE
- Runs when activity is first observed on a device. This event consumes capture
resources.
Note: You cannot assign triggers that run only on this event to specific devices or device groups. Triggers that run on this event will run whenever this event occurs.
Properties
- application: Application
- A newly discovered application.
Applies only to NEW_APPLICATION events.
- device: Device
- A newly discovered device.
Applies only to NEW_DEVICE events.
Note: You cannot specify this property as a participant in the commitDetection function.
ExternalData
The ExternalData class enables you to retrieve data sent from external sources to the Trigger API through the ExtraHop REST API.
Events
- EXTERNAL_DATA
- Runs every time data is sent to the ExtraHop system through the POST triggers/externaldata operation.
Flow
Flow refers to a conversation between two endpoints over a protocol such as TCP, UDP or ICMP. The Flow class provides access to elements of these conversations, such as endpoint IP addresses and age of the flow. The Flow class also contains a flow store designed to pass objects from request to response on the same flow.
Note: | You can apply the Flow class on most L7 protocol events, but it is not supported on session or datastore events. |
Events
If a flow is associated with an ExtraHop-monitored L7 protocol, events that correlate to the protocol will run in addition to flow events. For example, a flow associated with HTTP will also run the HTTP_REQUEST and HTTP_RESPONSE events.
- FLOW_CLASSIFY
- Runs whenever the ExtraHop system initially classifies a flow as being associated with
a specific protocol.
Note: For TCP flows, the FLOW_CLASSIFY event runs after the TCP_OPEN event. Through a combination of L7 payload analysis, observation of TCP handshakes, and port number-based heuristics, the FLOW_CLASSIFY event identifies the L7 protocol and the device roles for the endpoints in a flow such as client/server or sender/receiver.
The nature of a flow can change over its lifetime, for example, tunneling over HTTP or switching from SMTP to SMTP-SSL. In these cases, FLOW_CLASSIFY runs again after the protocol change.
The FLOW_CLASSIFY event is useful for initiating an action on a flow based on the earliest knowledge of flow information such as the L7 protocol, client/server IP addresses, or sender/receiver ports.
Common actions initiated upon FLOW_CLASSIFY include starting a packet capture through the captureStart() method or associating the flow with an application container through the addApplication() method.
Additional options are available when you create a trigger that runs on this event. By default, FLOW_CLASSIFY does not run upon flow expiration; however, you can configure a trigger to do so in order to accumulate metrics for flows that were not classified before expiring. See Advanced trigger options for more information.
- FLOW_DETACH
- Runs when the parser has encountered an unexpected error or has run out of memory and
stops following the flow. In addition, a low quality data feed with missing packets can
cause the parser to detach.
The FLOW_DETACH event is useful for detecting malicious content sent by clients and servers. The following is an example of how a trigger can detect bad DNS responses upon FLOW_DETACH events:
if (event == "FLOW_DETACH" && Flow.l7proto== "DNS") { Flow.addApplication("Malformed DNS"); }
- FLOW_RECORD
- Enables you to record information about a flow at timed intervals. After FLOW_CLASSIFY has run, the FLOW_RECORD event will run every N seconds and whenever a flow closes. The default value for N, known as the publish interval, is 30 minutes; the minimum value is 60 seconds. You can set the publish interval in the Administration settings.
- FLOW_TICK
- Enables you to record information about a flow per amount of data or per turn. The
FLOW_TICK event will run on every FLOW_TURN or every
128 packets, whichever occurs first. Also, L2 data is reset on
every FLOW_TICK event which enables you to add data together at each
tick. If counting throughput, collect data from FLOW_TICK events which
provide more complete metrics than
FLOW_TURN.
FLOW_TICK provides a means to periodically check for certain conditions on the flow, such as zero windows and Nagle delays, and then take an action, such as initiating a packet capture or sending a syslog message.
The following is an example of FLOW_TICK:
log("RTT " + Flow.roundTripTime); Remote.Syslog.info( " eh_event=FLOW_TICK" + " ClientIP="+Flow.client.ipaddr+ " ServerIP="+Flow.server.ipaddr+ " ServerPort="+Flow.server.port+ " ServerName="+Flow.server.device.dnsNames[0]+ " RTT="+Flow.roundTripTime);
- FLOW_TURN
- Runs on every TCP or UDP turn. A turn represents one full cycle of a client transferring request data followed by a server
transferring a response.
FLOW_TURN also exposes a Turn object.
Endpoints
Flow refers to a conversation between two endpoints over a protocol; an endpoint can be one of the following components:
- client
- server
- sender
- receiver
The methods and properties described in this section are called or accessed for a specified endpoint on the flow. For example, to access the device property from an HTTP client, the syntax is Flow.client.device.
The endpoint that you specify depends on the events associated with the trigger. For example, the ACTIVEMQ_MESSAGE event only supports sender and receiver endpoints. The following table displays a list of events that can be associated with a flow and the endpoints supported for each event:
Event | Client / Server | Sender / Receiver |
---|---|---|
AAA_REQUEST | yes | yes |
AAA_RESPONSE | yes | yes |
AJP_REQUEST | yes | yes |
AJP_RESPONSE | yes | yes |
ACTIVEMQ_MESSAGE | no | yes |
CIFS_REQUEST | yes | yes |
CIFS_RESPONSE | yes | yes |
DB_REQUEST | yes | yes |
DB_RESPONSE | yes | yes |
DHCP_REQUEST | yes | yes |
DHCP_RESPONSE | yes | yes |
DICOM_REQUEST | yes | yes |
DICOM_RESPONSE | yes | yes |
DNS_REQUEST | yes | yes |
DNS_RESPONSE | yes | yes |
FIX_REQUEST | yes | yes |
FIX_RESPONSE | yes | yes |
FLOW_CLASSIFY | yes | no |
FLOW_DETACH | yes | no |
FLOW_RECORD | yes | no |
FLOW_TICK | yes | no |
FLOW_TURN | yes | no |
FTP_REQUEST | yes | yes |
FTP_RESPONSE | yes | yes |
HL7_REQUEST | yes | yes |
HL7_RESPONSE | yes | yes |
HTTP_REQUEST | yes | yes |
HTTP_RESPONSE | yes | yes |
IBMMQ_REQUEST | yes | yes |
IBMMQ_RESPONSE | yes | yes |
ICA_AUTH | yes | no |
ICA_CLOSE | yes | no |
ICA_OPEN | yes | no |
ICA_TICK | yes | no |
ICMP_MESSAGE | no | yes |
KERBEROS_REQUEST | yes | yes |
KERBEROS_RESPONSE | yes | yes |
LDAP_REQUEST | yes | yes |
LDAP_RESPONSE | yes | yes |
MEMCACHE_REQUEST | yes | yes |
MEMCACHE_RESPONSE | yes | yes |
MOBUS_REQUEST | yes | yes |
MODBUS_RESPONSE | yes | yes |
MONGODB_REQUEST | yes | yes |
MONGODB_RESPONSE | yes | yes |
MSMQ_MESSAGE | no | yes |
NFS_REQUEST | yes | yes |
NFS_RESPONSE | yes | yes |
POP3_REQUEST | yes | yes |
POP3_RESPONSE | yes | yes |
REDIS_REQUEST | yes | yes |
REDIS_RESPONSE | yes | yes |
RDP_CLOSE | yes | no |
RDP_OPEN | yes | no |
RDP_TICK | yes | no |
RTCP_MESSAGE | no | yes |
RTP_CLOSE | no | yes |
RTP_OPEN | no | yes |
RTP_TICK | no | yes |
SCCP_MESSAGE | no | yes |
SIP_REQUEST | yes | yes |
SIP_RESPONSE | yes | yes |
SMPP_REQUEST | yes | yes |
SMPP_RESPONSE | yes | yes |
SMTP_REQUEST | yes | yes |
SMTP_RESPONSE | yes | yes |
SSL_ALERT | yes | yes |
SSL_CLOSE | yes | no |
SSL_HEARTBEAT | yes | yes |
SSL_OPEN | yes | no |
SSL_PAYLOAD | yes | yes |
SSL_RECORD | yes | yes |
SSL_RENEGOTIATE | yes | no |
TCP_CLOSE | yes | no |
TCP_OPEN | yes | no |
TCP_PAYLOAD | yes | yes |
UDP_PAYLOAD | yes | yes |
TELNET_MESSAGE | yes | yes |
WEBSOCKET_OPEN | yes | no |
WEBSOCKET_CLOSE | yes | no |
WEBSOCKET_MESSAGE | yes | yes |
- Endpoint methods
-
- commitRecord(): void
- Sends a record to the configured recordstore on a
FLOW_RECORD event. Record commits are not supported on
FLOW_CLASSIFY, FLOW_DETACH,
FLOW_TICK, or FLOW_TURN events.
On a flow, traffic moves in each direction between two endpoints. The commitRecord() method only records flow details in one direction, such as from the client to the server. To record details about the entire flow you must call commitRecord() twice, once for each direction, and specify the endpoint in the syntax—for example, Flow.client.commitRecord() and Flow.server.commitRecord().
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
To view the default properties committed to the record object, see the record property below.
- Endpoint properties
-
- bytes: Number
- The number of L4 payload bytes transmitted by a
device. Specify the device role in the syntax—for example,
Flow.client.bytes or
Flow.receiver.bytes.
Access only on FLOW_TICK, FLOW_TURN, or FLOW_RECORD events; otherwise, an error will occur.
- customDevices: Array
- An array of custom devices in the flow. Specify the device role in the syntax—for example, Flow.client.customDevices or Flow.receiver.customDevices.
- device: Device
- The Device object associated with a device.
Specify the device role in the syntax. For example, to access the MAC address of
the client device, specify
Flow.client.device.hwaddr.
- equals: Boolean
- Performs an equality test between Device objects.
- dscp: Number
- The number representing the last differentiated services code point (DSCP) value
of the flow packet.
Specify the device role in the syntax—for example, Flow.client.dscp or Flow.server.dscp.
- dscpBytes: Array
- An array that contains the number of L2 bytes for a
specific Differentiated Services Code Point (DSCP) value transmitted by a device
in the flow. Specify the device role in the syntax—for example,
Flow.client.dscpBytes or
Flow.server.dscpBytes.
The value is zero for each entry that has no bytes of the specific DSCP since the last FLOW_TICK event.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- dscpName1: String
- The name associated with the DSCP value transmitted by device1 in the flow. The
following table displays well-known DSCP names:
Number Name 8 CS1 10 AF11 12 AF12 14 AF13 16 CS2 18 AF21 20 AF22 22 AF23 24 CS3 26 AF31 28 AF32 30 AF33 32 CS4 34 AF41 36 AF42 38 AF43 40 CS5 44 VA 46 EF 48 CS6 56 CS7 - dscpName2: String
- The name associated with the DSCP value transmitted by device2 in the flow. The
following table displays well-known DSCP names:
Number Name 8 CS1 10 AF11 12 AF12 14 AF13 16 CS2 18 AF21 20 AF22 22 AF23 24 CS3 26 AF31 28 AF32 30 AF33 32 CS4 34 AF41 36 AF42 38 AF43 40 CS5 44 VA 46 EF 48 CS6 56 CS7 - dscpPkts: Array
- An array that contains the number of L2 packets for a
given Differentiated Services Code Point (DSCP) value transmitted by a device in
the flow. Specify the device role in the syntax—for example,
Flow.client.dscpPkts or
Flow.server.dscpPkts.
The value is zero for each entry that has no packets of the specific DSCP since the last FLOW_TICK event.
Applies only to FLOW_TICK or FLOW_TURN events.
- fragPkts: Number
- The number of packets resulting from IP fragmentation transmitted by a client or
server device in the flow. Specify the device role in the syntax—for example,
Flow.client.fragPkts or
Flow.server.fragPkts.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- ipaddr1: IPAddress
- The IPAddress object associated with device1
in the flow.
- equals: Boolean
- Performs an equality test between IPAddress objects.
- ipaddr2: IPAddress
- The IPAddress object associated with device2
in the flow.
- equals: Boolean
- Performs an equality test between IPAddress objects.
- isAborted: Boolean
- The value is true if a TCP flow has been aborted through a TCP
reset (RST). The flow can be aborted by a device. If applicable, specify the
device role in the syntax—for example, Flow.client.isAborted or
Flow.receiver.isAborted.
This condition may be detected in the TCP_CLOSE event and in any impacted L7 events (for example, HTTP_REQUEST or DB_RESPONSE).
Note: - An L4 abort occurs when a TCP connection is closed with a RST instead of a graceful shutdown.
- An L7 response abort occurs when a connection closes while in the middle of a response. This can be due to a RST, a graceful FIN shutdown, or an expiration.
- An L7 request abort occurs when a connection closes in the middle of a request. This can also be due to a RST, a graceful FIN shutdown, or an expiration.
- isShutdown: Boolean
- The value is true if the device initiated the shutdown of the TCP connection. Specify the device role in the syntax—for example, Flow.client.isShutdown or Flow.receiver.isShutdown.
- l2Bytes: Number
- The number of L2 bytes, including the ethernet headers,
transmitted by a device in the flow. Specify the device role in the syntax—for
example, Flow.client.l2Bytes or
Flow.server.l2Bytes.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- nagleDelay: Number
- The number of Nagle delays associated with a device in the flow. Specify the
device role in the syntax—for example, Flow.client.nagleDelay or
Flow.server.nagleDelay.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- overlapFragPkts: Number
- The number of non-identical IP fragment packets with overlapping data
transmitted by a device in the flow. Specify the device role in the syntax—for
example, Flow.client.overlapFragPkts or
Flow.server.overlapFragPkts.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- overlapSegments: Number
- The number of non-identical TCP segments, transmitted by a device in the flow,
where two or more TCP segments contain data for the same part of the flow. Specify
the device role in the syntax—for example,
Flow.client.overlapSegments or
Flow.server.overlapSegments.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- payload: Buffer
- The payload Buffer associated with a device
in the flow. Specify the device role in the syntax—for example,
Flow.client.payload or
Flow.receiver.payload.
Access only on TCP_PAYLOAD, UDP_PAYLOAD, or SSL_PAYLOAD events; otherwise, an error will occur.
- pkts: Number
- The number of packets transmitted by a device in the flow. Specify the device
role in the syntax—for example, Flow.client.pkts or
Flow.server.pkts.
Access only on FLOW_TICK, FLOW_TURN, or FLOW_RECORD events; otherwise, an error will occur.
- port: Number
- The port number associated with a device in the flow. Specify the device role in the syntax—for example, Flow.client.port or Flow.receiver.port.
- rcvWndThrottle: Number
- The number of receive window throttles sent from a device in the flow. Specify
the device role in the syntax—for example,
Flow.client.rcvWndThrottle or
Flow.server.rcvWndThrottle.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
Flow.commitRecord() on a FLOW_RECORD event.
The record object represents data from a single direction on the flow.
The default record object can contain the following properties:
- age
- bytes (L3)
Note: This property represents the total number of bytes that were transmitted by the flow at the time that the FLOW_RECORD event ran. The FLOW_RECORD event runs several times over the course of each flow, so the value will increase every time the event runs. - dscpName
- first
- last
- pkts
- proto
- receiverAddr
- receiverPort
- roundTripTime
The most recent round trip time (RTT) in this flow. An RTT is the time it took for a device to send a packet and receive an immediate acknowledgment (ACK).
- senderAddr
- senderPort
- tcpFlags
Specify the device role in the syntax—for example, Flow.client.record or Flow.server.record.
Access the record object only on FLOW_RECORD events; otherwise, an error will occur.
- rto: Number
- The number of retransmission
timeouts (RTOs) associated with a device in the flow. Specify the device
role in the syntax—for example, Flow.client.rto or
Flow.server.rto.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- totalL2Bytes
- The number of L2 bytes sent by a device during the flow. Specify the device role in the syntax—for example, Flow.client.totalL2Bytes or Flow.server.totalL2Bytes.
- totalL2Bytes1: Number
- The number of L2 bytes sent during the flow by device1.
- totalL2Bytes2: Number
- The number of L2 bytes sent during the flow by device2.
- zeroWnd: Number
- The number of zero windows sent from a device in the flow. Specify the device
role in the syntax—for example, Flow.client.zeroWnd or
Flow.server.zeroWnd.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
Methods
- addApplication(name: String, turnTiming: Boolean): void
- Creates an application with the specified name and collects L2-L4 metrics from the
flow. The application can be viewed in the ExtraHop system and the metrics are displayed
on an L4 page in the application. A flow can be associated with one or more applications
at a given instant; the L2-L4 metrics collected by each application will be the
same.
Calling Flow.addApplication(name) on a FLOW_CLASSIFY event is common on unsupported protocols. For flows on supported protocols with L7 trigger events, it is recommended to call the Application(name).commit() method, which collects a larger set of protocol metrics.
The optional turnTiming flag is set to false by default. If set to true, the ExtraHop system collects additional turn timing metrics for the flow. If this flag is omitted, no turn timing metrics are recorded for the application on the associated flow. Turn timing analysis analyzes L4 behavior in order to infer L7 processing times when the monitored protocol follows a client-request, server-response pattern and in which the client sends the first message. "Banner" protocols (where the server sends the first message) and protocols where data flows in both directions concurrently are not recommended for turn timing analysis.
- captureStart(name: String, options: Object): String
- Initiates a Precision Packet Capture (PPCAP) for the flow and returns a unique
identifier of the packet capture in the format of a decimal number as a string. Returns
null if the packet capture fails to start.
- name: String
- The name of the packet capture file.
- The maximum length is 256 characters
- A separate capture is created for each flow.
- Capture files with the same name are differentiated by timestamps.
- options: Object
- The options contained in the capture object. Omit any of the options to indicate
unlimited size for that option. All options apply to the entire flow except the
"lookback" options which apply only to the part of the flow before the trigger
event that started the packet capture.
- maxBytes: Number
- The total maximum number of bytes.
- maxBytesLookback: Number
- The total maximum number of bytes from the lookback buffer. The lookback buffer refers to packets captured before the call to Flow.captureStart().
- maxDurationMSec: Number
- The maximum duration of the packet capture, expressed in milliseconds.
- maxPackets: Number
- The total maximum number of packets. The maximum value might be exceeded if the trigger load is heavy.
- maxPacketsLookback: Number
- The maximum number of packets from the lookback buffer. The lookback buffer refers to packets captured before the call to Flow.captureStart().
The following is an example of Flow.captureStart():
// EVENT: HTTP_REQUEST // capture facebook HTTP traffic flows if (HTTP.uri.indexOf("www.facebook.com") !== -1) { var name = "facebook-" + HTTP.uri; //packet capture options: capture 20 packets, up to 10 from the lookback buffer var opts = { maxPackets: 20, maxPacketsLookback: 10 }; Flow.captureStart(name, opts); }
Note: - The Flow.captureStart() function call requires that you have a license for precision packet capture.
- You can specify the number of bytes per packet (snaplen) you want to capture when configuring the trigger in the ExtraHop system. This option is available only on some events. See Advanced trigger options for more information.
- On ExtraHop Performance systems, captured files are available in the Administration settings. On Reveal(x) systems, captured files are available from the Packets page in the ExtraHop system.
- On ExtraHop Performance systems, if the precision packet capture disk is full, no new captures are recorded until the user deletes the files manually. On Reveal systems, older packet captures are deleted when the precision packet capture disk becomes full to enable the system to continue recording new packet captures.
- The maximum file name string length is 256 characters. If the name exceeds 256 characters, it will be truncated and a warning message will be visible in the debug log, but the trigger will continue to execute.
- The capture file size is the whichever maximum is reached first between the maxPackets and maxBytes options.
- The size of the capture lookback buffer is whichever maximum is reached first between the maxPacketsLookback and maxBytesLookback options.
- Each passed max* parameter will capture up to the next packet boundary.
- If the packet capture was already started on the current flow, Flow.captureStart() calls result in a warning visible in the debug log, but the trigger will continue to run.
- There is a maximum of 128 concurrent packet captures in the system. If that limit is reached, subsequent calls to Flow.captureStart() will generate a warning visible in the debug log, but the trigger will continue to execute.
- captureStop(): Boolean
- Stops a packet capture that is in progress on the current flow.
- commitRecord1(): void
- Sends a record to the configured recordstore that represents data sent
from device1 in a single direction on the flow.
You can call this method only on FLOW_RECORD events, and each unique record is committed only once for built-in records.
To view the properties committed to the record object, see the record property below.
- commitRecord2(): void
- Sends a record to the configured recordstore that represents data sent
from device2 in a single direction on the flow.
You can call this method only on FLOW_RECORD events, and each unique record is committed only once for built-in records.
To view the properties committed to the record object, see the record property below.
- findCustomDevice(deviceID: String): Device
- Returns a single Device object that corresponds to the specified deviceID parameter if the device is located on either side of the flow. Returns null if no corresponding device is found.
- getApplications(): String
- Retrieves all applications associated with the flow.
Properties
The Flow object properties and methods discussed in this section are available to every L7 trigger event associated with the flow.
By default, the ExtraHop system uses loosely-initiated protocol classification, so it will try to classify flows even after the connection was initiated. Loose initiation can be turned off for ports that do not always carry the protocol traffic (for example, the wildcard port 0). For such flows, device1, port1, and ipaddr1 represent the device with the numerically lower IP address and device2, port2, and ipaddr2 represent the device with the numerically higher IP address.
- age: Number
- The time elapsed since the flow was initiated, expressed in seconds.
- bytes1: Number
- The number of L4 payload bytes transmitted by one of two
devices in the flow; the other device is represented by bytes2. The
device represented by bytes1 remains consistent for the flow.
Access only on FLOW_TICK, FLOW_TURN, or FLOW_RECORD events; otherwise, an error will occur.
- bytes2: Number
- The number of L4 payload bytes transmitted by one of two
devices in the flow; the other device is represented by bytes1. The
device represented by bytes2 remains consistent for the flow.
Access only on FLOW_TICK, FLOW_TURN, or FLOW_RECORD events; otherwise, an error will occur.
- customDevices1: Array
- An array of custom Device objects on a flow. Custom devices on the other side of the flow are available by accessing customDevices2. The device represented by customDevices1 remains consistent for the flow.
- customDevices2: Array
- An array of custom Device objects on a flow. Custom devices on the other side of the flow are available by accessing customDevices1. The device represented by customDevices2 remains consistent for the flow.
- device1: Device
- The Device object associated with one of two
devices in the flow; the other device is represented by device2. The
device represented by device1 remains consistent for the flow. For
example, Flow.device1.hwaddr accesses the MAC addresses of this device
in the flow.
- equals: Boolean
- Performs an equality test between Device objects.
- device2: Device
- The Device object associated with one of two
devices in the flow; the other device is represented by device1. The
device represented by device2 remains consistent for the flow. For
example, Flow.device2.hwaddr accesses the MAC addresses of this device
in the flow.
- equals: Boolean
- Performs an equality test between Device objects.
- dscp1: Number
- The number representing the last Differentiated Services Code Point (DSCP) value transmitted by one of two devices in the flow; the other device is represented by dscp2. The device represented by dscp1 remains consistent for the flow.
- dscp2: Number
- The lnumber representing the last Differentiated Services Code Point (DSCP) value transmitted by one of two devices in the flow; the other device is represented by dscp1. The device represented by dscp2 remains consistent for the flow.
- dscpBytes1: Array
- An array that contains the number of L2 bytes for a specific
Differentiated Services Code Point (DSCP) value transmitted by one of two devices in the
flow; the other device is represented by dscpBytes2. The device
represented by dscpBytes1 remains consistent for the flow.
The value is zero for each entry that has no bytes of the specific DSCP since the last FLOW_TICK event.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- dscpBytes2: Array
- An array that contains the number of L2 bytes for a specific
Differentiated Services Code Point (DSCP) value transmitted by one of two devices in the
flow; the other device is represented by dscpBytes1. The device
represented by dscpBytes2 remains consistent for the flow.
The value is zero for each entry that has no bytes of the specific DSCP since the last FLOW_TICK event.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- dcspName1: String
- The name associated with the DSCP value transmitted by one of two devices in the flow;
the other device is represented by dscpName2. The device represented by
dscpName1 remains consistent for the flow.
See the dscpName property in the Endpoints section for a list of supported DSCP code names.
- dcspName2: String
- The name associated with the DSCP value transmitted by one of two devices in the flow;
the other device is represented by dscpName1. The device represented by
dscpName2 remains consistent for the flow.
See the dscpName property in the Endpoints section for a list of supported DSCP code names.
- dscpPkts1: Array
- An array that contains the number of L2 packets for a given
Differentiated Services Code Point (DSCP) value transmitted by one of two devices in the
flow; the other device is represented by dscpPkts2. The device
represented by dscpPkts1 remains consistent for the flow.
The value is zero for each entry that has no packets of the specific DSCP since the last FLOW_TICK event.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- dscpPkts2: Array
- An array that contains the number of L2 packets for a given
Differentiated Services Code Point (DSCP) value transmitted by one of two devices in the
flow; the other device is represented by dscpPkts1. The device
represented by dscpPkts2 remains consistent for the flow.
The value is zero for each entry that has no packets of the specific DSCP since the last FLOW_TICK event.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- fragPkts1: Number
- The number of packets resulting from IP fragmentation transmitted by one of two
devices in the flow; the other device is represented by fragPkts2. The
device represented by fragPkts1 remains consistent for the
flow.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- fragPkts2: Number
- The number of packets resulting from IP fragmentation transmitted by one of two
devices in the flow; the other device is represented by fragPkts1. The
device represented by fragPkts2 remains consistent for the
flow.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- id: String
- The unique identifier of a Flow record.
- ipaddr: IPAddress
- TheIPAddress object associated with a device in the
flow. Specify the device role in the syntax—for example,
Flow.client.ipaddr or Flow.receiver.ipaddr.
- equals: Boolean
- Performs an equality test between IPAddress objects.
- ipproto: String
- The IP protocol associated with the flow, such as TCP or UDP.
- ipver: String
- The IP version associated with the flow, such as IPv4 or IPv6.
- isAborted: Boolean
- The value is true if a TCP flow has been aborted through a TCP reset
(RST). The flow can be aborted by a device. If applicable, specify the device role in
the syntax—for example, Flow.client.isAborted or
Flow.receiver.isAborted.
This condition may be detected in the TCP_CLOSE event and in any impacted L7 events (for example, HTTP_REQUEST or DB_RESPONSE).
Note: - An L4 abort occurs when a TCP connection is closed with a RST instead of a graceful shutdown.
- An L7 response abort occurs when a connection closes while in the middle of a response. This can be due to a RST, a graceful FIN shutdown, or an expiration.
- An L7 request abort occurs when a connection closes in the middle of a request. This can also be due to a RST, a graceful FIN shutdown, or an expiration.
- isExpired: Boolean
- The value is true if the flow expired at the time of the event.
- isShutdown: Boolean
- The value is true if the device initiated the shutdown of the TCP connection. Specify the device role in the syntax—for example, Flow.client.isShutdown or Flow.receiver.isShutdown.
- l2Bytes1: Number
- The number of L2 bytes, including the ethernet headers,
transmitted by one of two devices in the flow; the other device is represented by
l2Bytes2. The device represented by l2Bytes1 remains
consistent for the flow.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- l2Bytes2: Number
- The number of L2 bytes, including the ethernet headers,
transmitted by one of two devices in the flow; the other device is represented by
l2Bytes1. The device represented by l2Bytes2 remains
consistent for the flow.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- l7proto: String
- The L7 protocol associated with the flow. For known protocols, the property returns a
string representing the protocol name, such as HTTP, DHCP,
Memcache. For lesser-known protocols, the property
returns a string formatted as ipproto:port—tcp:13724
or udp:11258 For custom protocol names, the property returns a string
representing the name set through the Protocol Classification section in the
Administration settings.
This property is not valid during TCP_OPEN events.
- nagleDelay1: Number
- The number of Nagle delays associated with one of two devices in the flow; the other
device is represented by nagleDelay2. The device represented by
nagleDelay1 remains consistent for the flow.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- nagleDelay2: Number
- The number of Nagle delays associated with one of two devices in the flow; the other
device is represented by nagleDelay1. The device represented by
nagleDelay2 remains consistent for the flow.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- overlapFragPkts1: Number
- The number of non-identical IP fragment packets transmitted by one of two devices in
the flow; the other device is represented by overlapFragPkts2. The
device represented by overlapFragPkts1 remains consistent for the
flow.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- overlapFragPkts2: Number
- The number of non-identical IP fragment packets transmitted by one of two devices in
the flow; the other device is represented by overlapFragPkts1. The
device represented by overlapFragPkts2 remains consistent for the
flow.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- overlapSegments1: Number
- The number of non-identical TCP segments where two or more segments contain data for
the same part of the flow. The TCP segments are transmitted by one of two devices in the
flow; the other device is represented by overlapSegments2. The device
represented by overlapSegments1 remains consistent for the
flow.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- overlapSegments2: Number
- The number of non-identical TCP segments where two or more segments contain data for
the same part of the flow. The TCP segments are transmitted by one of two devices in the
flow; the other device is represented by overlapSegments1. The device
represented by overlapSegments2 remains consistent for the
flow.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- payload1: Buffer
- The payload Buffer associated with one of two
devices in the flow; the other device is represented by payload2. The
device represented by payload1 remains consistent for the
flow.
Access only on TCP_PAYLOAD, UDP_PAYLOAD, and SSL_PAYLOAD events; otherwise, an error will occur.
- payload2: Buffer
- The payload Buffer associated with one of two
devices in the flow; the other device is represented by payload1. The
device represented by payload2 remains consistent for the
flow.
Access only on TCP_PAYLOAD, UDP_PAYLOAD, or SSL_PAYLOAD events; otherwise, an error will occur.
- pkts1: Number
- The number of packets transmitted by one of two devices in the flow; the other device
is represented by pkts2. The device represented by
pkts1 remains consistent for the flow.
Access only on FLOW_TICK, FLOW_TURN, or FLOW_RECORD events; otherwise, an error will occur.
- pkts2: Number
- The number of packets transmitted by one of two devices in the flow; the other device
is represented by pkts1. The device represented by
pkts2 remains consistent for the flow.
Access only on FLOW_TICK, FLOW_TURN, or FLOW_RECORD events; otherwise, an error will occur.
- port1: Number
- The port number associated with one of two devices in a flow; the other device is represented by port2. The device represented by port1 remains consistent for the flow.
- port2: Number
- The port number associated with one of two devices in a flow; the other device is represented by port1. The device represented by port2 remains consistent for the flow.
- rcvWndThrottle1: Number
- The number of receive window throttles sent from one of two devices in the flow; the
other device is represented by rcvWndThrottle2. The device represented
by rcvWndThrottle1 remains consistent for the flow.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- rcvWndThrottle2: Number
- The number of receive window throttles sent from one of two devices in the flow; the
other device is represented by rcvWndThrottle1. The device represented
by rcvWndThrottle2 remains consistent for the flow.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- record1: Object
- The record object that can be sent to the configured recordstore through a call to
Flow.commitRecord1() on a FLOW_RECORD event.
The object represents traffic sent in a single direction from one of two devices in the flow; the other device is represented by the record2 property. The device represented by the record1 property remains consistent for the flow.
Access the record object only on FLOW_RECORD events; otherwise, an error will occur.
The default record object can contain the following properties:
- age
- bytes (L3)
- dscpName
- first
- last
- pkts
- proto
- receiverAddr
- receiverPort
- roundTripTime
The most recent round trip time (RTT) in this flow. An RTT is the time it took for a device to send a packet and receive an immediate acknowledgment (ACK).
- senderAddr
- senderPort
- tcpOrigin
This record field is included only if the record represents traffic sent from a client or sender device.
- tcpFlags
- record2: Object
- The record object that can be sent to the configured recordstore through a call to
Flow.commitRecord2() on a FLOW_RECORD event.
The object represents traffic sent in a single direction from one of two devices in the flow; the other device is represented by the record1 property. The device represented by the record2 property remains consistent for the flow.
Access the record object only on FLOW_RECORD events; otherwise, an error will occur.
The default record object can contain the following properties:
- age
- bytes (L3)
- dscpName
- first
- last
- pkts
- proto
- receiverAddr
- receiverPort
- roundTripTime
The most recent round trip time (RTT) in this flow. An RTT is the time it took for a device to send a packet and receive an immediate acknowledgment (ACK).
- senderAddr
- senderPort
- tcpOrigin
This record field is included only if the record represents traffic sent from a client or sender device.
- tcpFlags
- roundTripTime: Number
- The median round trip time (RTT) for the duration of the event, expressed in
milliseconds. The value is NaN if there are
no RTT samples.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- rto1: Number
- The number of retransmission timeouts
(RTOs) associated with one of two devices in the flow; the other device is represented
by rto2. The device represented by rto1 remains
consistent for the flow.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- rto2: Number
- The number of retransmission timeouts
(RTOs) associated with one of two devices in the flow; the other device is represented
by rto1. The device represented by rto2 remains
consistent for the flow.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- store: Object
- The flow store is designed to pass objects from request to response on the same flow.
The store object is an instance of an empty JavaScript object. Objects
can be attached to the store as properties by defining the property key and property
value. For example:
Flow.store.myobject = "myvalue";
For events that occur on the same flow, you can apply the flow store instead of the session table to share information. For example:
// request Flow.store.userAgent = HTTP.userAgent; // response var userAgent = Flow.store.userAgent;
Important: Flow store values persist across all requests and responses carried on that flow. When working with the flow store, it is a best practice to set the flow store variable to null when its value should not be conveyed to the next request or response. This practice has the added benefit of conserving flow store memory. Most flow store triggers should have a structure similar to the following example:
if (event === 'DB_REQUEST') { if (DB.statement) { Flow.store.stmt = DB.statement; } else { Flow.store.stmt = null; } } else if (event === 'DB_RESPONSE') { var stmt = Flow.store.stmt; Flow.store.stmt = null; if (stmt) { // Do something with 'stmt'; // for example, commit a metric } }
Note: Because DHCP requests often occur on different flows than corresponding DHCP responses, we recommend that you combine DHCP request and response information by storing DHCP transaction IDs in the session table. For example, the following trigger code creates a metric that tracks how many DHCP discover messages received a corresponding DHCP offer message: if (event === 'DHCP_REQUEST'){ var opts = { expire: 30 }; Session.add(DHCP.txId.toString(), DHCP.msgType, opts); } else if (event === 'DHCP_RESPONSE'){ var reqMsgType = Session.lookup(DHCP.txId.toString()); if (reqMsgType && DHCP.msgType === 'DHCPOFFER') { Device.metricAddCount('dhcp-discover-offer', 1); } }
- tcpOrigin: IPAddress | Null
- The original IP address of the client or sender if specified by a network proxy in TCP option 28.
- vlan: Number
- The VLAN number associated with the flow. If no VLAN tag is present, this value is set to 0.
- vxlanVNI: Number
- The VXLAN Network Identifier number associated with the flow. If no VXLAN tag is present, this value is set to NaN.
- zeroWnd1: Number
- The number of zero windows associated with one of two devices in the flow; the other
device is represented by zeroWnd2. The device represented by
zeroWnd1 remains consistent for the flow.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- zeroWnd2: Number
- The number of zero windows associated with one of two devices in the flow; the other
device is represented by zeroWnd1. The device represented by
zeroWnd2 remains consistent for the flow.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
Trigger Examples
- Example: Monitor CIFS actions on devices
- Example: Track 500-level HTTP responses by customer ID and URI
- Example: Parse custom PoS messages with universal payload analysis
- Example: Parse syslog over TCP with universal payload analysis
- Example: Parse NTP with universal payload analysis
- Example: Track SOAP requests
FlowInterface
The FlowInterface class enables you to retrieve flow interface attributes and to add custom metrics at the interface level.
Methods
- FlowInterface(id: string)
- A constructor for the FlowInterface object that accepts a flow interface ID. An error occurs if the flow interface ID does not exist on the ExtraHop system.
Instance methods
The methods in this section enable you to create custom metrics on a flow interface. The methods are present only on instances of the NetFlow class. For example, the following statement collects metrics from NetFlow traffic on the ingress interface:
NetFlow.ingressInterface.metricAddCount("slow_rsp", 1);
However, you can call the FlowInterface method as a static method on NETFLOW_RECORD events. For example, the following statement collects metrics from NetFlow traffic on both the ingress and egress interfaces:
FlowInterface.metricAddCount("slow_rsp", 1);
- metricAddCount (metric_name: String, count: Number, options: Object):void
- Creates a custom top-level
count metric. Commits the metric data to the specified
flow interface.
- metric_name: String
- The name of the top-level count metric.
- count: Number
- The increment value. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following property:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailCount (metric_name: String, key: String | IPAddress, count: Number, options: Object):void
- Creates a custom detail
count metric by which you can drill down. Commits the
metric data to the specified flow interface.
- metric_name: String
- The name of the detail count metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- count: Number
- The increment value. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following property:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDataset (metric_name: String, val: Number, options: Object):void
- Creates a custom top-level
dataset metric. Commits the metric data to the
specified flow interface.
- metric_name: String
- The name of the top-level dataset metric.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- freq: Number
- An option that enables you to simultaneously record multiple occurrences of particular values in the dataset when set to the number of occurrences specified by the val parameter. If no value is specified, the default value is 1.
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailDataset (metric_name: String, key: String | IPAddress, val: Number, options: Object):void
- Creates a custom detail
dataset metric by which you can drill down.
Commits the metric data to the specified flow interface.
- metric_name: String
- The name of the detail count metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- freq: Number
- An option that enables you to simultaneously record multiple occurrences of particular values in the dataset when set to the number of occurrences specified by the val parameter. If no value is specified, the default value is 1.
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDistinct (metric_name: String, item: Number | String | IPAddress:void
- Creates a custom top-level
distinct count metric. Commits the metric
data to the specified flow interface.
- metric_name: String
- The name of the top-level distinct count metric.
- item: Number | String | IPAddress
- The value to be placed into the set. The value is converted to a string before it is placed in the set.
- metricAddDetailDistinct (metric_name: String, key: String | IPAddress, item: Number | String | IPAddress:void
- Creates a custom detail
distinct count metric by which you can drill
down. Commits the metric data to the specified flow interface.
- metric_name: String
- The name of the detail distinct count metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- item: Number | String | IPAddress
- The value to be placed into the set. The value is converted to a string before it is placed in the set.
- metricAddMax (metric_name: String, val: Number, options: Object):void
- Creates a custom top-level
maximum metric. Commits the metric data to the
specified flow interface.
- metric_name: String
- The name of the top-level maximum metric.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailMax (metric_name: String, key: String | IPAddress, val: Number, options: Object):void
- Creates a custom detail
maximum metric by which you can drill down.
Commits the metric data to the specified flow interface.
- metric_name: String
- The name of the detail maximum metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddSampleset (metric_name: String, val: Number, options: Object):void
- Creates a custom top-level
sampleset metric. Commits the metric data to
the specified flow interface.
- metric_name: String
- The name of the top-level sampleset metric.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailSampleset (metric_name: String, key: String | IPAddress, val: Number, options: Object):void
- Creates a custom detail
sampleset metric by which you can drill
down. Commits the metric data to the specified flow interface.
- metric_name: String
- The name of the detail sampleset metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddSnap (metric_name: String, count: Number, options: Object):void
- Creates a custom top-level
snapshot metric. Commits the metric data to
the specified flow interface.
- metric_name: String
- The name of the top-level snapshot metric.
- count: Number
- The observed value, such as current established connections. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailSnap (metric_name: String, key: String | IPAddress, count: Number, options: Object):void
- Creates a custom detail
snapshot metric by which you can drill down.
Commits the metric data to the specified flow interface.
- metric_name: String
- The name of the detail sampleset metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- count: Number
- The observed value, such as current established connections. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
FlowNetwork
The FlowNetwork class enables you to retrieve flow network attributes and to add custom metrics at the flow network level.
Methods
- FlowNetwork(id: string)
- A constructor for the FlowNetwork object that accepts a flow network ID. An error occurs if the flow network ID does not exist on the ExtraHop system.
Instance methods
The methods in this section enable you to create custom metrics on a flow network. The methods are present only on instances of the NetFlow class. For example, the following statement collects metrics from NetFlow traffic on an individual network:
NetFlow.network.metricAddCount("slow_rsp", 1);
However, you can call the FlowNetwork method as a static method on NETFLOW_RECORD events. For example, the following statement collects metrics from NetFlow traffic on both devices on the flow network:
FlowNetwork.metricAddCount("slow_rsp", 1);
- metricAddCount (metric_name: String, count: Number, options: Object):void
- Creates a custom top-level
count metric. Commits the metric data to the specified
flow network.
- metric_name: String
- The name of the top-level count metric.
- count: Number
- The increment value. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following property:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailCount (metric_name: String, key: String | IPAddress, count: Number, options: Object):void
- Creates a custom detail
count metric by which you can drill down. Commits the
metric data to the specified flow network.
- metric_name: String
- The name of the detail count metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- count: Number
- The increment value. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following property:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDataset (metric_name: String, val: Number, options: Object):void
- Creates a custom top-level
dataset metric. Commits the metric data to the
specified flow network.
- metric_name: String
- The name of the top-level dataset metric.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- freq: Number
- An option that enables you to simultaneously record multiple occurrences of particular values in the dataset when set to the number of occurrences specified by the val parameter. If no value is specified, the default value is 1.
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailDataset (metric_name: String, key: String | IPAddress, val: Number, options: Object):void
- Creates a custom detail
dataset metric by which you can drill down.
Commits the metric data to the specified flow network.
- metric_name: String
- The name of the detail count metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- freq: Number
- An option that enables you to simultaneously record multiple occurrences of particular values in the dataset when set to the number of occurrences specified by the val parameter. If no value is specified, the default value is 1.
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDistinct (metric_name: String, item: Number | String | IPAddress:void
- Creates a custom top-level
distinct count metric. Commits the metric
data to the specified flow network.
- metric_name: String
- The name of the top-level distinct count metric.
- item: Number | String | IPAddress
- The value to be placed into the set. The value is converted to a string before it is placed in the set.
- metricAddDetailDistinct (metric_name: String, key: String | IPAddress, item: Number | String | IPAddress:void
- Creates a custom detail
distinct count metric by which you can drill
down. Commits the metric data to the specified flow network.
- metric_name: String
- The name of the detail distinct count metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- item: Number | String | IPAddress
- The value to be placed into the set. The value is converted to a string before it is placed in the set.
- metricAddMax (metric_name: String, val: Number, options: Object):void
- Creates a custom top-level
maximum metric. Commits the metric data to the
specified flow network.
- metric_name: String
- The name of the top-level maximum metric.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailMax (metric_name: String, key: String | IPAddress, val: Number, options: Object):void
- Creates a custom detail
maximum metric by which you can drill down.
Commits the metric data to the specified flow network.
- metric_name: String
- The name of the detail maximum metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddSampleset (metric_name: String, val: Number, options: Object):void
- Creates a custom top-level
sampleset metric. Commits the metric data to
the specified flow network.
- metric_name: String
- The name of the top-level sampleset metric.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailSampleset (metric_name: String, key: String | IPAddress, val: Number, options: Object):void
- Creates a custom detail
sampleset metric by which you can drill
down. Commits the metric data to the specified flow network.
- metric_name: String
- The name of the detail sampleset metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddSnap (metric_name: String, count: Number, options: Object):void
- Creates a custom top-level
snapshot metric. Commits the metric data to
the specified flow network.
- metric_name: String
- The name of the top-level snapshot metric.
- count: Number
- The observed value, such as current established connections. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailSnap (metric_name: String, key: String | IPAddress, count: Number, options: Object):void
- Creates a custom detail
snapshot metric by which you can drill down.
Commits the metric data to the specified flow network.
- metric_name: String
- The name of the detail sampleset metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- count: Number
- The observed value, such as current established connections. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
GeoIP
The GeoIP class enables you to retrieve the approximate country-level or city-level location of a specific address.
Methods
Values returned by GeoIP methods are obtained from the MaxMind GeoLite2 Country database or the MaxMind GeoLite2 City database unless configured otherwise by the Geomap Data Source settings in the Administration settings.
From the Geomap Data Source settings, you can upload custom databases and specify which database to reference by default for city or country lookups.
We recommend uploading only a custom city-level database if you intend to call both GeoIP.getCountry() and GeoIP.getPreciseLocation() methods in triggers. If both types of custom databases are uploaded, the ExtraHop system retrieves values for both methods from the city-level database and ignores the country-level database, which is considered to be a subset of the city-level database.
- getCountry(ipaddr: IPAddress): Object
- Returns country-level detail for the specified IPAddress in an object that contains the following
fields:
- continentName: String
- The name of the continent, such as Europe, that is associated with the country from which the specified IP address originates. The value is the same as the continentName field returned by the getPreciseLocation() method.
- continentCode: Number
- The code of the continent, such as EU, that is associated with the value of the countryCode field, according to ISO 3166. The value is the same as the continentCode field returned by the getPreciseLocation() method.
- countryName: String
- The name of the country from which the specified IP address originates, such as United States. The value is the same as the countryName field returned by the getPreciseLocation() method.
- countryCode: String
- The code associated with the country, according to ISO 3166, such as US. The value is the same as the countryCode field returned by the getPreciseLocation() method.
Returns null in any field for which no data is available, or returns a null object if all field data is unavailable.
Note: The getCountry() method requires 20 MB of total RAM on the ExtraHop system, which might affect system performance. The first time this method is called in any trigger, the ExtraHop system reserves the required amount of RAM unless the getPreciseLocation() method has already been called. The getPreciseLocation() method requires 100 MB of RAM, so adequate RAM will already be available to call the getCountry() method. The required amount of RAM is not per trigger or per method call; the ExtraHop system only reserves the required amount of RAM one time. In the following code example, the getCountry() method is called on each specified event and retrieves rough location data for each client IP address:
// ignore if the IP address is non-routable if (Flow.client.ipaddr.isRFC1918) return; var results=GeoIP.getCountry(Flow.client.ipaddr); if (results) { countryCode=results.countryCode; // log the 2-letter country code of each IP address debug ("Country Code is " + results.countryCode); }
- getPreciseLocation(ipaddr: IPAddress): Object
- Returns city-level detail for the specified IPAddress in an object that contains the following fields:
- continentName: String
- The name of the continent, such as Europe, that is associated with the country from which the specified IP address originates. The value is the same as the continentName field returned by the getCountry() method.
- continentCode: Number
- The code of the continent, such as EU, that is associated with the value of the countryCode field, according to ISO 3166. The value is the same as the continentCode field returned by the getCountry() method.
- countryName: String
- The name of the country from which the specified IP address originates, such as United States. The value is the same as the countryName field returned by the getCountry() method.
- countryCode: String
- The code associated with the country, according to ISO 3166, such as US. The value is the same as the countryCode field returned by the getCountry() method.
- region: String
- The region, such as a state or province, such as Washington.
- city: String
- The city from which the IP address originates, such as Seattle.
- latitude: Number
- The latitude of the IP address location.
- longitude: Number
- The longitude of the of the IP address location.
- radius: Number
- The radius, expressed in kilometers, around the longitude and latitude coordinates of the IP address location.
Returns null in any field for which no data is available, or returns a null object if all field data is unavailable.
Note: The getPreciseLocation() method requires 100 MB of total RAM on the ExtraHop system, which might affect system performance. The first time this method is called in any trigger, the ExtraHop system reserves the required amount of RAM unless the getCountry() method has already been called. The getCountry() method requires 20 MB of RAM, so the ExtraHop system reserves an additional 80 MB of RAM. The required amount of RAM is not per trigger or per method call; the ExtraHop system only reserves the required amount of RAM one time.
IPAddress
The IPAddress class enables you to retrieve IP address attributes. The IPAddress class is also available as a property for the Flow class.
Methods
- IPAddress (ip: String | Number, mask: Number)
- Constructor for the IPAddress class that takes two parameters:
- ip: String
- The IP address string in CIDR format.
- mask: Number
- The optional subnet mask in a numerical format, representing the number of leftmost '1' bits in the mask (optional).
Instance methods
- equals (equals: IPAddress): Boolean
- Performs an equality test between IPAddress objects as shown in the following
example:
if (Flow.client.ipaddr.toString() === "10.10.10.10") { // perform a task }
- mask (mask: Number): IPAddress
- Sets the subnet mask of the IPAddress object as shown in the following
example:
if ((Flow.ipaddr1.mask(24).toString() === "173.194.33.0")|| (Flow.ipaddr2.mask(24).toString() === "173.194.33.0")) {Flow.setApplication("My L4 App");}
The mask parameter specifies the subnet mask in a numerical format, representing the number of leftmost '1' bits in the mask (optional).
- toJSON(): string
- Converts the IPAddress object to JSON format.
- toString(): String
- Converts the IPAddress object to a printable string.
Properties
- hostNames: Array of Strings
- An array of hostnames associated with the IPAddress.
- isBroadcast: Boolean
- The value is true if the IP address is a broadcast address.
- isExternal: Boolean
- The value is true if the IP address is external to your network.
- isLinkLocal: Boolean
- The value is true if the IP address is a link local address such as (169.254.0.0/16).
- isMulticast: Boolean
- The value is true if the IP address is a multicast address.
- isRFC1918: Boolean
- The value is true if the IP address belongs to one of the RFC1918 private IP ranges (10.0.0.0/8, 172.16.0.0/12, 192.168.0.0/16). The value is always false for IPv6 addresses.
- isV4: Boolean
- The value is true if the IP address is an IPv4 address.
- isV6: Boolean
- The value is true if the IP address is an IPv6 address.
Network
The Network class enables you to add custom metrics at the global level.
Methods
- metricAddCount (metric_name: String, count: Number, options: Object):void
- Creates a custom top-level
count metric. Commits the metric data to the specified network.
- metric_name: String
- The name of the top-level count metric.
- count: Number
- The increment value. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following property:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailCount (metric_name: String, key: String | IPAddress, count: Number, options: Object):void
- Creates a custom detail
count metric by which you can drill down. Commits the
metric data to the specified network.
- metric_name: String
- The name of the detail count metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- count: Number
- The increment value. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following property:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDataset (metric_name: String, val: Number, options: Object):void
- Creates a custom top-level
dataset metric. Commits the metric data to the
specified network.
- metric_name: String
- The name of the top-level dataset metric.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- freq: Number
- An option that enables you to simultaneously record multiple occurrences of particular values in the dataset when set to the number of occurrences specified by the val parameter. If no value is specified, the default value is 1.
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailDataset (metric_name: String, key: String | IPAddress, val: Number, options: Object):void
- Creates a custom detail
dataset metric by which you can drill down.
Commits the metric data to the specified network.
- metric_name: String
- The name of the detail count metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- freq: Number
- An option that enables you to simultaneously record multiple occurrences of particular values in the dataset when set to the number of occurrences specified by the val parameter. If no value is specified, the default value is 1.
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDistinct (metric_name: String, item: Number | String | IPAddress:void
- Creates a custom top-level
distinct count metric. Commits the metric
data to the specified network.
- metric_name: String
- The name of the top-level distinct count metric.
- item: Number | String | IPAddress
- The value to be placed into the set. The value is converted to a string before it is placed in the set.
- metricAddDetailDistinct (metric_name: String, key: String | IPAddress, item: Number | String | IPAddress:void
- Creates a custom detail
distinct count metric by which you can drill
down. Commits the metric data to the specified network.
- metric_name: String
- The name of the detail distinct count metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- item: Number | String | IPAddress
- The value to be placed into the set. The value is converted to a string before it is placed in the set.
- metricAddMax (metric_name: String, val: Number, options: Object):void
- Creates a custom top-level
maximum metric. Commits the metric data to the
specified network.
- metric_name: String
- The name of the top-level maximum metric.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailMax (metric_name: String, key: String | IPAddress, val: Number, options: Object):void
- Creates a custom detail
maximum metric by which you can drill down.
Commits the metric data to the specified network.
- metric_name: String
- The name of the detail maximum metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddSampleset (metric_name: String, val: Number, options: Object):void
- Creates a custom top-level
sampleset metric. Commits the metric data to
the specified network.
- metric_name: String
- The name of the top-level sampleset metric.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailSampleset (metric_name: String, key: String | IPAddress, val: Number, options: Object):void
- Creates a custom detail
sampleset metric by which you can drill
down. Commits the metric data to the specified network.
- metric_name: String
- The name of the detail sampleset metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- val: Number
- The observed value, such as a processing time. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddSnap (metric_name: String, count: Number, options: Object):void
- Creates a custom top-level
snapshot metric. Commits the metric data to
the specified network.
- metric_name: String
- The name of the top-level snapshot metric.
- count: Number
- The observed value, such as current established connections. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
- metricAddDetailSnap (metric_name: String, key: String | IPAddress, count: Number, options: Object):void
- Creates a custom detail
snapshot metric by which you can drill down.
Commits the metric data to the specified network.
- metric_name: String
- The name of the detail sampleset metric.
- key: String | IPAddress
- The key specified for the detail metric. A null value is silently discarded.
- count: Number
- The observed value, such as current established connections. Must be a non-zero, positive signed 64-bit integer. A NaN value is silently discarded.
- options: Object
- An optional object that can contain the following properties:
- highPrecision: Boolean
- A flag that enables one-second granularity for the custom metric when set to true.
Session
The Session class provides access to the session table. It is designed to support coordination across multiple independently executing triggers. The session table's global state means any changes by a trigger or external process become visible to all other users of the session table. Because the session table is in-memory, changes are not saved when you restart the ExtraHop system or the capture process.
Here are some important things to know about session tables:
- The session table supports ordinary JavaScript values, enabling you to add JS objects to the table.
- Session table entries can be evicted when the table grows too large or when the configured expiration is reached.
- Because the session table on a sensor is not shared with the console, the values in the session table are not shared with other connected sensors.
- The ExtraHop Open Data Context API exposes the session table via the management network, enabling coordination with external processes through the memcache protocol.
Events
The Session class is not limited only to the SESSION_EXPIRE event. You can apply the Session class to any ExtraHop event.
- SESSION_EXPIRE
- Runs periodically (in approximately 30 second increments) as long as the session table
is in use. When the SESSION_EXPIRE event fires, keys that have expired
in the previous 30 second interval are available through the
Session.expiredKeys property.
The SESSION_EXPIRE event is not associated with any particular flow, so triggers on SESSION_EXPIRE events cannot commit device metrics through Device.metricAdd*() methods or Flow.client.device.metricAdd*() methods. To commit device metrics on this event, you must add Device objects to the session table through the Device() instance method.
Note: You cannot assign triggers that run only on this event to specific devices or device groups. Triggers that run on this event will run whenever this event occurs. - TIMER_30SEC
- Runs exactly every 30 seconds. This event enables you to perform periodic processing,
such as regularly accessing session table entries added through the Open Data Context API.
Note: You can apply any trigger class to the TIMER_30SEC event. Note: You cannot assign triggers that run only on this event to specific devices or device groups. Triggers that run on this event will run whenever this event occurs.
Methods
- add(key: String, value*, options: Object): *
- Adds the specified key in the session table. If the key is present, the corresponding
value is returned without modifying the key entry in the table. If the key is not
present, a new entry is created for the key and value, and the new value is
returned.
You can configure an optional Options object for the specified key.
- getOptions(key: String): Object
- Returns the Options object for the specified key. You configure options during calls to Session.add(), Session.modify(), or Session.replace().
- increment(key: String, count: Number): Number | null
- Looks up the specified key and increments the key value by the specified number. The default value of the optional count parameter is 1. Returns the new key value if the call is successful. Returns null if the lookup fails. Returns an error if the key value is not a number.
- lookup(key: String): *
- Looks up the specified key in the session table and returns the corresponding value. Returns null if the key is not present.
- modify(key: String, value: *, options: Object): *
- Modifies the specified key value, if the key is present in the session table, and
returns the previous value. If the key is not present, no new entry is created.
If changes to the optional Options object are included, the key options are updated. and old options are merged with new ones. If the expire option is modified, the expiration timer is reset.
- remove(key: String): *
- Removes the entry for the given key and returns the associated value.
- replace(key: String, value: *, options: Object): *
- Updates the entry associated with the given key. If the key is present, update the
value and return the previous value. If the key is not present, add the entry and return
the previous value (null).
If changes to the optional Options object are included, the key options are updated, and old options are merged with new ones. If the expire option is provided, the expiration timer is reset.
Options
- expire: Number
- The duration after which eviction occurrs, expressed in seconds. If the value is null or undefined, the entry is evicted only when the session table grows too large.
- notify: Boolean
- Indicates whether the key is available on SESSION_EXPIRE events. The default value is false.
- priority: String
- Priority level that determines which entries to evict if the session table grows too large. Valid values are PRIORITY_LOW, PRIORITY_NORMAL, and PRIORITY_HIGH. The default value is PRIORITY_NORMAL.
Constants
- PRIORITY_LOW: Number
- The numeric representation of the lowest priority level. The value is 0. Priority levels determine the order that entries are removed from the session table if the table grows too large.
- PRIORITY_NORMAL: Number
- The numeric representation of the default priority level. The value is 1. Priority levels determine the order that entries are removed from the session table if the table grows too large.
- PRIORITY_HIGH: Number
- The numeric representation of the highest priority level. The value is 2. Priority levels determine the order that entries are removed from the session table if the table grows too large.
Properties
- expiredKeys :Array
- An array of objects with the following properties:
- age: Number
- The age of the expired object, expressed in milliseconds. Age is the amount of time elapsed between when the object in the session table was added or the expire option of the object was modified, and the SESSION_EXPIRE event. The age determines whether the key was evicted or expired.
- name: String
- The key of the expired object.
- value: Number | String | IPAddress | Boolean | Device
- The value of the entry in the session table.
Expired keys include keys that were evicted because the table grew too large.
The expiredKeys property can be accessed only on SESSION_EXPIRE events; otherwise, an error will occur.
System
The System class enables you to retrieve information about the sensor or console on which a trigger is running. This information in useful in environments with multiple sensors.
Properties
- uuid: string
- The universally unique identifier (UUID) of the sensor or console.
- ipaddr: IPAddress
- The IPAddress object of the primary management interface (Interface 1) on the sensor.
- hostname: string
- The hostname for the sensor or console configured in the Administration settings.
- version: string
- The firmware version running on the sensor or console.
ThreatIntel
The ThreatIntel class enables you to see whether threats have been found for IP addresses, hostnames, or URIs. (ExtraHop Reveal(x) Premium and Ultra only)
Methods
- hasIP(address: IPAddress): boolean
- The value is true if the threats have been found for the specified IP address. If no intelligence information is available on the ExtraHop system, the value is null.
- hasDomain(domain: String): boolean
- The value is true if the threats have been found for the specified domain. If no intelligence information is available on the ExtraHop system, the value is null.
- hasURI(uri: String): boolean
- The value is true if the threats have been found for the specified URI. If no intelligence information is available on the ExtraHop system, the value is null.
Protocol and network data classes
The Trigger API classes in this section enable you to access properties and record metrics from protocol, message, and flow activity that occurs on the ExtraHop ExtraHop system.
Class | Description |
---|---|
AAA | Enables you to store metrics and access properties on AAA_REQUEST or AAA_RESPONSE events. |
ActiveMQ | Enables you to store metrics and access properties on ACTIVEMQ_MESSAGE events. |
AJP | The AJP class enables you to store metrics and access properties on AJP_REQUEST and AJP_RESPONSE events. |
CDP | The CDP class enables you to store metrics and access properties on CDP_FRAME events. |
CIFS | Enables you to store metrics and access properties on CIFS_REQUEST and CIFS_RESPONSE events. |
DB | Enables you to store metrics and access properties on DB_REQUEST and DB_RESPONSE events. |
DHCP | Enables you to store metrics and access properties on DHCP_REQUEST and DHCP_RESPONSE events. |
DICOM | Enables you to store metrics and access properties on DICOM_REQUEST and DICOM_RESPONSE events. |
DNS | Enables you to store metrics and access properties on DNS_REQUEST and DNS_RESPONSE events. |
FIX | Enables you to store metrics and access properties on FIX_REQUEST and FIX_RESPONSE events. |
FTP | Enables you to store metrics and access properties on FTP_REQUEST and FTP_RESPONSE events. |
HL7 | Enables you to store metrics and access properties on HL7_REQUEST and HL7_RESPONSE events. |
HTTP | Enables you to store metrics and access properties on HTTP_REQUEST and HTTP_RESPONSE events. |
IBMMQ | Enables you to store metrics and access properties on IBMMQ_REQUEST and IBMMQ_RESPONSE events. |
ICA | Enables you to store metrics and access properties on ICA_OPEN, ICA_AUTH, ICA_TICK, and ICA_CLOSE events. |
ICMP | Enables you to store metrics and access properties on ICMP_MESSAGE events. |
Kerberos | Enables you to store metrics and access properties on KERBEROS_REQUEST and KERBEROS_RESPONSE events. |
LDAP | Enables you to store metrics and access properties on LDAP_REQUEST and LDAP_RESPONSE events. |
LLDP | Enables you to access properties on LLDP_FRAME events. |
Memcache | Enables you to store metrics and access properties on MEMCACHE_REQUEST and MEMCACHE_RESPONSE events. |
Modbus | Enables you to store metrics and access properties on MODBUS_REQUEST and MODBUS_RESPONSE events. |
MongoDB | The MongoDB class enables you to store metrics and access properties on MONGODB_REQUEST and MONGODB_RESPONSE events. |
MSMQ | The MSMQ class enables you to store metrics and access properties on MSMQ_MESSAGE event. |
NetFlow | Enables you to store metrics and access properties on NETFLOW_RECORD events. |
NFS | Enables you to store metrics and access properties on NFS_REQUEST and NFS_RESPONSE events. |
NTLM | Enables you to store metrics and access properties on NTLM_MESSAGE events. |
POP3 | Enables you to store metrics and access properties on POP3_REQUEST and POP3_RESPONSE events. |
RDP | Enables you to store metrics and access properties on RDP_OPEN, RDP_CLOSE, and RDP_TICK events. |
Redis | Enables you to store metrics and access properties on REDIS_REQUEST and REDIS_RESPONSE events. |
RPC | Enables you to store metrics and access properties on RPC_REQUEST and RPC_RESPONSE events. |
RTCP | Enables you to store metrics and access properties on RTCP_MESSAGE events. |
RTP | Enables you to store metrics and access properties on RTP_OPEN, RTP_CLOSE, and RTP_TICK events. |
SCCP | Enables you to store metrics and access properties on SCCP_MESSAGE events. |
SDP | Enables you to access properties on SIP_REQUEST and SIP_RESPONSE events. |
SFlow | Enables you to store metrics and access properties on SFLOW_RECORD events. |
SIP | Enables you to store metrics and access properties on SIP_REQUEST and SIP_RESPONSE events. |
SMPP | Enables you to store metrics and access properties on SMPP_REQUEST and SMPP_RESPONSE events. |
SMTP | Enables you to store metrics and access properties on SMTP_REQUEST and SMTP_RESPONSE events. |
SSH | Enables you to store metrics and access properties on SSH_CLOSE, SSH_OPEN and SSH_TICK events. |
SSL | Enables you to store metrics and access properties on SSL_OPEN, SSL_CLOSE, SSL_ALERT, SSL_RECORD, SSL_HEARTBEAT, and SSL_RENEGOTIATE events. |
TCP | Enables you to access properties and retrieve metrics from TCP events and on FLOW_TICK and FLOW_TURN events. |
Telnet | Enables you to store metrics and access properties on TELNET_MESSAGE events. |
Turn | Enables you to store metrics and access properties on FLOW_TURN events. |
UDP | Enables you to access properties and retrieve metrics from UDP events and on FLOW_TICK and FLOW_TURN events. |
WebSocket | Enables you to access properties on WEBSOCKET_OPEN, WEBSOCKET_CLOSE, and WEBSOCKET_MESSAGE events. |
AAA
The AAA (Authentication, Authorization, and Accounting) class enables you to store metrics and access properties on AAA_REQUEST or AAA_RESPONSE events.
Events
- AAA_REQUEST
- Runs when the ExtraHop system finishes processing an AAA request .
- AAA_RESPONSE
- Runs on every AAA response processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on either an
AAA_REQUEST or AAA_RESPONSE event.
The event determines which properties are committed to the record object. To view the default properties committed on each event, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- authenticator: String
- The value of the authenticator field (RADIUS only).
- avps: Array
- An array of AVP objects with the following properties:
- avpLength: Number
- The size of the AVP, expressed in bytes. This value includes the AVP header data, as well as the value.
- id: Number
- The numeric ID of the attribute represented as an integer.
- isGrouped: Boolean
- The value is true if this is a grouped AVP (Diameter only).
- name: String
- The name for the given AVP.
- vendor: String
- The vendor name for vendor AVPs (Diameter only).
- value: String | Array | Number
- For single AVPs, a string or numeric value. For grouped AVPs (Diameter only), an array of objects.
- isDiameter: Boolean
- The value is true if the request or response is Diameter.
- isError: Boolean
- The value is true if the response is an error. To retrieve the error
details in Diameter, check AAA.statusCode. To retrieve the error
details in RADIUS, check the AVP with code 18 (Reply-Message).
Access only on AAA_RESPONSE events; otherwise, an error will occur.
- isRadius: Boolean
- The value is true if the request or response is RADIUS.
- isRspAborted: Boolean
- The value is true if the AAA_RESPONSE event is
aborted.
Access only on AAA_RESPONSE events; otherwise, an error will occur.
- method: Number
- The method that corresponds to the command code in either RADIUS or Diameter.
The following table contains valid Diameter command codes:
Command name Abbr. Code AA-Request AAR 265 AA-Answer AAA 265 Diameter-EAP-Request DER 268 Diameter-EAP-Answer DEA 268 Abort-Session-Request ASR 274 Abort-Session-Answer ASA 274 Accounting-Request ACR 271 Credit-Control-Request CCR 272 Credit-Control-Answer CCA 272 Capabilities-Exchange-Request CER 257 Capabilities-Exchange-Answer CEA 257 Device-Watchdog-Request DWR 280 Device-Watchdog-Answer DWA 280 Disconnect-Peer-Request DPR 282 Disconnect-Peer-Answer DPA 282 Re-Auth-Request RAR 258 Re-Auth-Answer RAA 258 Session-Termination-Request STR 275 Session-Termination-Answer STA 275 User-Authorization-Request UAR 300 User-Authorization-Answer UAA 300 Server-Assignment-Request SAR 301 Server-Assignment-Answer SAA 301 Location-Info-Request LIR 302 Location-Info-Answer LIA 302 Multimedia-Auth-Request MAR 303 Multimedia-Auth-Answer MAA 303 Registration-Termination-Request RTR 304 Registration-Termination-Answer RTA 304 Push-Profile-Request PPR 305 Push-Profile-Answer PPA 305 User-Data-Request UDR 306 User-Data-Answer UDA 306 Profile-Update-Request PUR 307 Profile-Update-Answer PUA 307 Subscribe-Notifications-Request SNR 308 Subscribe-Notifications-Answer SNA 308 Push-Notification-Request PNR 309 Push-Notification-Answer PNA 309 Bootstrapping-Info-Request BIR 310 Bootstrapping-Info-Answer BIA 310 Message-Process-Request MPR 311 Message-Process-Answer MPA 311 Update-Location-Request ULR 316 Update-Location-Answer ULA 316 Authentication-Information-Request AIR 318 Authentication-Information-Answer AIA 318 Notify-Request NR 323 Notify-Answer NA 323 The following table contains valid RADIUS command codes:
Command name Code Access-Request 1 Access-Accept 2 Access-Reject 3 Accounting-Request 4 Accounting-Response 5 Access-Challenge 11 Status-Server (experimental) 12 Status-Client (experimental) 13 Reserved 255 - processingTime: Number
- The server processing time, expressed in milliseconds. The value is NaN if the timing is invalid.
Access only on AAA_RESPONSE events; otherwise, an error will occur.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
AAA.commitRecord() on either an AAA_REQUEST or
AAA_RESPONSE event.
The event on which the method was called determines which properties the default record object can contain as displayed in the following table:
AAA_REQUEST AAA_RESPONSE authenticator authenticator clientZeroWnd clientZeroWnd method isError reqBytes isRspAborted reqL2Bytes method reqPkts processingTime reqRTO roundTripTime serverZeroWnd rspBytes txId rspL2Bytes rspPkts rspRTO statusCode serverZeroWnd txId - reqBytes: Number
- The number of L4 request bytes, excluding L4 headers.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2 headers.
- reqPkts: Number
- The number of request packets.
- reqRTO: Number
- The number of request retransmission
timeouts (RTOs).
Access only on AAA_REQUEST events; otherwise, an error will occur.
- reqZeroWnd: Number
- The number of zero windows in the request.
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is NaN if there are no RTT samples.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol overhead, such as ACKs, headers, and retransmissions.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead, such as headers.
- rspPkts: Number
- The number of response packets.
- rspRTO: Number
- The number of response retransmission
timeouts (RTOs).
Access only on AAA_RESPONSE events; otherwise, an error will occur.
- rspZeroWnd: Number
- The number of zero windows in the response.
- statusCode: String
- A string representation of the AVP identifier 268 (Result-Code).
Access only on AAA_RESPONSE events; otherwise, an error will occur.
- txId: Number
- A value that corresponds to the hop-by-hop identifier in Diameter and msg-id in RADIUS.
ActiveMQ
The ActiveMQ class enables you to store metrics and access properties on ACTIVEMQ_MESSAGE events. ActiveMQ is an implementation of the Java Messaging Service (JMS).
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on an
ACTIVEMQ_MESSAGE event.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- correlationId: String
- The JMSCorrelationID field of the message.
- expiration: Number
- The JMSExpiration field of the message.
- msg: Buffer
- The message body. For TEXT_MESSAGE format messages, this returns the body of the message as a UTF-8 string. For all other message formats, this returns the raw bytes.
- msgFormat: String
- The message format. Possible values are:
- BYTES_MESSAGE
- MAP_MESSAGE
- MESSAGE
- OBJECT_MESSAGE
- STREAM_MESSAGE
- TEXT_MESSAGE
- BLOG_MESSAGE
- msgId: String
- The JMSMessageID field of the message.
- persistent: Boolean
- The value is true if the JMSDeliveryMode is PERSISTENT.
- priority: Number
- The JMSPriority field of the message.
- 0 is the lowest priority.
- 9 is the highest priority.
- 0-4 are gradations of normal priority.
- 5-9 are gradations of expedited priority.
- properties: Object
- Zero or more properties attached to the message. The keys are arbitrary strings and the values may be booleans, numbers, or strings.
- queue: String
- The JMSDestination field of the message.
- receiverBytes: Number
- The number of application-level bytes from the receiver.
- receiverIsBroker: Boolean
- The value is true if the flow-level receiver of the message is a broker.
- receiverL2Bytes: Number
- The number of L2 bytes from the receiver.
- receiverPkts: Number
- The number of packets from the receiver.
- receiverRTO: Number
- The number of RTOs from the receiver.
- receiverZeroWnd: Number
- The number of zero windows sent by the receiver.
- record: Object
- The record object that can be sent to the configured recordstore through a call
to ActiveMQ.commitRecord() on an ACTIVEMQ_MESSAGE
event.
The default record object can contain the following properties:
- correlationId
- expiration
- msgFormat
- msgId
- persistent
- priority
- queue
- receiverBytes
- receiverIsBroker
- receiverL2Bytes
- receiverPkts
- receiverRTO
- receiverZeroWnd
- redeliveryCount
- replyTo
- roundTripTime
- senderBytes
- senderIsBroker
- senderL2Bytes
- senderPkts
- senderRTO
- senderZeroWnd
- timeStamp
- totalMsgLength
- redeliveryCount: Number
- The number of redeliveries.
- replyTo: String
- The JMSReplyTo field of the message, converted to a string.
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is NaN if there are no RTT samples.
- senderBytes: Number
- The number of application-level bytes from the sender.
- senderIsBroker: Boolean
- The value is true if the flow-level sender of the message is a broker.
- senderL2Bytes: Number
- The number of L2 bytes from the sender.
- senderPkts: Number
- The number of packets from the sender.
- senderRTO: Number
- The number of RTOs from the sender.
- senderZeroWnd: Number
- The number of zero windows sent by the sender.
- timestamp: Number
- The time when the message was handed off to a provider to be sent, expressed in GMT. This is the JMSTimestamp field of the message.
- totalMsgLength: Number
- The length of the message, expressed in bytes.
AJP
Apache JServ Protocol (AJP) proxies inbound requests from a web server to an application server and is often applied to load-balanced environments where one or more front-end web servers feed requests into one or more application servers. The AJP class enables you to store metrics and access properties on AJP_REQUEST and AJP_RESPONSE events.
Events
- AJP_REQUEST
- Runs after the web server sends an AJP Forward Request message to a servlet container, and then transfers any subsequent request body.
- AJP_RESPONSE
- Runs after a servlet container sends an AJP End Response message to signal that the servlet container has finished processing an AJP Forward Request and has sent back the requested information.
Methods
- commitRecord(): Void
- Sends a record to the configured recordstore on an
AJP_RESPONSE event. Record commits on AJP_REQUEST
events are not supported.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
- findHeaders(name: String): Array
- Accesses AJP header values and returns an array of header objects (with name and value properties) where the names match the prefix of the specified string. Accesses request headers on AJP_REQUEST events and response headers on AJP_RESPONSE requests.
Properties
- attributes: Object
- An array of optional AJP attributes sent with the request, such as remote_user,
auth_type, query_string, jvm_route, ssl_cert, ssl_cipher, and ssl_session.
Access only on AJP_REQUEST events; otherwise, an error will occur.
- fwdReqClientAddr: IPAddress
- The IPAddress of the HTTP client that made the original request to the server. The value is null if the available information cannot be parsed to an IP address.
- fwdReqHost: String
- The HTTP host specified by the HTTP client that made the original request to the server.
- fwdReqIsEncrypted: Boolean
- The value is true if SSL encryption was applied by the HTTP client that made the original request to the server.
- fwdReqServerName: String
-
The name of the server to which the HTTP client made the original request.
- fwdReqServerPort: Number
- The TCP port on the server to which the HTTP client made the original request.
- headers: Object
- When accessed on AJP_REQUEST events, an array of header names and
values sent with the request.
When accessed on AJP_RESPONSE events, an array of headers conveyed in the AJP Send Headers message by the server to the end user browser.
- method: String
- The HTTP method of the request, such as POST or GET, from the server to the servlet container.
- processingTime: Number
- The time between the last byte of the request received and the first byte of the
response payload sent, expressed in milliseconds. The value is NaN on malformed and aborted responses or if the timing
is invalid.
Access only on AJP_RESPONSE events; otherwise, an error will occur.
- protocol: String
- The protocol of the request from the server to the servlet container. Not set for other message types.
- record: Object
- The record object that can be sent to the configured recordstore through a call
to AJP.commitRecord() on an AJP_RESPONSE event.
The default record object can contain the following properties:
- fwdReqClientAddr
- fwdReqHost
- fwdReqIsEncrypted
- fwdReqServerName
- fwdReqServerPort
- method
- processingTime
- protocol
- reqSize
- rspSize
- statusCode
- uri
Access only on AJP_RESPONSE events; otherwise, an error will occur.
- reqBytes: Number
- The number of L4 request bytes, excluding L4
headers.
Access only on AJP_RESPONSE events; otherwise, an error will occur.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2 headers.
- reqPkts: Number
- The number of request packets.
- reqRTO: Number
- The number of request retransmission timeouts (RTOs).
- reqSize: Number
- The number of L7 request bytes, excluding AJP headers.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol
overhead, such as ACKs, headers, and retransmissions.
Access only on AJP_RESPONSE events; otherwise, an error will occur.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead,
such as headers.
Access only on AJP_RESPONSE events; otherwise, an error will occur.
- rspPkts: Number
- The number of response packets.
Access only on AJP_RESPONSE events; otherwise, an error will occur.
- rspRTO: Number
- The number of response retransmission
timeouts (RTOs).
Access only on AJP_RESPONSE events; otherwise, an error will occur.
- rspSize: Number
- The number of L7 response bytes, excluding AJP headers.
Access only on AJP_RESPONSE events; otherwise, an error will occur.
- statusCode: Number
- The HTTP status code returned by the servlet container for responses to AJP Forward
Request messages.
Access only on AJP_RESPONSE events; otherwise, an error will occur.
- uri: String
- The URI for the request from the server to the servlet container. Not set for non-AJP message types.
CDP
Cisco Discovery Protocol (CDP) is a proprietary protocol that enables connected Cisco devices to send information to each other. The CDP class enables you to access properties on CDP_FRAME events.
Properties
- destination: String
- The destination MAC address. The most common destination is 01:00:0c:cc:cc:cc, indicating a multicast address.
- checksum: Number
- The CDP checksum.
- source: Device
- The device sending the CDP frame.
- ttl: Number
- The time to live, expressed in seconds. This is the length of time during which the information in this frame is valid, starting with when the information is received.
- tlvs: Array of Objects
- An array containing each type, length, value (TLV) field. A TLV field
contains information such as the device ID, address, and platform. Each
field is an object with the following properties:
- type: Number
- The type of TLV.
- value: Buffer
- The value of the TLV.
- version: Number
- The CDP protocol version.
CIFS
The CIFS class enables you to store metrics and access properties on CIFS_REQUEST and CIFS_RESPONSE events.
Events
- CIFS_REQUEST
- Runs on every CIFS request processed by the device.
- CIFS_RESPONSE
- Runs on every CIFS response processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on a
CIFS_RESPONSE event. Record commits on CIFS_REQUEST
events are not supported.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
Important: | Access time is the time it takes for a CIFS server to receive a
requested block. There is no access time for operations that do not access actual block data
within a file. Processing time is the time it takes for a CIFS server to respond to the
operation requested by the client, such as a metadata retrieval request. There are no access times for SMB2_CREATE commands, which create a file that is referenced in the response by an SMB2_FILEID command. The referenced file blocks are then read from or written to the NAS-storage device. These file read and write operations are calculated as access times. |
- accessTime: Number
- The amount of time taken by the server to access a file on disk, expressed in
milliseconds. For CIFS, this is the time from the first READ command in a CIFS flow
until the first byte of the response payload. The value is NaN if the measurement or timing is invalid.
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
- dialect: String
- The dialect of SMB negotiated between the client and the server.
- encryptedBytes: Number
- The number of encrypted bytes in the request or response.
- encryptionProtocol: String
- The protocol that the transaction is encrypted with.
- error: String
- The detailed error message recorded by the ExtraHop system.
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
- isCommandCreate: Boolean
- The value is true if the message contains an SMB file creation command.
- isCommandDelete: Boolean
- The value is true if the message contains an SMB DELETE command.
- isCommandFileInfo: Boolean
- The value is true if the message contains an SMB file info command.
- isCommandLock: Boolean
- The value is true if the message contains an SMB locking command.
- isCommandRead: Boolean
- The value is true if the message contains an SMB READ command.
- isCommandRename: Boolean
- The value is true if the message contains an SMB RENAME command.
- isCommandWrite: Boolean
- The value is true if the message contains an SMB WRITE command.
- isDecrypted: Boolean
- The value is true if the ExtraHop system securely decrypted and analyzed the transaction. Decrypted traffic analysis can expose advanced threats that hide within encrypted traffic.
- isEncrypted: Boolean
- The value is true if the transaction is encrypted.
- isRspAborted: Boolean
- The value is true if the connection is closed before the CIFS response was
complete.
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
- method: String
- The CIFS method. Correlates to the methods listed under the CIFS metric in the ExtraHop system.
- msgID: Number
- The SMB transaction identifier.
- payload: Buffer
- The Buffer object containing the payload bytes
starting from the READ or WRITE command in the CIFS message.
The buffer contains the N first bytes of the payload, where N is the number of payload bytes specified by the L7 Payload Bytes to Buffer option when the trigger was configured through the ExtraHop WebUI. The default number of bytes is 2048. For more information, see Advanced trigger options.
Note: The buffer cannot contain more than 4 KB, even if the L7 Payload Bytes to Buffer option is set to a higher value. For larger volumes of payload bytes, the payload might be spread across a series of READ or WRITE commands so that no single trigger event contains the entire requested payload. You can reassemble the payload into a single, consolidated buffer through the Flow.store and payloadOffset properties.
- payloadOffset: Number
- The file offset, expressed in bytes, within the resource property. The payload property is obtained from the resource property at the offset.
- processingTime: Number
- The server processing time, expressed in milliseconds. The value is NaN on malformed and aborted responses or if the timing
is invalid.
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
CIFS.commitRecord on a CIFS_RESPONSE event.
The default record object can contain the following properties:
- accessTime
- clientZeroWnd
- error
- isCommandCreate
- isCommandDelete
- isCommandFileInfo
- isCommandLock
- isCommandRead
- isCommandRename
- isCommandWrite
- method
- processingTime
- reqSize
- reqXfer
- resource
- rspBytes
- rspXfer
- serverZeroWnd
- share
- statusCode
- user
- warning
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
- reqBytes: Number
- The number of L4 request bytes, excluding L4
headers.
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2
headers.
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
- reqPkts: Number
- The number of request packets.
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
- reqRTO: Number
- The number of request retransmission
timeouts (RTOs).
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
- reqSize: Number
- The number of L7 request bytes, excluding CIFS headers.
- reqTransferTime: Number
- The request transfer time, expressed in milliseconds. If the request is contained in a
single packet, the transfer time is zero. If the request spans multiple packets, the
value is the amount of time between detection of the first CIFS request packet and
detection of the last packet by the ExtraHop system. A high value might indicate a large
CIFS request or a network delay. The value is NaN if there is no valid measurement, or if the timing is
invalid.
Access only on CIFS_REQUEST events; otherwise, an error will occur.
- reqVersion: String
- The version of SMB running on the request.
- reqZeroWnd: Number
- The number of zero windows in the request.
- resource: String
- The share, path, and filename, concatenated together.
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is
NaN if there are no RTT samples.
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol
overhead, such as ACKs, headers, and retransmissions.
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead,
such as headers.
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
- rspPkts: Number
- The number of response packets.
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
- rspRTO: Number
- The number of response retransmission
timeouts (RTOs).
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
- rspSize: Number
- The number of L7 response bytes, excluding CIFS headers.
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
- rspTransferTime: Number
- The response transfer time, expressed in milliseconds. If the response is contained in
a single packet, the transfer time is zero. If the response spans multiple packets, the
value is the amount of time between detection of the first CIFS response packet and
detection of the last packet by the ExtraHop system. A high value might indicate a large
CIFS response or a network delay. The value is NaN if there is no valid measurement, or if the timing is
invalid.
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
- rspVersion: String
- The version of SMB running on the response.
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
- rspZeroWnd: Number
- The number of zero windows in the response.
- share: String
- The name of the share the user is connected to.
- statusCode: Number
- The numeric status code of the response (SMB2 only).
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
- user: String
- The username, if available. In some cases, such as when the login event was not visible or the access was anonymous, the username is not available.
- warning: String
- The detailed warning message recorded by the ExtraHop system.
Access only on CIFS_RESPONSE events; otherwise, an error will occur.
DB
The DB, or database, class enables you to store metrics and access properties on DB_REQUEST and DB_RESPONSE events.
Events
- DB_REQUEST
- Runs on every database request processed by the device.
- DB_RESPONSE
- Runs on every database response processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on a
DB_RESPONSE event. Record commits on DB_REQUEST
events are not supported.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- appName: String
- The client application name, which is extracted only for MS SQL connections.
- correlationId: Number
- The correlation ID for DB2 applications. The value is null for non-DB2 applications.
- database: String
- The database instance. In some cases, such as when login events are encrypted, the database name is not available.
- encryptionProtocol: String
- The protocol that the transaction is encrypted with.
- error: String
- The detailed error messages recorded by the ExtraHop system in string format. If there
are multiple errors in one response, the errors are concatenated into one
string.
Access only on DB_RESPONSE events; otherwise, an error will occur.
- errors: Array of strings
- The detailed error messages recorded by the ExtraHop system in array format. If there
is only a single error in the response, the error is returned as an array containing one
string.
Access only on DB_RESPONSE events; otherwise, an error will occur.
- isDecrypted: Boolean
- The value is true if the ExtraHop system securely decrypted and analyzed the transaction. Decrypted traffic analysis can expose advanced threats that hide within encrypted traffic.
- isEncrypted: Boolean
- The value is true if the transaction is encrypted.
- isReqAborted: Boolean
- The value is true if the connection is closed before the DB request is complete.
- isRspAborted: Boolean
- The value is true if the connection is closed before the DB response
is complete.
Access only on DB_RESPONSE events; otherwise, an error will occur.
- method: String
- The database method that correlates to the methods listed under the Database metric in the ExtraHop system.
- params: Array
- An array of remote procedure call (RPC) parameters that are
only available for Microsoft SQL, PostgreSQL, and DB2 databases.
The array contains each of the following parameters:
- name: String
- The optional name of the supplied RPC parameter.
- value: String | Number
- A text, integer, or time and date field. If the value is not a text, integer, or time and date field, the value is converted into HEX/ASCII form.
The value of the params property is the same when accessed on either the DB_REQUEST or the DB_RESPONSE event.
- procedure: String
- The stored procedure name. Correlates to the procedures listed under the Database methods in the ExtraHop system.
- processingTime: Number
- The server processing time, expressed in milliseconds (equivalent to
rspTimeToFirstByte - reqTimeToLastByte). The value
is NaN on malformed and aborted responses or
if the timing is invalid.
Access only on DB_RESPONSE events; otherwise, an error will occur.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
DB.commitRecord on a DB_RESPONSE event.
The default record object can contain the following properties:
- appName
- clientZeroWnd
- correlationId
- database
- error
- isReqAborted
- isRspAborted
- method
- procedure
- reqSize
- reqTimeToLastByte
- rspSize
- rspTimeToFirstByte
- rspTimeToLastByte
- processingTime
- serverZeroWnd
- statement
- table
- user
Access only on DB_RESPONSE events; otherwise, an error will occur.
- reqBytes: Number
- The number of L4 request bytes, excluding L4
headers.
Access only on DB_RESPONSE events; otherwise, an error will occur.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2
headers.
Access only on DB_RESPONSE events; otherwise, an error will occur.
- reqPkts: Number
- The number of request packets.
Access only on DB_RESPONSE events; otherwise, an error will occur.
- reqRTO: Number
- The number of request retransmission
timeouts (RTOs).
Access only on DB_RESPONSE events; otherwise, an error will occur.
- reqSize: Number
- The number of L7 request bytes, excluding database protocol headers.
- reqTimeToLastByte: Number
- The time from the first byte of the request until the last byte of the request, expressed in milliseconds. Returns NaN on malformed and aborted requests or if the timing is invalid.
- reqZeroWnd: Number
- The number of zero windows in the request.
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is
NaN if there are no RTT samples.
Access only on DB_RESPONSE events; otherwise, an error will occur.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol
overhead, such as ACKs, headers, and retransmissions.
Access only on DB_RESPONSE events; otherwise, an error will occur.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead,
such as headers.
Access only on DB_RESPONSE events; otherwise, an error will occur.
- rspPkts: Number
- The number of response packets.
Access only on DB_RESPONSE events; otherwise, an error will occur.
- rspRTO: Number
- The number of response retransmission
timeouts (RTOs).
Access only on DB_RESPONSE events; otherwise, an error will occur.
- rspSize: Number
- The number of L7 response bytes, excluding database protocol headers.
Access only on DB_RESPONSE events; otherwise, an error will occur.
- rspTimeToFirstByte: Number
- The time from the first byte of the request until the first byte of the response,
expressed in milliseconds. The value is NaN
on malformed and aborted responses or if the timing is invalid.
Access only on DB_RESPONSE events; otherwise, an error will occur.
- rspTimeToLastByte: Number
- The time from the first byte of the request until the last byte of the response,
expressed in milliseconds. The value is NaN
on malformed and aborted responses or if the timing is invalid.
Access only on DB_RESPONSE events; otherwise, an error will occur.
- rspZeroWnd: Number
- The number of zero windows in the response.
- serverVersion: String
- The MS SQL server version.
- statement: String
- The full SQL statement, which might not be available for all database methods.
- table: String
- The name of the database table specified in the current statement. The following
databases are supported:
- Sybase
- Sybase IQ
- MySQL
- PostgreSQL
- IBM Informix
- MS SQL TDS
- Oracle TNS
- DB2
Returns an empty field if there is no table name in the request.
- user: String
- The username, if available. In some cases, such as when login events are encrypted, the username is unavailable.
DHCP
The DHCP class enables you to store metrics and access properties on DHCP_REQUEST and DHCP_RESPONSE events.
Events
- DHCP_REQUEST
- Runs on every DHCP request processed by the device.
- DHCP_RESPONSE
- Runs on every DHCP response processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on either a
DHCP_REQUEST or DHCP_RESPONSE event.
The event determines which properties are committed to the record object. To view the default properties committed on each event, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
- getOption(optionCode: Number): Object
- Accepts a DHCP option code integer as input and returns an object containing the
following fields:
- code: Number
- The DHCP option code.
- name: String
- The DHCP option name.
- payload: Number | String
- The type of payload returned will be whatever the type is for that specific option such as an IP address, an array of IP addresses, or a buffer object.
Returns null if the specified option code is not present in the message.
Properties
- chaddr: String
- The client hardware address of the DHCP client.
- clientReqDelay: Number
- The time elapsed before the client attempts to acquire or
renew a DHCP lease, expressed in seconds.
Access only on DHCP_REQUEST events; otherwise, an error will occur.
- error: String
- The error message associated with option code 56. The value is null
if there is no error.
Access only on DHCP_RESPONSE events; otherwise, an error will occur.
- gwAddr: IPAddress
- The IP address through which routers relay request and response messages.
- htype: Number
- The hardware type code.
- msgType: String
- The DHCP message type. Supported message types are:
- DHCPDISCOVER
- DHCPOFFER
- DHCPREQUEST
- DHCPDECLINE
- DHCPACK
- DHCPNAK
- DHCPRELEASE
- DHCPINFORM
- DHCPFORCERENEW
- DHCPLEASEQUERY
- DHCPLEASEUNASSIGNED
- DHCPLEASEUNKNOWN
- DHCPLEASEACTIVE
- DHCPBULKLEASEQUERY
- DHCPLEASEQUERYDONE
- offeredAddr: IPAddress
- The IP address the DHCP server is offering or assigning to the client.
Access only on DHCP_RESPONSE events; otherwise, an error will occur.
- options: Array of Objects
- An array of objects with each object containing the following fields:
- code: Number
- The DHCP option code.
- name: String
- The DHCP option name.
- payload: Number | String
- The type of payload returned will be whatever the type is for that specific option such as an IP address, an array of IP addresses, or a buffer object. IP addresses will be parsed into an array but if the number of bytes is not divisible by 4, it will instead be returned as a buffer.
- paramReqList: String
- A comma-separated list of numbers that represents the DHCP options requested from the server by the client. For a complete list of DHCP options, see https://www.iana.org/assignments/bootp-dhcp-parameters/bootp-dhcp-parameters.xhtml.
- processingTime: Number
- The process time, expressed in milliseconds. The value is NaN on malformed and aborted responses or if the timing is
invalid.
Access only on DHCP_RESPONSE events; otherwise, an error will occur.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
DHCP.commitRecord on either a DHCP_REQUEST or
DHCP_RESPONSE event.
The event on which the method was called determines which properties the default record object can contain as displayed in the following table:
DHCP_REQUEST DHCP_RESPONSE clientReqDelay msgType gwAddr error htype gwAddr msgType htype reqBytes offeredAddr reqL2Bytes processingTime reqPkts rspBytes txId rspL2Bytes rspPkts txId - reqBytes: Number
- The number of L4 request bytes, excluding L4
headers.
Access only on DHCP_RESPONSE events; otherwise, an error will occur.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2
headers.
Access only on DHCP_RESPONSE events; otherwise, an error will occur.
- reqPkts: Number
- The number of request packets.
Access only on DHCP_RESPONSE events; otherwise, an error will occur.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol
overhead, such as ACKs, headers, and retransmissions.
Access only on DHCP_RESPONSE events; otherwise, an error will occur.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead,
such as headers.
Access only on DHCP_RESPONSE events; otherwise, an error will occur.
- rspPkts: Number
- The number of response packets.
Access only on DHCP_RESPONSE events; otherwise, an error will occur.
- txId: Number
- The transaction ID.
- vendor: String
- The Vendor Class Identifier (VCI) that specifies the vendor running on the client or server.
DICOM
The DICOM (Digital Imaging and Communications in Medicine) class enables you to store metrics and access properties on DICOM_REQUEST and DICOM_RESPONSE events.
Events
- DICOM_REQUEST
- Runs on every DICOM request processed by the device.
- DICOM_RESPONSE
- Runs on every DICOM response processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on a
DICOM_REQUEST or DICOM_RESPONSE event.
The event determines which properties are committed to the record object. To view the default properties committed on each event, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
- findElement(groupTag: Number, elementTag: Number): Buffer
- Returns a buffer that contains the DICOM data element specified by the passed group
and element tag numbers.
The data element is represented by a unique ordered pair of integers that represent the group tag and element tag numbers. For example, the ordered pair "0008, 0008" represents the "image type" element. A Registry of DICOM Data Elements and defined tags is available at dicom.nema.org.
- groupTag: Number
- The first number in the unique ordered pair of integers that represent a specific data element.
- elementTag: Number
- The second number in the unique ordered pair or integers that represent a specific data element.
Properties
- calledAETitle: String
- The application entity (AE) title of the destination device or program.
- callingAETitle: String
- The application entity (AE) title of the source device or program.
- elements: Array
- An array of presentation data values (PDV) command elements and data elements that comprise a DICOM message.
- error: String
- The detailed error message recorded by the ExtraHop system.
- isReqAborted: Boolean
- The value is true if the connection is closed before the DICOM
request is complete.
Access only on DICOM_REQUEST events; otherwise, an error will occur.
- isRspAborted: Boolean
- The value is true if the connection is closed before the DICOM
response is complete.
Access only on DICOM_RESPONSE events; otherwise, an error will occur.
- isSubOperation: Boolean
- The value is true if the timing metric on an L7 protocol message is not available because the primary request or response is not complete.
- methods: Array of Strings
- An array of command fields in the message. Each command field specifies a DIMSE operation name, such as N-CREATE-RSP.
- processingTime: Number
- The server processing time, expressed in milliseconds. The value is NaN on malformed and aborted responses or if the timing
is invalid.
Access only on DICOM_RESPONSE events; otherwise, an error will occur.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
DICOM.commitRecord on either a DICOM_REQUEST or
DICOM_RESPONSE event.
The event on which the method was called determines which properties the default record object can contain as displayed in the following table:
DICOM_REQUEST DICOM_RESPONSE calledAETitle calledAETitle callingAETitle callingAETitle clientZeroWnd clientZeroWnd error error isReqAborted isRspAborted isSubOperation isSubOperation method method reqPDU processingTime reqSize rspPDU reqTransferTime rspSize serverZeroWnd rspTransferTime version serverZeroWnd version - reqBytes: Number
- The number of L4 request bytes, excluding L4
headers.
Access only on DICOM_REQUEST events; otherwise, an error will occur.
- reqL2Bytes: Number
-
The number of L2 request bytes, including L2 headers.
- reqPDU: String
- The Protocol Data Unit (PDU), or message format, of the request.
- reqPkts: Number
- The number of request packets.
- reqRTO: Number
- The number of request retransmission timeouts (RTOs).
- reqSize: Number
- The number of L7 request bytes.
Access only on DICOM_REQUEST events; otherwise, an error will occur.
- reqTransferTime: Number
- The request transfer time, expressed in milliseconds.
Access only on DICOM_REQUEST events; otherwise, an error will occur.
- reqZeroWnd: Number
- The number of zero windows in the request.
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is
NaN if there are no RTT samples.
Access only on DICOM_RESPONSE events; otherwise, an error will occur.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol
overhead, such as ACKs, headers, and retransmissions.
Access only on DICOM_RESPONSE events; otherwise, an error will occur.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead, such as headers.
- rspPDU: String
- The Protocol Data Unit (PDU), or message format, of the response.
Access only on DICOM_RESPONSE events; otherwise, an error will occur.
- rspPkts: Number
- The number of response packets.
- rspRTO: Number
- The number of response retransmission timeouts (RTOs).
- rspSize: Number
- The number of L7 response bytes.
Access only on DICOM_RESPONSE events; otherwise, an error will occur.
- rspTransferTime: Number
- The response transfer time, expressed in milliseconds.
Access only on DICOM_RESPONSE events; otherwise, an error will occur.
- rspZeroWnd: Number
- The number of zero windows in the response.
- version: Number
- The DICOM version number.
DNS
The DNS class enables you to store metrics and access properties on DNS_REQUEST and DNS_RESPONSE events.
Events
- DNS_REQUEST
- Runs on every DNS request processed by the device.
- DNS_RESPONSE
- Runs on every DNS response processed by the device.
Methods
- answersInclude(term: String | IPAddress): Boolean
- Returns true if the specified term is present in a DNS response. For
string terms, the method checks both the name and data record in the answer section of
the response. For IPAddress terms, the method checks
only the data record in the answer section.
Can be called only on DNS_RESPONSE events.
- commitRecord(): void
- Sends a record to the configured recordstore on a
DNS_REQUEST or DNS_RESPONSE event.
The event determines which properties are committed to the record object. To view the default properties committed on each event, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- answers: Array
- An array of objects that correspond to answer resource records.
Access only on DNS_RESPONSE events; otherwise, an error will occur.
The objects contain the following properties:
- data: String | IPAddress
- The value of data depends on the type. The value is null for
unsupported record types. Supported record types include:
- A
- AAAA
- NS
- PTR
- CNAME
- MX
- SRV
- SOA
- TXT
- name: String
- The record name.
- ttl: Number
- The time-to-live value.
- type: String
- The DNS record type.
- typeNum: Number
- The numeric representation of the DNS record type.
- error: String
- The name of the DNS error code, in accordance with IANA DNS parameters.
Returns OTHER for error codes that are unrecognized by the system; however, errorNum specifies the numeric code value.
Access only on DNS_RESPONSE events; otherwise, an error will occur.
- errorNum: Number
- The numeric representation of the DNS error code in accordance with IANA DNS
parameters.
Access only on DNS_RESPONSE events; otherwise, an error will occur.
- isAuthenticData: Boolean
- The value is true if the response was validated through
DNSSEC.
Access only on DNS_RESPONSE events; otherwise, an error will occur.
- isAuthoritative: Boolean
- The value is true if the authoritative answer is set in the
response.
Access only on DNS_RESPONSE events; otherwise, an error will occur.
- isCheckingDisabled: Boolean
- The value is true if a response should be returned even though the
request could not be authenticated.
Access only on DNS_REQUEST events; otherwise, an error will occur.
- isDGADomain: Boolean
- The value is true if the domain of the server might have been generated by a domain generation algorithm (DGA). Some forms of malware produce large numbers of domain names with DGAs to hide command and control servers. The value is null if the domain was not suspicious.
- isRecursionAvailable: Boolean
- The value is true if the name server supports recursive
queries.
Access only on DNS_RESPONSE events; otherwise, an error will occur.
- isRecursionDesired: Boolean
- The value is true if the name server should perform the query
recursively.
Access only on DNS_REQUEST events; otherwise, an error will occur.
- isReqTimeout: Boolean
- The value is true if the request timed out.
Access only on DNS_REQUEST events; otherwise, an error will occur.
- isRspTruncated: Boolean
- The value is true if the response is truncated.
Access only on DNS_RESPONSE events; otherwise, an error will occur.
- opcode: String
- The name of the DNS operation code in accordance with IANA DNS parameters. The
following codes are recognized by the ExtraHop system:
OpCode Name 0 Query 1 IQuery (Inverse Query - Obsolete) 2 Status 3 Unassigned 4 Notify 5 Update 6-15 Unassigned Returns OTHER for codes that are unrecognized by the system; however, the opcodeNum property specifies the numeric code value.
- opcodeNum: Number
- The numeric representation of the DNS operation code in accordance with IANA DNS parameters.
- payload: Buffer
- The Buffer object containing the raw payload bytes of the event transaction.
- processingTime: Number
- The server processing time, expressed in bytes. The value is NaN on malformed and aborted responses or if the timing
is invalid.
Access only on DNS_RESPONSE events; otherwise, an error will occur.
- qname: String | null
- The hostname queried.
This value is null if the opcode property is UPDATE.
- qtype: String | null
- The name of the DNS request record type in accordance with IANA DNS parameters.
Returns OTHER for types that are unrecognized by the system; however, the qtypeNum property specifies the numeric type value.
This value is null if the opcode property is UPDATE.
- qtypeNum: Number | null
- The numeric representation of the DNS request record type in accordance with IANA DNS
parameters.
This value is null if the opcode property is UPDATE.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
DNS.commitRecord() on either a DNS_REQUEST or
DNS_RESPONSE event.
The event on which the method was called determines which properties the default record object can contain as displayed in the following table:
DNS_REQUEST DNS_RESPONSE clientZeroWnd answers isCheckingDisabled clientZeroWnd isDGADomain error isRecursionDesired isAuthoritative isReqTimeout isCheckingDisabled opcode isDGADomain qname isRecursionAvailable qtype isRspTruncated reqBytes opcode reqL2Bytes processingTime reqPkts qname serverZeroWnd qtype rspBytes rspL2Bytes rspPkts serverZeroWnd - reqBytes: Number
- The number of L4 request bytes, excluding L4
headers.
Access only on DNS_REQUEST events; otherwise, an error will occur.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2
headers.
Access only on DNS_REQUEST events; otherwise, an error will occur.
- reqPkts: Number
- The number of request packets.
Access only on DNS_REQUEST events; otherwise, an error will occur.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol
overhead, such as ACKs, headers, and retransmissions.
Access only on DNS_RESPONSE events; otherwise, an error will occur.
- reqZeroWnd: Number
- The number of zero windows in the request.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead,
such as headers.
Access only on DNS_RESPONSE events; otherwise, an error will occur.
- rspPkts: Number
- The number of application-level response bytes.
Access only on DNS_RESPONSE events; otherwise, an error will occur.
- rspZeroWnd: Number
- The number of zero windows in the response.
- txId: Number
- The transaction ID of the DNS request or response.
- zname: String | null
- The DNS zone being updated.
This value is null if the opcode property is not UPDATE.
- ztype: String | null
- The type of DNS zone being updated. Returns OTHER for types that are
unrecognized by the system.
This value is null if the opcode property is not UPDATE.
- ztypeNum: Number | null
- The numeric representation of the DNS zone type.
This value is null if the opcode property is not UPDATE.
FIX
The FIX class enables you to store metrics and access properties on FIX_REQUEST and FIX_RESPONSE events.
Events
- FIX_REQUEST
- Runs on every FIX request processed by the device.
- FIX_RESPONSE
- Runs on every FIX response processed by the device.
Note: | The FIX_RESPONSE event is matched with a request based on order ID. There is no one-to-one correlation between request and response. There might be requests without a response, and sometimes data is pushed to the client, which limits request data availability on response event. However, you can invoke the session table to solve complex scenarios such as submission order id. |
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on either a
FIX_REQUEST or FIX_RESPONSE event.
The event determines which properties are committed to the record object. To view the default properties committed for each event see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- fields: Array
- A list of FIX fields. Because they are text-based, the key-value protocol fields are
exposed as an array of objects with name and value properties containing strings. For
example:
8=FIX.4.2<SOH>9=233<SOH>35=G<SOH>34=206657...
translates to:
{"BeginString": "FIX.4.2", "BodyLength": "233", "MsgType": "G", "MsgSeqNum": "206657"}
Key string representation is translated, if possible. With extensions, a numeric representation is used. For example, it is not possible to determine 9178=0 (as seen in actual captures). The key is instead translated to "9178". Fields are extracted after message length and version fields are extracted all the way to the checksum (last field). The checksum is not extracted.
In the following example, the trigger debug(JSON.stringify(FIX.fields)); shows the following fields:
[ {"name":"MsgType","value":"0"}, {"name":"MsgSeqNum","value":"2"}, {"name":"SenderCompID","value":"AA"}, {"name":"SendingTime","value":"20140904-03:49:58.600"}, {"name":"TargetCompID","value":"GG"} ]
To debug and print all FIX fields, enable debugging on the trigger and enter the following code:
var fields = ''; for (var i = 0; i < FIX.fields.length; i++) { fields += '"' + FIX.fields[i].name + '" : "' + FIX.fields[i].value + '"\n'; } debug(fields);
The following output is display in the trigger's Debug Log:
"MsgType" : "5" "MsgSeqNum" : "3" "SenderCompID" : "GRAPE" "SendingTime" : "20140905-00:10:23.814" "TargetCompID" : "APPLE"
- msgType: String
- The value of the MessageCompID key.
- processingTime: Number
- The server processing time, expressed in milliseconds. The value is
NaN if the timing is invalid.
Access only on FIX_RESPONSE events; otherwise, an error will occur.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
FIX.commitRecord on either a FIX_REQUEST or
FIX_RESPONSE event.
The event on which the method was called determines which properties the default record object can contain as displayed in the following table:
FIX_REQUEST FIX_RESPONSE clientZeroWnd clientZeroWnd msgType msgType reqBytes rspBytes reqL2Bytes rspL2Bytes reqPkts rspPkts reqRTO rspRTO sender sender serverZeroWnd serverZeroWnd target target version version - reqBytes: Number
- The number of L4 request bytes, excluding L4 headers.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2 headers.
- reqPkts: Number
- The number of request packets.
- reqRTO: Number
- The number of request retransmission timeouts (RTOs).
- reqZeroWnd: Number
- The number of zero windows in the request.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol overhead, such as ACKs, headers, and retransmissions.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead, such as headers.
- rspPkts: Number
- The number of response packets.
- rspRTO: Number
- The number of response retransmission timeouts (RTOs).
- rspZeroWnd: Number
- The number of zero windows in the response.
- sender: String
- The value of the SenderCompID key.
- target: String
- The value of the TargetCompID key.
- version: String
- The protocol version.
FTP
The FTP class enables you to store metrics and access properties on FTP_REQUEST and FTP_RESPONSE events.
Events
- FTP_REQUEST
- Runs on every FTP request processed by the device.
- FTP_RESPONSE
- Runs on every FTP response processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on an
FTP_RESPONSE event. Record commits on FTP_REQUEST
events are not supported.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- args: String
- The arguments to the command.
Access only on FTP_RESPONSE events; otherwise, an error will occur.
- cwd: String
- In the case of a user at /, when the client sends "CWD subdir":
- The value is / when method == "CWD".
- The value is /subdir for subsequent commands (rather than CWD becoming the changed to directory as part of the CWD response trigger).
Includes "..." at the beginning of the path in the event of a resync or the path is truncated.
Includes "..." at the end of the path if the path is too long. Path truncates at 4096 characters.
Access only on FTP_RESPONSE events; otherwise, an error will occur.
- error: string
- The detailed error message recorded by the ExtraHop system.
Access only on FTP_RESPONSE events; otherwise, an error will occur.
- isReqAborted: Boolean
- The value is true the connection is closed before the FTP request was complete.
- isRspAborted: Boolean
- The value is true if the connection is closed before the FTP response
was complete.
Access only on FTP_RESPONSE events; otherwise, an error will occur.
- method: String
- The FTP method.
- path: String
- The path for FTP commands. Includes "..." at the beginning of the path in the event of
a resync or the path is truncated. Includes "..." at the end of the path if the path is
too long. Path truncates at 4096 characters.
Access only on FTP_RESPONSE events; otherwise, an error will occur.
- processingTime: Number
- The server processing time, expressed in milliseconds (equivalent to
rspTimeToFirstPayload - reqTimeToLastByte). The
value is NaN on malformed and aborted
responses or if the timing is invalid.
Access only on FTP_RESPONSE events; otherwise, an error will occur.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
FTP.commitRecord() on an FTP_RESPONSE event.
The default record object can contain the following properties:
- args
- clientZeroWnd
- cwd
- error
- isReqAborted
- isRspAborted
- method
- path
- processingTime
- reqBytes
- reqL2Bytes
- reqPkts
- reqRTO
- roundTripTime
- rspBytes
- rspL2Bytes
- rspPkts
- rspRTO
- serverZeroWnd
- statusCode
- transferBytes
- user
Access the record object only on FTP_RESPONSE events; otherwise, an error will occur.
- reqBytes: Number
- The number of L4 request bytes, excluding L4
headers.
Access only on FTP_RESPONSE events; otherwise, an error will occur.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2
headers.
Access only on FTP_RESPONSE events; otherwise, an error will occur.
- reqPkts: Number
- The number of request packets.
Access only on FTP_RESPONSE events; otherwise, an error will occur.
- reqRTO: Number
- The number of request retransmission
timeouts (RTOs).
Access only on FTP_RESPONSE events; otherwise, an error will occur.
- reqZeroWnd: Number
- The number of zero windows in the request.
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is
NaN if there are no RTT samples.
Access only on FTP_RESPONSE events; otherwise, an error will occur.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol
overhead, such as ACKs, headers, and retransmissions.
Access only on FTP_RESPONSE events; otherwise, an error will occur.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead,
such as headers.
Access only on FTP_RESPONSE events; otherwise, an error will occur.
- rspPkts: Number
- The number of response packets.
Access only on FTP_RESPONSE events; otherwise, an error will occur.
- rspRTO: Number
- The number of response retransmission
timeouts (RTOs).
Access only on FTP_RESPONSE events; otherwise, an error will occur.
- rspZeroWnd: Number
- The number of zero windows in the response.
- statusCode: Number
- The FTP status code of the response.
Access only on FTP_RESPONSE events; otherwise, an error will occur.
The following codes are valid:
Code Description 110 Restart marker replay. 120 Service ready in nnn minutes. 125 Data connection already open; transfer starting. 150 File status okay; about to open data connection. 202 Command not implemented, superfluous at this site. 211 System status, or system help reply. 212 Directory status. 213 File status. 214 Help message. 215 NAME system type. 220 Service ready for new user. 221 Service closing control connection. 225 Data connection open; no transfer in progress. 226 Closing data connection. Requested file action successful. 227 Entering Passive Mode. 228 Entering Long Passive Mode. 229 Entering Extended Passive Mode. 230 User logged in, proceed. Logged out if appropriate. 231 User logged out; service terminated. 232 Logout command noted, will complete when transfer done 250 Requested file action okay, completed. 257 "PATHNAME" created. 331 User name okay, need password. 332 Need account for login. 350 Requested file action pending further information. 421 Service not available, closing control connection. 425 Can't open data connection. 426 Connection closed; transfer aborted. 430 Invalid username or password. 434 Requested host unavailable. 450 Requested file action not taken. 451 Requested action aborted. Local error in processing. 452 Requested action not taken. 501 Syntax error in parameters or arguments. 502 Command not implemented. 503 Bad sequence of commands. 504 Command not implemented for that parameter. 530 Not logged in. 532 Need account for storing files. 550 Requested action not taken. File unavailable. 551 Requested action aborted. Page type unknown. 552 Requested file action aborted. Exceeded storage allocation. 553 Requested action not taken. File name not allowed. 631 Integrity protected reply. 632 Confidentiality and integrity protected reply. 633 Confidentiality protected reply. 10054 Connection reset by peer. 10060 Cannot connect to remote server. 10061 Cannot connect to remote server. The connection is active refused. 10066 Directory not empty. 10068 Too many users, server is full. - transferBytes: Number
- The number of bytes transferred over the data channel during an
FTP_RESPONSE event.
Access only on FTP_RESPONSE events; otherwise, an error will occur.
- user: String
- The user name, if available. In some cases, such as when login events are encrypted, the user name is not available.
HL7
The HL7 class enables you to store metrics and access properties on HL7_REQUEST and HL7_RESPONSE events.
Events
- HL7_REQUEST
- Runs on every HL7 request processed by the device.
- HL7_RESPONSE
- Runs on every HL7 response processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on an
HL7_RESPONSE event. Record commits on HL7_REQUEST
events are not supported.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- ackCode: String
- The two character acknowledgment code.
Access only on HL7_RESPONSE events; otherwise, an error will occur.
- ackId: String
- The identifier for the message being acknowledged.
Access only on HL7_RESPONSE events; otherwise, an error will occur.
- msgId: String
- The unique identifier for this message.
- msgType: String
- The entire message type field, including the msgId subfield.
- processingTime: Number
- The server processing time, expressed in milliseconds. The value is NaN on malformed and aborted responses or if the timing
is invalid.
Access only on HL7_RESPONSE events; otherwise, an error will occur.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
HL7.commitRecord() on an HL7_RESPONSE event.
The default record object can contain the following properties:
- ackCode
- ackId
- clientZeroWnd
- msgId
- msgType
- roundTripTime
- processingTime
- serverZeroWnd
- version
Access the record object only on HL7_RESPONSE events; otherwise, an error will occur.
- reqZeroWnd: Number
- The number of zero windows in the request.
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is
NaN if there are no RTT samples.
Access only on HL7_RESPONSE events; otherwise, an error will occur.
- rspZeroWnd: Number
- The number of zero windows in the response.
- segments: Array
- An array of segment objects with the following fields:
- name: String
- The name of the segment.
- fields: Array of Strings
- The segment field values. Because the indices of the array start at 0, and HL7
field numbers start at 1, the index is the HL7 field number minus 1. For example,
to select field 16 of a PRT segment (the participation device ID), specify 15, as
shown in the following example
code:
HL7.segments[5].fields[15]
Note: If a segment is blank, the array contains an empty string at the segment index.
- subfieldDelimiter: String
- Supports non-standard field delimiters.
- version: String
- The version advertised in the MSH segment.
Note: | The amount of buffered data is limited by the following capture option: ("message_length_max": number) |
HTTP
The HTTP class enables you to store metrics and access properties on HTTP_REQUEST and HTTP_RESPONSE events.
Events
- HTTP_REQUEST
- Runs on every HTTP request processed by the device.
- HTTP_RESPONSE
- Runs on every HTTP response processed by the device.
Additional payload options are available when you create a trigger that runs on either of these events. See Advanced trigger options for more information.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on an HTTP_REQUEST or
HTTP_RESPONSE event. To view the default properties committed to the
record object, see the record property below.
If the commitRecord() method is called on an HTTP_REQUEST event, the record is not created until the HTTP_RESPONSE event runs. If the commitRecord() method is called on both the HTTP_REQUEST and the corresponding HTTP_RESPONSE, only one record is created for request and response, even if the commitRecord() method is called multiple times on the same trigger events.
- findHeaders(name: String): Array
- Enables access to HTTP header values and returns an array of header objects (with name and value properties) where the names match the prefix of the string value. See Example: Access HTTP header attributes for more information.
- parseQuery(String): Object
- Accepts a query string and returns an object with names and values corresponding to
those in the query string as shown in the following
example:
var query = HTTP.parseQuery(HTTP.query); debug("user id: " + query.userid);
Note: If the query string contains repeated keys, the corresponding values are returned in an array. For example, the query string event_type=status_update_event&event_type=api_post_event returns the following object: { "event_type": ["status_update_event", "api_post_event"] }
Properties
- age: Number
- For HTTP_REQUEST events, the time from the first byte of the request until the last seen byte of the request. For HTTP_RESPONSE events, the time from the first byte of the request until the last seen byte of the response. The time is expressed in milliseconds. Specifies a valid value on malformed and aborted requests. The value is NaN on expired requests and responses, or if the timing is invalid.
- contentType: String
- The value of the content-type HTTP header.
- cookies: Array
- An array of objects that represents cookies and contains properties such as "domain"
and "expires." The properties correspond to the attributes of each cookie as shown in
the following
example:
var cookies = HTTP.cookies, cookie, i; for (i = 0; i < cookies.length; i++) { cookie = cookies[i]; if (cookie.domain) { debug("domain: " + cookie.domain); } }
- encryptionProtocol: String
- The protocol that the transaction is encrypted with.
- headers: Object
- An array-like object that enables access to HTTP header names and values. Header
information is available through one of the following properties:
- length: Number
- The number of headers.
- string property:
- The name of the header, accessible in a dictionary-like fashion, as shown in the
following
example:
var headers = HTTP.headers; session = headers["X-Session-Id"]; accept = headers.accept;
- numeric property:
- Corresponds to the order in which the headers appear on the wire. The returned
object has a name and a value property. Numeric properties are useful for
iterating over all the headers and disambiguating headers with duplicate names as
shown in the following
example:
var headers = HTTP.headers; for (i = 0; i < headers.length; i++) { hdr = headers[i]; debug("headers[" + i + "].name: " + hdr.name); debug("headers[" + i + "].value: " + hdr.value); }
Note: Saving HTTP.headers to the Flow store does not save all of the individual header values. It is a best practice to save the individual header values to the Flow store. Refer to the Flow class section for details.
- headersRaw: String
- The unmodified block of HTTP headers, expressed as a string.
- host: String
- The value in the HTTP host header.
- isDesync: Boolean
- The value is true if the protocol parser became desynchronized due to missing packets.
- isEncrypted: Boolean
- The value is true if the transaction is over secure HTTP.
- isDecrypted: Boolean
- The value is true if the ExtraHop system securely decrypted and analyzed the transaction. Decrypted traffic analysis can expose advanced threats that hide within encrypted traffic.
- isPipelined: Boolean
- The value is true if the transaction is pipelined.
- isReqAborted: Boolean
- The value is true if the connection is closed before the HTTP request was complete.
- isRspAborted: Boolean
- The value is true if the connection is closed before the HTTP
response was complete.
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
- isRspChunked: Boolean
- The value is true if the response is chunked.
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
- isRspCompressed: Boolean
- The value is true if the response is compressed.
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
- isServerPush: Boolean
- The value is true if the transaction is the result of a server push.
- isSQLi: Boolean
- The value is true if the request included one or more suspicious SQL fragments. These fragments indicate a potential SQL injection (SQLi). SQLi is a technique where an attacker can access and tamper with data by inserting malicious SQL statements into a SQL query.
- isXSS: Boolean
- The value is true if the HTTP request included potential cross-site scripting (XSS) attempts. A successful XSS attempt can inject a malicious client-side script or payload into a trusted website or application. When a victim visits the website, the malicious script is then injected into the victim's browser.
- method: String
- The HTTP method of the transaction such as POST and GET.
- origin: IPAddress | String
- The value in the X-Forwarded-For or the true-client-ip header.
- path: String
- The path portion of the URI: /path/.
- payload: Buffer | null
- The Buffer object containing the raw payload bytes
of the event transaction. If the payload was compressed, the decompressed content is
returned.
The buffer contains the N first bytes of the payload, where N is the number of payload bytes specified by the Bytes to Buffer field when the trigger was configured through the ExtraHop WebUI. The default number of bytes is 2048. For more information, see Advanced trigger options.
The following script is an example of HTTP payload analysis:
// Extract the user name based on a pattern "user=*&" from payload // of a login URI that has "auth/login" as a URI substring. if (HTTP.payload && /auth\/login/i.test(HTTP.uri)) { var user = /user=(.*?)\&/i.exec(HTTP.payload); if (user !== null) { debug("user: " + user[1]); } }
Note: If two HTTP payload buffering triggers are assigned to the same device, the higher value is selected and the value of HTTP.payload is the same for both triggers. - processingTime: Number
- The server processing time, expressed in milliseconds (equivalent to
rspTimeToFirstPayload - reqTimeToLastByte). The
value is NaN on malformed and aborted
responses or if the timing is invalid.
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
- query: String
- The query string portion of the URI: query=string. This typically follows the URL and is separated from it by a question mark. Multiple query strings are separated by an ampersand (&) or semicolon (;) delimiter.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
HTTP.commitRecord().
The default record object can contain the following properties:
- clientZeroWnd
- contentType
- host
- isPipelined
- isReqAborted
- isRspAborted
- isRspChunked
- isRspCompressed
- method
- origin
- query
- referer
- reqBytes
- reqL2Bytes
- reqPkts
- reqRTO
- reqSize
- reqTimeToLastByte
- roundTripTime
- rspBytes
- rspL2Bytes
- rspPkts
- rspRTO
- rspSize
- rspTimeToFirstHeader
- rspTimeToFirstPayload
- rspTimeToLastByte
- rspVersion
- serverZeroWnd
- statusCode
- thinkTime
- title
- processingTime
- uri
- userAgent
Access the record object only on HTTP_RESPONSE events; otherwise, an error will occur.
- referer: String
- The value in the HTTP referrer header.
- reqBytes: Number
- The number of L4 request bytes, excluding L4
headers.
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2
headers.
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
- reqPkts: Number
- The number of request packets.
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
- reqRTO: Number
- The number of request retransmission
timeouts (RTOs).
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
- reqSize: Number
- The number of L7 request bytes, excluding HTTP headers.
- reqTimeToLastByte: Number
- The time from the first byte of the request until the last byte of the request, expressed in milliseconds. The value is NaN on expired requests and responses, or if the timing is invalid.
- reqZeroWnd: Number
- The number of zero windows in the request.
- roundTripTime: Number
- The median TCP round trip time (RTT), expressed in milliseconds. The value is
NaN if there are no RTT samples.
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol
overhead, such as ACKs, headers, and retransmissions.
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead,
such as headers.
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
- rspPkts: Number
- The number of response packets.
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
- rspRTO: Number
- The number of response retransmission
timeouts (RTOs).
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
- rspSize: Number
- The number of L7 response bytes, excluding HTTP headers.
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
- rspTimeToFirstHeader: Number
- The time from the first byte of the request until the status line that precedes the
response headers, expressed in milliseconds. The value is NaN on malformed and aborted responses, or if the timing is
invalid.
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
- rspTimeToFirstPayload: Number
- The time from the first byte of the request until the first payload byte of the
response, expressed in milliseconds. Returns zero value when the response does not
contain payload. The value is NaN on
malformed and aborted responses, or if the timing is invalid.
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
- rspTimeToLastByte: Number
- The time from the first byte of the request until the last byte of the response,
expressed in milliseconds. The value is NaN
on malformed and aborted responses, or if the timing is invalid.
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
- rspVersion: String
- The HTTP version of the response.
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
- rspZeroWnd: Number
- The number of zero windows in the response.
- sqli: Array of Strings
- An array of suspicious SQL fragments included in the request. These fragments might contain a potential SQL injection (SQLi). SQLi is a technique where an attacker can access and tamper with data by inserting malicious SQL statements into a SQL query.
- statusCode: Number
- The HTTP status code of the response.
Access only on HTTP_RESPONSE events; otherwise, an error will occur.
Note: Returns a status code of 0 if no valid HTTP_RESPONSE is received. - streamId: Number
- The ID of the stream that transferred the resource. Because responses might be returned out of order, this property is required for HTTP/2 transactions to match requests with responses. The value is 1 for the HTTP/1.1 upgrade request and null for previous HTTP versions.
- title: String
- The value in the title element of the HTML content, if present. If the title was compressed, the decompressed content is returned.
- thinkTime: Number
- The time elapsed between the server having transferred the response to the client and the client transferring a new request to the server, expressed in milliseconds. The value is NaN if there is no valid measurement.
- uri: String
- The URI without a query string: f.q.d.n/path/.
- userAgent: String
- The value in the HTTP user-agent header.
- xss: Array of Strings
- An array of suspicious HTTP request fragments included in the request. These fragments might inject a malicious client-side script or payload into a trusted website or application. When a victim visits the website, the malicious script is then injected into the victim's browser.
IBMMQ
The IBMMQ class enables you to store metrics and access properties on IBMMQ_REQUEST and IBMMQ_RESPONSE events.
Note: | The IBMMQ protocol supports EBCDIC encoding. |
Events
- IBMMQ_REQUEST
- Runs on every IBMMQ request processed by the device.
- IBMMQ_RESPONSE
- Runs on every IBMMQ response processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on either an
IBMMQ_REQUEST or IBMMQ_RESPONSE event.
The event determines which properties are committed to the record object. To view the default properties committed for each event, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- channel: String
- The communication channel name.
- conversationId: Number
- The identifier for the MQ conversation.
- correlationId: String
- The IBMMQ correlation ID.
- error: String
- The error string that corresponds to the error code on the wire.
- method: String
- The wire protocol request or response method name.
The following ExtraHop method names differ from the Wireshark method names:
ExtraHop Wireshark ASYNC_MSG_V7 ASYNC_MESSAGE MQCLOSEv7 SOCKET_ACTION MQGETv7 REQUEST_MSGS MQGETv7_REPLY NOTIFICATION - msg: Buffer
- A Buffer object containing MQPUT, MQPUT1,
MQGET_REPLY, ASYNC_MSG_V7, and MESSAGE_DATA messages.
Queue messages that are greater than 32K might be broken into more than one segment. A trigger is run for each segment and only the first segment has a non-null message.
Buffer data can be converted to a printable string through the toString() function or formatted through unpack commands.
- msgFormat: String
- The message format.
- msgId: String
- The IBMMQ message ID.
- pcfError: String
- The error string that corresponds to the error code on the wire for the programmable command formats (PCF) channel.
- pcfMethod: String
- The wire protocol request or response method name for the programmable command formats (PCF) channel.
- pcfWarning: String
- The warning string that corresponds to the warning string on the wire for the programmable command formats (PCF) channel.
- putAppName: String
- The application name associated with the MQPUT message.
- queue: String
- The local queue name. The value is null if there is no MQOPEN, MQOPEN_REPLY, MQSP1(Open), or MQSP1_REPLY message.
- queueMgr: String
- The local queue manager. The value is null if there is no INITIAL_DATA message at the start of the connection.
- record: Object
- The record object that can be sent to the configured recordstore through a call
to IBMMQ.commitRecord() on either an IBMMQ_REQUEST or
IBMMQ_RESPONSE event.
The event on which the method was called determines which properties the default record object can contain as displayed in the following table:
IBMMQ_REQUEST IBMMQ_RESPONSE channel channel clientZeroWnd clientZeroWnd correlationId correlationId msgId error method msgId msgFormat method msgSize msgFormat queue msgSize queueMgr queue reqBytes queueMgr reqL2Bytes resolvedQueue reqPkts resolvedQueueMgr reqRTO roundTripTime resolvedQueue rspBytes resolvedQueueMgr rspL2Bytes serverZeroWnd rspPkts rspRTO serverZeroWnd warning - reqBytes: Number
- The number of application-level request bytes.
- reqL2Bytes: Number
- The number of L2 request bytes.
- reqPkts: Number
- The number of request packets.
- reqRTO: Number
- The number of request retransmission timeouts (RTOs).
- reqZeroWnd: Number
- The number of zero windows in the request.
- resolvedQueue: String
- The resolved queue name from MQGET_REPLY, MQPUT_REPLY, or MQPUT1_REPLY messages. If the queue is remote, the value is different than the value returned by IBMMQ.queue.
- resolvedQueueMgr: String
- The resolved queue manager from MQGET_REPLY, MQPUT_REPLY, or MQPUT1_REPLY. If the queue is remote, the value is different than the value returned by IBMMQ.queueMgr.
- rfh: Array of Strings
- An array of strings located in the optional rules and formatting header (RFH). If there is no RFH header or the header is empty, the array is empty.
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is NaN if there are no RTT samples.
- rspBytes: Number
- The number of application-level response bytes.
- rspL2Bytes: Number
- The number of L2 response bytes.
- rspPkts: Number
- The number of request packets.
- rspRTO: Number
- The number of response retransmission timeouts (RTOs).
- rspZeroWnd: Number
- The number of zero windows in the response.
- totalMsgLength: Number
- The total length of the message, expressed in bytes.
- warning: String
- The warning string that corresponds to the warning string on the wire.
ICA
The ICA class enables you to store metrics and access properties on ICA_OPEN, ICA_AUTH, ICA_TICK, and ICA_CLOSE events.
Events
- ICA_AUTH
- Runs when the ICA authentication is complete.
- ICA_CLOSE
- Runs when the ICA session is closed.
- ICA_OPEN
- Runs immediately after the ICA application is initially loaded.
- ICA_TICK
- Runs periodically while the user interacts with the ICA application.
After the ICA_OPEN event has run at least once, the ICA_TICK event is run any time latency is reported and returned by the clientLatency or networkLatency properties described below.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on either an
ICA_OPEN, ICA_TICK, or ICA_CLOSE
event. Record commits on ICA_AUTH events are not supported.
The event determines which properties are committed to the record object. To view the default properties committed for each event, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- application: String
- The name of the application being launched.
- authDomain: String
- The Windows authentication domain to which the user belongs.
- channels: Array
- An array of objects containing information about virtual channels observed since the
last ICA_TICK event.
Access only on ICA_TICKevents; otherwise, an error will occur.
Each object contains the following properties:
- name: String
- The name of the virtual channel.
- description: String
- The friendly description of the channel name.
- clientBytes: Number
- The number of bytes sent by the client for that channel.
- serverBytes: Number
- The number of bytes sent by the server for the channel.
- clientMachine: String
- The name of the client machine. The name is displayed by the ICA client and is typically the hostname of the client machine.
- clientBytes: Number
- Upon an ICA_CLOSE event, the incremental number of application-level
client bytes observed since the last ICA_TICK event. Does not specify
the total number of bytes for the session.
Access only on ICA_CLOSE or ICA_TICK events; otherwise, an error will occur.
- clientCGPMsgCount: Number
- The number of client CGP messages since the last ICA_TICK
event.
Access only on ICA_TICK events; otherwise, an error will occur.
- clientLatency: Number
- The latency of the client, expressed in milliseconds, as
reported by the End User Experience Management (EUEM) beacon.
Client latency is reported when a packet from the client on the EUEM channel reports the result of a single ICA round trip measurement.
Access only on ICA_TICK events; otherwise, an error will occur.
- clientL2Bytes: Number
- Upon an ICA_CLOSE event, the incremental number of L2 client bytes observed since the last ICA_TICK event. Does
not specify the total number of bytes for the session.
Access only on ICA_CLOSE or ICA_TICK events; otherwise, an error will occur.
- clientMsgCount: Number
- The number of client messages since the last ICA_TICK event.
Access only on ICA_TICK events; otherwise, an error will occur.
- clientPkts: Number
- Upon an ICA_CLOSE event, the incremental number of client packets
observed since the last ICA_TICK event. Does not specify the total
number of packets for the session.
Access only on ICA_CLOSE or ICA_TICK events; otherwise, an error will occur.
- clientRTO: Number
- Upon an ICA_CLOSE event, the incremental number of client retransmission timeouts (RTOs) observed since
the last ICA_TICK event. Does not specify the total number of RTOs for
the session.
Access only on ICA_CLOSE or ICA_TICK events; otherwise, an error will occur.
- clientZeroWnd: Number
- The number of zero windows sent by the client.
Access only on ICA_CLOSE or ICA_TICK events; otherwise, an error will occur.
- clientType: String
- The type of ICA client, which is the user-agent equivalent to ICA.
- clipboardData: Buffer
- A Buffer object containing raw data from the
clipboard transfer.
The value is null if the ICA_TICK event did not result from a clipboard data transfer, or if the channel specified by the tickChannel property is not a clipboard channel.
The maximum number of bytes in the buffer is specified by the Clipboard Bytes to Buffer field when the trigger was configured through the ExtraHop system. The default maximum object size is 1024 bytes. For more information, see the Advanced trigger options.
To determine the direction of the clipboard data transfer, access this property through Flow.sender, Flow.receiver, Flow.client, or Flow.server.
Access only on ICA_TICK events; otherwise, an error will occur.
- clipboardDataType: String
- The type of data on the clipboard transfer. The following clipboard types are
supported:
- TEXT
- BITMAP
- METAFILEPICT
- SYMLINK
- DIF
- TIFF
- OEMTEXT
- DIB
- PALLETTE
- PENDATA
- RIFF
- WAVE
- UNICODETEXT
- EHNMETAFILE
- OWNERDISPLAY
- DSPTEXT
- DSPBITMAP
- DSPMETAFILEPICT
- DSPENHMETAFILE
The value is null if the ICA_TICK event did not result from a clipboard data transfer, or if the channel specified by the tickChannel property is not a clipboard channel.
Access only on ICA_TICK events; otherwise, an error will occur.
- frameCutDuration: Number
- The frame cut duration, as reported by the EUEM beacon.
Access only on ICA_TICK events; otherwise, an error will occur.
- frameSendDuration: Number
- The frame send duration, as reported by the EUEM beacon.
Access only on ICA_TICK events; otherwise, an error will occur.
- host: String
- The host name of the Citrix server.
- isAborted: Boolean
- The value is true if the application fails to launch
successfully.
Access only on ICA_CLOSE events; otherwise, an error will occur.
- isCleanShutdown: Boolean
- The value is true if the application shuts down cleanly.
Access only on ICA_CLOSE events; otherwise, an error will occur.
- isClientDiskRead: Boolean
- The value is true if a file was read from the client disk to the
Citrix server. The value is null if the command is not a file
operation, or if the channel specified by the tickChannel property is
not a file channel.
Access only on ICA_TICK events; otherwise, an error will occur.
- isClientDiskWrite: Boolean
- The value is true if a file was written from the Citrix server to the
client disk. The value is null if the command is not a file operation,
or if the channel specified by the tickChannel property is not a file
channel.
Access only on ICA_TICK events; otherwise, an error will occur.
- isEncrypted: Boolean
- The value is true if the application is encrypted with RC5 encryption.
- isSharedSession: Boolean
- The value is true if the application is launched over an existing connection.
- launchParams: String
- The string that represents the parameters.
- loadTime: Number
- The load time of the given application, expressed in milliseconds.
Note: The load time is recorded only for the initial application load. The ExtraHop system does not measure load time for applications launched over existing sessions and instead reports the initial load time on subsequent application loads. Choose ICA.isSharedSession to distinguish between initial and subsequent application loads. - loginTime: Number
- The user login time, expressed in milliseconds.
Access only on ICA_OPEN, ICA_CLOSE, or ICA_TICK events; otherwise, an error will occur.
Note: The login time is recorded only for the initial application load. The ExtraHop system does not measure login time for applications launched over existing sessions and instead reports the initial login time on subsequent application loads. Choose ICA.isSharedSession to distinguish between initial and subsequent application loads. - networkLatency: Number
- The current latency advertised by the client, expressed
in milliseconds.
Network latency is reported when a specific ICA packet from the client contains latency information.
Access only on ICA_TICK events; otherwise, an error will occur.
- payload: Buffer
- The Buffer object containing the raw payload bytes
of the file that was read or written on the event.
The buffer contains the N first bytes of the payload, where N is the number of payload bytes specified by the Bytes to Buffer field when the trigger was configured through the ExtraHop WebUI. The default number of bytes is 2048. For more information, see Advanced trigger options.
The value is null if the channel specified by the tickChannel property is not a file channel.
Access only on ICA_TICK events; otherwise, an error will occur.
- printerName: String
- The name of the printer driver.
Access only on ICA_TICK events; otherwise, an error will occur.
- program: String
- The name of the program, or application, that is being launched.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
ICA.commitRecord() on either an ICA_OPEN,
ICA_TICK, or ICA_CLOSE event.
The event on which the method was called determines which properties the default record object can contain as displayed in the following table:
ICA_CLOSE ICA_OPEN ICA_TICK authDomain authDomain authDomain clientBytes clientMachine clientBytes clientL2Bytes clientType clientCGPMsgCount clientMachine clientZeroWnd clientL2Bytes clientPkts host clientLatency clientRTO isEncrypted clientMachine clientType isSharedSession clientMsgCount clientZeroWnd launchParams clientPkts host loadTime clientRTO isAborted loginTime clientType isCleanShutdown program clientZeroWnd isEncypted serverZeroWnd frameCutDuration isSharedSession user frameSendDuration launchParams host loadTime isClientDiskRead loginTime isClientDiskWrite program isEncrypted roundTripTime isSharedSession serverBytes launchParams serverL2Bytes loadTime serverPkts loginTime serverRTO networkLatency serverZeroWnd program user resource roundTripTime serverBytes serverCGPMsgCount serverL2Bytes serverMsgCount serverPkts serverRTO serverZeroWnd tickChannel user Access the record object only on ICA_OPEN, ICA_CLOSE, and ICA_TICK events; otherwise, an error will occur.
- resource: String
- The path of the file that was read or written on the event, if known. The value is
null if the channel specified by the tickChannel
property is not a file channel.
Access only on ICA_TICK events; otherwise, an error will occur.
- resourceOffset: Number
- The offset of the file that was read or written on the event, if known. The value is
null if the channel specified by the tickChannel
property is not a file channel.
Access only on ICA_TICK events; otherwise, an error will occur.
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is
NaN if there are no RTT samples.
Access only on ICA_CLOSE or ICA_TICK events; otherwise, an error will occur.
- serverBytes: Number
- Upon an ICA_CLOSE event, the incremental number of application-level
server bytes observed since the last ICA_TICK event. Does not specify
the total number of bytes for the session.
Access only on ICA_CLOSE or ICA_TICK events; otherwise, an error will occur.
- serverCGPMsgCount: Number
- The number of CGP server messages since the last ICA_TICK
event.
Access only on ICA_TICK events; otherwise, an error will occur.
- serverL2Bytes: Number
- Upon an ICA_CLOSE event, the incremental number of L2 server bytes observed since the last ICA_TICK event. Does
not specify the total number of bytes for the session.
Access only on ICA_CLOSE or ICA_TICK events; otherwise, an error will occur.
- serverMsgCount: Number
- The number of server messages since the last ICA_TICK event.
Access only on ICA_TICK events; otherwise, an error will occur.
- serverPkts: Number
- Upon an ICA_CLOSE event, the incremental number of server packets
observed since the last ICA_TICK event. Does not specify the total
number of packets for the session.
Access only on ICA_CLOSE or ICA_TICK events; otherwise, an error will occur.
- serverRTO: Number
- Upon an ICA_CLOSE event, the incremental number of server retransmission timeouts (RTOs) observed since
the last ICA_TICK event. Does not specify the total number of RTOs for
the session.
Access only on ICA_CLOSE or ICA_TICK events; otherwise, an error will occur.
- serverZeroWnd: Number
- The number of zero windows sent by the server.
Access only on ICA_CLOSE or ICA_TICK events; otherwise, an error will occur.
- tickChannel: String
- The name of the virtual channel that resulted in the current ICA_TICK
event. The following channels are supported:
- CTXCLI: clipboard
- CTXCDM: file
- CTXEUE: end user experience monitoring
Access only on ICA_TICK events; otherwise, an error will occur.
- user: String
- The name of the user, if available.
ICMP
The ICMP class enables you to store metrics and access properties on ICMP_MESSAGE events.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on an
ICMP_MESSAGE event.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- gwAddr: IPAddress
- For a redirect message, returns the address of the gateway to which traffic for the
network specified in the internet destination network field of the original datagram's
data should be sent. Returns null for all other messages.
Message ICMPv4 Type ICMPv6 Type Redirect Message 5 n/a - hopLimit: Number
- The ICMP packet time to live or hop count.
- isError: Boolean
- The value is true for message types in the following table.
Message ICMPv4 Type ICMPv6 Type Destination Unreachable 3 1 Redirect 5 n/a Source Quench 4 n/a Time Exceeded 11 3 Parameter Problem 12 4 Packet Too Big n/a 2 - isQuery: Boolean
- The value is true for message types in the following table.
Message ICMPv4 Type ICMPv6 Type Echo Request 8 128 Information Request 15 n/a Timestamp request 13 n/a Address Mask Request 17 n/a Router Discovery 10 151 Multicast Listener Query n/a 130 Router Solicitation (NDP) n/a 133 Neighbor Solicitation n/a 135 ICMP Node Information Query n/a 139 Inverse Neighbor Discovery Solicitation n/a 141 Home Agent Address Discovery Solicitation n/a 144 Mobile Prefix Solicitation n/a 146 Certification Path Solicitation n/a 148 - isReply: Boolean
- The value is true for message types in the following table.
Message ICMPv4 Type ICMPv6 Type Echo Reply 0 129 Information Reply 16 n/a Timestamp Reply 14 n/a Address Mask Reply 18 n/a Multicast Listener Done n/a 132 Multicast Listener Report n/a 131 Router Advertisement (NDP) n/a 134 Neighbor Advertisement n/a 136 ICMP Node Information Response n/a 140 Inverse Neighbor Discovery Advertisement n/a 142 Home Agent Address Discovery Reply Message n/a 145 Mobile Prefix Advertisement n/a 147 Certification Path Advertisement n/a 149 - msg: Buffer
- A buffer object containing up to message_length_max bytes of the ICMP
message. The message_length_max option is configured in the ICMP
profile in the running config.
The following running config example changes the ICMP message_length_max from its default of 4096 bytes to 1234 bytes:
"capture": { "app_proto": { "ICMP": { "message_length_max": 1234 } } }
Tip: You can convert the buffer object to a string through the String.fromCharCode method. To view the string in the runtime log, run the JSON.stringify method, as shown in the following example code: const icmp_msg = String.fromCharCode.apply(String, ICMP.msg); debug('ICMP message text: ' + JSON.stringify(icmp_msg, null, 4));
You can also search the ICMP message strings with the includes and test methods, as shown in the following example code:
const substring_search = 'search term'; const regex_search = '^search term$'; const icmp_msg = String.fromCharCode.apply(String, ICMP.msg); if (icmp_msg.includes(substring_search){ debug('ICMP message includes substring'); } if (regex_search.test(icmp_msg)){ debug('ICMP message matches regex'); }
- msgCode: Number
- The ICMP message code.
- msgId: Number
- The ICMP message identifier for Echo Request, Echo Reply, Timestamp Request, Timestamp
Reply, Information Request, and Information Reply messages. The value is
null for all other message types.
The following table displays type IDs for the ICMP messages:
Message ICMPv4 Type ICMPv6 Type Echo Request 8 128 Echo Reply 0 129 Timestamp Request 13 n/a Timestamp Reply 14 n/a Information Request 15 n/a Information Reply 16 n/a - msgLength: Number
- The length of the ICMP message, expressed in bytes.
- msgText: String
- The descriptive text for the message (for example, echo request or port unreachable).
- msgType: Number
- The ICMP message type.
The following table displays the ICMPv4 message types available:
Type Message 0 Echo Reply 1 and 2 Unassigned 3 Destination Unreachable 4 Source Quench 5 Redirect Message 6 Alternate Host Address (deprecated) 7 Unassigned 8 Echo Request 9 Router Advertisement 10 Router Solicitation 11 Time Exceeded 12 Parameter Problem: Bad IP header 13 Timestamp 14 Timestamp Reply 15 Information Request (deprecated) 16 Information Reply (deprecated) 17 Address Mask Request (deprecated) 18 Address Mask Reply (deprecated) 19 Reserved 20-29 Reserved 30 Traceroute (deprecated) 31 Datagram Conversion Error (deprecated) 32 Mobile Host Redirect (deprecated) 33 Where Are You (deprecated) 34 Here I Am (deprecated) 35 Mobile Registration Request (deprecated) 36 Mobile Registration Reply (deprecated) 37 Domain Name Request (deprecated) 38 Domain Name Reply (deprecated) 39 Simple Key-Management for Internet Protocol (deprecated) 40 Photuris (deprecated) 41 ICMP experimental 42 Extended Echo Request 43 Extended Echo Reply 44-255 Unassigned The following table displays the ICMPv6 message types available:
Type Message 1 Destination Unreachable 2 Packet Too Big 3 Time Exceeded 4 Parameter Problem 100 Private Experimentation 101 Private Experimentation 127 Reserved for expansion of ICMPv6 error messages 128 Echo Request 129 Echo Reply 130 Multicast Listener Query 131 Multicast Listener Report 132 Multicast Listener Done 133 Router Solicitation 134 Router Advertisement 135 Neighbor Solicitation 136 Neighbor Advertisement 137 Redirect Message 138 Router Renumbering 139 ICMP Node Information Query 140 ICMP Node Information Response 141 Inverse Neighbor Discovery Solicitation Message 142 Inverse Neighbor Discovery Advertisement Message 143 Multicast Listener Discovery (MLDv2) reports 144 Home Agent Address Discovery Request Message 145 Home Agent Address Discovery Reply Message 146 Mobile Prefix Solicitation 147 Mobile Prefix Advertisement 148 Certification Path Solicitation 149 Certification Path Advertisement 150 ICMP messages utilized by experimental mobility protocols such as Seamoby 151 Multicast Router Advertisement 152 Multicast Router Solicitation 153 Multicast Router Termination 155 RPL Control Message 156 ILNPv6 Locator Update Message 157 Duplicate Address Request 158 Duplicate Address Confirmation 159 MPL Control Message 160 Extended Echo Request - No Error 161 Extended Echo Reply 200 Private Experimentation 201 Private Experimentation 255 Reserved for expansion of ICMPv6 informational messages - nextHopMTU: Number
- An ICMPv4 Destination Unreachable or an ICMPv6 Packet Too
Big message, the maximum transmission unit of the next-hop link. The value is
null for all other messages.
Message ICMPv4 Type ICMPv6 Type Destination Unreachable 3 n/a Packet Too Big n/a 2 - original: Object
- An object containing the following elements from the IP datagram that caused the ICMP
message to be sent:
- ipproto: String
- The IP protocol of the datagram, such as TCP, UDP, ICMP, or ICMPv6.
- ipver: String
- The IP version of the datagram, such as IPv4 or IPv6.
- srcAddr: IPAddress
- The IPAddress of the datagram sender.
- srcPort: Number
- The port number of the datagram sender.
- dstAddr: IPAddress
- The IPAddress of the datagram receiver.
- dstPort: Number
- The port number of the datagram receiver.
The value is null if the internet header and 64 bits of the Original Data datagram is not present in the message or if the IP protocol is not TCP or UDP.
Access only on ICMP_MESSAGE events; otherwise, an error will occur.
- pointer: Number
- For a Parameter Problem message, the octet of the original datagram's header where the
error was detected. The value is null for all other messages.
Message ICMPv4 Type ICMPv6 Type Parameter Problem 12 4 - record: Object
- The record object that can be sent to the configured recordstore through a call to
ICMP.commitRecord() on an ICMP_MESSAGE event.
The default record object can contain the following properties:
- gwAddr
- hopLimit
- msgCode
- msgId
- msgLength
- msgText
- msgType
- nextHopMTU
- pointer
- seqNum
- version
- seqNum: Number
- The ICMP sequence number for Echo Request, Echo Reply, Timestamp Request, Timestamp Reply, Information Request, and Information Reply messages. The value is null for all other messages.
- version: Number
- The version of the ICMP message type, which can be ICMPv4 or ICMPv6.
Kerberos
The Kerberos class enables you to store metrics and access properties on KERBEROS_REQUEST and KERBEROS_RESPONSE events.
Events
- KERBEROS_REQUEST
- Runs on every Kerberos AS-REQ and TGS-REQ message type processed by the device.
- KERBEROS_RESPONSE
- Runs on every Kerberos AS-REP and TGS-REP message type processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on either a
KERBEROS_REQUEST or KERBEROS_RESPONSE event.
The event determines which properties are committed to the record object. To view the default properties committed for each event, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- addresses: Array of Objects
- The addresses from which the requested ticket is valid.
Access only on KERBEROS_REQUEST events; otherwise, an error will occur.
- apOptions: Object
- An object containing boolean values for each option flag in AP_REQ messages.
Access only on KERBEROS_REQUEST events; otherwise, an error will occur.
- cNames: Array of Strings
- The name portions of the principal identifier.
- cNameType: String
- The type for the cNames field.
- cRealm: String
- The client realm.
- error: String
- The error returned.
Access only on KERBEROS_RESPONSE events; otherwise, an error will occur.
- from: String
- In AS_REQ and TGS_REQ message types, the time when the requested ticket is to be
postdated to.
Access only on KERBEROS_REQUEST events; otherwise, an error will occur.
- kdcOptions: Object
- An object containing boolean values for each option flag in AS_REQ and TGS_REQ
messages.
Access only on KERBEROS_REQUEST events; otherwise, an error will occur.
- msgType: String
- The message type. Possible values are:
- AP_REP
- AP_REQ
- AS_REP
- AS_REQAUTHENTICATOR
- ENC_AS_REP_PART
- ENC_KRB_CRED_PART
- ENC_KRB_PRIV_PART
- ENC_P_REP_PART
- ENC_TGS_REP_PART
- ENC_TICKET_PART
- KRB_CRED
- KRB_ERROR
- KRB_PRIV
- KRB_SAFE
- TGS_REP
- TGS_REQ
- TICKET
- paData: Array of Objects
- The pre-authentication data.
- processingTime: Number
- The processing time, expressed in milliseconds.
Access only on KERBEROS_RESPONSE events; otherwise, an error will occur.
- realm: String
- The server realm. In an AS_REQ message type, this is the client realm.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
Kerberos.commitRecord() on either a KERBEROS_REQUEST
or KERBEROS_RESPONSE event.
The event on which the method was called determines which properties the default record object can contain as displayed in the following table:
KERBEROS_REQUEST KERBEROS_RESPONSE cNames cNames cNameType cNameType cRealm cRealm clientZeroWnd clientZeroWnd eType error from msgType msgType processingTime realm realm reqBytes roundTripTime reqL2Bytes rspBytes reqPkts rspL2Bytes reqRTO rspPkts sNames rspRTO sNameType sNames serverZeroWnd sNameType till serverZeroWnd - reqETypes: Array of Numbers
- An array of numbers that correspond to preferred encryption methods.
Encryption method Number ntlm-hash -150 aes256-cts-hmac-sha1-96-plain -149 aes128-cts-hmac-sha1-96-plain -148 rc4-plain-exp -141 rc4-plain -140 rc4-plain-old-exp -136 rc4-hmac-old-exp -135 rc4-plain-old -134 rcr-hmac-old -133 des-plain -132 rc4-sha -131 rc4-lm -130 rc4-plain2 -129 rc4-md4 -128 null 0 des-cbc-crc 1 des-cbc-md4 2 des-cbc-md5 3 des3-cbc-md5 5 des3-cbc-sha1 7 dsaWithSHA1-CmsOID 9 md5WithRSAEncryption-CmsOID 10 sha1WithRSAEncryption-CmsOID 11 rc2CBC-EnvOID 12 rsaEncryption-EnvOID 13 rsaES-OAEP-ENV-OID 14 des-ede3-cbc-Env-OID 15 des3-cbc-sha1-kd 16 aes128-cts-hmac-sha1-96 17 aes256-cts-hmac-sha1-96 18 aes128-cts-hmac-sha256-128 19 aes256-cts-hmac-sha384-192 20 rc4-hmac 23 rc4-hmac-exp 24 camellia128-cts-cmac 25 camellia256-cts-cmac 26 subkey-keymaterial 65 - reqETypeNames: Array of Strings
- An array of the preferred encryption methods.
- reqZeroWnd: Number
- The number of zero windows in the request.
- rspZeroWnd: Number
- The number of zero windows in the response.
- serverPrincipalName: String
- The server principal name (SPN).
- sNames: Array of Strings
- The name portions of the server principal identifier.
- sNameType: String
- The type for the sNames field.
- ticket: Object
- A newly generated ticket in an AP_REP message or a ticket to authenticate the client to the server in an AP_REQ message.
- till: String
- The expiration date requested by the client in a ticket request.
Access only on KERBEROS_REQUEST events; otherwise, an error will occur.
LDAP
The LDAP class enables you to store metrics and access properties on LDAP_REQUEST and LDAP_RESPONSE events.
Events
- LDAP_REQUEST
- Runs on every LDAP request processed by the device.
- LDAP_RESPONSE
- Runs on every LDAP response processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on either an
LDAP_REQUEST or LDAP_RESPONSE event.
The event determines which properties are committed to the record object. To view the default properties committed for each event, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- bindDN: String
- The bind DN of the LDAP request.
Access only on LDAP_REQUEST events; otherwise, an error will occur.
- controls: Array of Objects
- An array of objects containing the LDAP controls of the LDAP request. Each object
contains the following properties:
- controlType: String
- The OID of the LDAP control.
- criticality: Boolean
- Indicates whether the control is required. If criticality is set to true, the server should process the control or fail the operation.
- controlValue: Buffer
- The optional control value, which specifies additional information about how the control should be processed.
Access only on LDAP_REQUEST events; otherwise, an error will occur.
- dn: String
- The LDAP distinguished name (DN). If no DN is set, <ROOT> will be returned instead.
- encryptionProtocol: String
- The protocol that the transaction is encrypted with.
- error: String
- The LDAP short error string as defined in the protocol
(for example, noSuchObject).
Access only on LDAP_RESPONSE events; otherwise, an error will occur.
Result Code Result String 1 operationsError 2 protocolError 3 timeLimitExceeded 4 sizeLimitExceeded 7 authMethodNotSupported 8 strongerAuthRequired 11 adminLimitExceeded 12 unavailableCriticalExtension 13 confidentialityRequired 16 noSuchAttribute 17 undefinedAttributeType 18 inappropriateMatching 19 constraintViolation 20 attributeOrValueExists 21 invalidAttributeSyntax 32 NoSuchObject 33 aliasProblem 34 invalidDNSSyntax 36 aliasDeferencingProblem 48 inappropriateAuthentication 49 invalidCredentials 50 insufficientAccessRights 51 busy 52 unavailable 53 unwillingToPerform 54 loopDetect 64 namingViolation 65 objectClassViolation 66 notAllowedOnNonLeaf 67 notAllowedOnRDN 68 entryAlreadyExists 69 objectClassModsProhibited 71 affectsMultipleDSAs 80 other - errorDetail: String
- The LDAP error detail, if available for the error type. For example, "protocolError :
historical protocol version requested, use LDAPv3 instead."
Access only on LDAP_RESPONSE events; otherwise, an error will occur.
- isEncrypted: Boolean
- The value is true if the transaction is encrypted with SSL or TLS.
- isDecrypted: Boolean
- The value is true if the ExtraHop system securely decrypted and analyzed the transaction. Decrypted traffic analysis can expose advanced threats that hide within encrypted traffic.
- isPasswordEmpty: Boolean
- The value is true if the request does not specify a password for authentication.
Access only on LDAP_REQUEST events; otherwise, an error will occur.
- method: String
- The LDAP method.
- msgSize: Number
- The size of the LDAP message, expressed in bytes.
- processingTime: Number
- The server processing time, expressed in milliseconds. The value is NaN on malformed and aborted responses, if the timing
is invalid, or if the timing is not available. Available for the following:
- BindRequest
- SearchRequest
- ModifyRequest
- AddRequest
- DelRequest
- ModifyDNRequest
- CompareRequest
- ExtendedRequest
Applies only to LDAP_RESPONSE events.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
LDAP.commitRecord() on either an LDAP_REQUEST or
LDAP_RESPONSE event.
The event on which the method was called determines which properties the default record object can contain as displayed in the following table:
LDAP_REQUEST LDAP_RESPONSE bindDN clientZeroWnd clientZeroWnd dn dn error method errorDetail msgSize method reqBytes msgSize reqL2Bytes processingTime reqPkts roundTripTime reqRTO rspBytes saslMechanism rspL2Bytes searchFilter rspPkts searchScope rspRTO serverZeroWnd saslMechanism serverZeroWnd - reqBytes: Number
- The number of L4 request bytes, excluding L4 headers.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2 headers.
- reqPkts: Number
- The number of request packets.
- reqRTO: Number
- The number of request retransmission timeouts (RTOs).
- reqZeroWnd: Number
- The number of zero windows in the request.
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is NaN if there are no RTT samples.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol overhead, such as ACKs, headers, and retransmissions.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead, such as headers.
- rspPkts: Number
- The number of response packets.
- rspRTO: Number
- The number of response retransmission timeouts (RTOs).
- rspZeroWnd: Number
- The number of zero windows in the response.
- saslMechanism: String
- The string that defines the SASL mechanism that identifies and authenticates a user to a server.
- searchAttributes: Array
- The attributes to return from objects that match the filter criteria.
Access only on LDAP_REQUEST events; otherwise, an error will occur.
- searchFilter: String
- The mechanism to allow certain entries in the subtree and exclude others.
Access only on LDAP_REQUEST events; otherwise, an error will occur.
- searchResults: Array of Objects
- An array of objects containing the search results returned in an LDAP response. Each
object contains the following properties:
- type: String
- The type of search result.
- values: Array of Buffers
- An array of Buffer objects containing the search result values.
Access only on LDAP_REQUEST events; otherwise, an error will occur.
- searchScope: String
- The depth of a search within the search base.
Access only on LDAP_REQUEST events; otherwise, an error will occur.
LLDP
The LLDP class enables you to access properties on LLDP_FRAME events.
Properties
- chassisId: Buffer
- The chassis ID, obtained from the chassisId data field, or type-length-value (TLV).
- chassisIdSubtype: Number
- The chassis ID subtype, obtained from the chassisID TLV.
- destination: String
- The destination MAC address. The destination MAC address. The most common destinations are 01-80-C2-00-00-00, 01-80-C2-00-00-03 and 01-80-C2-00-00-0E, indicating multicast addresses.
- optTLVs: Array
- An array containing the optional TLVs. Each TLV is an object with the following properties:
- customSubtype: Number
- The subtype of an organizationally specific TLV.
- isCustom: Boolean
- Returns true if the object is an organizationally specific TLV.
- oui: Number
- The organizationally unique identifier for organizationally specific TLVs.
- type: Number
- The type of TLV.
- value: String
- The value of the TLV.
- portId: Buffer
- The port ID, obtained from the portId TLV.
- portIdSubtype: Number
- The port ID subtype, obtained from the portId TLV.
- source: Device
- The device sending the LLDP frame.
- ttl: Number
- The time to live, expressed in seconds. This is the length of time during which the information in this frame is valid, starting with when the information is received.
LLMNR
The LLMNR class enables you to store metrics and access properties on LLMNR_REQUEST and LLMNR_RESPONSE events.
Events
- LLMNR_REQUEST
- Runs on every LLMNR request processed by the device.
- LLMNR_RESPONSE
- Runs on every LLMNR response processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on an LLMNR_REQUEST or
LLMNR_RESPONSE event.
The event determines which properties are committed to the record object. To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- answer: Object
-
An object that corresponds to an answer resource record.
Access only on LLMNR_RESPONSE events; otherwise, an error will occur.
The objects contain the following properties:
- data: String | IPAddress
- The value of data depends on the type. The value is null for
unsupported record types. Supported record types include:
- A
- AAAA
- NS
- PTR
- CNAME
- MX
- SRV
- SOA
- TXT
- name: String
- The record name.
- ttl: Number
- The time-to-live value.
- type: String
- The LLMNR record type.
- error: String
- The name of the LLMNR error code, in accordance with IANA LLMNR parameters.
Returns OTHER for error codes that are unrecognized by the system; however, errorNum specifies the numeric code value.
Access only on LLMNR_RESPONSE events; otherwise, an error will occur.
- errorNum: Number
- The numeric representation of the LLMNR error code in accordance with IANA LLMNR
parameters.
Access only on LLMNR_RESPONSE events; otherwise, an error will occur.
- opcode: String
- The name of the LLMNR operation code in accordance with IANA LLMNR parameters. The
following codes are recognized by the ExtraHop system:
OpCode Name 0 Query 1 IQuery (Inverse Query - Obsolete) 2 Status 3 Unassigned 4 Notify 5 Update 6-15 Unassigned Returns OTHER for codes that are unrecognized by the system; however, the opcodeNum property specifies the numeric code value.
- opcodeNum: Number
- The numeric representation of the LLMNR operation code in accordance with IANA LLMNR parameters.
- qname: String
- The hostname queried.
- qtype: String
- The name of the LLMNR request record type in accordance with IANA LLMNR parameters.
Returns OTHER for types that are unrecognized by the system; however, the qtypeNum property specifies the numeric type value.
- qtypeNum: Number
- The numeric representation of the LLMNR request record type in accordance with IANA LLMNR parameters.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
LLMNR.commitRecord() on either an LLMNR_REQUEST or
LLMNR_RESPONSE event.
The default record object can contain the following properties:
LLMNR_REQUEST LLMNR_RESPONSE opcode answer qname error qtype opcode reqBytes qname reqL2Bytes qtype reqPkts rspBytes rspL2Bytes rspPkts - reqBytes: Number
- The number of L4 request bytes, excluding L4
headers.
Access only on LLMNR_REQUEST events; otherwise, an error will occur.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2
headers.
Access only on LLMNR_REQUEST events; otherwise, an error will occur.
- reqPkts: Number
- The number of request packets.
Access only on LLMNR_REQUEST events; otherwise, an error will occur.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol
overhead, such as ACKs, headers, and retransmissions.
Access only on LLMNR_RESPONSE events; otherwise, an error will occur.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead,
such as headers.
Access only on LLMNR_RESPONSE events; otherwise, an error will occur.
- rspPkts: Number
- The number of application-level response bytes.
Access only on LLMNR_RESPONSE events; otherwise, an error will occur.
Memcache
The Memcache class enables you to store metrics and access properties on MEMCACHE_REQUEST and MEMCACHE_RESPONSE events.
Events
- MEMCACHE_REQUEST
- Runs on every memcache request processed by the device.
- MEMCACHE_RESPONSE
- Runs on every memcache response processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on either a
MEMCACHE_REQUEST or MEMCACHE_RESPONSE event.
The event determines which properties are committed to the record object. To view the default properties committed for each event, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- accessTime: Number
- The access time, expressed in milliseconds. Available only if the first key that was
requested produced a hit.
Access only on MEMCACHE_RESPONSE events; otherwise, an error will occur.
- error: String
- The detailed error message recorded by the ExtraHop system.
Access only on MEMCACHE_RESPONSE events; otherwise, an error will occur.
- hits: Array
- An array of objects containing the Memcache key and key size.
Access only on MEMCACHE_RESPONSE events; otherwise, an error will occur.
- key: String | null
- The Memcache key for which this was a hit, if available.
- size: Number
- The size of the value returned for the key, expressed in bytes.
- isBinaryProtocol: Boolean
- The value is true if the request/response corresponds to the binary version of the memcache protocol.
- isNoReply: Boolean
- The value is true if the request has the "noreply" keyword and
therefore should never receive a response (text protocol only).
Access only on MEMCACHE_REQUEST events; otherwise, an error will occur.
- isRspImplicit: Boolean
- The value is true if the response was implied by a subsequent
response from the server (binary protocol only).
Access only on MEMCACHE_RESPONSE events; otherwise, an error will occur.
- method: String
- The Memcache method as recorded in Metrics section of the ExtraHop system.
- misses: Array
- An array of objects containing the Memcache key.
Access only on MEMCACHE_RESPONSE events; otherwise, an error will occur.
- key: String | null
- The Memcache key for which this was a miss, if available.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
Memcache.commitRecord() on either a MEMCACHE_REQUEST
or MEMCACHE_RESPONSE event.
The event on which the method was called determines which properties the default record object can contain as displayed in the following table:
MEMCACHE_REQUEST MEMCACHE_RESPONSE clientZeroWnd accessTime isBinaryProtocol clientZeroWnd isNoReply error method hits reqBytes isBinaryProtocol reqL2Bytes isRspImplicit reqPkts method reqRTO misses reqSize roundTripTime serverZeroWnd rspBytes vbucket rspL2Bytes rspPkts rspRTO serverZeroWnd statusCode vbucket - reqBytes: Number
- The number of L4 request bytes, excluding L4 headers.
- reqKeys: Array
- An array containing the Memcache key strings sent with the request.
The value of the reqKeys property is the same when accessed on either the MEMCACHE_REQUEST or the MEMCACHE_RESPONSE event.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2 headers.
- reqPkts: Number
- The number of request packets.
- reqRTO: Number
- The number of request retransmission
timeouts (RTOs).
Access only on MEMCACHE_REQUEST events; otherwise, an error will occur.
- reqSize: Number
-
The number of L7 request bytes, excluding Memcache headers. The value is NaN for requests with no payload, such as GET and DELETE.
- reqZeroWnd: Number
- The number of zero windows in the request.
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is NaN if there are no RTT samples.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol overhead, such as ACKs, headers, and retransmissions.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead, such as headers.
- rspPkts: Number
- The number of response packets.
- rspRTO: Number
- The number of response retransmission
timeouts (RTOs).
Access only on MEMCACHE_RESPONSE events; otherwise, an error will occur.
- rspZeroWnd: Number
- The number of zero windows in the response.
- statusCode: String
- The Memcache status code. For the binary protocol, the ExtraHop system metrics prepend
the method to status codes other than NO_ERROR, but the statusCode
property does not. Refer to the examples for code that matches the behavior of the
ExtraHop system metrics.
Access only on MEMCACHE_RESPONSE events; otherwise, an error will occur.
- vbucket: Number
- The Memcache vbucket, if available (binary protocol only).
Modbus
The Modbus class enables you to access properties from MODBUS_REQUEST and MODBUS_RESPONSE events. Modbus is a serial communications protocol that enables connections between multiple devices on the same network.
Events
- MODBUS_REQUEST
- Runs on every request sent by a Modbus client. A Modbus client in the ExtraHop system is the Modbus master device.
- MODBUS_RESPONSE
- Runs on every response sent by a Modbus server. A Modbus server in the ExtraHop system is the Modbus slave device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on a
MODBUS_RESPONSE event. Record commits on
MODBUS_REQUEST events are not supported.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- error: String
- The detailed error message recorded by the ExtraHop system.
Access only on MODBUS_RESPONSE events; otherwise, an error will occur.
- functionId: Number
- The Modbus function code contained in the request or response.
Function ID Function name 1 Read Coil 2 Read Discrete Inputs 3 Read Holding Registers 4 Read Input Registers 5 Write Single Coil 6 Write Single Holding Register 15 Write Multiple Coils 16 Write Multiple Holding Registers - functionName: String
- The name of the Modbus function code contained in the request or response.
- isReqAborted: Boolean
- The value is true if the connection is closed before the request was complete.
- isRspAborted: Boolean
- The value is true if the connection is closed before the response was
complete.
Access only on MODBUS_RESPONSE events; otherwise, an error will occur.
- payload: Buffer
- The Buffer object containing the body of the request or response.
- payloadOffset: Number
- The file offset, expressed in bytes, within the resource property. The payload property is obtained from the resource property at the offset.
- processingTime: Number
- The processing time of the Modbus server, expressed in milliseconds. The value is
NaN on malformed and aborted responses or
if the timing is invalid.
Access only on MODBUS_RESPONSE events; otherwise, an error will occur.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
Modbus.commitRecord on a MODBUS_RESPONSE event.
The default record object can contain the following properties:
- error
- functionId
- functionName
- protocolId
- reqL2Bytes
- rspL2Bytes
- reqPkts
- rspPkts
- reqBytes
- rspBytes
- reqRTO
- rspRTO
- roundTripTime
- clientZeroWnd
- serverZeroWnd
- statusCode
- txId
- unitId
Access only on MODBUS_RESPONSE events; otherwise, an error will occur.
- reqBytes: Number
- The number of L4 request bytes, excluding L4
headers.
Access only on MODBUS_RESPONSE events; otherwise, an error will occur.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2
headers.
Access only on MODBUS_RESPONSE events; otherwise, an error will occur.
- reqPkts: Number
- The number of packets in the request.
Access only on MODBUS_RESPONSE events; otherwise, an error will occur.
- reqRTO: Number
- The number of retransmission timeouts
(RTOs) in the request.
Access only on MODBUS_RESPONSE events; otherwise, an error will occur.
- reqSize: Number
- The number of L7 request bytes, excluding Modbus headers.
- reqTransferTime: Number
- The transfer time of the request, expressed in milliseconds. If the request is contained in a single packet, the transfer time is zero. If the request spans multiple packets, the value is the amount of time between detection of the first request packet and detection of the last packet by the ExtraHop system. A high value might indicate a large request or a network delay. The value is NaN if there is no valid measurement, or if the timing is invalid.
- reqZeroWnd: Number
- The number of zero windows in the request.
Access only on MODBUS_RESPONSE events; otherwise, an error will occur.
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is
NaN if there are no RTT samples.
Access only on MODBUS_RESPONSE events; otherwise, an error will occur.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol overhead, such as ACKs, headers, and retransmissions.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead,
such as headers.
Access only on MODBUS_RESPONSE events; otherwise, an error will occur.
- rspPkts: Number
- The number of packets in the response.
Access only on MODBUS_RESPONSE events; otherwise, an error will occur.
- rspRTO: Number
- The number of retransmission timeouts
(RTOs) in the response.
Access only on MODBUS_RESPONSE events; otherwise, an error will occur.
- rspSize: Number
- The number of L7 response bytes, excluding Modbus protocol headers.
Access only on MODBUS_RESPONSE events; otherwise, an error will occur.
- rspTransferTime: Number
- The transfer time of the response, expressed in milliseconds. If the response is
contained in a single packet, the transfer time is zero. If the response spans multiple
packets, the value is the amount of time between detection of the first response packet
and detection of the last packet by the ExtraHop system. A high value might indicate a
large response or a network delay. The value is NaN if there is no valid measurement, or if the timing is
invalid.
Access only on MODBUS_RESPONSE events; otherwise, an error will occur.
- rspZeroWnd: Number
- The number of zero windows in the response.
Access only on MODBUS_RESPONSE events; otherwise, an error will occur.
- statusCode: Number
- The numeric status code of the response.
Status code number Status description 1 Illegal Function 2 Illegal Data Address 3 Illegal Data Value 4 Slave Device Failure 5 Acknowledge 6 Slave Device Busy 7 Negative Acknowledge 8 Memory Parity Error 10 Gateway Path Unavailable 11 Gateway Target Device Failed to Respond Access only on MODBUS_RESPONSE events; otherwise, an error will occur.
- txId: Number
- The transaction identifier of the request or response.
- unitId: Number
- The unit identifier of the Modbus server responding to the Modbus client.
MongoDB
The MongoDB class enables you to store metrics and access properties on MONGODB_REQUEST and MONGODB_RESPONSE events.
Events
- MONGODB_REQUEST
- Runs on every MongoDB request processed by the device.
- MONGODB_RESPONSE
- Runs on every MongoDB response processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on either a
MONGODB_REQUEST or MONGODB_RESPONSE event.
The event determines which properties are committed to the record object. To view the default properties committed for each event, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- collection: String
- The name of the database collection specified in the current request.
- database: String
- The MongoDB database instance. In some cases, such as when login events are encrypted, the database name is not available.
- error: String
- The detailed error message recorded by the ExtraHop system.
Access only on MONGODB_RESPONSE events; otherwise, an error will occur.
- isReqAborted: Boolean
- The value is true if the connection is closed before the MongoDB request was complete.
- isReqTruncated: Boolean
- The value is true if the request document(s) size is greater than the maximum payload document size.
- isRspAborted: Boolean
- The value is true if the connection is closed before the MongoDB
response was complete.
Access only on MONGODB_RESPONSE events; otherwise, an error will occur.
- method: String
- The MongoDB database method (appears under Methods in the user interface).
- opcode: String
- The MongoDB operational code on the wire protocol, which might differ from the MongoDB method used.
- processingTime: Number
- The time to process the request, expressed in milliseconds (equivalent to
rspTimeToFirstByte - reqTimeToLastByte). The value
is NaN on malformed and aborted responses or
if the timing is invalid.
Access only on MONGODB_RESPONSE events; otherwise, an error will occur.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
MongoDB.commitRecord() on either a MONGODB_REQUEST
or MONGODB_RESPONSE event.
The event on which the method was called determines which properties the default record object can contain as displayed in the following table:
MONGODB_REQUEST MONGODB_RESPONSE clientZeroWnd clientZeroWnd collection collection database database isReqAborted error isReqTruncated isRspAborted method method opcode opcode reqBytes processingTime reqL2Bytes roundTripTime reqPkts rspBytes reqRTO rspL2Bytes reqSize rspPkts reqTimeToLastByte rspRTO serverZeroWnd rspSize user rspTimeToFirstByte rspTimeToLastByte serverZeroWnd user - reqBytes: Number
- The number of L4 request bytes, excluding L4 headers.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2 headers.
- reqPkts: Number
- The number of request packets.
- reqRTO: Number
- The number of request retransmission timeouts (RTOs).
- reqSize: Number
- The number of L7 request bytes, excluding MongoDB headers.
- reqTimeToLastByte: Number
- The time from the first byte of the request until the last byte of the request, expressed in milliseconds.
- reqZeroWnd: Number
- The number of zero windows in the request.
- request: Array
- An array of JS objects parsed from MongoDB request payload documents. Total document
size is limited to 4K.
If BSON documents are truncated, isReqTruncated flag is set. Truncated values are represented as follows:
- Primitive string values like code, code with scope, and binary data are partially extracted.
- Objects and Arrays are partially extracted.
- All other primitive values like Numbers, Dates, RegExp, etc., are substituted with null.
If no documents are included in the request, an empty array is returned.
The value of the request property is the same when accessed on either the MONGODB_REQUEST or the MONGODB_RESPONSE event.
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is NaN if there are no RTT samples.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol overhead, such as ACKs, headers, and retransmissions.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead, such as headers.
- rspPkts: Number
- The number of response packets.
- rspRTO: Number
- The number of response retransmission timeouts (RTOs).
- rspSize: Number
- The number of L7 response bytes, excluding MongoDB headers.
Access only on MONGODB_RESPONSE events; otherwise, an error will occur.
- rspTimeToFirstByte: Number
- The time from the first byte of the request until the first byte of the response,
expressed in milliseconds. The value is NaN
on malformed and aborted responses, or if the timing is invalid.
Access only on MONGODB_RESPONSE events; otherwise, an error will occur.
- rspTimeToLastByte: Number
- The time from the first byte of the request until the last by of the response,
expressed in milliseconds. The value is NaN
on malformed and aborted responses, or if the timing is invalid.
Access only on MONGODB_RESPONSE events; otherwise, an error will occur.
- rspZeroWnd: Number
- The number of zero windows in the response.
- user: String
- The user name, if available. In some cases, such as when login events are encrypted, the user name is not available.
MSMQ
The MSMQ class enables you to store metrics and access properties on MSMQ_MESSAGE events.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on an
MSMQ_MESSAGE event.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- adminQueue: String
- The name of the administration queue of the message.
- correlationId: Buffer
- The application-generated correlation ID of the message.
- dstQueueMgr: String
- The destination message broker of the message.
- isEncrypted: Boolean
- The value is true if the payload is encrypted.
- label: String
- The label or description of the message.
- msgClass: String
- The message class of the message. The following values are valid:
- MQMSG_CLASS_NORMAL
- MQMSG_CLASS_ACK_REACH_QUEUE
- MQMSG_CLASS_NACK_ACCESS_DENIED
- MQMSG_CLASS_NACK_BAD_DST_Q
- MQMSG_CLASS_NACK_BAD_ENCRYPTION
- MQMSG_CLASS_NACK_BAD_SIGNATURE
- MQMSG_CLASS_NACK_COULD_NOT_ENCRYPT
- MQMSG_CLASS_NACK_HOP_COUNT_EXCEEDED
- MQMSG_CLASS_NACK_NOT_TRANSACTIONAL_MSG
- MQMSG_CLASS_NACK_NOT_TRANSACTIONAL_Q
- MQMSG_CLASS_NACK_PURGED
- MQMSG_CLASS_NACK_Q_EXCEEDED_QUOTA
- MQMSG_CLASS_NACK_REACH_QUEUE_TIMEOUT
- MQMSG_CLASS_NACK_SOURCE_COMPUTER_GUID_CHANGED
- MQMSG_CLASS_NACK_UNSUPPORTED_CRYPTO_PROVIDER
- MQMSG_CLASS_ACK_RECEIVE
- MQMSG_CLASS_NACK_Q_DELETED
- MQMSG_CLASS_NACK_Q_PURGED
- MQMSG_CLASS_NACK_RECEIVE_TIMEOUT
- MQMSG_CLASS_NACK_RECEIVE_TIMEOUT_AT_SENDER
- MQMSG_CLASS_REPORT
- msgId: Number
- The MSMQ message id of the message.
- payload: Buffer
- The body of the MSMQ message.
- priority: Number
- The priority of the message. This can be a number between 0 and 7.
- queue: String
- The name of the destination queue of the message.
- receiverBytes: Number
- The number of L4 receiver bytes.
- receiverL2Bytes: Number
- The number of L2 receiver bytes.
- receiverPkts: Number
- The number of receiver packets.
- receiverRTO: Number
- The number of retransmission timeouts (RTOs) from the receiver.
- receiverZeroWnd: Number
- The number of zero windows sent by the receiver.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
MSMQ.commitRecord() on an MSMQ_MESSAGE event.
The default record object can contain the following properties:
- adminQueue
- dstQueueMgr
- isEncrypted
- label
- msgClass
- msgId
- priority
- queue
- receiverBytes
- receiverL2Bytes
- receiverPkts
- receiverRTO
- receiverZeroWnd
- responseQueue
- roundTripTime
- senderBytes
- senderL2Bytes
- senderPkts
- senderRTO
- serverZeroWnd
- srcQueueMgr
- responseQueue: String
- The name of the response queue of the message.
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is NaN if there are no RTT samples.
- senderBytes: Number
- The number of sender L4 bytes.
- senderL2Bytes: Number
- The number of sender L2 bytes.
- senderPkts: Number
- The number of sender packets.
- senderRTO: Number
- The number of retransmission timeouts (RTOs) from the sender.
- senderZeroWnd: Number
- The number of zero windows sent by the sender.
- srcQueueMgr: String
- The source message broker of the message.
NetFlow
The NetFlow class object enables you to store metrics and access properties on NETFLOW_RECORD events.
Note: | The NetFlow class is available only on Reveal(x) 360 and ExtraHop Performance systems. |
The ExtraHop system can be licensed for the NetFlow module, which supports the following flow types:
- NetFlow version 5 (Cisco)
- NetFlow version 9 (Cisco)
- IPFIX (open standard based on RFC 5101)
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on a
NETFLOW_RECORD event.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
- findField(field: Number, enterpriseId: Number): String | Number | IPAddress | Buffer | Boolean
- Searches the NetFlow record and returns the specified field. Returns a null value if the field is not in the record. If the optional enterpriseId argument is included, the specified field is returned only if the enterprise ID is a match, otherwise the method returns a null value.
- hasField(field: Number): Boolean
- Determines whether the specified field is in the NetFlow record.
Properties
- age: Number
- The amount of time elapsed, expressed in seconds, between the first and last property values reported in the NetFlow record.
- deltaBytes: Number
- The number of L3 bytes in the flow since the last NETFLOW_RECORD event.
- deltaPkts: Number
- The number of packets in the flow since the last NETFLOW_RECORD event.
- dscp: Number
- The number representing the last differentiated services code point (DSCP) value of the flow packet.
- dscpName: String
- The name associated with the DSCP value of the flow packet. The following table
displays well-known DSCP names:
Number Name 8 CS1 10 AF11 12 AF12 14 AF13 16 CS2 18 AF21 20 AF22 22 AF23 24 CS3 26 AF31 28 AF32 30 AF33 32 CS4 34 AF41 36 AF42 38 AF43 40 CS5 44 VA 46 EF 48 CS6 56 CS7 - egressInterface: FlowInterface
- The FlowInterface object that identifies the output device.
- fields: Array
- An array of objects that contain information fields found in the flow packets. Each
object can contain the following properties:
- fieldID: Number
- The ID number that represents the field type.
- enterpriseID: Number
- The ID number that represents enterprise-specific information.
- first: Number
- The amount of time elapsed, expressed in milliseconds, since the epoch of the first packet in the flow.
- format: String
- The format of the NetFlow record. Valid values are NetFlow v5, NetFlow v9, and IPFIX.
- ingressInterface: FlowInterface
- The FlowInterface object that identifies the input device.
- ipPrecedence: Number
- The value of the IP precedence field associated with the DSCP of the flow packet.
- ipproto: String
- The IP protocol associated with the flow, such as TCP or UDP.
- last: Number
- The amount of time elapsed, expressed in milliseconds, since the epoch of the last packet in the flow.
- network: FlowNetwork
- An object that identifies the FlowNetwork and
contains the following properties:
- id: String
- The identifier of the FlowNetwork.
- ipaddr: IPAddress
- The IP address of the FlowNetwork.
- nextHop: IPAddress
- The IP address of the next hop router.
- observationDomain: Number
- The ID of the observation domain for the template.
- receiver: Object
- An object that identifies the receiver and contains the following properties:
- asn: Number
- The autonomous system number (ASN) of the destination device.
- ipaddr: IPAddress
- The IP address of the destination device.
- prefixLength: Number
- The number of bits in the prefix of the destination address.
- port: Number
- The TCP or UDP port number of the destination device.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
NetFlow.commitRecord() on a NETFLOW_RECORD
event.
The default record object can contain the following properties:
- age
- dscpName
- deltaBytes
- deltaPkts
- egressInterface
- first
- format
- ingressInterface
- last
- network
- networkAddr
- nextHop
- proto
- receiverAddr
- receiverAsn
- receiverPort
- receiverPrefixLength
- senderAddr
- senderAsn
- senderPort
- senderPrefixLength
- tcpFlagName
- tcpFlags
- sender: Object
- An object that identifies the sender and contains the following properties:
- asn: Number
- The autonomous system number (ASN) of the source device.
- ipaddr: IPAddress
- The IP address of the source device.
- prefixLength: Number
- The number of bits in the prefix of the source address.
- port: Number
- The TCP or UDP port number of the source device.
- tcpFlagNames: Array
- A string array of TCP flag names, such as SYN or ACK, found in the flow packets.
- tcpFlags: Number
- The bitwise OR of all TCP flags set on the flow.
- templateId: Number
- The ID of the template that is referred to by the record. Template IDs are applicable only to IPFIX and NetFlow v9 records.
- tos: Number
- The type of service (ToS) number defined in the IP header.
NFS
The NFS class enables you to store metrics and access properties on NFS_REQUEST and NFS_RESPONSE events.
Events
- NFS_REQUEST
- Runs on every NFS request processed by the device.
- NFS_RESPONSE
- Runs on every NFS response processed by the device
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on an
NFS_RESPONSE event. Record commits on NFS_REQUEST
events are not supported.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- accessTime: Number
- The amount of time taken by the server to access a file on disk, expressed in
milliseconds. For NFS, it is the time from every non-pipelined READ and WRITE command in
an NFS flow until the payload containing the response is recorded by the ExtraHop
system. The value is NaN on malformed and
aborted responses, or if the timing is invalid or is not applicable.
Access only on NFS_RESPONSE events; otherwise, an error will occur.
- authMethod: String
- The method for authenticating users.
- error: String
- The detailed error message recorded by the ExtraHop system.
Access only on NFS_RESPONSE events; otherwise, an error will occur.
- fileHandle: Buffer
- The file handle returned by the server on LOOKUP, CREATE, SYMLINK, MKNOD, LINK, or READDIRPLUS operations.
- isCommandFileInfo: Boolean
- The value is true for file info commands.
- isCommandRead: Boolean
- The value is true for READ commands.
- isCommandWrite: Boolean
- The value is true for WRITE commands.
- isRspAborted: Boolean
- The value is true if the connection is closed before the response was
complete.
Access only on NFS_RESPONSE events; otherwise, an error will occur.
- method: String
- The NFS method. Valid methods are listed under the NFS metric in the ExtraHop system.
- offset: Number
- The file offset associated with NFS READ and WRITE commands.
Access only on NFS_REQUEST events; otherwise, an error will occur.
- processingTime: Number
- The server processing time, expressed in milliseconds. The value is NaN on malformed and aborted responses or if the timing
is invalid.
Access only on NFS_RESPONSE events; otherwise, an error will occur.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
NFS.commitRecord() on a NFS_RESPONSE event.
The default record object can contain the following properties:
- accessTime
- authMethod
- clientZeroWnd
- error
- isCommandFileInfo
- isCommandRead
- isCommandWrite
- isRspAborted
- method
- offset
- processingTime
- renameDirChanged
- reqSize
- reqXfer
- resource
- rspSize
- rspXfer
- serverZeroWnd
- statusCode
- txID
- user
- version
Access the record object only on NFS_RESPONSE events; otherwise, an error will occur.
- renameDirChanged: Boolean
- The value is true if a resource rename request includes a directory
move.
Access only on NFS_REQUEST events; otherwise, an error will occur.
- reqBytes: Number
- The number of L4 request bytes, excluding L4
headers.
Access only on NFS_RESPONSE events; otherwise, an error will occur.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2
headers.
Access only on NFS_RESPONSE events; otherwise, an error will occur.
- reqPkts: Number
- The number of request packets.
Access only on NFS_RESPONSE events; otherwise, an error will occur.
- reqRTO: Number
- The number of request retransmission
timeouts (RTOs).
Access only on NFS_REQUEST events; otherwise, an error will occur.
- reqSize: Number
- The number of L7 request bytes, excluding NFS headers.
- reqTransferTime: Number
- The request transfer time, expressed in milliseconds. If the request is contained in a
single packet, the transfer time is zero. If the request spans multiple packets, the
value is the amount of time between detection of the first NFS request packet and
detection of the last packet by the ExtraHop system. A high value might indicate a large
NFS request or a network delay. The value is NaN if there is no valid measurement, or if the timing is
invalid.
Access only on NFS_REQUEST events; otherwise, an error will occur.
- reqZeroWnd: Number
- The number of zero windows in the request.
- resource: String
- The path and filename, concatenated together.
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is
NaN if there are no RTT samples.
Access only on NFS_RESPONSE events; otherwise, an error will occur.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol
overhead, such as ACKs, headers, and retransmissions.
Access only on NFS_RESPONSE events; otherwise, an error will occur.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead,
such as headers.
Access only on NFS_RESPONSE events; otherwise, an error will occur.
- rspPkts: Number
- The number of response packets.
Access only on NFS_RESPONSE events; otherwise, an error will occur.
- rspRTO: Number
- The number of request retransmission
timeouts (RTOs).
Access only on NFS_RESPONSE events; otherwise, an error will occur.
- rspSize: Number
- The number of L7 response bytes, excluding NFS headers.
Access only on NFS_RESPONSE events; otherwise, an error will occur.
- rspTransferTime: Number
- The response transfer time, expressed in milliseconds. If the response is contained in
a single packet, the transfer time is zero. If the response spans multiple packets, the
value is the amount of time between detection of the first NFS response packet and
detection of the last packet by the ExtraHop system. A high value might indicate a large
NFS response or a network delay. The value is NaN if there is no valid measurement, or if the timing is
invalid.
Access only on NFS_RESPONSE events; otherwise, an error will occur.
- rspZeroWnd: Number
- The number of zero windows in the response.
- statusCode: String
- The NFS status code of the request or response.
- symlink: Buffer | null
- The argument specified in an NFS SYMLINK request.
The value is null if this property is accessed on an event other than NFS_REQUEST or if the NFS.method is not SYMLINK.
- txId: Number
- The transaction ID.
- user: String
- The ID of the Linux user, formatted as uid:xxxx@ip_address.
- verifierMethod: String
- The method for verifying the sender of the request.
- version: Number
- The NFS version.
NTLM
The NTLM class enables you to store metrics and access properties on NTLM_MESSAGE events.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on an
NTLM_MESSAGE event.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- containsMIC: Boolean
- The value is true if the message includes a Message Integrity Code (MIC) that ensures that the message has not been tampered with.
- challenge: String
- The hexadecimal-encoded challenge hash string.
- domain: String
- The client domain name included in the challenge hash calculation.
- flags: Number
- The bitwise OR of the NTLM negotiate flags. For more information, see the NTLM documentation on the Microsoft website.
- msgType: String
- The type of NTLM message. The following message types are valid:
- NTLM_AUTH
- NTLM_CHALLENGE
- NTLM_NEGOTIATE
- ntlm2RspAVPairs: Array
- An array of objects that contain NTLM attribute-value pairs. For more information, see the NTLM documentation on the Microsoft website.
- record: Object
- The record object that can be sent to the configured recordstore through a call
to NTLM.commitRecord() on a NTLM_MESSAGE
event.
The default record object can contain the following properties:
- challenge
- domain
- flags
- l7proto
- msgType
- proto
- receiverAddr
- receiverPort
- senderAddr
- senderPort
- user
- windowsVersion
- workstation
- rspVersion: String
- The version of NTLM implemented in the NTLM_AUTH response. The value is
null for non-authentication messages. The following
versions are valid:
- LM
- NTLMv1
- NTLMv2
- user: String
- The client username included in the challenge hash calculation.
- windowsVersion: String
- The version of Windows running on the client included in the challenge hash calculation.
- workstation: String
- The name of the client workstation included in the challenge hash calculation.
POP3
The POP3 class enables you to store metrics and access properties on POP3_REQUEST and POP3_RESPONSE events.
Events
- POP3_REQUEST
- Runs on every POP3 request processed by the device.
- POP3_RESPONSE
- Runs on every POP3 response processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on a
POP3_RESPONSE event. Record commits on POP3_REQUEST
events are not supported.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- dataSize: Number
- The size of the message, expressed in bytes.
Access only on POP3_RESPONSE events; otherwise, an error will occur.
- error: String
- The detailed error message recorded by the ExtraHop system.
Access only on POP3_RESPONSE events; otherwise, an error will occur.
- isEncrypted: Boolean
- The value is true if the transaction is over a secure POP3 server.
- isReqAborted: Boolean
- The value is true if the connection is closed before the POP3 request was complete.
- isRspAborted: Boolean
- The value is true if the connection is closed before the POP3
response was complete.
Access only on POP3_RESPONSE events; otherwise, an error will occur.
- method: String
- The POP3 method such as RETR or DELE.
- processingTime: Number
- The server processing time, expressed in milliseconds. The value is NaN on malformed and aborted responses or if the timing
is invalid.
Access only on POP3_RESPONSE events; otherwise, an error will occur.
- recipientList: Array
- An array that contains a list of recipient addresses.
Access only on POP3_RESPONSE events; otherwise, an error will occur.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
POP3.commitRecord() on a POP3_RESPONSE event.
The default record object can contain the following properties:
- clientZeroWnd
- dataSize
- error
- isEncrypted
- isReqAborted
- isRspAborted
- method
- processingTime
- recipientList
- reqSize
- reqTimeToLastByte
- rspSize
- rspTimeToFirstByte
- rspTimeToLastByte
- sender
- serverZeroWnd
- statusCode
Access the record object only on POP3_RESPONSE events; otherwise, an error will occur.
- reqBytes: Number
- The number of L4 request bytes, excluding L4 headers.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2 headers.
- reqPkts: Number
- The number of request packets.
- reqRTO: Number
- The number of request retransmission timeouts (RTOs).
- reqSize: Number
- The number of L7 request bytes, excluding POP3 headers.
- reqTimeToLastByte: Number
- The time from the first byte of the request until the last byte of the request, expressed in milliseconds. The value is NaN on expired requests and responses, or if the timing is invalid.
- reqZeroWnd: Number
- The number of zero windows in the request.
- roundTripTime: Number
- The median TCP round trip time (RTT), expressed in milliseconds. The value is
NaN if there are no RTT samples.
Access only on POP3_RESPONSE events; otherwise, an error will occur.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol
overhead, such as ACKs, headers, and retransmissions.
Access only on POP3_RESPONSE events; otherwise, an error will occur.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead,
such as headers.
Access only on POP3_RESPONSE events; otherwise, an error will occur.
- rspPkts: Number
- The number of response packets.
Access only on POP3_RESPONSE events; otherwise, an error will occur.
- rspRTO: Number
- The number of response retransmission
timeouts (RTOs).
Access only on POP3_RESPONSE events; otherwise, an error will occur.
- rspSize: Number
- The number of L7 response bytes, excluding POP3 headers.
Access only on POP3_RESPONSE events; otherwise, an error will occur.
- rspTimeToFirstByte: Number
- The time from the first byte of the request until the furst byte of the response,
expressed in milliseconds. The value is NaN
on malformed and aborted responses, or if the timing is invalid.
Access only on POP3_RESPONSE events; otherwise, an error will occur.
- rspTimeToLastByte: Number
- The time from the first byte of the request until the last byte of the response,
expressed in milliseconds. The value is NaN
on malformed and aborted responses, or if the timing is invalid.
Access only on POP3_RESPONSE events; otherwise, an error will occur.
- rspZeroWnd: Number
- The number of zero windows in the response.
- sender: String
- The address of the sender of the message.
Access only on POP3_RESPONSE events; otherwise, an error will occur.
- status: String
- The POP3 status message of the response which can be OK,
ERR or NULL.
Access only on POP3_RESPONSE events; otherwise, an error will occur.
QUIC
The QUIC class enables you to store metrics and access properties on QUIC_OPEN and QUIC_CLOSE events.
Events
- QUIC_CLOSE
- Runs when a QUIC connection is closed.
- QUIC_OPEN
- Runs when a QUIC connection is opened.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on either a
QUIC_OPEN or QUIC_CLOSE event. To view
the default properties committed to the record object, see the
record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- cyuFingerprint: String
- The CYU fingerprint for the connection. The CYU fingerprint is generated by concatenating the version and tags specified in the client hello packet.
- record: Object
- The record object that can be sent to the configured recordstore through a
call to QUIC.commitRecord() on either a
QUIC_OPEN or QUIC_CLOSE event.
The default record object can contain the following properties:
- clientAddr
- clientPort
- cyuFingerprint
- proto
- serverAddr
- serverPort
- sni
- version
- vlan
- sni: String
- The Server Name Indication (SNI), which identifies the name of the server the client is connecting to.
- tags: Array of Objects
- An array of objects that specify the tags set in the client hello packet.
Each object has the following properties:
- tag: String
- The name of the tag.
- value: Buffer
- The value that the tag is set to.
- version: String
- The version of the QUIC protocol.
RDP
RDP (Remote Desktop Protocol) is a proprietary protocol created by Microsoft that enables a Windows computer to connect to another Windows computer on the same network or over the Internet. The RDP class enables you to store metrics and access properties on RDP_OPEN, RDP_CLOSE, or RDP_TICK events.
Events
- RDP_CLOSE
- Runs when an RDP connection is closed.
- RDP_OPEN
- Runs when a new RDP connection is opened.
- RDP_TICK
- Runs periodically while the user interacts with the RDP application.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on an RDP_OPEN,
RDP_CLOSE, or RDP_TICK event.
The event determines which properties are committed to the record object. To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- clientBuild: String
- The build number of the RDP client. This property is not available if the RDP connection is encrypted.
- clientName: String
- The name of the client computer. This property is not available if the RDP connection is encrypted.
- cookie: String
- The auto-connect cookie stored by the RDP client.
- desktopHeight: Number
- The height of the desktop, expressed in pixels. This property is not available if the RDP connection is encrypted.
- desktopWidth: Number
- The width of the desktop, expressed in pixels. This property is not available if the RDP connection is encrypted.
- encryptionProtocol: String
- The protocol that the transaction is encrypted with.
- error: String
- The detailed error message recorded by the ExtraHop system.
- isDecrypted: Boolean
- The value is true if the ExtraHop system securely decrypted and analyzed the transaction. Decrypted traffic analysis can expose advanced threats that hide within encrypted traffic.
- isEncrypted: Boolean
- The value is true if the RDP connection is encrypted.
- isError: Boolean
- The value is true if an error occurred on the event.
- keyboardLayout: String
- The keyboard layout, which indicates the arrangement of keys and the input language. This property is not available if the RDP connection is encrypted.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
RDP.commitRecord() on either an RDP_OPEN,
RDP_CLOSE, or RDP_TICK event.
The default record object can contain the following properties:
RDP_OPEN and RDP_CLOSE RDP_TICK clientBuild clientBuild clientName clientBytes cookie clientL2Bytes desktopHeight clientName desktopWidth clientPkts error clientRTO isEncrypted clientZeroWnd keyboardLayout cookie requestedColorDepth desktopHeight requestedProtocols desktopWidth selectedProtocol error isEncrypted keyboardLayout requestedColorDepth requestedProtocols roundTripTime selectedProtocol serverBytes serverL2Bytes serverPkts serverRTO serverZeroWnd - requestedColorDepth: String
- The color depth requested by the RDP client. This property is not available if the RDP connection is encrypted.
- requestedProtocols: Array of Strings
- The list of supported security protocols.
- reqBytes: Number
- The number of L4 bytes in the request.
Access only on RDP_TICK events; otherwise, an error will occur.
- reqL2Bytes: Number
- The number of L2 bytes in the request.
Access only on RDP_TICK events; otherwise, an error will occur.
- reqPkts: Number
- The number of packets in the request.
Access only on RDP_TICK events; otherwise, an error will occur.
- reqRTO: Number
- The number of retransmission timeouts
(RTOs) in the request.
Access only on RDP_TICK events; otherwise, an error will occur.
- reqZeroWnd: Number
- The number of zero windows in the request.
Access only on RDP_TICK events; otherwise, an error will occur.
- roundTripTime: Number
- The median round trip time (RTT) for the duration of the event, expressed in
milliseconds. The value is NaN if there are
no RTT samples.
Access only on RDP_TICK events; otherwise, an error will occur.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol
overhead, such as ACKs, headers, and retransmissions.
Access only on RDP_TICK events; otherwise, an error will occur.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead,
such as headers.
Access only on RDP_TICK events; otherwise, an error will occur.
- rspPkts: Number
- The number of packets in the response.
Access only on RDP_TICK events; otherwise, an error will occur.
- rspRTO: Number
- The number of retransmission timeouts
(RTOs) in the response.
Access only on RDP_TICK events; otherwise, an error will occur.
- rspZeroWnd: Number
- The number of zero windows in the response.
Access only on RDP_TICK events; otherwise, an error will occur.
- selectedProtocol: String
- The selected security protocol.
Redis
Remote Dictionary Server (Redis) is an open-source, in-memory data structure server. The Redis class enables you to store metrics and access properties on REDIS_REQUEST and REDIS_RESPONSE events.
Events
- REDIS_REQUEST
- Runs on every Redis request processed by the device.
- REDIS_RESPONSE
- Runs on every Redis response processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on either a
REDIS_REQUEST or REDIS_RESPONSE event.
The event determines which properties are committed to the record object. To view the default properties committed for each event, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- errors: Array
- An array of detailed error messages recorded by the ExtraHop system.
Access only on REDIS_RESPONSE events; otherwise, an error will occur.
- isReqAborted: Boolean
- The value is true if the connection is closed before the Redis request was complete.
- isRspAborted: Boolean
- The value is true if the connection is closed before the Redis
response was complete.
Access only on REDIS_RESPONSE events; otherwise, an error will occur.
- method: String
- The Redis method such as GET or KEYS.
- payload: Buffer
- The body of the response or request.
- processingTime: Number
- The server processing time, expressed in milliseconds. The value is NaN on malformed and aborted responses or if the timing
is invalid.
Access only on REDIS_RESPONSE events; otherwise, an error will occur.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
Redis.commitRecord() on either a REDIS_REQUEST or
REDIS_RESPONSE event.
The event on which the method was called determines which properties the default record object can contain as displayed in the following table:
REDIS_REQUEST REDIS_RESPONSE clientZeroWnd clientZeroWnd method error reqKey method reqSize processingTime reqTransferTime reqKey isReqAborted rspSize serverZeroWnd rspTransferTime isRspAborted rspTimeToFirstByte rspTimeToLastByte serverZeroWnd - reqKey: Array
- An array containing the Redis key strings sent with the request.
- reqBytes: Number
- The number of L4 request bytes, excluding L4 headers.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2 headers.
- reqPkts: Number
- The number of request packets.
- reqRTO: Number
- The number of request retransmission timeouts (RTOs).
- reqSize: Number
- The number of L7 request bytes, excluding Redis headers.
- reqTransferTime: Number
- The request transfer time, expressed in milliseconds. If the request is contained in a single packet, the transfer time is zero. If the request spans multiple packets, the value is the amount of time between detection of the first Redis request packet and detection of the last packet by the ExtraHop system. A high value might indicate a large Redis request or a network delay. The value is NaN if there is no valid measurement, or if the timing is invalid.
- reqZeroWnd: Number
- The number of zero windows in the request.
- roundTripTime: Number
- The median TCP round trip time (RTT), expressed in milliseconds. The value is NaN if there are no RTT samples.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol overhead, such as ACKs, headers, and retransmissions.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead, such as headers.
- rspPkts: Number
- The number of response packets.
- rspRTO: Number
- The number of response retransmission timeouts (RTOs).
- rspTransferTime: Number
- The response transfer time, expressed in milliseconds. If the response is contained in
a single packet, the transfer time is zero. If the response spans multiple packets, the
value is the amount of time between detection of the first Redis response packet and
detection of the last packet by the ExtraHop system. A high value might indicate a large
Redis response or a network delay. The value is NaN if there is no valid measurement, or if the timing is
invalid.
Access only on REDIS_RESPONSE events; otherwise, an error will occur.
- rspSize: Number
- The number of L7 response bytes, excluding Redis headers.
Access only on REDIS_RESPONSE events; otherwise, an error will occur.
- rspTimeToFirstByte: Number
- The time from the first byte of the request until the furst byte of the response,
expressed in milliseconds. The value is NaN
on malformed and aborted responses, or if the timing is invalid.
Access only on REDIS_RESPONSE events; otherwise, an error will occur.
- rspTimeToLastByte: Number
- The time from the first byte of the request until the last byte of the response,
expressed in milliseconds. The value is NaN
on malformed and aborted responses, or if the timing is invalid.
Access only on REDIS_RESPONSE events; otherwise, an error will occur.
- rspZeroWnd: Number
- The number of zero windows in the response.
RFB
The RFB class enables you to store metrics and access properties on RFB_OPEN, RFB_CLOSE, and RFB_TICK events.
Events
- RFB_CLOSE
- Runs when an RFB connection is closed.
- RFB_OPEN
- Runs when a new RFB connection is opened.
- RFB_TICK
- Runs periodically on RFB flows.
Methods
- commitRecord(): void
- Commits a record object to the recordstore. To view the default properties
committed to the record object, see the record property
below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- authType: Number
- The number that corresponds to the security type negotiated by the client
and server.
Access only on RFB_OPEN events; otherwise, an error will occur.
Security type Number Invalid 0 None 1 VNC Authentication 2 RealVNC 3-15 Tight 16 Ultra 17 TLS 18 VeNCrypt 19 GTK-VNC SASL 20 MD5 hash authentication 21 Colin Dean xvp 22 RealVNC 128-255 - authResult: Number
- Indicates whether authentication was successful.
Value Description 0 Succeeded 1 Failed - duration: Number
- The duration of the RFB session, expressed in seconds.
Access only on RFB_CLOSE events; otherwise, an error will occur.
- error: String
- The detailed error message recorded by the ExtraHop system.
Access only on RFB_OPEN events; otherwise, an error will occur.
- record: Object
- The record object committed to the recordstore through a call to
RFB.commitRecord().
The event on which the method was called determines which properties the default record object can contain as displayed in the following table:
RFB_OPEN RFB_TICK RFB_CLOSE version reqBytes duration error reqL2Bytes authType reqPkts authResult reqRTO reqZeroWnd roundTripTime rspBytes rspL2Bytes rspPkts rspRTO rspZeroWnd - reqBytes: Number
- The number of L4 request bytes, excluding L4
headers.
Access only on RFB_TICK events; otherwise, an error will occur.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2
headers.
Access only on RFB_TICK events; otherwise, an error will occur.
- reqPkts: Number
- The number of request packets.
Access only on RFB_TICK events; otherwise, an error will occur.
- reqRTO: Number
- The number of request retransmission
timeouts (RTOs).
Access only on RFB_TICK events; otherwise, an error will occur.
- reqZeroWnd: Number
- The number of zero windows in the request.
Access only on RFB_TICK events; otherwise, an error will occur.
- roundTripTime: Number
- The median TCP round trip time (RTT), expressed in milliseconds. The value
is NaN if there are no RTT
samples.
Access only on RFB_TICK events; otherwise, an error will occur.
- rspBytes: Number
- The number of L4 response bytes, excluding L4
protocol overhead, such as ACKs, headers, and retransmissions.
Access only on RFB_TICK events; otherwise, an error will occur.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol
overhead, such as headers.
Access only on RFB_TICK events; otherwise, an error will occur.
- rspPkts: Number
- The number of response packets.
Access only on RFB_TICK events; otherwise, an error will occur.
- rspRTO: Number
- The number of response retransmission
timeouts (RTOs).
Access only on RFB_TICK events; otherwise, an error will occur.
- rspZeroWnd: Number
- The number of zero windows in the response.
Access only on RFB_TICK events; otherwise, an error will occur.
- version: String
- The version of the RFB protocol negotiated by the client and
server.
Access only on RFB_OPEN events; otherwise, an error will occur.
RPC
The RPC class enables you to store metrics and access properties from Microsoft Remote Procedure Call (MSRPC) activity on RPC_REQUEST and RPC_RESPONSE events.
Events
- RPC_REQUEST
- Runs on every RPC request processed by the device.
- RPC_RESPONSE
- Runs on every RPC response processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on an
RPC_REQUEST or RPC_RESPONSE event.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
- encryptionProtocol: String
- The protocol that the transaction is encrypted with.
- interface: String
- The name of the RPC interface, such as drsuapi and epmapper.
- isEncrypted: Boolean
- The value is true if the payload is encrypted.
- isDecrypted: Boolean
- The value is true if the ExtraHop system securely decrypted and analyzed the transaction. Decrypted traffic analysis can expose advanced threats that hide within encrypted traffic.
- isNDR64: Boolean | null
- Indicates whether the request or response was transmitted with the NDR64 transfer syntax. If the pduType property is not request or response, the value is null.
- operation: String
- The name of the RPC operation, such as DRSGetNCChanges and ept_map.
- payload: Buffer | null
- The Buffer object containing the body of the request or response. If the pduType property is not request or response, the value is null.
- pduType: String
- The PDU type, which indicates the purpose of the RPC message. The following values are
valid:
- ack
- alter_context
- alter_context_resp
- auth
- bind
- bind_ack
- bind_nak
- cancel_ack
- cl_cancel
- co_cancel
- fack
- fault
- nocall
- orphaned
- ping
- response
- request
- reject
- shutdown
- working
- record: Object
- The record object that can be sent to the configured recordstore through a call
to RPC.commitRecord() on an RPC_REQUEST or
RPC_RESPONSE event.
The default record object can contain the following properties:
- proto
- clientAddr
- serverAddr
- clientPort
- serverPort
- clientBytes
- clientL2Bytes
- clientPkts
- serverBytes
- serverL2Bytes
- serverPkts
- serverRTO
- clientRTO
- clientZeroWnd
- serverZeroWnd
- roundTripTime
- interface
- operation
- reqBytes: Number
- The number of L4 request bytes, excluding L4 headers.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2 headers.
- reqPkts: Number
- The number of request packets.
- reqRTO: Number
- The number of request retransmission timeouts (RTOs).
- reqZeroWnd: Number
- The number of zero windows in the request.
- roundTripTime: Number
- The median TCP round trip time (RTT), expressed in milliseconds. The value is NaN if there are no RTT samples.
- authType: String
- The security type negotiated by the client and server. The following types are
valid:
- DIGEST
- DPA
- GSS_KERBEROS
- GSS_SCHANNEL
- KRB5
- MSN
- MQ
- NONE
- NTLMSSP
- SEC_CHAN
- SPNEGO
Access only on RPC_RESPONSE events; otherwise, an error will occur.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol overhead, such as ACKs, headers, and retransmissions.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead, such as headers.
- rspPkts: Number
- The number of response packets.
- rspRTO: Number
- The number of response retransmission timeouts (RTOs).
- rspZeroWnd: Number
- The number of zero windows in the response.
RTCP
The RTCP class enables you to store metrics and access properties on RTCP_MESSAGE events.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on an
RTCP_MESSAGE event.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- callId: String
- The Call ID for associating with a SIP flow.
- packets: Array
- An array of RTCP packet objects where each object represents a packet and contains a
packetType field. Each object has different fields based on the message type, as
described below.
- packetType: String
- The type of packet. If the packet type is not recognizable, then the
packetType will be "Unknown N" where N is the RTP control
packet type value.
Value Type Name 194 SMPTETC SMPTE time-code mapping 195 IJ Extended inter-arrival jitter report 200 SR sender report 201 RR receiver report 202 SDES source description 203 BYE goodbye 204 APP application-defined 205 RTPFB Generic RTP Feedback 206 PSFB Payload-specific 207 XR extended report 208 AVB AVB RTCP packet 209 RSI Receiver Summary Information 210 TOKEN Port Mapping 211 IDMS IDMS Settings APP packet objects have the following fields:- name: String
- The name chosen by the person defining the set of APP packets to be unique. Interpreted as four case-sensitive ASCII characters.
- ssrc: Number
- The SSRC of the sender.
- value: Buffer
- The optional application-dependent data.
BYE packet objects have the following fields:- packetType: Number
- Contains the number 203 to identify this as an RTCP BYE packet.
SR packet objects have the following fields:- ntpTimestamp: Number
- The NTP timestamp, converted to milliseconds since the epoch (January 1, 1970).
- reportBlocks: Array
- An array of report objects which contain:
- fractionLost: Number
- The 8-bit number indicating the number of packets lost divided by the number of packets expected.
- jitter: Number
- An estimate of the statistical variance of the RTP data packet interarrival time, expressed in milliseconds.
- lastSR: Number
- The middle 32 bits of the ntp_Timestamp received as part of the most recent RTCP sender report (SR) packet from the source SSRC. If no SR has been received yet, this field is set to zero.
- lastSRDelay: Number
- The delay between receiving the last SR packet from the source SSRC and sending this reception block, expressed in units of 1/65536 seconds. If no SR packet has been received yet, this field is set to zero.
- packetsLost: Number
- The total number of RTP data packets from the source SSRC that have been lost since the beginning of reception.
- seqNum: Number
- The highest sequence number received from the source SSRC.
- ssrc: Number
- The SSRC of the sender.
- rtpTimestamp: Number
- The RTP timestamp, converted to milliseconds since the epoch (January 1, 1970).
- senderOctets: Number
- The sender octet count.
- senderPkts: Number
- The sender packet count.
RR packet objects have the following fields:- reportBlocks: Array
- An array of report objects which contain:
- fractionLost: Number
- The 8-bit number indicating the number of packets last divided by the number of packets expected.
- jitter: Number
- An estimate of the statistical variance of the RTP data packet interarrival, expressed in milliseconds.
- lastSR: Number
- The middle 32 bits of the ntp_Timestamp received as part of the most recent RTCP sender report (SR) packet from the source SSRC. If no SR has been received yet, this field is set to zero.
- lastSRDelay: Number
- The delay between receiving the last SR packet from the source SSRC and sending this reception report block, expressed in units of 1/65536 seconds. If no SR packet has been received yet, this field is set to zero.
- packetsLost: Number
- The total number of RTP data packets from the source SSRC that have been lost since the beginning of reception.
- seqNum: Number
- The highest sequence number received from the source SSRC.
- ssrc: Number
- The SSRC of the sender.
- ssrc: Number
- The SSRC of the sender.
SDES packet objects have the following fields:- descriptionBlocks: Array
- An array of objects that contain:
- type: Number
- The SDES type.
SDES Type Abbrev. Name 0 END end of SDES list 1 CNAME canonical name 2 NAME user name 3 EMAIL user's electronic mail address 4 PHONE user's phone number 5 LOC geographic user location 6 TOOL name of application or tool 7 NOTE notice about the source 8 PRIV private extensions 9 H323-C ADDR H.323 callable address 10 APSI Application Specific Identifier - value: Buffer
- A buffer containing the text portion of the SDES packet.
- ssrc: Number
- The SSRC of the sender.
XR packet objects have the following fields:- ssrc: Number
- The SSRC of the sender.
- xrBlocks: Array
- An array of report blocks which contain:
- statSummary: Object
- Type 6 only. The statSummary object contains the
following properties:
- beginSeq: Number
- The beginning sequence number for the interval.
- devJitter: Number
- The standard deviation of the relative transit time between each two packet series in the sequence interval.
- devTTLOrHL: Number
- The standard deviation of TTL or Hop Limit values of data packets in the sequence number range.
- dupPackets: Number
- The number of duplicate packets in the sequence number interval.
- endSeq: Number
- The ending sequence number for the interval.
- lostPackets: Number
- The number of lost packets in the sequence number interval.
- maxJitter: Number
- The maximum relative transmit time between two packets in the sequence interval, expressed in milliseconds.
- maxTTLOrHL: Number
- The maximum TTL or Hop Limit value of data packets in the sequence number range.
- meanJitter: Number
- The mean relative transit time between two packet series in the sequence interval, rounded to the nearest value expressible as an RTP timestamp, expressed in milliseconds.
- meanTTLOrHL: Number
- The mean TTL or Hop Limit value of data packets in the sequence number range.
- minJitter: Number
- The minimum relative transmit time between two packets in the sequence interval, expressed in milliseconds.
- minTTLOrHL: Number
- The minimum TTL or Hop Limit value of data packets in the sequence number range.
- ssrc: Number
- The SSRC of the sender.
- type: Number
- The XR block type.
Block Type Name 1 Loss RTE Report Block 2 Duplicate RLE Report Block 3 Packet Receipt Times Report Block 4 Receiver Reference Time Report Block 5 DLRR Report Block 6 Statistics Summary Report Block 7 VoIP Metrics Report Block 8 RTCP XP 9 Texas Instruments Extended VoIP Quality Block 10 Post-repair Loss RLE Report Block 11 Multicast Acquisition Report Block 12 IBMS Report Block 13 ECN Summary Report 14 Measurement Information Block 15 Packet Delay Variation Metrics Block 16 Delay Metrics Block 17 Burst/Gap Loss Summary Statistics Block 18 Burst/Gap Discard Summary Statistics Block 19 Frame Impairment Statistics Summary 20 Burst/Gap Loss Metrics Block 21 Burst/Gap Discard Metrics Block 22 MPEG2 Transport Stream PSI-Independent
Decodability Statistics Metrics Block
23 De-Jitter Buffer Metrics Block 24 Discard Count Metrics Block 25 DRLE (Discard RLE Report) 26 BDR (Bytes Discarded Report) 27 RFISD (RTP Flows Initial Synchronization Delay) 28 RFSO (RTP Flows Synchronization Offset Metrics Block) 29 MOS Metrics Block 30 LCB (Loss Concealment Metrics Block) 31 CSB (Concealed Seconds Metrics Block) 32 MPEG2 Transport Stream PSI Decodability Statistics Block - typeSpecific: Number
- The contents of this field depend on the block type.
- value: Buffer
- The contents of this field depend on the block type.
- voipMetrics: Object
- Type 7 only. The voipMetrics object contains the
following properties:
- burstDensity: Number
- The fraction of RTP data packets within burst periods since the beginning of reception that were either lost or discarded.
- burstDuration: Number
- The mean duration, expressed in milliseconds, of the burst periods that have occurred since the beginning of reception.
- discardRate: Number
- The fraction of RTP data packets from the source that have been discarded since the beginning of reception, due to late or early arrival, under-run or overflow at the receiving jitter buffer.
- endSystemDelay: Number
- The most recently estimated end system delay, expressed in milliseconds.
- extRFactor: Number
- The external R factor quality metric. A value of 127 indicates this parameter is unavailable.
- gapDensity: Number
- The fraction of RTP data packets within inter-burst gaps since the beginning of reception that were either lost or discarded.
- gapDuration: Number
- The mean duration of the gap periods that have occurred since the beginning of reception, expressed in milliseconds.
- gmin: Number
- The gap threshold.
- jbAbsMax: Number
- The absolute maximum delay, expressed in milliseconds, that the adaptive jitter buffer can reach under worst case conditions.
- jbMaximum: Number
- The current maximum jitter buffer delay, which corresponds to the earliest arriving packet that would not be discarded, expressed in milliseconds.
- jbNominal: Number
- The current nominal jitter buffer delay, which corresponds to the nominal jitter buffer delay for packets that arrive exactly on time, expressed in milliseconds.
- lossRate: Number
- The fraction of RTP data packets from the source lost since the beginning of reception.
- mosCQ: Number
- The estimated mean opinion score for conversational quality (MOS-CQ). A value of 127 indicates this parameter is unavailable.
- mosLQ: Number
- The estimated mean opinion score for listening quality (MOS-LQ). A value of 127 indicates this parameter is unavailable.
- noiseLevel: Number
- The noise level, expressed in decibels.
- rerl: Number
- The residual echo return loss value, expressed in decibels.
- rFactor: Number
- The R factor quality metric. A value of 127 indicates this parameter is unavailable.
- roundTripDelay: Number
- The most recently calculated round trip time (RTT) between RTP interfaces, expressed in milliseconds.
- rxConfig: Number
- The receiver configuration byte.
- signalLevel: Number
- The voice signal relative level, expressed in decibels.
- ssrc: Number
- The SSRC of the sender.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
RTCP.commitRecord() on an RTCP_MESSAGE event.
The default record object can contain the following properties:
- callId
- cName
RTP
The RTP class enables you to store metrics and access properties on RTP_OPEN, RTP_CLOSE, and RTP_TICK events.
Events
- RTP_CLOSE
- Runs when an RTP connection is closed.
- RTP_OPEN
- Runs when a new RTP connection is opened.
- RTP_TICK
- Runs periodically on RTP flows.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on an
RTP_TICK event. Record commits on RTP_OPEN and
RTP_CLOSE events are not supported.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- bytes: Number
- The number of bytes sent.
Access only on RTP_TICK events; otherwise, an error will occur.
- callId: String
-
The call ID associated with the SIP or SCCP flow.
- drops: Number
- The number of dropped packets detected.
Access only on RTP_TICK events; otherwise, an error will occur.
- dups: Number
- The number of duplicate packets detected.
Access only on RTP_TICK events; otherwise, an error will occur.
- jitter: Number
- An estimate of the statistical variance of the data packet interarrival time.
Access only on RTP_TICK events; otherwise, an error will occur.
- l2Bytes: Number
- The number of L2 bytes.
Access only on RTP_TICK events; otherwise, an error will occur.
- mos: Number
- The estimated mean opinion score for quality.
Access only on RTP_TICK events; otherwise, an error will occur.
- outOfOrder: Number
- The number of out-of-order messaged detected.
Access only on RTP_TICK events; otherwise, an error will occur.
- payloadType: String
- The type of RTP payload.
Access only on RTP_TICK events; otherwise, an error will occur.
payloadTypeId payloadType 0 ITU-T G.711 PCMU Audio 3 GSM 6.10 Audio 4 ITU-T G.723.1 Audio 5 IMA ADPCM 32kbit Audio 6 IMA ADPCM 64kbit Audio 7 LPC Audio 8 ITU-T G.711 PCMA Audio 9 ITU-T G.722 Audio 10 Linear PCM Stereo Audio 11 Linear PCM Audio 12 QCELP 13 Comfort Noise 14 MPEG Audio 15 ITU-T G.728 Audio 16 IMA ADPCM 44kbit Audio 17 IMA ADPCM 88kbit Audio 18 ITU-T G.729 Audio 25 Sun CellB Video 26 JPEG Video 28 Xerox PARC Network Video 31 ITU-T H.261 Video 32 MPEG Video 33 MPEG-2 Transport Stream 34 ITU-T H.263-1996 Video - payloadTypeId: Number
- The numeric value of the payload type. See table under
payloadType.
Access only on RTP_TICK events; otherwise, an error will occur.
- pkts: Number
- The number of packets sent.
Access only on RTP_TICK events; otherwise, an error will occur.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
RTP.commitRecord() on an RTP_TICK event.
The default record object can contain the following properties:
- bytes
- callId
- drops
- dups
- jitter
- l2Bytes
- mos
- outOfOrder
- payloadType
- payloadTypeId
- pkts
- rFactor
- ssrc
- version
Access record objects only on RTP_TICK events; otherwise, an error will occur.
- rFactor: Number
- The R factor quality metric.
Access only on RTP_TICK events; otherwise, an error will occur.
- ssrc: Number
- The SSRC of sender.
- version: Number
- The RTP version number.
SCCP
Skinny Client Control Protocol (SCCP) is a Cisco proprietary protocol for communicating with VoIP devices. The SCCP class enables you to store metrics and access properties on SCCP_MESSAGE events.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on an
SCCP_MESSAGE event.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- callId: String
- The call ID associated with the RTP flow.
- callInfo: Object
- An object containing information about the current SCCP called. The object contains
the following fields:
- callReference: Number
- The unique identifier of the call.
- callType: Number
- The ID of the call type.
ID Call Type 1 Inbound 2 Outbound 3 Forward - calledPartyName: String
- The name of the recipient of the call.
- calledPartyNumber: String
- The phone number of the recipient of the call.
- callingPartyName: String
- The name of the caller.
- callingPartyNumber: String
- The phone number of the caller.
- lineInstance: Number
- The unique identifier of the line.
- callStats: Object
- An object containing statistics for the SCCP call, as reported and calculated by the
client. The object contains the following fields:
- reportedBytesIn: Number
- The number of L7 bytes received.
- reportedBytesOut: Number
- The number of L7 bytes sent.
- reportedJitter: Number
- The level of packet jitter, or variation in latency, during the call.
- reportedLatency: Number
- The level of packet latency, expressed in milliseconds, during the call.
- reportedPktsIn: Number
- The number of packets received.
- reportedPktsLost: Number
- The number of packets lost during the call.
- reportedPktsOut: Number
- The number of packets sent.
- msgType: String
- The decoded SCCP message type.
- receiverBytes: Number
- The number of L4 bytes from the receiver.
- receiverL2Bytes: Number
- The number of L2 bytes from the receiver.
- receiverPkts: Number
- The number of packets from the receiver.
- receiverRTO: Number
- The number of retransmission timeouts (RTOs) from the receiver.
- receiverZeroWnd: Number
- The number of zero windows from the receiver.
- record: Object
- The record object that can be sent to the configured recordstore through a call
to SCCP.commitRecord() on an SCCP_MESSAGE event.
The default record object can contain the following properties:
- msgType
- receiverBytes
- receiverL2Bytes
- receiverPkts
- receiverRTO
- receiverZeroWnd
- roundTripTime
- senderBytes
- senderL2Bytes
- senderPkts
- senderRTO
- senderZeroWnd
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is NaN if there are no RTT samples.
- senderBytes: Number
- The number of L4 bytes from the sender.
- senderL2Bytes: Number
- The number of L2 bytes from the sender.
- senderPkts: Number
- The number of packets from the sender.
- senderRTO: Number
- The number of retransmission timeouts (RTOs) from the sender.
- senderZeroWnd: Number
- The number of zero windows from the sender.
SDP
The SDP class enables you to access properties on SIP_REQUEST and SIP_RESPONSE events.
Properties
- mediaDescriptions: Array
- An array of objects that contain the following fields:
- attributes: Array of Strings
- The optional session attributes.
- bandwidth: Array of Strings
- The optional proposed bandwidth type and bandwidth to be consumed by the session or media.
- connectionInfo: String
- The connection data, including network type, address type and connection adddress. May also contain optional sub-fields, depending on the address type.
- description: String
- The session description which may contain one or more media descriptions. Each media description consists of media, port and transport protocol fields.
- encryptionKey: String
- The optional encryption method and key for the session.
- mediaTitle: String
- The title of the media stream.
- sessionDescription: Object
- An object that contains the following fields:
- attributes: Array of Strings
- The optional session attributes.
- bandwidth: Array of Strings
- The optional proposed bandwidth type and bandwidth to be consumed by the session or media.
- connectionInfo: String
- The connection data, including network type, address type and connection address. May also contain optional sub-fields, depending on the address type.
- email: String
- The optional email address. If present, this can contain multiple email addresses.
- encryptionKey: String
- The optional encryption method and key for the session.
- origin: String
- The originator of the session, including username, address of the user's host, a session identifier, and a version number.
- phoneNumber: String
- The optional phone number. If present, this can contain multiple phone numbers.
- sessionInfo: String
- The session description.
- sessionName: String
- The session name.
- timezoneAdjustments: String
- The adjustment time and offset for a scheduled session.
- uri: String
- The optional URI intended to provide more information about the session.
- version: String
- The version number. This should be 0.
- timeDescriptions: Array
- An array of objects that contain the following fields:
- repeatTime: String
- The session repeat time, including interval, active duration, and offsets from start time.
- time: String
- The start time and stop times for a session.
SFlow
The SFlow class object enables you to store metrics and access properties on SFLOW_RECORD events. sFlow is a sampling technology for monitoring traffic in data networks. sFlow samples every nth packet and sends it to the collector whereas NetFlow sends data from every flow to the collector. The primary difference between sFlow and NetFlow is that sFlow is network layer independent and can sample anything.
Methods
- commitRecord(): void
- Sends a flow record object, which indicates the sFlow format, to the configured recordstore
on an SFLOW_RECORD event.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if .commitRecord is called multiple times for the same unique record.
Properties
- deltaBytes: Number
- The number of L3 bytes in the flow packet.
- dscp: Number
- The number representing the last differentiated services code point (DSCP) value of the flow packet.
- dscpName: String
- The name associated with the DSCP value transmitted by a device in the flow. The
following table displays well-known DSCP names:
Number Name 8 CS1 10 AF11 12 AF12 14 AF13 16 CS2 18 AF21 20 AF22 22 AF23 24 CS3 26 AF31 28 AF32 30 AF33 32 CS4 34 AF41 36 AF42 38 AF43 40 CS5 44 VA 46 EF 48 CS6 56 CS7 - egressInterface: FlowInterface
- The FlowInterface object that identifies the output interface.
- format: String
- The format of the SFlow record. Valid value is "sFlow v5".
- headerData: Buffer
- The Buffer object containing the raw bytes of the entire flow packet header.
- ingressInterface: FlowInterface
- The FlowInterface object that identifies the input interface.
- ipPrecedence: Number
- The value of the IP precedence field associated with the DSCP of the flow packet.
- ipproto: String
- The IP protocol associated with the flow, such as TCP or UDP.
- network: FlowNetwork
- Returns a FlowNetwork object that identifies the
exporter and contains the following properties:
- id: String
- The identifier of the FlowNetwork.
- ipaddr: IPAddress
- The IP address of the FlowNetwork.
- record: Object
- The flow record object that can be sent to the configured recordstore through a call
to SFlow.commitRecord() on an SFLOW_RECORD
event.
The default record object can contain the following properties:
- deltaBytes
- dscpName
- egressInterface
- format
- ingressInterface
- ipPrecedence
- ipproto
- network
- networkAddr
- tcpFlagName
- tcpFlags
- tcpFlagNames: Array
- A string array of TCP flag names, such as SYN or ACK, found in the flow packets.
- tcpFlags: Number
- The bitwise OR of all TCP flags set on the flow.
- tos: Number
- The type of service (ToS) number defined in the IP header.
SIP
The SIP class enables you to store metrics and access properties on SIP_REQUEST and SIP_RESPONSE events.
Events
- SIP_REQUEST
- Runs on every SIP request processed by the device.
- SIP_RESPONSE
- Runs on every SIP response processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on either a
SIP_REQUEST or SIP_RESPONSE event.
The event determines which properties are committed to the record object. To view the default properties committed for each event, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
- findHeaders(name: String): Array
- Enables access to SIP header values. The result is an array of header objects (with name and value properties) where the names match the prefix of the string passed to findHeaders.
Properties
- callId: String
- The call ID for this message.
- from: String
- The contents of the From header.
- hasSDP: Boolean
- The value is true if this event includes SDP information.
- headers: Object
- An array-like object that enables access to SIP header names and values. Access a
specific header with one of the following methods:
- string property:
- The name of the header, accessible in a dictionary-like fashion. For
example:
var headers = SIP.headers; session = headers["X-Session-Id"]; accept = headers.accept;
- numeric property:
- The order in which headers appear on the wire. The returned object has a name
and a value property. Numeric properties are useful for iterating over all the
headers and disambiguating headers with duplicate names. For
example:
for (i = 0; i < headers.length; i++) { hdr = headers[i]; debug("headers[" + i + "].name: " + hdr.name); debug("headers[" + i + "].value: " + hdr.value); }
Note: Saving SIP.headers to the Flow store does not save all of the individual header values. It is best practice to save the individual header values to the Flow store.
- method: String
- The SIP method.
Method Name Description ACK Confirms the client has received a final response to an INVITE request. BYE Terminates a call. Can be sent by either the caller or the callee. CANCEL Cancels any pending request INFO Sends mid-session information that doesn't change the session state. INVITE Invites a client to participate in a call session. MESSAGE Transports instant messages using SIP. NOTIFY Notify the subscriber of a new event. OPTIONS Queries the capabilities of servers. PRACK Provisional acknowledgment. PUBLISH Publish an event to the server. REFER Ask recipient to issue a SIP request (call transfer). REGISTER Registers the address listed in the To header field with a SIP server. SUBSCRIBE Subscribes for an event of Notification from the Notifier. UPDATE Modifies the state of a session without changing the state of the dialog. - processingTime: Number
- The time between the request and the first response, expressed in milliseconds. The
value is NaN on malformed and aborted
responses or if the timing is invalid.
Access only on SIP_RESPONSE events; otherwise, an error will occur.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
SIP.commitRecord() on either a SIP_REQUEST or
SIP_RESPONSE event.
The event on which the method was called determines which properties the default record object can contain as displayed in the following table:
SIP_REQUEST SIP_RESPONSE callId callId clientZeroWnd clientZeroWnd from from hasSDP hasSDP method processingTime reqBytes roundTripTime reqL2Bytes rspBytes reqPkts rspL2Bytes reqRTO rspPkts reqSize rspRTO serverZeroWnd rspSize to serverZeroWnd uri statusCode to - reqBytes: Number
- The number of L4 request bytes, excluding L4 headers.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2 headers.
- reqPkts: Number
- The number of request packets.
- reqRTO: Number
- The number of request retransmission timeouts (RTOs).
- reqSize: Number
- The number of L7 request bytes, excluding SIP headers.
Access only on SIP_REQUEST events; otherwise, an error will occur.
- reqZeroWnd: Number
- The number of zero windows in the request.
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is NaN if there are no RTT samples.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol overhead, such as ACKs, headers, and retransmissions.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead, such as headers.
- rspPkts: Number
- The number of response packets.
- rspRTO: Number
- The number of response retransmission timeouts (RTOs).
- rspSize: Number
- The number of L7 response bytes, excluding SIP headers.
Access only on SIP_RESPONSE events; otherwise, an error will occur.
- rspZeroWnd: Number
- The number of zero windows in the response.
- statusCode: Number
- The SIP response status code.
Access only on SIP_RESPONSE events; otherwise, an error will occur.
The following table displays provisional responses:
Number Response 100 Trying 180 Ringing 181 Call is Being Forwarded 182 Queued 183 Session In Progress 199 Early Dialog Terminated The following table displays successful responses:
Number Response 200 OK 202 Accepted 204 No Notification The following table displays redirection responses:
Number Response 300 Multiple Choice 301 Moved Permanently 302 Moved Temporarily 305 Use Proxy 380 Alternative Service The following table displays client failure responses:
Number Response 400 Bad Request 401 Unauthorized 402 Payment Required 403 Forbidden 404 Not Found 405 Method Not Allowed 406 Not Acceptable 407 Proxy Authentication Required 408 Request Timeout 409 Conflict 410 Gone 411 Length Required 412 Conditional Request Failed 413 Request Entity Too Large 414 Request URI Too Long 415 Unsupported Media Type 416 Unsupported URI Scheme 417 Unknown Resource Priority 420 Bad Extension 421 Extension Required 422 Session Interval Too Small 423 Interval Too Brief 424 Bad Location Information 428 Use Identity Header 429 Provide Referrer Identity 430 Flow Failed 433 Anonymity Disallowed 436 Bad Identity Info 437 Unsupported Certificate 438 Invalid Identity Header 439 First Hop Lacks Outbound Support 470 Consent Needed 480 Temporarily Unavailable 481 Call/Transaction Does Not Exist 482 Loop Detected 483 Too Many Hops 484 Address Incomplete 485 Ambiguous 486 Busy Here 487 Request Terminated 488 Not Acceptable Here 489 Bad Event 491 Request Pending 493 Undecipherable 494 Security Agreement Required The following table displays server failure responses:
Number Response 500 Server Internal Error 501 Not Implemented 502 Bad Gateway 503 Service Unavailable 504 Server Timeout 505 Version Not Supported 513 Message Too Large 580 Precondition Failure The following table displays global failure responses:
Name Response 600 Busy Everywhere 603 Decline 604 Does Not Exist Anywhere 606 Not Acceptable - to: String
- The contents of the To header.
- uri: String
- The URI for SIP request or response.
SLP
The SLP class enables you to store metrics and access properties on SLP_MESSAGE events.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on an
SLP_MESSAGE event.
To view the default properties committed, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same record.
Properties
- functionId: Number
- The numeric function ID of the SLP message, which corresponds to the message type string.
- msgType: String
- The SLP message type string, which corresponds to the numeric function ID as
shown in the following table:
Message Type Function ID Service Request 1 Service Reply 2 Service Registration 3 Service Deregister 4 Service Acknowledge 5 Attribute Request 6 Attribute Reply 7 DA Advertisement 8 Service Type Request 9 Service Type Reply 10 SA Advertisement 11 - record: Object
- The record object that can be sent to the configured recordstore through a
call to SLP.commitRecord() on an SLP_MESSAGE event. The
default record object can contain the following properties:
- functionId
- msgType
- scopeList
- scopeList: String | null
- The scope for the SLP message, in a comma-separated list.
SMPP
The SMPP class enables you to store metrics and access properties on SMPP_REQUEST and SMPP_RESPONSE events.
Note: | The mdn, shortcode, and error properties may be null, depending on availability and relevance. |
Events
- SMPP_REQUEST
- Runs on every SMPP request processed by the device.
- SMPP_RESPONSE
- Runs on every SMPP response processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on a
SMPP_RESPONSE event. Record commits on SMPP_REQUEST
events are not supported.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- command: String
- The SMPP command ID.
- destination: String
- The destination address as specified in the SMPP_REQUEST. The value is null if this is not available for the current command type.
- error: String
- The error code corresponding to command_status. If the command status is ROK, the
value is null.
Access only on SMPP_RESPONSE events; otherwise, an error will occur.
- message: Buffer
- The contents of the short_message field on DELIVER_SM and SUBMIT_SM messages. The
value is null if unavailable or not applicable.
Access only on SMPP_REQUEST events; otherwise, an error will occur.
- processingTime: Number
- The server processing time, expressed in milliseconds. Equivalent to
rspTimeToFirstByte - reqTimeToLastByte. The value is
NaN on malformed and aborted responses or
if the timing is invalid.
Access only on SMPP_RESPONSE events; otherwise, an error will occur.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
SMPP.commitRecord() on a SMPP_RESPONSE event.
The default record object can contain the following properties:
- clientZeroWnd
- command
- destination
- error
- reqSize
- reqTimeToLastByte
- rspSize
- rspTimeToFirstByte
- rspTimeToLastByte
- serverZeroWnd
- source
- processingTime
- reqSize: Number
- The number of L7 request bytes, excluding SMPP headers.
- reqTimeToLastByte: Number
- The time from the first byte of the request until the last byte of the request, expressed in milliseconds. The value is NaN on malformed and aborted requests, or if the timing is invalid.
- rspSize: Number
- The number of L7 response bytes, excluding SMPP headers.
Access only on SMPP_RESPONSE events; otherwise, an error will occur.
- rspTimeToFirstByte: Number
- The time from the first byte of the request until the first byte of the response,
expressed in milliseconds. The value is NaN
on malformed and aborted responses, or if the timing is invalid.
Access only on SMPP_RESPONSE events; otherwise, an error will occur.
- rspTimeToLastByte: Number
- The time from the first byte of the request until the last byte of the response,
expressed in milliseconds. The value is NaN
on malformed and aborted responses, or if the timing is invalid.
Access only on SMPP_RESPONSE events; otherwise, an error will occur.
- source: String
- The source address as specified in the SMPP_REQUEST. The value is null if this is not available for the current command type.
SMTP
The SMTP class enables you to store metrics and access properties on SMTP_REQUEST and SMTP_RESPONSE events.
Events
- SMTP_OPEN
- Runs on every SMTP greeting processed by the device.
- SMTP_REQUEST
- Runs on every SMTP request processed by the device.
- SMTP_RESPONSE
- Runs on every SMTP response processed by the device.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on a
SMTP_RESPONSE event. Record commits on SMTP_REQUEST
events are not supported.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- dataSize: Number
- The size of the attachment, expressed in bytes.
- domain: String
- The domain of the address the message is coming from.
- error: String
- The error code corresponding to status code.
Access only on SMTP_RESPONSE events; otherwise, an error will occur.
- headers: Object
- An object that enables access to SMTP header names and values.
The value of the headers property is the same when accessed on either the SMTP_REQUEST or the SMTP_RESPONSE event.
- isEncrypted: Boolean
- The value is true if the application is encrypted with STARTTLS.
- isReqAborted: Boolean
- The value is true if the connection is closed before the SMTP request is complete.
- isRspAborted: Boolean
- The value is true if the connection is closed before the SMTP
response is complete.
Access only on SMTP_RESPONSE events; otherwise, an error will occur.
- method: String
- The SMTP method.
- processingTime: Number
- The server processing time, expressed in milliseconds. Equivalent to
rspTimeToFirstByte - reqTimeToLastByte. The value is
NaN on malformed and aborted responses or
if the timing is invalid.
Access only on SMTP_RESPONSE events; otherwise, an error will occur.
- recipientList: Array of Strings
- A list of recipient addresses.
The value of the recipientList property is the same when accessed on either the SMTP_REQUEST or the SMTP_RESPONSE event.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
SMTP.commitRecord() on a SMTP_RESPONSE event.
The default record object can contain the following properties:
- clientZeroWnd
- dataSize
- domain
- error
- isEncrypted
- isReqAborted
- isRspAborted
- method
- processingTime
- recipient
- recipientList
- reqBytes
- reqL2Bytes
- reqPkts
- reqRTO
- reqSize
- reqTimeToLastByte
- roundTripTime
- rspBytes
- rspL2Bytes
- rspPkts
- rspRTO
- rspSize
- rspTimeToFirstByte
- rspTimeToLastByte
- sender
- serverZeroWnd
- statusCode
- statusText
Access the record object only on SMTP_RESPONSE events; otherwise, an error will occur.
- reqBytes: Number
- The number of L4 request bytes, excluding L4 headers.
- reqL2Bytes: Number
- The number of L2 request bytes, including L2 headers.
- reqPkts: Number
- The number of request packets.
- reqRTO: Number
- The number of request retransmission timeouts (RTOs).
- reqSize: Number
- The number of L7 request bytes, excluding SMTP headers.
- reqTimeToLastByte: Number
- The time from the first byte of the request until the last byte of the request, expressed in milliseconds. The value is NaN on malformed and aborted requests, or if the timing is invalid.
- reqZeroWnd: Number
- The number of zero windows in the request.
- roundTripTime: Number
- The median TCP round trip time (RTT), expressed in milliseconds. The value is NaN if there are no RTT samples.
- rspBytes: Number
- The number of L4 response bytes, excluding L4 protocol overhead, such as ACKs, headers, and retransmissions.
- rspL2Bytes: Number
- The number of L2 response bytes, including protocol overhead, such as headers.
- rspPkts: Number
- The number of response packets.
- rspRTO: Number
- The number of response retransmission timeouts (RTOs).
- rspSize: Number
- The number of L7 response bytes, excluding SMTP headers.
Access only on SMTP_RESPONSE events; otherwise, an error will occur.
- rspTimeToFirstByte: Number
- The time from the first byte of the request until the first byte of the response,
expressed in milliseconds. The value is NaN
on malformed and aborted responses, or if the timing is invalid.
Access only on SMTP_RESPONSE events; otherwise, an error will occur.
- rspTimeToLastByte: Number
- The time from the first byte of the request until the last byte of the response,
expressed in milliseconds. The value is NaN
on malformed and aborted responses, or if the timing is invalid.
Access only on SMTP_RESPONSE events; otherwise, an error will occur.
- rspZeroWnd: Number
- The number of zero windows in the response.
- sender: String
- The sender of the message.
- statusCode: Number
- The SMTP status code of the response or greeting.
Access only on SMTP_RESPONSE or SMTP_OPEN events; otherwise, an error will occur.
- statusText: String
- The multi-line response or greeting string.
Access only on SMTP_RESPONSE or SMTP_OPEN events; otherwise, an error will occur.
SSH
Secure Socket Shell (SSH) is a network protocol that provides a secure method for remote login and other network services over an unsecured network. The SSH class object enables you to store metrics and access properties on SSH_CLOSE, SSH_OPEN and SSH_TICK events.
Events
- SSH_CLOSE
- Runs when the SSH connection is shut down by being closed, expired, or aborted.
- SSH_OPEN
- Runs when the SSH connection is first fully established after session information is
negotiated.
If a connection closes before SSH_OPEN has run, SSH_OPEN, SSH_TICK, and SSH_CLOSE will run in immediate succession.
- SSH_TICK
- Runs periodically on SSH flows.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on either an
SSH_OPEN, SSH_CLOSE, or SSH_TICK
event.
The event determines which properties are committed to the record object. To view the properties committed for each event, see the record property below.
For built-in records, each unique record is committed only once, even if .commitRecord is called multiple times for the same unique record.
Properties
- clientBytes: Number
- Upon an SSH_CLOSE event, the incremental number of application-level client bytes observed since the last SSH_TICK event. Does not specify the total number of bytes for the session.
- clientCipherAlgorithm: String
- The encryption cipher algorithm on the SSH client.
- clientCompressionAlgorithm: String
- The compression algorithm applied to data transferred over the connection by the SSH client.
- clientCompressionAlgorithmsClientToServer: String
- The compression algorithms that the SSH client supports for client to server communications.
- clientCompressionAlgorithmsServerToClient: String
- The compression algorithms that the SSH client supports for server to client communications.
- clientEncryptionAlgorithmsClientToServer: String
- The encryption algorithms that the SSH client supports for client to server communications.
- clientEncryptionAlgorithmsServerToClient: String
- The encryption algorithms that the SSH client supports for server to client communications.
- clientImplementation: String
- The SSH implementation installed on the client, such as OpenSSH or PUTTY.
- clientKexAlgorithms: String
- The SSH key exchange algorithms that the client supports.
- clientL2Bytes: Number
- The incremental number of L2 client bytes observed since the
last SSH_TICK event. Does not specify the total number of bytes for the
session.
Access only on SSH_CLOSE and SSH_TICK events; otherwise, an error will occur.
- clientMacAlgorithm: String
- The Method Authentication Code (MAC) algorithm on the SSH client.
- clientMacAlgorithmsClientToServer: String
- The Method Authentication Code (MAC) algorithms that the SSH client supports for client to server communications.
- clientMacAlgorithmsServerToClient: String
- The Method Authentication Code (MAC) algorithms that the SSH client supports for server to client communications.
- clientPkts: Number
- The incremental number of client packets observed since the last
SSH_TICK event. Does not specify the total number of packets for the
session.
Access only on SSH_CLOSE and SSH_TICK events; otherwise, an error will occur.
- clientRTO: Number
- The incremental number of client retransmission
timeouts (RTOs) observed since the last SSH_TICK event. Does
not specify the total number of RTOs for the session.
Access only on SSH_CLOSE and SSH_TICK events; otherwise, an error will occur.
- clientVersion: String
- The version of SSH on the client.
- clientZeroWnd: Number
- The number of zero windows sent by the client.
Access only on SSH_OPEN, SSH_CLOSE, or SSH_TICK events; otherwise, an error will occur.
- duration: Number
- The duration, expressed in milliseconds, of the SSH connection.
Access only on SSH_CLOSE events; otherwise, an error will occur.
- hasshAlgorithms: String
- A string containing the SSH key exchange, encryption, message authentication, and compression algorithms that the client supports for SSH communications. These algorithms are communicated in the SSH_MSG_KEXINIT packet sent at the start of an SSH connection.
- hassh: String
- An MD5 hash of the hasshAlgorithms string.
- hasshServerAlgorithms: String
- A string containing the SSH key exchange, encryption, message authentication, and compression algorithms that the server supports for SSH communications. These algorithms are communicated in the SSH_MSG_KEXINIT packet sent at the start of an SSH connection.
- hasshServer: String
- An MD5 hash of the hasshServerAlgorithms string.
- kexAlgorithm: String
- The Key Exchange (Kex) algorithm on the SSH connection.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
SSH.commitRecord() on either an SSH_OPEN,
SSH_CLOSE, or SSH_TICK event.
The event on which the method was called determines which properties the default record object can contain as displayed in the following table:
SSH_TICK SSH_OPEN SSH_CLOSE clientCipherAlgorithm clientCipherAlgorithm clientCipherAlgorithm clientCompressionAlgorithm clientCompressionAlgorithm clientCompressionAlgorithm clientImplementation clientImplementation clientImplementation clientMacAlgorithm clientMacAlgorithm clientMacAlgorithm clientVersion clientVersion clientVersion clientZeroWnd clientZeroWnd clientZeroWnd kexAlgorithm kexAlgorithm kexAlgorithm serverCipherAlgorithm serverCipherAlgorithm serverCipherAlgorithm serverCompressionAlgorithm serverCompressionAlgorithm serverCompressionAlgorithm serverImplementation serverImplementation serverImplementation serverMacAlgorithm serverMacAlgorithm serverMacAlgorithm serverVersion serverVersion serverVersion serverZeroWnd serverZeroWnd serverZeroWnd duration - roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is NaN if there are no RTT samples.
- serverBytes: Number
- The incremental number of application-level server bytes observed since the last
SSH_TICK event. Does not specify the total number of bytes for the
session.
Access only on SSH_CLOSE and SSH_TICK events; otherwise, an error will occur.
- serverCipherAlgorithm: String
- The encryption cipher algorithm on the SSH server.
- serverCompressionAlgorithm: String
- Returns the type of compression applied to data transferred over the connection by the SSH server.
- serverCompressionAlgorithmsClientToServer: String
- The compression algorithms that the SSH server supports for client to server communications.
- serverCompressionAlgorithmsServerToClient: String
- The compression algorithms that the SSH server supports for server to client communications.
- serverEncryptionAlgorithmsClientToServer: String
- The encryption algorithms that the SSH server supports for client to server communications.
- serverEncryptionAlgorithmsServerToClient: String
- The encryption algorithms that the SSH server supports for server to client communications.
- serverHostKey: String
- The base64 encoding of the public SSH key sent from the server to the client.
- serverHostKeyType: String
- The type of public SSH key sent from the server to the client, such as ssh-rsa or ssh-ed25519.
- serverImplementation: String
- The SSH implementation installed on the server, such as OpenSSH or PUTTY.
- serverKexAlgorithms: String
- The SSH key exchange algorithms that the server supports.
- serverL2Bytes: Number
- The incremental number of L2 server bytes observed since the
last SSH_TICK event. Does not specify the total number of bytes for the
session.
Access only on SSH_CLOSE and SSH_TICK events; otherwise, an error will occur.
- serverMacAlgorithm: String
- The Method Authentication Code (MAC) algorithm on the SSH server.
- serverMacAlgorithmsClientToServer: String
- The Method Authentication Code (MAC) algorithms that the SSH server supports for client to server communications.
- serverMacAlgorithmsServerToClient: String
- The Method Authentication Code (MAC) algorithms that the SSH server supports for server to client communications.
- serverPkts: Number
- The incremental number of server packets observed since the last
SSH_TICK event. Does not specify the total number of packets for the
session.
Access only on SSH_CLOSE and SSH_TICK events; otherwise, an error will occur.
- serverRTO: Number
- The incremental number of server retransmission
timeouts (RTOs) observed since the last SSH_TICK event. Does
not specify the total number of RTOs for the session.
Access only on SSH_CLOSE and SSH_TICK events; otherwise, an error will occur.
- serverVersion: String
- The version of SSH on the server.
- serverZeroWnd: Number
- The number of zero windows sent by the server.
Access only on SSH_OPEN, SSH_CLOSE, or SSH_TICK events; otherwise, an error will occur.
SSL
The SSL class enables you to store metrics and access properties on SSL_OPEN, SSL_CLOSE, SSL_ALERT, SSL_RECORD, SSL_HEARTBEAT, and SSL_RENEGOTIATE events.
Events
- SSL_ALERT
- Runs when an SSL alert record is exchanged.
- SSL_CLOSE
- Runs when the SSL connection is shut down.
- SSL_HEARTBEAT
- Runs when an SSL heartbeat record is exchanged.
- SSL_OPEN
- Runs when the SSL connection is first established.
- SSL_PAYLOAD
- Runs when the decrypted SSL payload matches the criteria configured in the associated
trigger.
Depending on the flow, the payload can be found in the following properties:
- Flow.payload1
- Flow.payload2
- Flow.client.payload
- Flow.server.payload
- Flow.sender.payload
- Flow.receiver.payload
Additional payload options are available when you create a trigger that runs on this event. See Advanced trigger options for more information.
- SSL_RECORD
- Runs when an SSL record is exchanged.
- SSL_RENEGOTIATE
- Runs on SSL renegotiation.
Methods
- addApplication(name: String): void
- Associates an SSL session with the named application to collect SSL metric data about
the session. For example, you might call SSL.addApplication() to
associate SSL certificate data in an application.
After an SSL session is associated with an application, that pairing is permanent for the lifetime of the session.
Call only on SSL_OPEN events; otherwise, an error will occur.
- commitRecord(): void
- Sends a record to the configured recordstore only on
SSL_ALERT, SSL_CLOSE,
SSL_HEARTBEAT, SSL_OPEN, or
SSL_RENEGOTIATE events. Record commits on
SSL_PAYLOAD and SSL_RECORD events are not supported.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
- getClientExtensionData(extension_name | extension_id): Buffer
- Returns the data for the specified extension if the extension was passed as part of
the Hello message from the client. Returns null if the message does not
contain data.
Call only on SSL_OPEN and SSL_RENEGOTIATE events; otherwise, an error will occur.
- getServerExtensionData(extension_name | extension_id): Buffer
- Returns data for the specified extension if the extension was passed as part of the
Hello message from the server. Returns null if the
message does not contain data.
Call only on SSL_OPEN and SSL_RENEGOTIATE events; otherwise, an error will occur.
- hasClientExtension(extension_name | extension_id): boolean
- Returns true for the specified extension if the extension was passed
as part of the Hello message from the client.
Call only on SSL_OPEN and SSL_RENEGOTIATE events; otherwise, an error will occur.
- hasServerExtension(extension_name | extension_id): boolean
- Returns true for the specified extension if the extension was passed
as part of the Hello message from the server.
Call only on SSL_OPEN and SSL_RENEGOTIATE events; otherwise, an error will occur.
The following table provides a list of known SSL extensions.
ID | Name |
---|---|
0 | server_name |
1 | max_fragment_length |
2 | client_certificate_url |
3 | trusted_ca_keys |
4 | truncated_hmac |
5 | status_request |
6 | user_mapping |
7 | client_authz |
8 | server_authz |
9 | cert_type |
10 | supported_groups |
11 | ec_point_formats |
12 | srp |
13 | signature_algorithms |
14 | use_srtp |
15 | heartbeat |
16 | application_layer_protocol_negotiation |
17 | status_request_v2 |
18 | signed_certificate_timestamp |
19 | client_certificate_type |
20 | server_certificate_type |
27 | compress_certificate |
28 | record_size_limit |
29 | pwd_protect |
30 | pwd_clear |
31 | password_salt |
35 | session_ticket |
41 | pre_shared_key |
42 | early_data |
43 | supported_versions |
44 | cookie |
45 | psk_key_exchange_modes |
47 | certificate_authorities |
48 | oid_filters |
49 | post_handshake_auth |
50 | signature_algorithms_cert |
51 | key_share |
65281 | renegotiation_info |
65486 | encrypted_server_name |
The following extensions are sent out by applications to test whether servers can handle unknown extensions. For more information about these extensions, see Applying GREASE to TLS Extensibility.
- 2570
- 6682
- 10794
- 14906
- 19018
- 23130
- 27242
- 31354
- 35466
- 39578
- 43690
- 47802
- 51914
- 56026
- 60138
- 64250
Properties
- alertCode: Number
- The numeric representation of the SSL alert. The following table displays the possible
SSL alerts, which are defined in the AlertDescription data structure in
RFC 2246:
Alert Number close_notify 0 unexpected_message 10 bad_record_mac 20 decryption_failed 21 record_overflow 22 decompression_failure 30 handshake_failure 40 bad_certificate 42 unsupported_certificate 43 certificate_revoked 44 certificate_expired 45 certificate_unknown 46 illegal_parameter 47 unknown_ca 48 access_denied 49 decode_error 50 decrypt_error 51 export_restriction 60 protocol_version 70 insufficient_security 71 internal_error 80 user_canceled 90 no_renegotiation 100 If the session is opaque, the value is SSL.ALERT_CODE_UNKNOWN (null).
Access only on SSL_ALERT events; otherwise, an error will occur.
- alertCodeName: String
- The name of the SSL alert associated with the alert code. See the
alertCode property for alert names associated with alert codes. The
value is null if no name is available for the associated alert
code.
Access only on SSL_ALERT events; otherwise, an error will occur.
- alertLevel: Number
- The numeric representation of the SSL alert level. The following possible alert levels
are defined in the AlertLevel data structure in RFC 2246:
- warning (1)
- fatal (2)
If the session is opaque, the value is SSL.ALERT_LEVEL_UNKNOWN (null).
Access only on SSL_ALERT events; otherwise, an error will occur.
- certificate: SSLCert
- The SSL server certificate object associated with the communication. Each object
contains the following properties:
- fingerprint: String
- The hexadecimal representation of the SHA-1 hash of the certificate. The string
contains no delimiters, as shown in the following
example:
55F30E6D49E19145CF680E8B7E3DC8FC7041DC81
The SHA-1 certificate hash appears in the server certificate dialog box of most browsers.
- fingerprintSHA256: String
- The hexadecimal representation of the SHA-256 hash of the certificate. The
string contains no delimiters, as shown in the following
example:
468C6C84DB844821C9CCB0983C78D1CC05327119B894B5CA1C6A1318784D3675
The SHA-256 certificate hash appears in the server certificate dialog box of most browsers.
- keySize: Number
- The key size of the server certificate.
- isSelfSigned: Boolean
- The value is true if the server certificate is self-signed.
- issuer: String
- The common name of the server certificate issuer. The value is null if the issuer is not available.
- notAfter: Number
- The expiration time of the server certificate, expressed in UTC.
- notBefore: Number
- The start time of the server certificate, expressed in UTC. The server certificate is not valid before this time.
- publicKeyCurveName: String
- The name of the standard elliptic curve that the cryptography of the public key is based on. This value is determined by the OID or explicit curve parameters specified in the certificate.
- publicKeyExponent: String
- A string hex representation of the public key exponent. The string is shown in the client certificate dialog box of most browsers, but without spaces.
- publicKeyHasExplicitCurve: Boolean
- Indicates whether the certificate specifies explicit parameters for the elliptic curve of the public key.
- publicKeyModulus: String
- A string hex representation of the public key modulus. The string is shown in the client certificate dialog box of most browsers, but without space, such as 010001
- serial: String
- The serial number assigned to the certificate by the Certificate Authority (CA).
- signatureAlgorithm: String
- The algorithm applied to sign the server certificate. The following table
displays some of the possible values:
RFC Algorithm RFC 3279 - md2WithRSAEncryption
- md5WithRSAEncryption
- sha1WithRSAEncryption
RFC 4055 - sha224WithRSAEncryption
- sha256WithRSAEncryption
- sha384WithRSAEncryption
- sha512WithRSAEncryption
RFC 4491 - id-GostR3411-94-with-Gost3410-94
- id-GostR3411-94-with-Gost3410-2001
- subject: String
- The subject common name (CN) of the server certificate.
- subjectAlternativeNames: Array
- An array of strings that correspond to Subject Alternative Names (SANs) included in the certificate. Supported SANs are DNS name, email address, and URI.
- subjectDistinguishedName: Object
- An object that contains information about the distinguished name of the
certificate subject. Each object contains the following properties:
- commonName: String
- The common name (CN).
- country: Array of Strings
- The country name (C).
- emailAddress String
- The email address.
- organization: Array of Strings
- The organization name (O).
- organizationalUnit: Array of Strings
- The organizational unit name (OU).
- locality: Array of Strings
- The locality name (L).
- stateOrProvince: Array of Strings
- The state or province name (ST).
- issuerDistinguishedName: Object
- An object that contains information about the distinguished name of the
certificate issuer. Each object contains the following properties:
- commonName: String
- The common name (CN).
- country: Array of Strings
- The country name (C).
- emailAddress String
- The email address.
- organization: Array of Strings
- The organization name (O).
- organizationalUnit: Array of Strings
- The organizational unit name (OU).
- locality: Array of Strings
- The locality name (L).
- stateOrProvince: Array of Strings
- The state or province name (ST).
- certificates: Array of Objects
- An array of certificate objects for each intermediate SSL certificate. The end-entity certificate, also known as the leaf certificate, is the first object in the array; this object is also returned by the certificate property.
- cipherSuite: String
- A string representing the cryptographic cipher suite negotiated between the server and the client.
- cipherSuitesSupported: Array of Objects
- An array of objects with the following properties that specify the cipher suites
supported by the SSL client:
- name: String
- The name of cipher suite.
- type: Number
- The cipher suite number.
Access only on SSL_OPEN or SSL_RENEGOTIATE events; otherwise, an error will occur.
- cipherSuiteType: Number
- The numeric value that represents the cryptographic cipher suite negotiated between the server and the client. Possible values are defined by the IANA TLS Cipher Suite Registry.
- clientBytes: Number
- The number of bytes sent by the client since the last SSL_RECORD
event.
Access only on SSL_RECORD or SSL_CLOSE events; otherwise, an error will occur.
- clientCertificate: SSLCert
- The SSL client certificate object associated with the communication. Each object
contains the following properties:
- fingerprint: String
- The hexadecimal representation of the SHA-1 hash of the client certificate. The
string contains no delimiters, as shown in the following
example:
55F30E6D49E19145CF680E8B7E3DC8FC7041DC81
- fingerprintSHA256: String
- The hexadecimal representation of the SHA-256 hash of the client certificate.
The string contains no delimiters, as shown in the following
example:
468C6C84DB844821C9CCB0983C78D1CC05327119B894B5CA1C6A1318784D3675
- keySize: Number
- The key size of the client certificate.
- isSelfSigned: Boolean
- The value is true if the client certificate is self-signed.
- issuer: String
- The common name of the server certificate issuer. The value is null if the issuer is not available.
- notAfter: Number
- The expiration time of the client certificate, expressed in UTC.
- notBefore: Number
- The start time of the client certificate, expressed in UTC. The client certificate is not valid before this time.
- publicKeyCurveName: String
- The name of the standard elliptic curve that the cryptography of the public key is based on. This value is determined by the OID or explicit curve parameters specified in the certificate.
- publicKeyExponent: String
- A string hex representation of the public key exponent.
- publicKeyHasExplicitCurve: Boolean
- Indicates whether the certificate specifies explicit parameters for the elliptic curve of the public key.
- publicKeyModulus: String
- A string hex representation of the public key modulus, such as 010001.
- signatureAlgorithm: String
- The algorithm applied to sign the client certificate. The following table
displays some of the possible values:
RFC Algorithm RFC 3279 - md2WithRSAEncryption
- md5WithRSAEncryption
- sha1WithRSAEncryption
RFC 4055 - sha224WithRSAEncryption
- sha256WithRSAEncryption
- sha384WithRSAEncryption
- sha512WithRSAEncryption
RFC 4491 - id-GostR3411-94-with-Gost3410-94
- id-GostR3411-94-with-Gost3410-2001
- subject: String
- The subject common name (CN) of the client certificate.
- subjectAlternativeNames: Array
- An array of strings that correspond to Subject Alternative Names (SANs) included in the client certificate. Supported SANs are DNS name, email address, and URI.
- subjectDistinguishedName: Object
- An object that contains information about the distinguished name of the
certificate subject. Each object contains the following properties:
- commonName: String
- The common name (CN).
- country: Array of Strings
- The country name (C).
- emailAddress String
- The email address.
- organization: Array of Strings
- The organization name (O).
- organizationalUnit: Array of Strings
- The organizational unit name (OU).
- locality: Array of Strings
- The locality name (L).
- stateOrProvince: Array of Strings
- The state or province name (ST).
- issuerDistinguishedName: Object
- An object that contains information about the distinguished name of the
certificate issuer. Each object contains the following properties:
- commonName: String
- The common name (CN).
- country: Array of Strings
- The country name (C).
- emailAddress String
- The email address.
- organization: Array of Strings
- The organization name (O).
- organizationalUnit: Array of Strings
- The organizational unit name (OU).
- locality: Array of Strings
- The locality name (L).
- stateOrProvince: Array of Strings
- The state or province name (ST).
- clientCertificates: Array of Objects
- An array of certificate objects for each intermediate SSL client certificate. The end-entity certificate, also known as the leaf certificate, is the first object in the array; this object is also returned by the clientCertificate property.
- clientCertificateRequested: Boolean
- The value is true if the SSL server requested a client
certificate.
Access only on SSL_OPEN, SSL_ALERT, or SSL_RENEGOTIATE events; otherwise, an error will occur.
- clientExtensions: Array
- An array of client extension objects that contain the following properties:
- id: Number
- The ID number of the SSL client extension.
- length: Number
- The full length of the SSL client extension, expressed in bytes.
Note: An extension might be truncated if the length exceeds the maximum size. The default is 512 bytes. Truncation has occurred if the value of this property is smaller than the buffer returned by the getClientExtensionData() method. - name: String
- The name of the SSL client extension, if known. Otherwise, the value indicates that the extension is unknown. See the table of known SSL extensions in the Methods section.
Access only on SSL_OPEN or SSL_RENEGOTIATE events; otherwise, an error will occur.
- clientHelloVersion: Number
- The version of SSL specified by the client in the client hello packet.
- clientL2Bytes: Number
- The number of L2 bytes sent by the client since the last
SSL_RECORD event.
Access only on SSL_RECORD or SSL_CLOSE events; otherwise, an error will occur.
- clientPkts: Number
- The number of packets sent by the client since the last SSL_RECORD
event.
Access only on SSL_RECORD or SSL_CLOSE events; otherwise, an error will occur.
- clientSessionId: String
- The client session ID as a byte array encoded as a string.
- clientZeroWnd: Number
- The number of zero windows sent by the client since the last
SSL_RECORD event.
Access only on SSL_RECORD or SSL_CLOSE events; otherwise, an error will occur.
- contentType: String
- The content type for the current record.
Access only on SSL_RECORD events; otherwise, an error will occur.
- encryptionProtocol: String
- The SSL protocol version that the transaction is encrypted with.
- handshakeTime: Number
- The amount of time required to negotiate the SSL connection, expressed in
milliseconds. Specifically, the amount of time between when the client sends a
ClientHello message and the server sends
ChangeCipherSpec values as specified in RFC 2246.
Access only on SSL_OPEN or SSL_RENEGOTIATE events; otherwise, an error will occur.
- heartbeatPayloadLength: Number
- The value of the payload length field of the HeartbeatMessage data structure as
specified in RFC 6520.
Access only on SSL_HEARTBEAT events; otherwise, an error will occur.
- heartbeatType: Number
- The numeric representation of the HeartbeatMessageType field of the HeartbeartMessage
data structure as specified in RFC 6520. Valid values are
SSL.HEARTBEAT_TYPE_REQUEST (1), SSL.HEARTBEAT_TYPE_RESPONSE
(2), or SSL.HEARTBEAT_TYPE_UNKNOWN (255).
Access only on SSL_HEARTBEAT events; otherwise, an error will occur.
- host: string
- The SSL Server Name Indication (SNI), if available.
Access only on SSL_OPEN or SSL_RENEGOTIATE events; otherwise, an error will occur.
- isAborted: Boolean
- The value is true if the SSL session is aborted.
Access only on SSL_CLOSE, SSL_OPEN, and SSL_RENEGOTIATE events; otherwise, an error will occur.
- isCompressed: Boolean
- The value is true if the SSL record is compressed.
- isDecrypted: Boolean
- The value is true if the ExtraHop system securely decrypted and analyzed the transaction. Decrypted traffic analysis can expose advanced threats that hide within encrypted traffic.
- isEncrypted: Boolean
- The value is true if the SSL connection is encrypted.
- isResumed: Boolean
- The value is true if the connection is resumed from an existing SSL
session and is not a new SSL session.
Access only on SSL_OPEN, SSL_CLOSE, SSL_ALERT, SSL_HEARTBEAT, or SSL_RENEGOTIATE events; otherwise, an error will occur.
- isStartTLS: Boolean
- The value is true if negotiation of the SSL session was initiated by
the STARTTLS mechanism of the protocol.
Access only on SSL_OPEN, SSL_CLOSE, SSL_ALERT, SSL_HEARTBEAT, or SSL_RENEGOTIATE events; otherwise, an error will occur.
- isV2ClientHello: Boolean
- The value is true if the Hello record corresponds to SSLv2.
- isWeakCipherSuite: Boolean
- The value is true if the cipher suite encrypting the SSL session is
considered weak. NULL, anonymous, and EXPORT cipher suites are considered weak, as are
suites that encrypt with CBC, DES, 3DES, MD5, or RC4.
Access only on SSL_OPEN, SSL_CLOSE, SSL_ALERT, SSL_HEARTBEAT, or SSL_RENEGOTIATE events; otherwise, an error will occur.
- ja3Text: String
- The complete JA3 string for the client, including the client hello SSL version, accepted ciphers, SSL extensions, elliptic curves, and elliptic curve formats.
- ja3Hash: String
- The MD5 hash of the JA3 string for the client.
- ja3sText: String
- The complete JA3S string for the server, including the server hello SSL version, accepted ciphers, and SSL extensions.
- ja3sHash: String
- The MD5 hash of the JA3S string for the server.
- privateKeyId: String
- The string ID associated with the private key if the ExtraHop system is decrypting SSL
traffic. The value is null if the ExtraHop system is not decrypting SSL
traffic.
To find the private key ID in the Administration settings, click Capture from the System Configuration section, click SSL Decryption, and then click a certificate. The pop-up window displays all identifiers for the certificate.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
SSL.commitRecord() on either an SSL_OPEN,
SSL_CLOSE, SSL_ALERT,
SSL_HEARTBEAT, or SSL_RENEGOTIATE event.
The event on which the method was called determines which properties the default record object can contain as displayed in the following table:
Event Available properties SSL_ALERT - alertCode
- alertLevel
- certificateFingerprint
- certificateIsSelfSigned
- certificateIssuer
- certificateKeySize
- certificateNotAfter
- certificateNotBefore
- certificateSignatureAlgorithm
- certificateSubject
- cipherSuite
- clientAddr
- clientBytes
- clientCertificateRequested
- clientL2Bytes
- clientPkts
- clientPort
- clientRTO
- clientZeroWnd
- isCompressed
- isWeakCipherSuite
- proto
- reqBytes
- reqL2Bytes
- reqPkts
- reqRTO
- rspBytes
- rspL2Bytes
- rspPkts
- rspRTO
- serverAddr
- serverBytes
- serverL2Bytes
- serverPkts
- serverPort
- serverRTO
- serverZeroWnd
- version
SSL_CLOSE - rspPkts
- clientL2Bytes
- clientPkts
- clientZeroWnd
- reqPkts
- certificateSignatureAlgorithm
- serverPort
- certificateKeySize
- reqL2Bytes
- isWeakCipherSuite
- serverL2Bytes
- clientAddr
- proto
- serverZeroWnd
- certificateIsSelfSigned
- version
- reqRTO
- rspL2Bytes
- certificateFingerprint
- certificateNotAfter
- certificateNotBefore
- serverRTO
- rspRTO
- isAborted
- serverBytes
- certificateSubject
- serverAddr
- reqBytes
- clientRTO
- cipherSuite
- clientPort
- clientBytes
- serverPkts
- isCompressed
- certificateIssuer
- rspBytes
SSL_HEARTBEAT - certificateFingerprint
- certificateIssuer
- certificateKeySize
- certificateNotAfter
- certificateNotBefore
- certificateSignatureAlgorithm
- certificateSubject
- cipherSuite
- clientZeroWnd
- heartbeatPayloadLength
- heartbeatType
- isCompressed
- serverZeroWnd
- version
SSL_OPEN - certificateFingerprint
- certificateIsSelfSigned
- certificateIssuer
- certificateKeySize
- certificateNotAfter
- certificateNotBefore
- certificateSignatureAlgorithm
- certificateSubject
- certificateSubjectAlternativeNames
- cipherSuite
- clientAddr
- clientBytes
- clientCertificateRequested
- clientL2Bytes
- clientPkts
- clientPort
- clientRTO
- clientZeroWnd
- handshakeTime
- host
- isAborted
- isCompressed
- isRenegotiate
- isWeakCipherSuite
- ja3Hash
- ja3sHash
- proto
- reqBytes
- reqL2Bytes
- reqPkts
- reqRTO
- rspBytes
- rspL2Bytes
- rspPkts
- rspRTO
- serverAddr
- serverBytes
- serverL2Bytes
- serverPkts
- serverPort
- serverRTO
- serverZeroWnd
- version
SSL_RENEGOTIATE Note: The SSL_OPEN record format is applied to records committed on this event. - certificateFingerprint
- certificateKeySize
- certificateNotAfter
- certificateNotBefore
- certificateSignatureAlgorithm
- certificateSubject
- cipherSuite
- handshakeTime
- host
- isAborted
- isCompressed
- version
- recordLength: Number
- The value of the length field of the TLSPlaintext,
TLSCompressed, and TLSCiphertext data structures as
specified in RFC 5246.
Access only on SSL_RECORD, SSL_ALERT, or SSL_HEARTBEAT events; otherwise, an error will occur.
- recordType: Number
- The numeric representation of the type field of the TLSPlaintext,
TLSCompressed, and TLSCiphertext data structures as
specified in RFC 5246.
Access only on SSL_RECORD, SSL_ALERT, and SSL_HEARTBEAT events; otherwise, an error will occur.
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is
NaN if there are no RTT samples.
Access only on SSL_RECORD or SSL_CLOSE events; otherwise, an error will occur.
- serverExtensions: Array
- An array of server extension objects that contain the following properties:
- id: Number
- The ID number of the SSL server extension.
- length: Number
- The full length of the SSL server extension, expressed in bytes.
Note: An extension might be truncated if the length exceeds the maximum size. The default is 512 bytes. Truncation has occurred if the value of this property is smaller than the buffer returned by the getClientExtensionData() method. - name: String
- The name of the SSL server extension, if known. Otherwise, the value indicates that the extension is unknown. See the table of known SSL extensions in the Methods section.
Access only on SSL_OPEN or SSL_RENEGOTIATE events; otherwise, an error will occur.
- serverBytes: Number
- The number of bytes sent by the server since the last SSL_RECORD
event.
Access only on SSL_RECORD or SSL_CLOSE events; otherwise, an error will occur.
- serverHelloVersion: Number
- The version of SSL specified by the server in the server hello packet.
- serverL2Bytes: Number
- The number of L2 bytes sent by the server since the last
SSL_RECORD event.
Access only on SSL_RECORD or SSL_CLOSE events; otherwise, an error will occur.
- serverPkts: Number
- The number of packets sent by the server since the last SSL_RECORD
event.
Access only on SSL_RECORD or SSL_CLOSE events; otherwise, an error will occur.
- serverSessionId: String
- The server session ID byte array, encoded as a string.
- serverZeroWnd: Number
- The number of zero windows sent by the server since the last
SSL_RECORD event.
Access only on SSL_RECORD or SSL_CLOSE events; otherwise, an error will occur.
- startTLSProtocol: String
- The protocol from which the client sent a STARTTLS command.
- version: Number
- The SSL protocol version with the RFC hexadecimal version number, expressed as a
decimal.
Version Hex Decimal SSLv2 0x200 2 SSLv3 0x300 768 TLS 1.0 0x301 769 TLS 1.1 0x302 770 TLS 1.2 0x303 771 TLS 1.3 0x304 772
TCP
The TCP class enables you to access properties and retrieve metrics from TCP events and from FLOW_TICK and FLOW_TURN events.
Events
- TCP_CLOSE
- Runs when the TCP connection is shut down by being closed, expired or aborted.
- TCP_OPEN
- Runs when the TCP connection is first fully established.
The FLOW_CLASSIFY event runs after the TCP_OPEN event to determine the L7 protocol of the TCP flow.
Note: If a TCP connection stalls for a long period of time, the TCP_OPEN event runs again when the connection resumes. The following TCP properties and methods are null when the event runs for a resumed connection: - getOption
- handshakeTime
- hasECNEcho
- hasECNEcho1
- hasECNEcho2
- initRcvWndSize
- initRcvWndSize1
- initRcvWndSize2
- initSeqNum
- initSeqNum1
- initSeqNum2
- options
- options1
- options2
- TCP_PAYLOAD
- Runs when the payload matches the criteria configured in the associated
trigger.
Depending on the Flow, the TCP payload can be found in the following properties:
- Flow.client.payload
- Flow.payload1
- Flow.payload2
- Flow.receiver.payload
- Flow.sender.payload
- Flow.server.payload
Additional payload options are available when you create a trigger that runs on this event. See Advanced trigger options for more information.
Methods
- getOption(kind: Number): Object | Null
- Returns a TCP option object that matches the specified option kind. For a list of
valid option kinds, see TCP options.
Specify the TCP client or the TCP server in the syntax—for example,
TCP.client.getOption(1) or
TCP.server.getOption(1).
Applies only to TCP_OPEN events.
Properties
- handshakeTime: Number
- The amount of time required to negotiate the TCP connection, expressed in
milliseconds.
Access only on TCP_OPEN events; otherwise, an error will occur.
- hasECNEcho: Boolean
- The value is true if the ECN flag is set on a device during the
three-way handshake. Specify the TCP client or the TCP server in the syntax—for example,
TCP.client.hasECNEcho or
TCP.server.hasECNEcho.
Access only on TCP_OPEN events; otherwise, an error will occur.
- hasECNEcho1: Boolean
- The value is true if the ECN flag is set during the three-way
handshake associated with one of two devices in the connection; the other device is
represented by hasECNEcho2. The device represented by
hasECNEcho1 remains consistent for the connection.
Access only on TCP_OPEN events; otherwise, an error will occur.
- hasECNEcho2: Boolean
- The value is true if the ECN flag is set during the three-way
handshake associated with one of two devices in the connection; the other device is
represented by hasECNEcho1. The device represented by
hasECNEcho2 remains consistent for the connection.
Access only on TCP_OPEN events; otherwise, an error will occur.
- initRcvWndSize: Number
- The initial size of the TCP sliding window on a device negotiated during the three-way
handshake. Specify the TCP client or the TCP server in the syntax—for example,
TCP.client.initRcvWndSize or
TCP.server.initRcvWndSize.
Access only on TCP_OPEN events; otherwise, an error will occur.
- initRcvWndSize1: Number
- The initial size of the TCP sliding window negotiated during the three-way handshake
associated with one of two devices in the connection; the other device is represented by
initRcvWndSize2. The device represented by
initRcvWndSize1 remains consistent for the connection.
Access only on TCP_OPEN events; otherwise, an error will occur.
- initRcvWndSize2: Number
- The initial size of the TCP sliding window negotiated during the three-way handshake
associated with one of two devices in the connection; the other device is represented by
initRcvWndSize1. The device represented by
initRcvWndSize2 remains consistent for the connection.
Access only on TCP_OPEN events; otherwise, an error will occur.
- initSeqNum: Number
- The initial sequence number sent from a device during the three-way handshake. Specify
the TCP client or the TCP server in the syntax—for example,
TCP.client.initSeqNum or
TCP.server.initSeqNum.
Access only on TCP_OPEN events; otherwise, an error will occur.
- initSeqNum1: Number
- The initial sequence number during the three-way handshake associated with one of two
devices in the connection; the other device is represented by
initSeqNum2. The device represented by initSeqNum1
remains consistent for the connection.
Access only on TCP_OPEN events; otherwise, an error will occur.
- initSeqNum2: Number
- The initial sequence number during the three-way handshake associated with one of two
devices in the connection; the other device is represented by
initSeqNum1. The device represented by initSeqNum2
remains consistent for the connection.
Access only on TCP_OPEN events; otherwise, an error will occur.
- isAborted: Boolean
- The value is true if a TCP flow has been aborted through a TCP reset
(RST) before the connection is shut down. The flow can be aborted by a device. If
applicable, specify the device role in the syntax—for example,
TCP.client.isAborted or TCP.server.isAborted.
This condition may be detected in any TCP event and in any impacted L7 events (for example, HTTP_REQUEST or DB_RESPONSE).
Note: - An L4 abort occurs when a TCP connection is closed with a RST instead of a graceful shutdown.
- An L7 response abort occurs when a connection closes while in the middle of a response. This can be due to a RST, a graceful FIN shutdown, or an expiration.
- An L7 request abort occurs when a connection closes in the middle of a request. This can also be due to a RST, a graceful FIN shutdown, or an expiration.
- isExpired: Boolean
- The value is true if the TCP connection expired at the time of the
event. If applicable, specify TCP client or the TCP server in the syntax—for example,
TCP.client.isExpired or
TCP.server.isExpired.
Access only on TCP_CLOSE events; otherwise, an error will occur.
- isReset: Boolean
- The value is true if a TCP reset (RST) was seen while the connection was in the process of being shut down.
- nagleDelay: Number
- The number of Nagle delays associated with a device in the flow. Specify the TCP
client or the TCP server in the syntax—for example,
TCP.client.nagleDelay or
TCP.server.nagleDelay.
Access only on FLOW_TICK and FLOW_TURN events; otherwise, an error will occur.
- nagleDelay1: Number
- The number of Nagle delays associated with one of two devices in the flow; the other
device is represented by nagleDelay1. The device represented by
nagleDelay2 remains consistent for the connection.
Access only on FLOW_TICK and FLOW_TURN events; otherwise, an error will occur.
- nagleDelay1: Number
- The number of Nagle delays associated with one of two devices in the flow; the other
device is represented by nagleDelay2. The device represented by
nagleDelay1 remains consistent for the connection.
Access only on FLOW_TICK and FLOW_TURN events; otherwise, an error will occur.
- options: Array
- An array of objects representing the TCP options of a device in the initial handshake
packets. Specify the TCP client or the TCP server in the
syntax—for example, TCP.client.options or
TCP.server.options. For more information, see the TCP options section
below.
Access only on TCP_OPEN events; otherwise, an error will occur.
- options1: Array
- An array of options representing the TCP options in the initial handshake packets
associated with one of two devices in the connection; the other device is represented by
options2. The device represented by options1 remains
consistent for the connection. For more information, For more information, see the TCP
options section below.
Access only on TCP_OPEN events; otherwise, an error will occur.
- options2: Array
- An array of options representing the TCP options in the initial handshake packets
associated with one of two devices in the connection; the other device is represented by
options1. The device represented by options2 remains
consistent for the connection. For more information, For more information, see the TCP
options section below.
Access only on TCP_OPEN events; otherwise, an error will occur.
- overlapSegments: Number
- The number of non-identical TCP segments, transmitted by a device in the flow, where
two or more TCP segments contain data for the same part of the flow. Specify the TCP
client or the TCP server in the syntax—for example,
TCP.client.overlapSegments or
TCP.server.overlapSegments.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- overlapSegments1: Number
- The number of non-identical TCP segments where two or more segments contain data for
the same part of the flow. The TCP segments are transmitted by one of two devices in the
flow; the other device is represented by overlapSegments2. The device
represented by overlapSegments1 remains consistent for the
flow.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- overlapSegments2: Number
- The number of non-identical TCP segments where two or more segments contain data for
the same part of the flow. The TCP segments are transmitted by one of two devices in the
flow; the other device is represented by overlapSegments1. The device
represented by overlapSegments2 remains consistent for the
flow.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- rcvWndThrottle: Number
- The number of receive window throttles sent from a device in the flow. Specify the TCP
client or the TCP server in the syntax—for example,
TCP.client.rcvWndThrottle or
TCP.server.rcvWndThrottle.
Access only on FLOW_TICK and FLOW_TURN events; otherwise, an error will occur.
- rcvWndThrottle1: Number
- The number of receive window throttles sent from one of two devices in the flow; the
other device is represented by rcvWndThrottle2. The device represented
by rcvWndThrottle1 remains consistent for the connection.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- rcvWndThrottle2: Number
- The number of receive window throttles sent from one of two devices in the flow; the
other device is represented by rcvWndThrottle1. The device represented
by rcvWndThrottle2 remains consistent for the connection.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- retransBytes: Number
- The number of bytes retransmitted over TCP by a client or server device in the flow.
Specify the TCP client or the TCP server in the syntax—for example,
TCP.client.retransBytes or
TCP.server.retransBytes.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- retransBytes1: Number
- The number of bytes retransmitted over TCP by one of two devices in the flow; the
other device is represented by retransBytes2. The device represented by
retransBytes1 remains consistent for the connection.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- retransBytes2: Number
- The number of bytes retransmitted over TCP by one of two devices in the flow; the
other device is represented by retransBytes1. The device represented by
retransBytes2 remains consistent for the connection.
Access only on FLOW_TICK or FLOW_TURN events; otherwise, an error will occur.
- zeroWnd: Number
- The number of zero windows sent from a device in the flow. Specify the TCP client or
the TCP server in the syntax—for example, TCP.client.zeroWnd or
TCP.server.zeroWnd.
Access only on FLOW_TICK and FLOW_TURN events; otherwise, an error will occur.
- zeroWnd1: Number
- The number of zero windows sent from one of two devices in the flow; the other device
is represented by zeroWnd2. The device represented by
zeroWnd1 remains consistent for the connection.
Access only on FLOW_TICK and FLOW_TURN events; otherwise, an error will occur.
- zeroWnd2: Number
- The number of zero windows sent from one of two devices in the flow; the other device
is represented by zeroWnd1. The device represented by
zeroWnd2 remains consistent for the connection.
Access only on FLOW_TICK and FLOW_TURN events; otherwise, an error will occur.
TCP options
All TCP Options objects have the following properties:
- kind:Number
- The TCP option kind number.
Kind Number Meaning 0 End of Option List 1 No-Operation 2 Maximum Segment Size 3 Window Scale 4 SACK Permitted 5 SACK 6 Echo (obsoleted by option 8) 7 Echo Reply (obsoleted by option 8) 8 Timestamps 9 Partial Order Connection Permitted (obsolete) 10 Partial Order Service Profile (obsolete) 11 CC (obsolete) 12 CC.NEW (obsolete) 13 CC.ECHO (obsolete) 14 TCP Alternate Checksum Request (obsolete) 15 TCP Alternate Checksum Data (obsolete) 16 Skeeter 17 Bubba 18 Trailer Checksum Option 19 MD5 Signature Option (obsoleted by option 29) 20 SCPS Capabilities 21 Selective Negative acknowledgments 22 Record Boundaries 23 Corruption experienced 24 SNAP 25 Unassigned (released 2000-12-18) 26 TCP Compression Filter 27 Quick-Start Response 28 User Timeout Option (also, other known authorized use) 29 TCP Authentication Option (TCP-AO) 30 Multipath TCP (MPTCP) 31 Reserved (known authorized used without proper IANA assignment) 32 Reserved (known authorized used without proper IANA assignment) 33 Reserved (known authorized used without proper IANA assignment) 34 TCP Fast Open Cookie 35-75 Reserved 76 Reserved (known authorized used without proper IANA assignment) 77 Reserved (known authorized used without proper IANA assignment) 78 Reserved (known authorized used without proper IANA assignment) 79-252 Reserved 253 RFC3692-style Experiment 1 (also improperly used for shipping products) 254 RFC3692-style Experiment 2 (also improperly used for shipping products) - name: String
- The name of the TCP option.
The following list contains the names of common TCP options and their specific properties:
- Maximum Segment Size (name 'mss', option kind 2)
-
- value: Number
- The maximum segment size.
- Window Scale (name 'wscale', kind 3)
-
- value: Number
- The window scale factor.
- Selective acknowledgment Permitted (name 'sack-permitted', kind 4)
- No additional properties. Its presence indicates that the selective acknowledgment option was included in the SYN.
- Timestamp (name 'timestamp', kind 8)
-
- tsval: Number
- The TSVal field for the option.
- tsecr: Number
- The TSecr field for the option.
- Quickstart Response (name 'quickstart-rsp', kind 27)
-
- rate-request: Number
- The requested rate for transport, expressed in bytes per second.
- ttl-diff: Number
- The TTLDif.
- qs-nonce: Number
- The QS Nonce.
- Akamai Address (name 'akamai-addr', kind 28)
-
- value: IPAddr
- The IP Address of the Akamai server.
- User Timeout (name 'user-timeout', kind 28)
-
- value: Number
- The user timeout.
- Authentication (name 'tcp-ao', kind 29)
-
- keyId property: Number
- The key id for the key in use.
- rNextKeyId: Number
- The key id for the "receive next" key id.
- mac: Buffer
- The message authentication code.
- Multipath (name 'mptcp', kind 30)
-
- value: Buffer
- The multipath value.
Note: The Akamai address and user timeout options are differentiated by the length of the option.
The following is an example of TCP options:
if (TCP.client.options != null) { var optMSS = TCP.client.getOption(2) if (optMSS && (optMSS.value > 1460)) { Network.metricAddCount('large_mss', 1); Network.metricAddDetailCount('large_mss_by_client_ip', Flow.client.ipaddr + " " + optMSS.value, 1); } }
Telnet
The Telnet class enables you to store metrics and access properties on TELNET_MESSAGE events.
Methods
- commitRecord(): void
- Sends a record to the configured recordstore on an
TELNET_MESSAGE event.
To view the default properties committed to the record object, see the record property below.
For built-in records, each unique record is committed only once, even if the commitRecord() method is called multiple times for the same unique record.
Properties
- command: String
- The command type. The value is null if the event was run due to a
line of data being sent.
The following values are valid:
- Abort
- Abort Output
- Are You There
- Break
- Data Mark
- DO
- DON'T
- End of File
- End of Record
- Erase Character
- Erase Line
- Go Ahead
- Interrupt Process
- NOP
- SB
- SE
- Suspend
- WILL
- WON'T
- line: String
- A line of the data sent by the client or server. Terminal escape sequences and special characters are filtered out. Cursor movement and line editing are not simulated except for backspace characters.
- option: String
- The option being negotiated. The value is null if the option is
invalid. The following values are valid:
- 3270-REGIME
- AARD
- ATCP
- AUTHENTICATION
- BM
- CHARSET
- COM-PORT-OPTION
- DET
- ECHO
- ENCRYPT
- END-OF-RECORD
- ENVIRON
- EXPOPL
- EXTEND-ASCII
- FORWARD-X
- GMCP
- KERMIT
- LINEMODE
- LOGOUT
- NAOCRD
- NAOFFD
- NAOHTD
- NAOHTS
- NAOL
- NAOLFD
- NAOP
- NAOVTD
- NAOVTS
- NAWS
- NEW-ENVIRON
- OUTMRK
- PRAGMA-HEARTBEAT
- PRAGMA-LOGON
- RCTE
- RECONNECT
- REMOTE-SERIAL-PORT
- SEND-LOCATION
- SEND-URL
- SSPI-LOGON
- STATUS
- SUPDUP
- SUPDUP-OUTPUT
- SUPPRESS-GO-AHEAD
- TERMINAL-SPEED
- TERMINAL-TYPE
- TIMING-MARK
- TN3270E
- TOGGLE-FLOW-CONTROL
- TRANSMIT-BINARY
- TTYLOC
- TUID
- X-DISPLAY-LOCATION
- X.3-PAD
- XAUTH
- optionData: Buffer
- For option subnegotiations (the SB command), the raw, option-specific data sent. The value is null if the command is not SB.
- record: Object
- The record object that can be sent to the configured recordstore through a call to
Telnet.commitRecord() on an TELNET_MESSAGE
event.
The default record object can contain the following properties:
- command
- option
- receiverBytes
- receiverL2Bytes
- recieverPkts
- receiverRTO
- receiverZeroWnd
- roundTripTime
- senderBytes
- senderL2Bytes
- senderPkts
- senderRTO
- senderZeroWnd
- receiverBytes: Number
- The number of application-level bytes from the receiver.
- receiverL2Bytes: Number
- The number of L2 bytes from the receiver.
- receiverPkts: Number
- The number of packets from the receiver.
- receiverRTO: Number
- The number of retransmission timeouts (RTOs) from the receiver.
- receiverZeroWnd: Number
- The number of zero windows sent by the receiver.
- roundTripTime: Number
- The median round trip time (RTT), expressed in milliseconds. The value is NaN if there are no RTT samples.
- senderBytes: Number
- The number of application-level bytes from the sender.
- senderL2Bytes: Number
- The number of L2 bytes from the sender.
- senderPkts: Number
- The number of packets from the sender.
- senderRTO: Number
- The number of retransmission timeouts (RTOs) from the sender.
- senderZeroWnd: Number
- The number of zero windows sent by the sender.
Turn
Turn is a class that enables you to store metrics and access properties available on FLOW_TURN events.
The FLOW_TURN event is defined in the Flow section.
Properties
- clientBytes: Number
- The size of the request that the client transferred, expressed in bytes.
- clientTransferTime: Number
- The client transfer time, expressed in milliseconds.
- processingTime: Number
- The time elapsed between when the client transfers the request to the server and when the server begins to transfer the response back to the client, expressed in milliseconds.
- reqSize: Number
- The size of the request payload, expressed in bytes.
- reqTransferTime: Number
- The request transfer time, expressed in milliseconds. If the request is contained in a single packet, the transfer time is zero. If the request spans multiple packets, the value is the amount of time between detection of the first request packet and detection of the last packet by the ExtraHop system. A high value might indicate a large request or a network delay. The value is NaN if there is no valid measurement, or if the timing is invalid.
- rspSize: Number
- The size of the response payload, expressed in bytes.
- rspTransferTime: Number
- The response transfer time, expressed in milliseconds. If the response is contained in a single packet, the transfer time is zero. If the response spans multiple packets, the value is the amount of time between detection of the first response packet and detection of the last packet by the ExtraHop system. A high value might indicate a large response or a network delay. The value is NaN if there is no valid measurement, or if the timing is invalid.
- serverBytes: Number
- The size of the response that the server transferred, expressed in bytes.
- serverTransferTime: Number
- The server transfer time, expressed in milliseconds.
- sourceDevice: Device
- The source device object. See the Device class for more information.
- thinkTime: Number
- The time elapsed between the server having transferred the response to the client and the client transferring a new request to the server, expressed in milliseconds. The value is NaN if there is no valid measurement.
UDP
The UDP class enables you to access properties and retrieve metrics from UDP events and from FLOW_TICK and FLOW_TURN events.
Events
- UDP_PAYLOAD
- Runs when the payload matches the criteria configured in the associated
trigger.
Depending on the Flow, the UDP payload can be found in the following properties:
- Flow.client.payload
- Flow.payload1
- Flow.payload2
- Flow.receiver.payload
- Flow.sender.payload
- Flow.server.payload
Additional payload options are available when you create a trigger that runs on this event. See Advanced trigger options for more information.
WebSocket
The WebSocket class enables you to access properties on WEBSOCKET_OPEN, WEBSOCKET_CLOSE, and WEBSOCKET_MESSAGE events.
Events
- WEBSOCKET_OPEN
- Runs when a successful handshake has been observed.
- WEBSOCKET_CLOSE
- Runs when both close frames are observed, or when the underlying TCP connection is closed.
- WEBSOCKET_MESSAGE
- Runs when all frames of a text or binary message have been observed.
Properties
- clientBytes: Number
- The total number of bytes sent by the client during the WebSockets session.
Access only on WEBSOCKET_MESSAGE events; otherwise, an error will occur.
- clientL2Bytes: Number
- The total number of L2 bytes sent by the client during the
WebSockets session.
Access only on WEBSOCKET_MESSAGE events; otherwise, an error will occur.
- clientPkts: Number
- The total number of packets sent by the client during the WebSockets session.
Access only on WEBSOCKET_MESSAGE events; otherwise, an error will occur.
- clientRTO: Number
- The total number of client retransmission
timeouts (RTOs) observed during the WebSockets session.
Access only on WEBSOCKET_MESSAGE events; otherwise, an error will occur.
- clientZeroWnd: Number
- The number of zero windows sent by the client.
Access only on WEBSOCKET_MESSAGE events; otherwise, an error will occur.
- closeReason: String
- The text message included in the first observed close frame that describes the reason
the connection was closed. The value is null if the frame does not
contain this information.
Access only on WEBSOCKET_CLOSE events; otherwise, an error will occur.
- host: String
- The host provided in the handshake request from the client. The value is
null if no host is provided.
Access only on WEBSOCKET_OPEN events; otherwise, an error will occur.
- isClientClose: Boolean
- The value is true if the initial close frame was sent by the client.
Access only on WEBSOCKET_CLOSE events; otherwise, an error will occur.
- isEncrypted: Boolean
- The value is true if the WebSocket connection is SSL-encrypted.
- isServerClose: Boolean
- The value is true if the initial close frame was sent by the server.
The value is false if the connection was terminated
abnormally.
Access only on WEBSOCKET_CLOSE events; otherwise, an error will occur.
- msg: Buffer
- The Buffer contents of the WebSocket message. The
buffer is null if the contents exceeded that maximum length.
Access only on WEBSOCKET_MESSAGE events; otherwise, an error will occur.
- msgType: String
- The type of WebSocket message frame. Valid values are TEXT or
BINARY.
Access only on WEBSOCKET_MESSAGE events; otherwise, an error will occur.
- origin: String
- The origin URL provided in the handshake request initiated by the client.
Access only on WEBSOCKET_OPEN events; otherwise, an error will occur.
- serverBytes: Number
- The total number of bytes returned by the server during the WebSockets
session.
Access only on WEBSOCKET_MESSAGE events; otherwise, an error will occur.
- serverL2Bytes: Number
- The total number of L2 bytes returned by the server during
the WebSockets session.
Access only on WEBSOCKET_MESSAGE events; otherwise, an error will occur.
- serverPkts: Number
- The total number of packets returned by the server during the WebSockets
session.
Access only on WEBSOCKET_MESSAGE events; otherwise, an error will occur.
- serverRTO: Number
- The total number of server retransmission
timeouts (RTOs) observed during the WebSockets session.
Access only on WEBSOCKET_MESSAGE events; otherwise, an error will occur.
- serverZeroWnd: Number
- The number of zero windows sent by the server.
Access only on WEBSOCKET_MESSAGE events; otherwise, an error will occur.
- statusCode: Number
- The status code that represents the reason the connection was closed, as defined in
RFC 6455.
The value is NO_STATUS_RECVD (1005) if the initial close frame does not include a status code. The value is NaN if connection was terminated abnormally.
Access only on WEBSOCKET_CLOSE events; otherwise, an error will occur.
- uri: String
- The URI provided in the handshake request initiated by the client.
Access only on WEBSOCKET_OPEN events; otherwise, an error will occur.
WSMAN
The WSMAN class enables you to store metrics and access properties on WSMAN_REQUEST and WSMAN_RESPONSE events. Web Services-Management (WSMAN) and the Microsoft implementation Windows Remote Management (WinRM) are protocols that enable devices to exchange management information on a network.
Events
- WSMAN_REQUEST
- Runs on every WSMAN_REQUEST processed by the device.
- WSMAN_RESPONSE
- Runs on every WSMAN_RESPONSE processed by the device.
Methods
- commitRecord():void
- Sends a record to the configured recordstore on either a
WSMAN_REQUEST or WSMAN_RESPONSE event.
To view the default properties committed on each event, see the record
property below.
If the commitRecord() method is called on an WSMAN_REQUEST event, the record is not created until the WSMAN_RESPONSE event runs. If the commitRecord() method is called on both the WSMAN_REQUEST and the corresponding WSMAN_RESPONSE, only one record is created for request and response, even if the commitRecord() method is called multiple times on the same trigger events.
Properties
- encryptionProtocol: String
- The protocol that the transaction is encrypted with.
- isEncrypted: Boolean
- The value is true if the transaction is over secure HTTP.
- isDecrypted: Boolean
- The value is true if the ExtraHop system securely decrypted and analyzed the transaction. Decrypted traffic analysis can expose advanced threats that hide within encrypted traffic.
- operationId: String
- The unique identifier of the operation.
- payload: Buffer
- A buffer object containing the XML message envelope. Messages longer than
the maximum size are truncated. The maximum size is configured in the WSMAN
profile in the running config. The following running config example changes
the maximum message size from its default of 1024 bytes to
4096:
"capture": { "app_proto": { "wsman": { "payload_max_size": 4096 } } }
- record: Object
- The record object that can be sent to the configured recordstore through a
call to WSMAN.commitRecord().
The default record object can contain the following properties:
- clientAddr
- clientPort
- serverAddr
- serverPort
- proto
- timestamp
- user
- vlan
- operationId
- reqAction
- reqResourceURI
- rspAction
- rspResourceURI
- sequenceId
Access the record object only on WSMAN_RESPONSE events; otherwise, an error will occur.
- reqAction: String
- The action requested by the client to be performed by the resource specified
in the resourceURI.
Access only on WSMAN_REQUEST events; otherwise, an error will occur.
- reqResourceURI: String
- The Uniform Resource Identifier (URI) of the resource that performs an action.
- rspAction: String
- The server response to the action requested by the client.
Access only on WSMAN_RESPONSE events; otherwise, an error will occur.
- rspResourceURI: String
- The Uniform Resource Identifier (URI) of the resource that performs an action.
- sequenceId: String
- The string representation of a 64-bit integer that identifies a message in an operation.
- user: String
- The username of the account that sent the request.
Open data stream classes
The Trigger API classes in this section enable you to send data to a third-party syslog, database, or server through an open data stream (ODS) you have configured in the Administration settings.
Class | Description |
---|---|
Remote.HTTP | Enables you to submit HTTP request data to a remote server through REST API endpoints. |
Remote.Kafka | Enables you to submit message data to remote a Kafka server. |
Remote.MongoDB | Enables you to insert, remove, and update document collections to a remote MongoDB database. |
Remote.Raw | Enables you to submit raw data to a remote server through a TCP or UDP port. |
Remote.Syslog | Enables you to send syslog data to a remote server. |
Remote.HTTP
The Remote.HTTP class enables you to submit HTTP request data to an HTTP open data stream (ODS) target and provides access to HTTP REST API endpoints.
You must first configure an HTTP ODS target from the Administration settings, which requires unlimited privileges. For configuration information, see the Open Data Streams section in the ExtraHop Administration Guide.
Methods
- delete
- Submits an HTTP REST delete request to a configured HTTP open data stream.
- Syntax:
-
Remote.HTTP("name").delete({path: "path", headers: {header: "header"}, payload: "payload"})
Remote.HTTP.delete({path: "path", headers: {header: "header"}, payload: "payload"})
- Parameters:
-
- name: String
- The name of the ODS target that requests are sent to. If this field is not specified, the name is set to default.
- options: Object
- The options object has the following properties:
- path: String
- The string specifying the request path.
- headers: Object
- The optional object specifying the request headers. The following
headers are restricted and will result in an error if specified:
- Connection
- Authorization
- Proxy-Connection
- Content-Length
- X-Forwarded-For
- Transfer-Encoding
Note: Authorization headers must be specified by either a built-in authentication method, such as Amazon Web Services, or through the Additional HTTP Header field in the Open Data Streams configuration window in the Administration settings. Headers configured in a trigger take precedence over an entry in the Additional HTTP Header field, which is located in the Open Data Streams configuration window in the Administration settings. For example, if the Additional HTTP Header field specifies Content-Type: text/plain, but a trigger script on the same ODS target specifies Content-Type: application/json, then Content-Type: application/json is included in the HTTP request.
You can compress the outgoing HTTP requests with the Content- Encoding header.
'Content-Encoding': 'gzip'
The following values are supported for this compression header:
- gzip
- deflate
- payload: String | Buffer
- The optional string or Buffer specifying the request payload.
- Return Values:
- Returns true if the request is queued, otherwise returns false.
- get
- Submits an HTTP REST get request to a configured HTTP open data stream.
- Syntax:
-
Remote.HTTP("name").get({path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
Remote.HTTP.get({path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
- Parameters:
-
- name: String
- The name of the ODS target that requests are sent to. If this field is not specified, the name is set to default.
- options: Object
- The options object has the following properties:
- path: String
- The string specifying the request path.
- headers: Object
- The optional object specifying the request headers. The following
headers are restricted and will result in an error if specified:
- Connection
- Authorization
- Proxy-Connection
- Content-Length
- X-Forwarded-For
- Transfer-Encoding
Note: Authorization headers must be specified by either a built-in authentication method, such as Amazon Web Services, or through the Additional HTTP Header field in the Open Data Streams configuration window in the Administration settings. Headers configured in a trigger take precedence over an entry in the Additional HTTP Header field, which is located in the Open Data Streams configuration window in the Administration settings. For example, if the Additional HTTP Header field specifies Content-Type: text/plain, but a trigger script on the same ODS target specifies Content-Type: application/json, then Content-Type: application/json is included in the HTTP request.
You can compress the outgoing HTTP requests with the Content- Encoding header.
'Content-Encoding': 'gzip'
The following values are supported for this compression header:
- gzip
- deflate
- payload: String | Buffer
- The optional string or Buffer specifying the request payload.
- enableResponseEvent: Boolean
- Enables a trigger to run on the HTTP response that is sent by the
ODS target by creating a REMOTE_RESPONSE event.
Important: Processing a large number of HTTP responses can affect trigger performance and efficiency. We recommend that you enable this option only if necessary. - context: Object | String | Number | Boolean | null
- An optional object that is sent to the trigger that is running on the HTTP response from the ODS target. You can access information stored in the object by specifying the Remote.response.context property.
- Return Values:
- Returns true if the request is queued, otherwise returns false.
- patch
- Submits an HTTP REST patch request to a configured HTTP open data stream.
- Syntax:
-
Remote.HTTP("name").patch({path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
Remote.HTTP.patch({path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
- Parameters:
-
- name: String
- The name of the ODS target that requests are sent to. If this field is not specified, the name is set to default.
- options: Object
- The options object has the following properties:
- path: String
- The string specifying the request path.
- headers: Object
- The optional object specifying the request headers. The following
headers are restricted and will result in an error if specified:
- Connection
- Authorization
- Proxy-Connection
- Content-Length
- X-Forwarded-For
- Transfer-Encoding
Note: Authorization headers must be specified by either a built-in authentication method, such as Amazon Web Services, or through the Additional HTTP Header field in the Open Data Streams configuration window in the Administration settings. Headers configured in a trigger take precedence over an entry in the Additional HTTP Header field, which is located in the Open Data Streams configuration window in the Administration settings. For example, if the Additional HTTP Header field specifies Content-Type: text/plain, but a trigger script on the same ODS target specifies Content-Type: application/json, then Content-Type: application/json is included in the HTTP request.
You can compress the outgoing HTTP requests with the Content- Encoding header.
'Content-Encoding': 'gzip'
The following values are supported for this compression header:
- gzip
- deflate
- payload: String | Buffer
- The optional string or Buffer specifying the request payload.
- enableResponseEvent: Boolean
- Enables a trigger to run on the HTTP response that is sent by the
ODS target by creating a REMOTE_RESPONSE event.
Important: Processing a large number of HTTP responses can affect trigger performance and efficiency. We recommend that you enable this option only if necessary. - context: Object | String | Number | Boolean | null
- An optional object that is sent to the trigger that is running on the HTTP response from the ODS target. You can access information stored in the object by specifying the Remote.response.context property.
- Return Values:
- Returns true if the request is queued, otherwise returns false.
- post
- Submits an HTTP REST post request to a configured HTTP open data stream.
- Syntax:
-
Remote.HTTP("name").post({path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
Remote.HTTP.post({path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
- Parameters:
-
- name: String
- The name of the ODS target that requests are sent to. If this field is not specified, the name is set to default.
- options: Object
- The options object has the following properties:
- path: String
- The string specifying the request path.
- headers: Object
- The optional object specifying the request headers. The following
headers are restricted and will result in an error if specified:
- Connection
- Authorization
- Proxy-Connection
- Content-Length
- X-Forwarded-For
- Transfer-Encoding
Note: Authorization headers must be specified by either a built-in authentication method, such as Amazon Web Services, or through the Additional HTTP Header field in the Open Data Streams configuration window in the Administration settings. Headers configured in a trigger take precedence over an entry in the Additional HTTP Header field, which is located in the Open Data Streams configuration window in the Administration settings. For example, if the Additional HTTP Header field specifies Content-Type: text/plain, but a trigger script on the same ODS target specifies Content-Type: application/json, then Content-Type: application/json is included in the HTTP request.
You can compress the outgoing HTTP requests with the Content- Encoding header.
'Content-Encoding': 'gzip'
The following values are supported for this compression header:
- gzip
- deflate
- payload: String | Buffer
- The optional string or Buffer specifying the request payload.
- enableResponseEvent: Boolean
- Enables a trigger to run on the HTTP response that is sent by the
ODS target by creating a REMOTE_RESPONSE event.
Important: Processing a large number of HTTP responses can affect trigger performance and efficiency. We recommend that you enable this option only if necessary. - context: Object | String | Number | Boolean | null
- An optional object that is sent to the trigger that is running on the HTTP response from the ODS target. You can access information stored in the object by specifying the Remote.response.context property.
- Return Values:
- Returns true if the request is queued, otherwise returns false.
- put
- Submits an HTTP REST put request to a configured HTTP open data stream.
- Syntax:
-
Remote.HTTP("name").put({path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
Remote.HTTP.put({path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
- Parameters:
-
- name: String
- The name of the ODS target that requests are sent to. If this field is not specified, the name is set to default.
- options: Object
- The options object has the following properties:
- path: String
- The string specifying the request path.
- headers: Object
- The optional object specifying the request headers. The following
headers are restricted and will result in an error if specified:
- Connection
- Authorization
- Proxy-Connection
- Content-Length
- X-Forwarded-For
- Transfer-Encoding
Note: Authorization headers must be specified by either a built-in authentication method, such as Amazon Web Services, or through the Additional HTTP Header field in the Open Data Streams configuration window in the Administration settings. Headers configured in a trigger take precedence over an entry in the Additional HTTP Header field, which is located in the Open Data Streams configuration window in the Administration settings. For example, if the Additional HTTP Header field specifies Content-Type: text/plain, but a trigger script on the same ODS target specifies Content-Type: application/json, then Content-Type: application/json is included in the HTTP request.
You can compress the outgoing HTTP requests with the Content- Encoding header.
'Content-Encoding': 'gzip'
The following values are supported for this compression header:
- gzip
- deflate
- payload: String | Buffer
- The optional string or Buffer specifying the request payload.
- enableResponseEvent: Boolean
- Enables a trigger to run on the HTTP response that is sent by the
ODS target by creating a REMOTE_RESPONSE event.
Important: Processing a large number of HTTP responses can affect trigger performance and efficiency. We recommend that you enable this option only if necessary. - context: Object | String | Number | Boolean | null
- An optional object that is sent to the trigger that is running on the HTTP response from the ODS target. You can access information stored in the object by specifying the Remote.response.context property.
- Return Values:
- Returns true if the request is queued, otherwise returns false.
- request
- Submits an HTTP REST request to a configured HTTP open data stream.
- Syntax:
-
Remote.HTTP("name").request("method", {path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
Remote.HTTP.request("method", {path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
- Parameters:
-
- name: String
- The name of the ODS target that requests are sent to. If this field is not specified, the name is set to default.
- method: String
- String that specifies the HTTP method.
- GET
- HEAD
- POST
- PUT
- DELETE
- TRACE
- OPTIONS
- CONNECT
- PATCH
- options: Object
- The options object has the following properties:
- path: String
- The string specifying the request path.
- headers: Object
- The optional object specifying the request headers. The following
headers are restricted and will result in an error if specified:
- Connection
- Authorization
- Proxy-Connection
- Content-Length
- X-Forwarded-For
- Transfer-Encoding
Note: Authorization headers must be specified by either a built-in authentication method, such as Amazon Web Services, or through the Additional HTTP Header field in the Open Data Streams configuration window in the Administration settings. Headers configured in a trigger take precedence over an entry in the Additional HTTP Header field, which is located in the Open Data Streams configuration window in the Administration settings. For example, if the Additional HTTP Header field specifies Content-Type: text/plain, but a trigger script on the same ODS target specifies Content-Type: application/json, then Content-Type: application/json is included in the HTTP request.
You can compress the outgoing HTTP requests with the Content- Encoding header.
'Content-Encoding': 'gzip'
The following values are supported for this compression header:
- gzip
- deflate
- payload: String | Buffer
- The optional string or Buffer specifying the request payload.
- enableResponseEvent: Boolean
- Enables a trigger to run on the HTTP response that is sent by the
ODS target by creating a REMOTE_RESPONSE event.
Important: Processing a large number of HTTP responses can affect trigger performance and efficiency. We recommend that you enable this option only if necessary. - context: Object | String | Number | Boolean | null
- An optional object that is sent to the trigger that is running on the HTTP response from the ODS target. You can access information stored in the object by specifying the Remote.response.context property.
- Return Values:
- Returns true if the request is queued, otherwise returns false.
Helper methods
- Remote.HTTP.delete
- Remote.HTTP.get
- Remote.HTTP.patch
- Remote.HTTP.post
- Remote.HTTP.put
- Syntax:
-
Remote.HTTP("name").delete({path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
Remote.HTTP.delete({path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
Remote.HTTP("name").get({path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
Remote.HTTP.get({path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
Remote.HTTP("name").patch({path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
Remote.HTTP.patch({path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
Remote.HTTP("name").post({path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
Remote.HTTP.post({path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
Remote.HTTP("name").put({path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
Remote.HTTP.put({path: "path", headers: {header: "header"}, payload: "payload", enableResponseEvent: "enableResponseEvent", context: "context"})
- Return values:
- Returns true if the request is queued, otherwise returns false.
Examples
- HTTP GET
- The following example will issue an HTTP GET request to the HTTP configuration called
"my_destination" and a path that is the URI, including query string variables, that you
want the request to be sent
to.
Remote.HTTP("my_destination").get( { path: "/?example=example1&example2=my_data" } );
- HTTP POST
- The following example will issue an HTTP POST request to the HTTP configuration called
"my_destination", the path that is the URI you want the request to be sent to and a
payload. The payload can be data similar to what an HTTP client would send, a JSON blob, XML, or whatever else you want to
send.
Remote.HTTP("my_destination").post( { path: "/", payload: "data I want to send" } );
- Custom HTTP Headers
- The following example defines a Javascript object with keys to represent the header
names and their corresponding values and provide that in a call as the value for the
headers
key.
var my_json = { example: "my_data", example1: 42, example2: false }; var headers = { "Content-Type": "application/json" }; Remote.HTTP("my_destination").post( { path: "/", headers: headers, payload: JSON.stringify(my_json) });
Remote.Kafka
The Remote.Kafka class enables you to submit message data to a Kafka server through a Kafka open data stream (ODS).
You must first configure a Kafka ODS target from the Administration settings, which requires unlimited privileges. For configuration information, see the Open Data Streams section in the ExtraHop Admin UI Guide.
Methods
- send
- Sends an array of messages to a single topic with an option to indicate which Kafka
partition the messages will be sent to.
- Syntax:
-
Remote.Kafka.send({"topic": "topic", "messages":[messages], "partition": partition})
Remote.Kafka("name").send({"topic": "topic", "messages":[messages], "partition": partition})
- Parameters:
-
- name: String
- The name of the ODS target that requests are sent to. If this field is not specified, the name is set to default.
- topic: String
- A string corresponding to the topic associated with the Kafka
send method. The topic string has the following
restrictions:
- The string length must be between 1 and 249 characters.
- The string supports only alphanumeric characters and the following symbols: "-", "_", or ".".
- The string cannot be "." or "..".
- messages: Array
- An optional array of messages to be sent. An element in this array cannot be an array itself.
- partition: Number
- An optional non-negative integer corresponding to the Kafka partition the messages will be sent to. The send action will fail silently if the number provided exceeds the number of partitions on the Kafka cluster associated with the given target. This value is ignored unless Manual Partitioning is selected as the partitioning strategy when you configured the open data stream in the Administration settings.
- Return values:
- None
- Examples:
-
Remote.Kafka.send({"topic": "my_topic", "messages": ["hello world", 42, DHCP.msgType], "partition": 2});
Remote.Kafka("my-target").send({"topic": "my_topic", "messages": [HTTP.query, HTTP.uri]});
- send
- Sends messages to a single topic.
- Syntax:
-
Remote.Kafka.send("topic", message1, message2, etc...)
Remote.Kafka("my-target").send("topic", message1, message2, etc...)
- Parameters:
- If Remote.Kafka.send is called with multiple arguments, the
following fields are required:
- topic: String
- A string corresponding to the topic associated with the Kafka
send method. The topic string has the following
restrictions:
- The string length must be between 1 and 249 characters.
- The string supports only alphanumeric characters and the following symbols: "-", "_", or ".".
- The string cannot be "." or "..".
- messages: String | Number
- The messages to be sent. This cannot be an array.
- Return values:
- None.
- Examples:
-
Remote.Kafka.send("my_topic", HTTP.query, HTTP.uri);
Remote.Kafka("my-target").send("my_topic", HTTP.query, HTTP.uri);
Remote.MongoDB
The Remote.MongoDB class enables you to insert, remove, and update MongoDB document collections through a MongoDB open data stream (ODS).
You must first configure a MongoDB ODS target from the Administration settings, which requires unlimited privileges. For configuration information, see the Open Data Streams section in the ExtraHop Admin UI Guide.
Methods
- insert
- Inserts a document or array of documents into a collection, and handles both add and
modify operations.
- Syntax:
-
Remote.MongoDB.insert("db.collection", document);
Remote.MongoDB("name").insert("db.collection", document);
- Parameters:
-
- name: String
- The name of the ODS target that requests are sent to. If this field is not specified, the name is set to default.
- collection: String
- The name of a group of MongoDB documents.
- document: Object
- The JSON-formatted document to insert into the collection.
- Return Values:
- Returns true if the request is queued, otherwise returns false.
- Examples:
-
Remote.MongoDB.insert('sessions.sess_www', { 'session_id': "100", 'path': "/index.html", 'host': "www.extrahop.com", 'status': "500", 'src_ip': "10.10.1.120", 'dst_ip': "10.10.1.100" } ); var x = Remote.MongoDB.insert('test.tbc', {example: 1}); if (x) { Network.metricAddCount('perf_trigger_success', 1); } else { Network.metricAddCount('perf_trigger_error', 1); }
Refer to http://docs.mongodb.org/manual/reference/method/db.collection.insert/#db.collection.insert for more information.
- remove
- Removes documents from a collection.
- Syntax:
-
Remote.MongoDB.remove("collection", document, justOnce);
Remote.MongoDB("name").remove("collection", document, justOnce]);
- Parameters:
-
- name: String
- The optional name of the host specified when you configured the open data stream in the Administration settings. If no host is specified, the value is the default host.
- collection: String
- The name of a group of MongoDB documents.
- document: Object
- The JSON-formatted document to remove from the collection.
- justOnce: Boolean
- An optional boolean parameter that limits the removal to just one document. Set to true to limit the deletion. The default value is false.
- Return Values:
- Returns true if the request is queued, otherwise returns false.
- Examples:
-
var x = Remote.MongoDB.remove('test.tbc', {qty: 100000}, false); if (x) { Network.metricAddCount('perf_trigger_success', 1); } else { Network.metricAddCount('perf_trigger_error', 1); }
Refer to http://docs.mongodb.org/manual/reference/method/db.collection.remove/#db.collection.remove for more information.
- update
- Modifies an existing document or documents in a collection.
- Syntax:
-
Remote.MongoDB.update("collection", document, update, {"upsert":true, "multi":true});
Remote.MongoDB("name").update("collection", document, update, {"upsert":true, "multi":true});
- Parameters:
-
- collection: String
- The name of a group of MongoDB documents.
- document: Object
- The JSON-formatted document that specifies which documents to update or insert, if upsert option is set to true.
- update: Object
- The JSON-formatted document that specifies how to update the specified documents.
- name: String
- The name of the host specified when you configured the open data stream in the Administration settings. If no host was specified, the value is the default host.
- options:
- Optional flags that indicate the following additional update options:
- upsert: Boolean
- An optional boolean parameter that creates a new document when no document matches the query data. Set to true to create a new document. The default value is false.
- multi: Boolean
- An optional boolean parameter that updates all documents that match the query data. Set to true to update multiple documents. The default value is false, which updates only the first document returned.
- Return Values:
- The value is true if the request is queued, otherwise returns FALSE.
- Examples:
-
var x = Remote.MongoDB.update('test.tbc', {_id: 1}, {$set: {example:2}}, {'upsert':true, 'multi':false} ); if (x) { Network.metricAddCount('perf_trigger_success', 1); } else { Network.metricAddCount('perf_trigger_error', 1); }
Refer to http://docs.mongodb.org/manual/reference/method/db.collection.update/#db.collection.update for more information.
Remote.Raw
The Remote.Raw class enables you to submit raw data to a Raw open data stream (ODS) target through a TCP or UDP port.
You must first configure a raw ODS target from the Administration settings, which requires unlimited privileges. For configuration information, see the Open Data Streams section in the ExtraHop Admin UI Guide.
Note: | If the Gzip feature is enabled for the raw data stream in the Administration settings, the Remote.Raw class will automatically compress the data with Gzip. |
Methods
- send
- Sends raw data to a Raw open data stream (ODS) target through a TCP or UDP port.
- Syntax:
-
Remote.Raw.send("data")
Remote.Raw("name").send("data")
- Parameters:
-
- name: String
- The name of the ODS target that requests are sent to. If this field is not specified, the name is set to default.
- data: String
- The JavaScript string representing the bytes to send.
- Return Values:
- None
- Examples
-
Remote.Raw.send("data over the wire");
Remote.Raw("my-target").send("extra data for my-target");
Remote.Syslog
The Remote.Syslog class enables you to create remote syslog messages and send message data to a Syslog open data stream (ODS).
You must first configure a syslog ODS target from the Administration settings, which requires unlimited privileges. For configuration information, see the Open Data Streams section in the ExtraHop Admin UI Guide.
Note: | If submitting an rsyslog message succeeds, the APIs will return true. In the case of either success or failure, the trigger will continue to execute as a failure to submit an rsyslog message is a "soft" failure. Incorrect usage of the APIs, in other words, calling them with the wrong number or type of arguments, will still result in trigger execution stopping. |
Methods
- emerg(message:String):void
- Sends a message to the remote syslog server with an emergency severity level.
- Syntax:
-
Remote.Syslog.emerg("eh_event=web uri=" + HTTP.uri + " req_size=" + HTTP.reqSize + " rsp_size=" + HTTP.rspSize + " processingTime=" + HTTP.processingTime);
Remote.Syslog("name").emerg("eh_event=web uri=" + HTTP.uri + " req_size=" + HTTP.reqSize + " rsp_size=" + HTTP.rspSize + " processingTime=" + HTTP.processingTime);
- Parameters
-
- name: String
- The name of the ODS target that requests are sent to. If this field is not specified, the name is set to default.
- alert(message:String):void
- Sends a message to the remote syslog server with an alert severity level.
- Syntax:
-
Remote.Syslog.alert("eh_event=web uri=" + HTTP.uri + " req_size=" + HTTP.reqSize + " rsp_size=" + HTTP.rspSize + " processingTime=" + HTTP.processingTime);
Remote.Syslog("name").alert("eh_event=web uri=" + HTTP.uri + " req_size=" + HTTP.reqSize + " rsp_size=" + HTTP.rspSize + " processingTime=" + HTTP.processingTime);
- Parameters
-
- name: String
- The name of the ODS target that requests are sent to. If this field is not specified, the name is set to default.
- crit(message:String):void
- Sends a message to the remote syslog server with a critical severity level.
- Syntax:
-
Remote.Syslog.crit("eh_event=web uri=" + HTTP.uri + " req_size=" + HTTP.reqSize + " rsp_size=" + HTTP.rspSize + " processingTime=" + HTTP.processingTime);
Remote.Syslog("name").crit("eh_event=web uri=" + HTTP.uri + " req_size=" + HTTP.reqSize + " rsp_size=" + HTTP.rspSize + " processingTime=" + HTTP.processingTime);
- Parameters
-
- name: String
- The name of the ODS target that requests are sent to. If this field is not specified, the name is set to default.
- error(message:String):void
- Sends a message to the remote syslog server with an error severity level.
- Syntax:
-
Remote.Syslog.error("eh_event=web uri=" + HTTP.uri + " req_size=" + HTTP.reqSize + " rsp_size=" + HTTP.rspSize + " processingTime=" + HTTP.processingTime);
Remote.Syslog("name").error("eh_event=web uri=" + HTTP.uri + " req_size=" + HTTP.reqSize + " rsp_size=" + HTTP.rspSize + " processingTime=" + HTTP.processingTime);
- Parameters
-
- name: String
- The name of the ODS target that requests are sent to. If this field is not specified, the name is set to default.
- warn(message:String):void
- Sends a message to the remote syslog server with a warning severity level.
- Syntax:
-
Remote.Syslog.warn("eh_event=web uri=" + HTTP.uri + " req_size=" + HTTP.reqSize + " rsp_size=" + HTTP.rspSize + " processingTime=" + HTTP.processingTime);
Remote.Syslog("name").warn("eh_event=web uri=" + HTTP.uri + " req_size=" + HTTP.reqSize + " rsp_size=" + HTTP.rspSize + " processingTime=" + HTTP.processingTime);
- Parameters
-
- name: String
- The name of the ODS target that requests are sent to. If this field is not specified, the name is set to default.
- notice(message:String):void
- Sends a message to the remote syslog server with a notice severity level.
- Syntax:
-
Remote.Syslog.notice("eh_event=web uri=" + HTTP.uri + " req_size=" + HTTP.reqSize + " rsp_size=" + HTTP.rspSize + " processingTime=" + HTTP.processingTime);
Remote.Syslog("name").notice("eh_event=web uri=" + HTTP.uri + " req_size=" + HTTP.reqSize + " rsp_size=" + HTTP.rspSize + " processingTime=" + HTTP.processingTime);
- Parameters
-
- name: String
- The name of the ODS target that requests are sent to. If this field is not specified, the name is set to default.
- info(message:String):void
- Sends a message to the remote syslog server with an info severity level.
- Syntax:
-
Remote.Syslog.info("eh_event=web uri=" + HTTP.uri + " req_size=" + HTTP.reqSize + " rsp_size=" + HTTP.rspSize + " processingTime=" + HTTP.processingTime);
Remote.Syslog("name").info("eh_event=web uri=" + HTTP.uri + " req_size=" + HTTP.reqSize + " rsp_size=" + HTTP.rspSize + " processingTime=" + HTTP.processingTime);
- Parameters
-
- name: String
- The name of the ODS target that requests are sent to. If this field is not specified, the name is set to default.
- debug(message:String):void
- Sends a message to the remote syslog server with a debug severity level.
- Syntax:
-
Remote.Syslog.debug("eh_event=web uri=" + HTTP.uri + " req_size=" + HTTP.reqSize + " rsp_size=" + HTTP.rspSize + " processingTime=" + HTTP.processingTime);
Remote.Syslog("name").debug("eh_event=web uri=" + HTTP.uri + " req_size=" + HTTP.reqSize + " rsp_size=" + HTTP.rspSize + " processingTime=" + HTTP.processingTime);
- Parameters
-
- name: String
- The name of the ODS target that requests are sent to. If this field is not specified, the name is set to default.
Message size
By default, the message sent to the remote server is limited to 1024 bytes, including the message header and trailer (if necessary). The message header always includes the priority and timestamp, which together are up to 30 bytes.
If you have unlimited privileges, you can increase the default message size in the Administration settings. Click Running Config from the Appliance Settings section, and then click Edit config. Go to the "remote" section, and under the ODS target name, such as "rsyslog", add "message_length_max" as shown in the example below. The "message_length_max" setting applies only to the message passed to the Remote.Syslog APIs; the message header does not count against the maximum.
"remote": { "rsyslog": { "host": "hostname", "port": 54322, "ipproto": "tcp", "message_length_max": 4000 } }
Remote
The Remote class enables you to send data to a third-party syslog, database, or server through an open data stream (ODS) and access responses returned by HTTP ODS targets.
Events
- REMOTE_RESPONSE
- Runs when the ExtraHop system receives a response from an HTTP ODS
target.
Note: A trigger runs on the REMOTE_RESPONSE event only if the trigger created the ODS request that caused the response.
Properties
- response: Object
- An object that contains information from the HTTP response returned by the
ODS target. The response object has the following properties:
- statusCode: Number
- The status code returned by the ODS target.
- body: Buffer
- The body of the HTTP response sent by the ODS target.
- headers: Object
- An object that contains the headers of the HTTP response sent by the ODS target. If the response contains multiple headers with the same name, the value for the header is an array. For example, if Set-Cookie is specified multiple times in the response, you can access the first cookie by specifying Remote.response.headers["Set-Cookie"][0].
- context: Object | String | Number | Boolean | null
- The context information specified in the Remote.HTTP context parameter when the ODS request was sent. For more information see Remote.HTTP.
Datastore classes
The Trigger API classes in this section enable you to access datastore, or bridge, metrics.
Class | Description |
---|---|
AlertRecord | Enables you to access alert information on ALERT_RECORD_COMMIT events. |
Dataset | Enables you to access raw dataset values and provides an interface for computing percentiles. |
MetricCycle | Enables you to retrieve metrics published during a metric cycle interval represented by the METRIC_CYCLE_BEGIN, METRIC_CYCLE_END, and METRIC_RECORD_COMMIT events. |
MetricRecord | Enables access to the current set of metrics on METRIC_RECORD_COMMIT events. |
Sampleset | Enables you to retrieve summary data about metrics. |
Topnset | Enables you to access data from a collection of metrics grouped by a key such as a URI or a client IP address. |
AlertRecord
The AlertRecord class enables you to access alert information on ALERT_RECORD_COMMIT events.
Events
- ALERT_RECORD_COMMIT
- Runs when an alert occurs. Provides access to information about the
alert.
Additional datastore options are available when you create a trigger that runs on this event. See Advanced trigger options for more information.
Note: You cannot assign triggers that run only on this event to specific devices or device groups. Triggers that run on this event will run whenever this event occurs.
Properties
- description: String
- The description of the alert as it appears in the ExtraHop system.
- id: String
- The ID of the alert record. For example, extrahop.device.alert. A list of IDs can be supplied as a hint to the ALERT_RECORD_COMMIT event.
- name: String
- The name of the alert.
- object: Object
- The object the alert applies to. For device, application, capture, flow interface, or flow network alerts, this property will contain a Device, Application, Network, FlowInterface, or FlowNetwork object, respectively.
- time: Number
- The time that the alert record will be published with.
- severityName: String
- The name of the alert severity level. The following severity levels are
supported:
Value Description emerg Emergency alert Alert crit Critical err Error warn Warning notice Notice info Info debug Debug - severityLevel: Number
- The numeric alert severity level. The following severity levels are supported:
Value Description 0 Emergency 1 Alert 2 Critical 3 Error 4 Warning 5 Notice 6 Info 7 Debug
Dataset
The dataset class enables you to access raw dataset values and provides an interface for computing percentiles.
Instance Methods
- percentile(...): Array | Number
- Accepts a list of percentiles (either as an array or as multiple arguments) to compute and returns the computed percentile values for the dataset. If passed a single numeric argument, a number is returned. Otherwise an array is returned. The arguments must be in ascending order with no duplicates. Floating point values, such as 99.99, are allowed.
MetricCycle
The MetricCycle class represents an interval during which metrics are published. The MetricCycle class is valid on METRIC_CYCLE_BEGIN, METRIC_CYCLE_END, and METRIC_RECORD_COMMIT events.
The METRIC_RECORD_COMMIT event is defined in the MetricRecord section.
Events
- METRIC_CYCLE_BEGIN
- Runs when a metric interval begins.
Note: You cannot assign triggers that run only on this event to specific devices or device groups. Triggers that run on this event will run whenever this event occurs. - METRIC_CYCLE_END
- Runs when a metric interval ends.
Note: You cannot assign triggers that run only on this event to specific devices or device groups. Triggers that run on this event will run whenever this event occurs.
Additional datastore options are available when you create a trigger that runs on either of these events. See Advanced trigger options for more information.
Properties
- id: String
- A string representing the metric cycle. Possible values are:
- 30sec
- 5min
- 1hr
- 24hr
- interval: Object
- An object containing from and until properties, expressed in milliseconds since the epoch.
- store: Object
- An object that retains information across all the METRIC_RECORD_COMMIT events that occur during a metric cycle, that is, from the METRIC_CYCLE_BEGIN event to the METRIC_CYCLE_END event. This object is analogous to the Flow.store object. The store object is shared among triggers for METRIC_* events. It is cleared at the end of a metric cycle.
MetricRecord
The MetricRecord class enables you to access to the current set of metrics on METRIC_RECORD_COMMIT events.
Events
- METRIC_RECORD_COMMIT
- Runs when a metric record is committed to the datastore and provides access to various
metric properties.
Additional datastore options are available when you create a trigger that runs on this event. See Advanced trigger options for more information.
Note: You cannot assign triggers that run only on this event to specific devices or device groups. Triggers that run on this event will run whenever this event occurs.
Properties
- fields: Object
- An object containing metric values. The properties are the field names and the values can be numbers, Topnset, Dataset or Sampleset.
- id: String
- The metric type, such as extrahop.device.http_server.
- object: Object
- The object the metric applies to. For device, application, or VLAN alerts, this
property contains a Device object, an Application object, or a VLAN instance, respectively. For capture metrics, such as
extrahop.capture.net, the property contains a Network object. The following example code stores the ID
of an application in a
variable:
var app_id = MetricRecord.object.id;
Note: The example code above always generates the following warning in the trigger editor: Property 'id' does not exist on type 'Device | Application | VLAN | Network'. ts(2339) [2, 33] Property 'id' does not exist on type 'Network'.
The warning indicates that assigning the trigger to a network is not supported. You can ignore this warning when the trigger is assigned to an application.
- time: Number
- The publish time of the metric record.
Topnset
The Topnset class represents a collection of metrics grouped by a key such as a URI or a client IP address.
Methods
For custom metrics, keys in the topnset corresponds to the keys passed into metricAddDetail*() methods. Key values can be a number, string, Dataset, Sampleset, or another topnset.
- findEntries(key: IPAddress | String | Object): Array
- Returns all entries with matching keys.
- findKeys(key: IPAddress | String | Object): Array
- Returns all matching keys.
- lookup(key: IPAddress | String | Object): *
- Look up an item in the topnset and retrieves the first matching entry.
Properties
- entries: Array
- An array of the topnset entries. The array contains at most N objects
with key and value properties where N is currently set to 1000.
Keys in the entries array adhere to the following structure, or key pattern:
- type: String
- The type of the topnset key. The following key types are supported:
- int
- string
- device_id
- ipaddr
- addr_pair
- ether
- value: *
- The key value, which varies depending on the key type.
- For int, string, and device_id keys, the value is a number, string, and device ID, respectively.
- For ipaddr keys, the value is an object containing the
following properties:
- addr
- proto
- port
- device_id
- origin
- For addr_pair keys, the value is an object containing the
following properties:
- addr1
- addr2
- port1
- port2
- proto
- For ether keys, the value is an object containing the
following properties:
- ethertype
- hwaddr
Deprecated API elements
The API elements listed in this section have been deprecated. Each element includes an alternative and the version in which the element was deprecated.
If your trigger script contains a deprecated element, the syntax validator in the trigger editor lets you know which element is deprecated and suggests a replacement element, if available. You cannot save the trigger until you fix your code or you disable syntax validation. For better trigger performance, replace deprecated elements.
Deprecated global functions
Function | Replacement | Version |
---|---|---|
exit(): Void | The return statement | 4.0 |
getTimestampMSec(): Number | getTimestamp(): Number | 4.0 |
Deprecated classes
Class | Replacement | Version |
---|---|---|
RemoteSyslog | Remote.Syslog | 4.0 |
XML | Regular expressions | 6.0 |
TroubleGroup | No replacement | 6.0 |
Deprecated methods by class
Class | Method | Replacement | Version |
---|---|---|---|
Flow | getApplication(): String | getApplications(): String | 5.3 |
setApplication(name: String, turnTiming: Boolean): void | addApplication(name: String, turnTiming: Boolean): void | 5.3 | |
Session | update(key: String, value: *, options: Object)* | replace(key: String, value: *, options: Object): * | 3.9 |
SSL | setApplication(name: String): void | addApplication(name: String): void | 5.3 |
Deprecated properties by class
Class | Property | Replacement | Version |
---|---|---|---|
AAA | error: String | isError: Boolean | 5.0 |
tprocess: Number | processingTime: Number | 5.2 | |
DB | tprocess: Number | processingTime: Number | 5.2 |
Detection | participants.object_type: String | instanceof operator | 7.8 |
Discover | vlan: VLAN | No replacement | 6.1 |
DNS | tprocess: Number | processingTime: Number | 5.2 |
Flow | isClientAborted: Boolean | isAborted: Boolean | 3.10 |
isServerAborted: Boolean | isAborted: Boolean | 3.10 | |
turnInfo: String | Top-level Turn object with attributes for the turn | 3.9 | |
FTP | tprocess: Number | processingTime: Number | 5.2 |
HL7 | tprocess: Number | processingTime: Number | 5.2 |
HTTP | payloadText: String | payload: Buffer | 4.0 |
tprocess: Number | processingTime: Number | 5.2 | |
IBMMQ | messageID: String | msgID: Buffer | 5.2 |
msgSize: Number | totalMsgLength: Number | 5.2 | |
objectHandle: String | No replacement | 5.0 | |
payload: Buffer | msg: Buffer | 5.2 | |
ICA | authTicket: String | user: String | 3.7 |
application: String | program: String | 5.2 | |
client: String | clientMachine: String | 6.0 | |
LDAP | tprocess: Number | processingTime: Number | 5.2 |
MongoDB | tprocess: Number | processingTime: Number | 5.2 |
NetFlow | tos: Number | dscp: Number dscp: String |
6.1 |
NTLM | ntlmRspVersion: String | rspVersion: String | 8.2 |
SMPP | tprocess: Number | processingTime: Number | 5.2 |
SMTP | recipient: String | recipientList: Array of Strings | 7.5 |
tprocess: Number | processingTime: Number | 5.2 | |
SSL | reqBytes: Number | clientBytes | 6.1 |
reqL2Bytes: Number | clientL2Bytes: Number | 6.1 | |
reqPkts: Number | clientPkts: Number | 6.1 | |
rspBytes: Number | serverBytes: Number | 6.1 | |
rspL2Bytes: Number | serverL2Bytes: Number | 6.1 | |
rspPkts: Number | serverPkts: Number | 6.1 | |
TCP | wndSize: Number | initRcvWndSize: Number | 6.2 |
wndSize1: Number | initRcvWndSize1: Number | 6.2 | |
wndSize2: Number | initRcvWndSize2: Number | 6.2 | |
Turn | reqSize: Number | clientBytes: Number | 4.0 |
reqXfer: Number | clientTransferTime: Number | 4.0 | |
respSize: Number | serverBytes: Number | 4.0 | |
rspXfer: Number | serverTransferTime: Number | 4.0 | |
tprocess: Number | processingTime: Number | 4.0 |
Advanced trigger options
You can configure advanced options for some events when you create a trigger.
Option | Description | Supported events | ||
---|---|---|---|---|
Bytes Per Packet to Capture | Specifies the number of bytes to capture per packet. The capture
starts with the first byte in the packet. Specify this option only
if the trigger script performs packet capture. A value of 0 specifies that the capture should collect all bytes in each packet. |
All events are supported except the following list:
|
||
L7 Payload Bytes to Buffer | Specifies the maximum number of payload bytes to buffer.
|
|
||
Clipboard Bytes | Specifies the number of bytes to buffer on a Citrix clipboard transfer. |
|
||
Metric cycle | Specifies the length of the metric cycle, expressed in seconds.
The following values are valid:
|
|
||
Metric types | Specifies the metric type by the raw metric name, such as extrahop.device.http_server. Specify multiple metric types in a comma-delimited list. |
|
||
Run trigger on each flow turn | Enables packet capture on each flow
turn. Per-turn analysis continuously analyzes communication between two endpoints to extract a single payload data point from the flow. If this option is enabled, any values specified for the Client matching string and Server matching string options are ignored. |
|
||
Client Port Range | Specifies the client port range. Valid values are 0 to 65535. |
|
||
Client Bytes to Buffer | Specifies the number of client bytes to buffer. The value of this option cannot be set to 0 if the value of the Server bytes to buffer option is also set to 0. |
|
||
Client Buffer Search String | Specifies the format string that indicates when to begin
buffering client data. Any value specified for this option is ignored if the Per Turn option is enabled. |
|
||
Server Port Range | Specifies the server port range. Valid values are 0 to 65535. |
|
||
Server Bytes to Buffer | Specifies the number of server bytes to buffer. The value of this option cannot be set to 0 if the value of the Client bytes to buffer option is also set to 0. |
|
||
Server Buffer Search String | Specifies the format string that indicates when to begin
buffering data. Returns the entire packet upon a string match. Any value specified for this option is ignored if the Per Turn option is enabled. |
|
||
Run trigger on all UDP packets | Enables capture of all UDP datagrams. |
|
||
Run FLOW_CLASSIFY on expiring, unclassified flows | Enables running the event upon expiration to accumulate metrics for flows that were not classified before expiring. |
|
Examples
The following examples are available:
- Example: Collect ActiveMQ metrics
- Example: Send data to Azure with Remote.HTTP
- Example: Monitor CIFS actions on devices
- Example: Track 500-level HTTP responses by customer ID and URI
- Example: Collect response metrics on database queries
- Example: Send discovered device data to a remote syslog server
- Example: Send data to Elasticsearch with Remote.HTTP
- Example: Access HTTP header attributes
- Example: Collect IBMMQ metrics
- Example: Record Memcache hits and misses
- Example: Parse memcache keys
- Example: Add metrics to the metric cycle store
- Example: Parse NTP with universal payload analysis
- Example: Parse custom PoS messages with universal payload analysis
- Example: Parse syslog over TCP with universal payload analysis
- Example: Record data to a session table
- Example: Track SOAP requests
- Example: Matching topnset keys
- Example: Create an application container
Example: Collect ActiveMQ metrics
The trigger in this example records destination information from the Java Messaging Service (JMS). The trigger creates an application and collects custom metrics that include the whether the broker of an event is the sender or receiver and the JMS destination field specified on that event.
Run the trigger on the following events: ACTIVEMQ_MESSAGE
var app = Application("ActiveMQ Sample"); if (ActiveMQ.senderIsBroker) { if (ActiveMQ.receiverIsBroker) { app.metricAddCount("amq_broker", 1); app.metricAddDetailCount("amq_broker", ActiveMQ.queue, 1); } else { app.metricAddCount("amq_msg_out", 1); app.metricAddDetailCount("amq_msg_out", ActiveMQ.queue, 1); } } else { app.metricAddCount("amq_msg_in", 1); app.metricAddDetailCount("amq_msg_in", ActiveMQ.queue, 1); }
Example: Send data to Azure with Remote.HTTP
The trigger in this example sends data to the Microsoft Azure Table storage service through an HTTP open data stream (ODS).
You must first configure an HTTP open data stream from the Administration settings before you create the trigger. The ODS configuration contains the authentication information required to sign in to your Microsoft Azure service. For configuration information, see Configure an HTTP target for an open data stream in the ExtraHop Admin UI Guide.
Run the trigger on the following events: HTTP_RESPONSE
// The name of the HTTP destination defined in the ODS config var REST_DEST = "my_table_storage"; // The name of the table within Azure Table storage var TABLE_NAME = "TestTable"; /* If the header is not set to this value, Azure expects to receive XML; * however, it is easier for a trigger to send JSON. * The ODS config enables you to specify the datatype of fields; in this case * the timestamp (TS) field is a datetime even though it is serialized from a * Date to a String. */ var headers = { "Content-Type": "application/json;odata=minimalmetadata" }; var now = new Date(getTimestamp()); var msg = { "RowKey": now.getTime().toString(), // must be a string "PartitionKey": "my_key", // must be a string "HTTPMethod": HTTP.method, "DestAddr": Flow.server.ipaddr, "SrcAddr": Flow.client.ipaddr, "SrcPort": Flow.client.port, "DestPort": Flow.server.port, "TS@odata.type": "Edm.DateTime", // metadata to describe format of TS field "TS": now.toISOString(), "ServerTime": HTTP.processingTime, "RspTTLB": HTTP.rspTimeToLastByte, "RspCode": HTTP.statusCode.toString(), "URI": "http://" + HTTP.host + HTTP.path, }; // debug(JSON.stringify(msg)); Remote.HTTP(REST_DEST).post( { path: "/" + TABLE_NAME, headers: headers, payload: JSON.stringify(msg) } );
Example: Monitor CIFS actions on devices
The trigger in this example monitors the CIFS actions performed on devices, and then creates custom device metrics that collect the total number of bytes read and written, and the number of bytes written by CIFS users that are not authorized to access a sensitive resource.
Run the trigger on the following events: CIFS_RESPONSE
var client = Flow.client.device, server = Flow.server.device, clientAddress = Flow.client.ipaddr, serverAddress = Flow.server.ipaddr, file = CIFS.resource, user = CIFS.user, resource, permissions, writeBytes, readBytes; // Resource to monitor resource = "\\Clients\\Confidential\\"; // Users of interest and their permissions permissions = { "\\\\EXTRAHOP\\tom" : {read: false, write: false}, "\\\\Anonymous" : {read: true, write: false}, "\\\\WORKGROUP\\maria" : {read: true, write: true} }; // Check if this is an action on your monitored resource if ((file !== null) && (file.indexOf(resource) !== -1)) { if (CIFS.isCommandWrite) { writeBytes = CIFS.reqSize; // Record bytes written Device.metricAddCount("cifs_write_bytes", writeBytes); Device.metricAddDetailCount("cifs_write_bytes", user, writeBytes); // Record number of writes Device.metricAddCount("cifs_writes", 1); Device.metricAddDetailCount("cifs_writes", user, 1); // Record number of unauthorized writes if (!permissions[user] || !permissions[user].write) { Device.metricAddCount("cifs_unauth_writes", 1); Device.metricAddDetailCount("cifs_unauth_writes", user, 1); } } if (CIFS.isCommandRead) { readBytes = CIFS.reqSize; // Record bytes read Device.metricAddCount("cifs_read_bytes", readBytes); Device.metricAddDetailCount("cifs_read_bytes", user, readBytes); // Record number of reads Device.metricAddCount("cifs_reads", 1); Device.metricAddDetailCount("cifs_reads", user, 1); // Record number of unauthorized reads if (!permissions[user] || !permissions[user].read) { Device.metricAddCount("cifs_unauth_reads", 1); Device.metricAddDetailCount("cifs_unauth_reads", user, 1); } } }
Example: Track 500-level HTTP responses by customer ID and URI
The trigger in this example tracks HTTP server responses that result in an error code of 500. The trigger also creates custom device metrics that collect the customer ID and URI in the header of each 500 response.
Run the trigger on the following events: HTTP_REQUEST and HTTP_RESPONSE
var custId, query, uri, key; if (event === "HTTP_REQUEST") { custId = HTTP.headers["Cust-ID"]; // Only keep the URI if there is a customer id if (custId !== null) { Flow.store.custId = custId; query = HTTP.query; /* Pull the complete URI (URI plus query string) and save it to * the Flow store for a subsequent response event. * * The query string data is only available on the request. */ uri = HTTP.uri; if ((uri !== null) && (query !== null)) { uri = uri + "?" + query; } // Keep URIs for handling by HTTP_RESPONSE triggers Flow.store.uri = uri; } } else if (event === "HTTP_RESPONSE") { custId = Flow.store.custId; // Count total requests by customer ID Device.metricAddCount("custid_rsp_count", 1); Device.metricAddDetailCount("custid_rsp_count_detail", custId, 1); // If the status code is 500 or 503, record the URI and customer ID if ((HTTP.statusCode === 500) || (HTTP.statusCode === 503)){ // Combine URI and customer ID to create the detail key key = custId; if (Flow.store.uri != null) { key += ", " + Flow.store.uri; } Device.metricAddCount("custid_error_count", 1); Device.metricAddDetailCount("custid_error_count_detail", key, 1); } }
Example: Collect response metrics on database queries
The trigger in this example creates custom device metrics that collect the number of responses and the processing times on database queries.
Run the trigger on the following events: DB_RESPONSE
let stmt = DB.statement; if (stmt === null) { return; } // Remove leading whitespace and truncate stmt = stmt.trimLeft().substr(0, 1023); // Record counts by statement Device.metricAddCount("db_rsp_count", 1); Device.metricAddDetailCount("db_rsp_count_detail", stmt, 1); // Record processing times by statement Device.metricAddSampleset("db_proc_time", DB.processingTime); Device.metricAddDetailSampleset("db_proc_time_detail", stmt, DB.processingTime);
Example: Send discovered device data to a remote syslog server
The trigger in this example discovers when a new device is detected on the ExtraHop system and creates remote syslog messages that contain device attributes.
You must first configure a remote open data stream from the Administration settings before you create the trigger. The ODS configuration specifies the location of the remote syslog server. For configuration information, see Configure a syslog target for an open data stream in the ExtraHop Admin UI Guide.
Run the trigger on the following events: NEW_DEVICE
var dev = Discover.device; Remote.Syslog.info('Discovered device ' + dev.id + ' (hwaddr: ' + dev.hwaddr + ') ');
Example: Send data to Elasticsearch with Remote.HTTP
The trigger in this example sends data to an Elasticsearch server through an HTTP open data stream (ODS).
You must first configure an HTTP open data stream from the Administration settings before you create the trigger. The ODS configuration specifies the Elasticsearch target and any required authentication credentials. For configuration information, see Configure an HTTP target for an open data stream in the ExtraHop Admin UI Guide.
Run the trigger on the following events: HTTP_REQUEST and HTTP_RESPONSE
var date = new Date(); var payload = { 'ts' : date.toISOString(), // Timestamp recognized by Elasticsearch 'eh_event' : 'http', 'my_path' : HTTP.path}; var obj = { 'path' : '/extrahop/http', // Add to ExtraHop index 'headers' : {}, 'payload' : JSON.stringify(payload)} ; Remote.HTTP('elasticsearch').request('POST', obj);
Example: Access HTTP header attributes
The trigger in this example accesses HTTP event attributes from the header object, and creates custom device metrics that count header requests and attributes.
Run the trigger on the following events: HTTP_RESPONSE
var hdr, session, accept, results, headers = HTTP.headers, i; // Header lookups are case-insensitive properties session = headers["X-Session-Id"]; /* Session is a string representing the value of the header (or null * if the header is not present). Header values are always strings. */ // This syntax also works if the header is a legal property name accept = headers.accept; /* * In the event that there are multiple instances of a header, * accessing the header in the above manner (as a property) * will always return the value for the first appearance of the * header. */ if (session !== null) { // Count requests per session ID Device.metricAddCount("req_count", 1); Device.metricAddDetailCount("req_count", session, 1); } /* Looping over all headers * * The "length" property is case-sensitive and is not * treated as a header lookup. Instead, it returns the number of * headers (as if HTTP.headers were an array). In the unlikely * event that there is a header called "Length," it would still be * accessible with HTTP.headers["Length"] (or HTTP.headers.Length). */ for (i = 0; i < headers.length; i++) { hdr = headers[i]; debug("headers[" + i + "].name: " + hdr.name); debug("headers[" + i + "].value: " + hdr.value); Device.metricAddCount("hdr_count", 1); /* Count instances of each header */ Device.metricAddDetailCount("hdr_count", hdr.name, 1); } // Searching for headers by prefix results = HTTP.findHeaders("Content-"); /* The "results" property is an array (a real javascript array, as opposed * to an array-like object) of header objects (with name and value * properties) where the names match the prefix of the string passed * to findHeaders. */ for (i = 0; i < results.length; i++) { hdr = results[i]; debug("results[" + i + "].name: " + hdr.name); debug("results[" + i + "].value: " + hdr.value); }
Example: Collect IBMMQ metrics
The triggers in this example work together to give a view of the flow of queue level messages through the IBMMQ protocol. The triggers create custom application metrics that count the number of messages in, out, and exchanged between brokers by different message queues.
Run the following trigger on the IBMMQ_REQUEST event.
if (IBMMQ.method == "MESSAGE_DATA") { var app = Application("IBMMQ Sample"); app.metricAddCount("broker", 1); if (IBMMQ.queue !== null) { var ret = IBMMQ.queue.split(":"); var queue = ret.length > 1 ? ret[1] : ret[0]; app.metricAddDetailCount("broker", queue, 1); } else { app.metricAddCount("queueless_broker", 1); } if (IBMMQ.queue !== null && IBMMQ.queue.indexOf("QUEUE2") > -1) { app.metricAddCount("queue2_broker", 1); } app.commit(); } elseif (IBMMQ.method == "MQPUT" || IBMMQ.method == "MQPUT1") { var app = Application("IBMMQ Sample"); app.metricAddCount("msg_in", 1); if (IBMMQ.queue !== null) { var ret = IBMMQ.queue.split(":"); var queue = ret.length > 1 ? ret[1] : ret[0]; app.metricAddDetailCount("msg_in", queue, 1); } else { app.metricAddCount("queueless_msg_in", 1); } if (IBMMQ.queue !== null && IBMMQ.queue.indexOf("QUEUE2") > -1) { app.metricAddCount("queue2_msg_in", 1); } app.commit(); }
Run the following trigger on the IBMMQ_RESPONSE event.
if (IBMMQ.method == "ASYNC_MSG_V7" || IBMMQ.method == "MQGET_REPLY") { var app = Application("IBMMQ Sample"); if (IBMMQ.payload === null) { app.metricAddCount("payloadless_msg_out", 1); } else { app.metricAddCount("msg_out", 1); if (IBMMQ.queue !== null) { var ret = IBMMQ.queue.split(":"); var queue = ret.length > 1 ? ret[1] : ret[0]; app.metricAddDetailCount("msg_out", queue, 1); } else { app.metricAddCount("queueless_msg_out", 1); } if (IBMMQ.queue !== null && IBMMQ.queue.indexOf("QUEUE2") > -1) { app.metricAddCount("queue2_msg_out", 1); } } app.commit(); }
Example: Record Memcache hits and misses
The trigger in this example creates custom device metrics that record each memcache hit or miss and the access time of each hit.
Run the trigger on the following events: MEMCACHE_RESPONSE
var hits = Memcache.hits; var misses = Memcache.misses; var accessTime = Memcache.accessTime; var i; Device.metricAddCount('memcache_key_hit', hits.length); for (i = 0; i < hits.length; i++) { var hit = hits[i]; if (hit.key != null) { Device.metricAddDetailCount('memcache_key_hit_detail', hit.key, 1); } } if (!isNaN(accessTime)) { Device.metricAddSampleset('memcache_key_hit', accessTime); if ((hits.length > 0) && (hits[0].key != null)) { Device.metricAddDetailSampleset('memcache_key_hit_detail', hits[0].key, accessTime); } } Device.metricAddCount('memcache_key_miss', misses.length); for (i = 0; i < misses.length; i++) { var miss = misses[i]; if (miss.key != null) { Device.metricAddDetailCount('memcache_key_miss_detail', miss.key, 1); } }
Example: Parse memcache keys
Parses the memcache keys to extract detailed breakdowns, such as by ID module and class name, and creates custom device metrics to collect key details.
Keys are formatted as "com.extrahop.<module>.<class>_<id>"—for example: "com.extrahop.widgets.sprocket_12345".
Run the trigger on the following events: MEMCACHE_RESPONSE
var method = Memcache.method; var statusCode = Memcache.statusCode; var reqKeys = Memcache.reqKeys; var hits = Memcache.hits; var misses = Memcache.misses; var error = Memcache.error; var hit; var miss; var key; var size; var reqKey; var i; // Record breakdown of hit count and value size by module and class for (i = 0; i < hits.length; i++) { hit = hits[i]; key = hit.key; size = hit.size; Device.metricAddCount("hit", 1); if (key != null) { var parts = key.split("."); if ((parts.length == 4) && (parts[0] == "com") && (parts[1] == "extrahop")) { var module = parts[2]; var subparts = parts[3].split("_"); Device.metricAddDetailCount("hit_module", module, 1); Device.metricAddDetailSampleset("hit_module_size", module, size); if (subparts.length == 2) { var hitClass = module + "." + subparts[0]; Device.metricAddDetailCount("hit_class", hitClass, 1); Device.metricAddDetailSampleset("hit_class_size", hitClass, size); } } } } // Record misses by ID to help identify caching issues for (i = 0; i < misses.length; i++) { miss = misses[i]; key = miss.key; if (key != null) { var parts = key.split("."); if ((parts.length == 4) && (parts[0] == "com") && (parts[1] == "extrahop") && (parts[2] == "widgets")) { var subparts = parts[3].split("_"); if ((subparts.length == 2) && (subparts[0] == "sprocket")) { Device.metricAddDetailCount("sprocket_miss_id", subparts[1], 1); } } } } // Record the keys that produced any errors if (error != null && method != null) { for (i = 0; i < reqKeys.length; i++) { reqKey = reqKeys[i]; if (reqKey != null) { var errDetail = method + " " + reqKey + " / " + statusCode + ": " + error; Device.metricAddDetailCount("error_key", errDetail, 1); } } } // Record the status code, matching built-in metrics if (Memcache.isBinaryProtocol && statusCode != "NO_ERROR") { Device.metricAddDetailCount("status_code", method + "/" + statusCode, 1); } else { Device.metricAddDetailCount("status_code", statusCode, 1); }
Example: Add metrics to the metric cycle store
The trigger in this example illustrates how to temporarily store data from all metric record commits that occur during a metric cycle.
Run the trigger on the following events: METRIC_CYCLE_BEGIN, METRIC_CYCLE_END, METRIC_RECORD_COMMIT
Configure advanced trigger options as shown in the following table:
Option | Value |
---|---|
Metric Cycle | 30sec |
Metric Type | extrahop.device.http_server, extrahop.device.tcp |
var store = MetricCycle.store; function processMetric() { var id = MetricRecord.id, deviceId = MetricRecord.object.id, fields = MetricRecord.fields; if (!store.metrics[deviceId]) { store.metrics[deviceId] = {}; } if (id === 'extrahop.device.http_server') { store.metrics[deviceId].httpRspAborted= fields['rsp_abort']; } else if (id === 'extrahop.device.tcp') { store.metrics[deviceId].tcpAborted = fields['aborted_out']; } } function commitSyntheticMetrics() { var dev, metrics, abortPct, deviceId; for (deviceId in store.metrics) { metrics = store.metrics[deviceId]; abortPct = (metrics.httpRspAborted / metrics.tcpAborted) * 100; dev = new Device(deviceId); dev.metricAddSnap('http-tcp-abort-pct', abortPct); } } switch (event) { case 'METRIC_CYCLE_BEGIN': store.metrics = {}; break; case 'METRIC_RECORD_COMMIT': processMetric(); break; case 'METRIC_CYCLE_END': commitSyntheticMetrics(); break; }
Example: Parse custom PoS messages with universal payload analysis
The trigger in this example parses TCP messages from a point-of-sale (PoS) system and creates custom device metrics that collect specific values in the 4th to 7th bytes of both response and request messages.
Run the trigger on the following events: TCP_PAYLOAD
// Define variables; store client or server payload into a Buffer object var buf_client = Flow.client.payload, buf_server = Flow.server.payload, protocol = Flow.l7proto, // PoS Message Type Structure Definition pos_message_type = { "0100" : "0100_Authorization_Request", "0101" : "0101_Authorization_Request_Repeat", "0110" : "0110_Authorization_Response", "0200" : "0200_Financial_Request", "0201" : "0201_Financial_Request_Repeat", "0210" : "0210_Financial_Response", "0220" : "0220_Financial_Transaction_Advice_Request", "0221" : "0221_Financial_Transaction_Advice_Request_Repeat", "0230" : "0230_Financial_Transaction_Advice_Response", "0420" : "0420_Reversal_Advice_Request", "0421" : "0421_Reversal_Advice_Request_Repeat", "0430" : "0430_Reversal_Advice_Response", "0600" : "0600_Administration_Request", "0601" : "0601_Administration_Request_Repeat", "0610" : "0610_Administration_Response", "0620" : "0620_Administration_Advice_Request", "0621" : "0621_Administration_Advice_Request_Repeat", "0630" : "0630_Administration_Advice_Response", "0800" : "0800_Administration_Request", "0801" : "0801_Administration_Request_Repeat", "0810" : "0810_Administration_Response" }; // Skip parsing if it is a protocol of no interest or there is no payload if (protocol !== 'tcp:4015' || (buf_client === null && buf_server === null)) { // debug('Protocol of no interest: ' + protocol); return; } else { /* Store the data into variables for future access since there is some payload * to parse */ var client_ip = Flow.client.ipaddr, server_ip = Flow.server.ipaddr, client_port = Flow.client.port, server_port = Flow.server.port; // client = new Device(Flow.client.device.id), // server = new Device(Flow.server.device.id); } if (buf_client !== null && buf_client.length >= 7) { // This is a client payload var cli_msg_type = buf_client.slice(3,7).decode('utf-8'); debug('Client: ' + client_ip + ":" + client_port + " Type: " + pos_message_type[cli_msg_type]); Device.metricAddCount('UPA_Request', 1); Device.metricAddDetailCount('UPA_Request_by_Message', pos_message_type[cli_msg_type], 1); Device.metricAddDetailCount('UPA_Request_by_Client', client_ip.toString(), 1); } else if (buf_server !== null && buf_server.length >= 7) { // This is a server payload var srv_msg_type = buf_server.slice(3,7).decode('utf-8'); debug('Server: ' + server_ip + " Client: " + client_ip + ":" + client_port +" Type: " + pos_message_type[srv_msg_type]); Device.metricAddCount('UPA_Response', 1); Device.metricAddDetailCount('UPA_Response_by_Message', pos_message_type[srv_msg_type], 1); Device.metricAddDetailCount('UPA_Response_by_Client', client_ip.toString(), 1); } else { // No buffer captured situation //debug('Null or not enough buffer data'); return; }
Example: Parse syslog over TCP with universal payload analysis
The trigger in this example parses the syslog over TCP and counts the syslog activity over time, both network-wide and per device.
Note: | You might need to edit the trigger example to make sure the network ports for your syslog server match the ports in your environment. This trigger example is available for download through a solutions bundle from the ExtraHop community. |
Run the trigger on the following events: TCP_PAYLOAD, UDP_PAYLOAD
// Global variables var buffer = Flow.client.payload, buffer_size = Flow.client.payload.length + 1, client = new Device(Flow.client.device.id), data_as_json = { client_ip : Flow.client.ipaddr.toString(), client_port : Flow.client.port.toString(), server_ip : Flow.server.ipaddr.toString(), server_port : Flow.server.port.toString(), protocol : 'syslog', protocol_fields : {} }, protocol = Flow.l7proto, server = new Device(Flow.server.device.id), syslog = {}, syslog_facility = { "0": "kern", "1": "user", "2": "mail", "3": "daemon", "4": "auth", "5": "syslog", "6": "lpr", "7": "news", "8": "uucp", "9": "clock_daemon", "10": "authpriv", "11": "ftp", "12": "ntp", "13": "log_audit", "14": "log_alert", "15": "cron", "16": "local0", "17": "local1", "18": "local2", "19": "local3", "20": "local4", "21": "local5", "22": "local6", "23": "local7", }, syslog_priority = { "0": "emerg", "1": "alert", "2": "crit", "3": "err", "4": "warn", "5": "notice", "6": "info", "7": "debug", }; // Exit out early if not classified properly or no payload if ( ( protocol != 'tcp:5141' ) || ( buffer === null ) ) { debug('Invalid protocol ' + protocol + ' or null buffer (' + buffer.unpack('z').join(' ') + ')'); return; } // Get started parsing Syslog var data = buffer.unpack('z'); // Separate the PRIO field from the rest of the message var msg_part = data[0].split('>')[1].split(' '); var prio_part = data[0].split('>')[0].split('<')[1]; // Decode the PRIO field into Syslog facility and priority var raw_facility = parseInt(prio_part) >> 3; var raw_priority = parseInt(prio_part) & 7; syslog.facility = syslog_facility[raw_facility]; syslog.priority = syslog_priority[raw_priority]; /* Timestamp and hostname are technically part of the HEADER field, but * treat the rest of the message as a <space> delimited * string, which it is (the syslog protocol is very basic) */ syslog.timestamp = msg_part.slice(0,3).join(' '); syslog.hostname = msg_part[3]; syslog.message = msg_part.slice(4).join(' '); /* At the network level, keep counts of who is sending messages by * both facility and priority */ Network.metricAddCount('syslog:priority_' + syslog.priority, 1); Network.metricAddDetailCount('syslog:priority_' + syslog.priority + '_detail', Flow.client.ipaddr, 1); Network.metricAddCount('syslog:facility_' + syslog.facility, 1); Network.metricAddDetailCount('syslog:facility_' + syslog.facility + '_detail', Flow.client.ipaddr, 1); /* Devices receiving messages keep a count of who sent those messages * by facility and priority */ server.metricAddCount('syslog:priority_' + syslog.priority, 1); server.metricAddDetailCount('syslog:priority_' + syslog.priority + '_detail', Flow.client.ipaddr, 1); server.metricAddCount('syslog:facility_' + syslog.facility, 1); server.metricAddDetailCount('syslog:facility_' + syslog.facility + '_detail', Flow.client.ipaddr, 1); /* Devices sending messages keep a count of who they sent those messages * to by facility and priority */ client.metricAddCount('syslog:priority_' + syslog.priority, 1); client.metricAddDetailCount('syslog:priority_' + syslog.priority + '_detail', Flow.server.ipaddr, 1); client.metricAddCount('syslog:facility_' + syslog.facility, 1); client.metricAddDetailCount('syslog:facility_' + syslog.facility + '_detail', Flow.server.ipaddr, 1); data_as_json.protocol_fields = syslog; data_as_json.ts = new Date(); //try { // Remote.MongoDB.insert('payload.syslog', data_as_json); //} //catch ( err ) { // Remote.Syslog.debug(JSON.stringify(data_as_json)); //} debug('Syslog data: ' + JSON.stringify(data_as_json, null, 4));
Example: Parse NTP with universal payload analysis
The trigger in the following example parses the network time protocol through universal payload analysis (UPA).
Run the trigger on the following events: UDP_PAYLOAD
var buf = Flow.server.payload, flags, values, fmt, offset = 0, ntpData = {}, proto = Flow.l7proto; if ((proto !== 'NTP') || (buf === null)) { return; } // Parse individual flag values from flags byte function parseFlags(flags) { return { 'LI': flags >> 6, 'VN': (flags & 0x3f) >> 3, 'mode': flags & 0x7 }; } // Convert from NTP short format function ntpShort(n) { return n / 65536.0; } // Convert integral part of NTP timestamp format to Date function ntpTimestamp(n) { /* NTP dates start at 1900, subtract the difference * and convert to milliseconds */ var ms = (n - 0x83aa7e80) * 1000; return new Date(ms); } // First part of NTP header fmt = ('B' + // Flags (LI, VN, mode) 'B' + // Stratum 'b' + // Polling interval (signed) 'b' + // Precision (signed) 'I' + // Root delay 'I'); // Root dispersion values = buf.unpack(fmt); offset = values.bytes; flags = parseFlags(values[0]); if (flags.VN !== 4) { // Expecting NTPv4 return; } ntpData.flags = flags; ntpData.stratum = values[1]; ntpData.poll = values[2]; ntpData.precision = values[3]; ntpData.rootDelay = ntpShort(values[4]); ntpData.rootDispersion = ntpShort(values[5]); // The next field, the reference ID, depends upon the stratum field switch (ntpData.stratum) { case 0: case 1: // Identifier string (4 bytes), and 4 NTP timestamps in two parts fmt = '4s8I'; break; default: // Unsigned int (based on IP), and 4 NTP timestamps in two parts fmt = 'I8I'; break; } // Passing in offset enables you to continue parsing where you left off values = buf.unpack(fmt, offset); ntpData.referenceId = values[0]; // Only the integral parts of the timestamp are referenced here ntpData.referenceTimestamp = ntpTimestamp(values[1]); ntpData.originTimestamp = ntpTimestamp(values[3]); ntpData.receiveTimestamp = ntpTimestamp(values[5]); ntpData.transmitTimestamp = ntpTimestamp(values[7]); debug('NTP data:' + JSON.stringify(ntpData, null, 4));
Example: Record data to a session table
The trigger in this example records specific HTTP transactions to the session table and creates custom network metrics that collect session expiration data.
Run the trigger on the following events: HTTP_REQUEST, SESSION_EXPIRE
// HTTP_REQUEST if (event == "HTTP_REQUEST") { if (HTTP.userAgent === null) { return; } // Look for the OS name var re = /(Windows|Mac|Linux)/; var os = HTTP.userAgent.match(re); if (os === null) { return; } // Specify the matched string as the key for session table entry var os_name = os[0]; var opts = { // Expire added entries after 30 seconds expire: 30, // Retain entries with normal priority if session table grows too large priority: Session.PRIORITY_NORMAL, // Make expired entries available on SESSION_EXPIRE events notify: true }; // Ensure an entry for this key is present; an existing entry will not be replaced Session.add(os_name, 0, opts); // Increase the count for this entry var count = Session.increment(os_name); debug(os_name + ": " + count); } /* After 30 seconds, the accumulated per-OS counts appear in the Session.expiredKeys * list, accessible in the SESSION_EXPIRE event: */ //SESSION_EXPIRE if (event == "SESSION_EXPIRE"){ var keys = Session.expiredKeys; for (var i = 0; i < keys.length; i++) { debug("count of " + keys[i].name + ": " + keys[i].value); if (keys[i].value > 500) { Network.metricAddCount("os-high-request-count", 1); Network.metricAddDetailCount("os-high-request-count", keys[i].name, 1); } } }
Example: Track SOAP requests
The trigger in this example tracks SOAP requests through the SOAPAction header, saves them into the flow store, and creates custom network metrics that collect data about the transactions.
Note: | Before you begin, confirm your SOAP implementation passes the necessary information through the header. |
Run the trigger on the following events: HTTP_REQUEST, HTTP_RESPONSE
var soapAction, headers = HTTP.headers, method, detailMethod, parts; if (event === "HTTP_REQUEST") { soapAction = headers["SOAPAction"] if (soapAction != null) { Flow.store.soapAction = soapAction; } } else if (event === "HTTP_RESPONSE") { soapAction = Flow.store.soapAction; if (soapAction != null) { parts = soapAction.split("/"); if (parts.length > 0) { method = soapAction.split("/")[1]; } else { method = soapAction; } detailMethod = method + "_detail"; Network.metricAddCount(method, 1); Network.metricAddDetailCount(detailMethod, Flow.client.ipaddr, 1); Network.metricAddSampleset("soap_proc", HTTP.processingTime); Network.metricAddDetailSampleset("soap_proc_detail", method, HTTP.processingTime); } }
Example: Matching topnset keys
The triggers in this example illustrate topnset key matching by string and IPAddress, and includes advanced key mapping.
Topnset key matching by string
Run the trigger on the following events: METRIC_RECORD_COMMIT
Configure advanced trigger options as shown in the following table:
Option | Value |
---|---|
Metric Cycle | 30sec |
Metric Type | extrahop.device.app |
var stat = MetricRecord.fields['bytes_out'], id = MetricRecord.object.id, proto = 'HTTP2-SSL', entry; entry = stat.lookup(proto); if (entry !==null) { debug('Device ' + id + ' sent ' + entry.value + ' bytes over ' + proto); }
Topnset key matching by IPAddress
Run the trigger on the following events: METRIC_RECORD_COMMIT
Configure advanced trigger options as shown in the following table:
Option | Value |
---|---|
Metric Cycle | 30sec |
Metric Type | extrahop.device.net_detail |
var stat = MetricRecord.fields['bytes_out'], total = 0, entry, entries, i, ip = new IPAddress('192.168.112.1'); entries = stat.findEntries(ip); for (i = 0; i < entries.length; i++) { entry = entries[i]; total += entry.value; } Remote.Syslog.alert('IP ' + ip + ' sent ' + total + ' bytes.');
Advanced topnset key matching
Run the trigger on the following events: METRIC_RECORD_COMMIT
Configure advanced trigger options as shown in the following table:
Option | Value |
---|---|
Metric Cycle | 30sec |
Metric Type | extrahop.device.net_detail |
var stat = MetricRecord.fields['bytes_out'], entry, entries, key, i; entries = stat.findEntries({addr: /192.168.112.1*/, proto: 17}); debug('matched ' + entries.length + '/' + stat.entries.length + ' entries')}; for (i = 0; i < entries.length; i++) { entry = entries[i]; key = entry.key; Remote.Syslog.alert('unexpected outbound UDP traffic from: ' + JSON.stringify(key)); }
Example: Create an application container
The trigger in this example creates an application container based on traffic associated with a two-tier application, and creates custom application metrics collected on HTTP and database events.
Run the trigger on the following events: HTTP_RESPONSE and DB_RESPONSE
/* Initialize the application object against which you will * commit specific HTTP and DB transactions. After traffic is * committed, an application container called "My App" will appear * in the Applications tab in the ExtraHop system. */ var myApp = Application("My App"); /* These configurable properties describe features that define * your application traffic. */ var myAppHTTPHost = "myapp.internal.example.com"; var myAppDatabaseName = "myappdb"; if (event == "HTTP_RESPONSE") { /* HTTP transactions can be committed to the application on * HTTP_RESPONSE events. */ /* Commit this HTTP transaction only if the HTTP host header for * this response is defined and matches your application's HTTP host. */ if (HTTP.host && (HTTP.host == myAppHTTPHost)) { myApp.commit(); /* Capture custom metrics about user agents that experience * HTTP 40x or 50x responses. */ if (HTTP.statusCode && (HTTP.statusCode >= 400)) { // Increment the overall count of 40x or 50x responses myApp.metricAddCount('myapp_40x_50x', 1); // Collect additional detail on referer, if any if (HTTP.referer) { myApp.metricAddDetailCount('myapp_40x_50x_refer_detail', HTTP.referer, 1); } } } } else if (event == "DB_RESPONSE") { /* Database transactions can be committed to the application on * DB_RESPONSE events. * * Commit this database transaction only if the database name for * this response matches the name of our application database. */ if (DB.database && (DB.database == myAppDatabaseName)) { myApp.commit(); } }
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