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Parsing Language Reference Guide

This topic describes the CSE parsing language, which you can use to write custom parsers.

What is parsing?

Parsing is the first step in the Cloud SIEM Enterprise (CSE) Record processing pipeline — it is the process of creating a set of key-value pairs that reflect all of the information in an incoming raw message. We refer to the result of the parsing process as a field dictionary. The raw message is retained. 

Parsers are written in a specialized Sumo Parsing Language. The parser code resides in a a parser configuration object. At runtime, parser code is executed by the Sumo Logic parsing engine.

Key concepts

This section explains a number of concepts that are fundamental to the parsing process.

Regular expressions

A regular expression, often referred to as a regex, is a sequence of characters that define a search pattern. A regular expression engine compares strings to regular expressions to find matches. Regexes can also be used to extract substrings and bind them to a name, known as a group in a dictionary.

Many CSE parsers rely upon regex exclusively to parse messages. (Sumo Logic Field Extraction Rules also use regex: they parse selected fields from log messages at the time of ingestion.)  Sumo Logic's parsing engine performs top-level, gross format parsing first using compiled built-in formats, and then relies on regular expressions to extract information from irregular or complex formats.

The parser engine uses the RE2 regular expression library. This is important to know because regex syntax varies between implementations. RE2 is a slightly modified version of the standard regular expression libraries that is designed to operate with bounded execution time.

note

For historic reasons, the named groups in the regex of many parsers still uses Python-style notation, for instance (?P<syslog_timestamp>[^ ]+ +[^ ]+ [^ ]+). When you write new regular expressions, you can omit P.

The parser engine also supports Grok, a system that introduces symbolic names for patterns to regular expressions (see also Patterns section). You reference Grok symbolic names using this pattern:

%{<pattern_name>:<optional_group_name>}

The pattern name is replaced with the regular expression associated with that name and the entire result is wrapped with a named group capture.

Grok patterns are used to make the use of complex regular expressions that match particular values, such as IP addresses, clearer and easier to read.

The list of patterns supported can be found in the local and default config files, and patterns.conf.

For example, given a string:

TEST 123

and the regex:

(?<login>\w+) (?<id>\d+)

we would get back this dictionary: 

{“login”: “TEST”,  “Id”: “123”}

You can find a regex debugger athttps://regoio.herokuapp.com/.

note

This debugger uses the GoLang RE2 library, but all RE2 libraries are based on the same codebase and it is a sufficient test mechanism.

Normalizing

Mapping the initial field/value dictionary into a single schema - that is, one fixed set of field names and value formats. In general, our parsers are not intended to normalize log messages when parsing. Instead, the intent is to - as much as possible - preserve the original naming and structure of the log messages.

Patterns

Patterns are predefined named regular expressions similar to Grok; using them simplifies and speeds the development of regex-based parsers. 

Patterns are stored in patterns.conf as <Pattern Name> = <regex> key value pairs, for example:

IPV4 = \d{1,3}\.\d{1,3}\.\d{1,3}\.\d{1,3}

In parsers, you refer to a pattern as %{<Pattern Name>}. You can use a pattern anywhere that regex can be used.  You can assign patterns to a named capture group like this:

%{<Pattern Name>:<field_name>}

Mustache templates

We use the Mustache template system to define string templates. String templates are used to format one or more values into a single new field value.

For more information on Mustache, see https://en.wikipedia.org/wiki/Mustache_(template_system).

Whitespace removal

By default, whitespace at the beginning and end of a message is removed before parsing.

Whitespace at the beginning and end of a parsed value is also removed. Use the STRIP_WHITESPACE attribute to enable or disable whitespace removal.

Implicit anchoring

Regular expressions are always anchored to the front of the string. Keep this in mind when constructing regexes. If an expression doesn’t target the beginning of the string, or the anchoring isn’t compensated for, the expression will fail.

Applying a caret at the beginning of the expression is accepted, but essentially ignored.

If you add an end anchor to a regex, the regex will be flagged as illegal.

Initial parsing based on FORMAT attribute

Each stanza can define a FORMAT attribute for the message or string it is parsing. This results in a gross parse, populating the field dictionary in an appropriate way.

REGEX parsing

This is the default value of the FORMAT attribute. With this setting, the message is parsed using the regex defined by the REGEX attribute.

A stanza that contains FORMAT = REGEX, must also contain a REGEX attribute, otherwise, it will perform no parsing. 

Capture groups names in the regex you define with the REGEX attribute can contain any character except close brackets. This includes spaces, however the use of spaces in capture group names are not recommended unless there is a very good reason for using them. For example:

REGEX = (?P<This is a valid capture group name>.*)

REGEX = (?<This_Is_Better>.*)

Although Java supports backtracking and possessive sequences as well, their use is discouraged in parsers, as they are extremely inefficient.

REGEX = (?P<example>.++)

JSON parsing

JSON is parsed and flattened. Fields of sub-objects are prepended with the containing field name and separated with periods. For example,

This JSONResults in 
{“foo”: {“bar”: 2, “barrier”: 3}, “baz”: 4}foo.bar = 2 foo.barrier = 3 baz = 4

List items have a one-based index number inserted between the containing field name and the sub-object field names. For example,

This JSONResults in 
{“foo”: [{“bar”: 1, “baz”: 2}, {“bar”: 3, “baz”: 4}]foo.1.bar = 1 foo.1.baz = 2 foo.2.bar = 3 foo.2.baz = 4

By default, an index number is inserted, even in a single element list. For example, 

This JSONResults in 
{“test”: [{“field”:”value”}]}test.1.field: value

However, if you set the JSON_FLATTEN_SINGLE_LISTS flag to true, an index value is not inserted in the single element list. This is useful for collapsing redundant JSON elements from sources like AWS.

When JSON_FLATTEN_SINGLE_LISTS is true:

This JSONResults in 
{“test”: [{“field”:”value”}]}test.field: value,

CSV parsing

Parses delimiter separated values, commas by default. You can set another delimiter character, using the FIELD_DELIMS attribute.

XML parsing

Parses and flattens XML.

CEF parsing 

Parses CEF format messages. In the parsing process, we unpack custom fields in a CEF message. CEF custom fields are held in two fields: one holding a field name and another holding the value. Our CEF parsing creates a new single field whose name and value come from the CEF custom fields, and discards those fields.

LEEF parsing

Parses LEEF format logs.

WINDOWS_XML parsing

Parses Windows XML messages from CSE Windows Sensor. 

Mapping hints

After parsing, the next step in the CSE Record processing pipeline is log mapping, which is the process of mapping fields that were parsed out of messages to CSE schema attributes. 

Every parser must provide mapping hints that provide information CSE can use to select the correct log mapper for parsed messages. You do this with the MAPPER attribute. For more information, see MAPPER.

Internal temporary variables supported in parsers

_$log_entry

At the start of parser execution, _$log_entry contains the value of the entire message being parsed. Within a transform stanza, _$log_entry represents the value being processed by a transform. When you are applying a transform to a field, you can use _$log_entry to refer to the value of the current parsed field.

_$log_entry_field

The field that the parser is transforming. The value of _$log_entry_field is updated each time a transform is applied to a field because temporary fields aren’t stripped from field dictionaries until after all parsing is complete, causing the _$log_entry_field to be overwritten by that transform’s _$log_entry_field.

Excluding variables from field dictionary

You can declare your own variables in a parser. To ensure that a variable is not included in the field dictionary that results from the parsing process, prefix the variable name with _$, for example:

_$my_variable

Parsing fields

Messages are parsed to create a dictionary of field values, a start time, and an end time.

When choosing a field name, avoid using non-alphanumeric characters unless that goes against the conventional practice or a well-known name. For instance, in PAN-firewall parser there is a field named X-Forwarded-For. That name was selected after the well-known protocol header. Any other name would not be as easily recognized. But, whenever possible, it’s preferable to stick with alphanumeric names so that they won’t need quoting when they are used in Sumo Platform features, such as CIP log and metric queries, action templates, and dashboards.

Field names beginning with _$ (underscore followed by the dollar sign) aren’t saved in the field dictionary, but can be used to pass values from one part of the parsing process to another (from a parser to a transform, for instance).

note

The key principal: When selecting a name for the field, stay as close to the name well known in the industry for the corresponding source.

Timestamps and time handling

The _starttime and _endtime fields are normally assigned values using START_TIME_FIELD and END_TIME_FIELD.  Note that if none of DEFAULT_START_TIME,  DEFAULT_END_TIME, START_TIME_FIELD or END_TIME_FIELD are defined _starttime and _endtime will not be included in the field dictionary.

If _starttime is defined (at minimum, START_TIME_FIELD has been specified in the parser), it will be used as the Record timestamp. If _starttime is not defined, the timestamp should be set by the CSE log mapper that processes the Record, typically by mapping a parsed field to the timestamp schema attribute.

Representation of “no value”

The representation of no value or a field that doesn’t exist is ‘None’ for evaluating variable transforms; JSON uses “null” if JSON_DROP_NULLS is set to false or not present, and drops them if so.

Stanzas

Parser definitions are organized into stanzas. A stanza consists of a type declaration, consisting of a keyword and a name, followed by a series of attributes that function much like commands in a scripting language, except that each command is uniquely keyed. 

There are three types of stanzas:

  • parser—Defines the entry point for the overall parser and contains attributes that control the overall execution of the parser. A parser contains one and only one parser stanza. The syntax for declaring a parser stanza is: [parser]

    parser is the only stanza keyword that can only appear once in a parser definition.  

  • transform—A transform stanza is analogous to a function in most scripting languages. Transforms can be invoked on a log message as a whole with all currently parsed fields accessible within the new transform, or on strings that have been parsed from a message without the currently parsed fields. You can use transforms to extract information of interest using regex patterns, assign values to variables, drop fields, rename fields, populate time fields, create mapping hints, and more.  One transform can even call another. You can use transforms to perform a wide variety of parse actions; the most common use is extracting a value from log message. The syntax for declaring a transform stanza is: [transform:<transform name>]

  • dependencies—You can use a dependencies stanza to include resources from another parser, using the INCLUDE attribute. The syntax for declaring a dependencies stanza is: [dependencies]

    Stanza types must be lower case. It is recommended but not required that transform names be lower case.  For example,

    [transform:<transform name>]

    References to transform names in attributes are case sensitive. The case in the reference must match the case used in the transform name.

    Transform names are limited to alphanumeric characters, the dash (-) and the underscore (_).

Specifying attributes

  • All attribute names must be uppercase.
  • Attribute names are limited to alphanumeric characters, the dash (-) and the underscore (_). 
  • All attributes that take assignments must use an equal sign (’=’) between name and assignment. For example, FORMAT = REGEx

Attribute overriding

Attributes with the same key override each other. For example, given:

TRANSFORM = Cylance_Parse TRANSFORM = Cylance_Factor

We apply only the second TRANSFORM attribute.

You can add labels to duplicate transforms to avoid overriding. A label is text appended to the attribute, separated by a dash. A label can be any string that doesn’t contain an equals sign. For example,

TRANSFORM-parse = Cylance_Parse TRANSFORM-factor = Cylance_Factor

With the labels added, we’ll apply both TRANSFORM attributes.

“r|” Syntax

With certain attributes, you can apply r| syntax, in place of an explicit field name. The attribute is applied to all fields of the field dictionary with a name that matches the regex following the r|. For example:

DROP:r|^\d+$

Would remove all the fields whose names are numbers from the field dictionary .

You can apply r| syntax to these attributes:

  • TRANSFORM
  • FIELD_TYPE
  • JOIN_LIST
  • DROP

Field binding

Attempts to access the value of a field created by parsing must follow the parsing. Attempts to access the value of a field that has not been set will produce an error.

Includes

You can include resources from another parser using a [dependencies] stanza. In that stanza only, you can add

INCLUDE:/Parsers/path/to/parser = true

The specified resource’s transforms will be available to the current parser. 

Attributes used in all stanza types

ADD_VALUES

If true, when parsing produces a value for the same field more than once, append the second and subsequent values to the field. If false, replace the value of the field. This only is applied from the [parser] stanza or a transform on a field, but is applied to any other transforms the field dictionary is passed to.

For example, if parsing produces two values for fielda, “monkey” and “business”, the value of fielda will be set to ["monkey", "business"]

Syntax

ADD_VALUES = <true|false>

Default

false

Example

ADD_VALUES = true 

ALIAS

Creates a read-only reference between alias_field_name and old_field_name.

Syntax

ALIAS:<old_field_name> = <alias_field_name>

Default

None

Notes

  • <old_field_name> and <new_field_name> are required.
  • If the value of <old_field_name> is None, the alias will not be created.

CASE

If <read_field> from the CASE_SWITCH attribute equals matched_value, sets field to set_value

Syntax

CASE:<matched_value> = <set_value>

Example

Assume an incoming message that contains a ‘severity’ field that stores severity as one of three words: high, medium and low. But we want to store a normalized severity value as an integer ranging from 0 to 9. We might use a CASE_SWITCH statement paired with a list of CASE statements to perform the mapping.

CASE_SWITCH:normalized_severity = severity CASE:High = 9 CASE:Medium = 4 CASE:Low = 0

CASE_SWITCH

Sets <field> to the value specified in the CASE statement if <read_field> is set to the value specified there.

Syntax

CASE_SWITCH:<field> = <read_field>

CLEAR

Clears the field value of the fields whose values match the specified regex.

Syntax

CLEAR:<field_name> = <regex>

<field_name> and <regex> are required.

COPY_FIELD

Copies the value of one field to another field.

Syntax

COPY_FIELD:<target_field_name> = <source_field_name>

<source_field_name> and <target_field_name> are required

Default

none

DEFAULT_END_TIME

Value is used in various ways depending on the END_TIME_HANDLING attribute.

Syntax

DEFAULT_END_TIME = <time>

Default

none

DEFAULT_START_TIME

This value is used in various ways, depending on the value of the START_TIME_HANDLING attribute.

Syntax

DEFAULT_START_TIME = <time>

Default

none

DROP

Drops one or more fields from a message, or drops an entire message. Fields that are dropped will not be included in the dictionary of key-value pairs that the parser extracts from a message. Messages that are dropped will not be forwarded to CSE (effectively overriding _siemForward=true configured on the collector).

tip

Dropping is useful for getting rid of temporary fields that may collide with later uses.

Syntax

DROP:[<field_name>] = <true|false|empty|regex>

where:

  • true - Always drop.
  • false - Never drop.
  • empty - Drop if the field has no value.
  • regex - Drop if the field’s value matches the regex. (The regex doesn’t support r| syntax.)

If <field_name> is not supplied, the entire message will be dropped, no fields will be parsed from the message.  

r| syntax can be used in <field_name>.

Default

True 

Examples

  • The example below drops all fields in the message stat start with “blah”. DROP:r|^blah.* = true 
  • The example below drops the request_url field if the field value matches the regex \- (the field begins with a dash character.  DROP:request_url = \-  
  • The example below drops the variable whose name is _log_entry. DROP:_log_entry = true

END_TIME_FIELD

The name of the field that contains the end time for the event.

Syntax

END_TIME_FIELD = <field>

Default

None

Notes

To allow for messages that don’t contain the specified field, set the value of END_TIME_HANDLING to "DURATION", and set DEFAULT_END_TIME to a value in milliseconds. _endtime  will be populated with a timestamp that is result of adding the duration you defined to _starttime.

END_TIME_HANDLING

Specifies how to treat the value of  _endtime, which can be set using either END_TIME_FIELD or DEFAULT_END_TIME.

Syntax

END_TIME_HANDLING = <GIVEN|ROUND|DURATION|CONSTANT>

Default

GIVEN

Notes

  • If GIVEN, ignore DEFAULT_END_TIME, end time defaults to start time.
  • If ROUND, round start down and end up using DEFAULT_END_TIME as the rounding increment in milliseconds, end time defaults to start time.
  • If DURATION, treat DEFAULT_END_TIME as a time increment in milliseconds, add to start time to get the default end time; if missing, end time defaults to start time.
  • If CONSTANT, treat DEFAULT_END_TIME as a POSIX timestamp, add to start time to get the default end time; if missing, end default to start.
  • ROUND and DURATION can also be set to the strings MINUTE, HOUR, DAY, and WEEK, which will result in the appropriate number of milliseconds being used.

FIELD_PREFIX

Prefix all field names added by subtransforms of this transform on fields with a string computed from a mustache template - the template is supplied the list of field names and values. 

Syntax

FIELD_PREFIX = <mustache template>

Default

none

Example

  • This example prefixes the fields added by subtransforms with “Response0”, if the `$matchcountfield is set to 0. FIELD_PREFIX = Response{{_$match_count}} `

FIELD_SUFFIX

Suffix all field names added by subtransforms of this transform on fields with a string computed from a mustache template - the template is supplied the list of field names and values. 

For example, Response_{{_$match_count}} would set the field named Response_0 if the _$match_count field was set to 0.

Syntax

FIELD_SUFFIX = <mustache template>

Default

none

Example

  • This example adds the suffix “Response0” to fields added by subtransforms, if the `$matchcountfield is set to 0. FIELD_SUFFIX = Response{{_$match_count}} `

FIND_REPLACE

Find and replace a specified field (or fields, if r|<some regex> is used). You can use a Mustache template to obtain fields from the field dictionary, or take fields from the capture using $<capture number>.

Syntax

FIND_REPLACE:<field>:<replacement_string> = <regex>

Example

Given a field example whose value is “1” and a field some_field whose value is “(some).(thing)”

FIND_REPLACE:some_field:$1{{example}} = \(([^)]+)\)

Will set some_field to some1.thing1.

FORMAT

Specifies the format of the messages being parsed.

Syntax

FORMAT = <format_type>

Where <format_type> is one of: 

Default

REGEX

ITER_PREFIX

Equivalent to FIELD_PREFIX, but  ITERPREFIX will only prefix fields added by a REPEAT_MATCH subtransform but specifically applied for REPEAT_MATCH regex transforms. `$match_count` is set to the current iteration in this case.

tip

A subtransform performs the process of modifying fields within a transform stanza. An example of this is using ITERPREFIX and/or ITER_SUFFIX within a regex transform and REPEAT_MATCH=true, to include, for example, `$match_count` in field names output.

Syntax

ITER_PREFIX = <mustache template>

Default

none

ITER_SUFFIX 

Same as FIELDSUFFIX, but specifically applied for REPEAT_MATCH regex transforms. `$match_count` is set to the current iteration in this case.

Syntax

ITER_SUFFIX = <mustache template>

Default

none

JOIN_LIST

Joins a list created by ADD_VALUES with the separator mentioned. If the field doesn’t exist, the event is treated as unparsed. Parsing will fail will fail and the parser will deal with that appropriately. If this occurs in a top level stanza, the parser returns a failure. If it occurs in a cascade of transforms, we proceed to the next stanza.

Syntax

JOIN_LIST:<field_name> = <separator>

r| syntax can be used here.

Default

_$log_entry

Example

  • When the values in a list created by ADD_VALUES for fielda are “monkey” and “business”, this attribute statement would set the value of fielda to “monkey.business”: JOIN_LIST:fielda = .

MAPPER

Provides information that tells CSE which log mapper should process the parsed message. There are two ways to do that: 

  • Specify the log mapper UID.  If MAPPER:uid is specified with other MAPPER fields, mapping lookup will be performed by uid. 
  • Specify the product, vendor, and event_id for the message. If you identify the mapper using , all three are required: you’ll define three MAPPER attributes. Templating is allowed for each value. However, the most common and best practice is to define vendor and product using static strings. event_id often varies based on the log type so it's more common to use templating when defining that.
note

Looking up a mapper using product, vendor, and event_id will return all structured mappings that are configured with the same attribute values, and could result in more than one Record being created. 

Syntax

MAPPER:<type> = <value>

Where type is one of:

  • uid - the uid of the mapper.
  • event_id - the event_id. 
  • product - the product. 
  • vendor - the vendor. 

Example 

[parser]
FORMAT=JSON
MAPPER:vendor = AWS
MAPPER:product = CloudTrail
MAPPER:event_id = {{eventType}}-{{eventName}}

PARSE

Applies the parser specified to the field specified, similar to TRANSFORM.

Syntax

PARSE:<field> = <parser path>

PARSE_CASCADE

Behaves like TRANSFORM_CASCADE, but with parsers instead of transforms. 

Each parser is invoked in the order listed until one succeeds. Each parser is passed the current state of the field dictionary. Only a successful parse will change the field dictionary.

If none of the parsers succeed then that is treated as a parse failure.

Syntax

PARSE_CASCADE:<field_name> = <parser path>, <parser path>...

RENAME_FIELD

Renames a field. If the value of the field to be renamed <new_field_name> is NULL, the field will not be renamed, and the field <old_field_name> will be dropped.

Syntax

RENAME_FIELD:<new_field_name> = <old_field_name>

<old_field_name> and <new_field_name> are required

Default

None

Example

  • This example calls the transform "cs1 Transform" and only performs the transform if fields cs1 and cs1Label fields are defined. It renames the field name cs1 to the value associated with cs1Label, and removes the cs1Label field from the field dictionary.
TRANSFORM_IF_PRESENT:cs1,cs1Label = cs1 Transform

[transform:cs1 Transform]
RENAME_FIELD:{{cs1Label}} = cs1
DROP:cs1Label = TRUE

Before transform:

cs1 = "SomeValue" cs1Label = "SomeLabel"

After transform:

SomeLabel = "SomeValue"

REPLACE_LIST_WITH_ELEMENT

Sets the <field_name> field if it is a list to the <index> element in that list, starting from 0. If this element does not exist, the event is treated as unparsed.

Syntax

REPLACE_LIST_WITH_ELEMENT:<field_name> = <index>

REVERSE_LIST

Reverse a list created by ADD_VALUES in the <field_name> field. The <anything> field is currently ignored. If the field doesn’t exist, the event is treated as unparsed.

Syntax

REVERSE_LIST:<field_name> = <anything>

SET

Creates a field with an associated value. If the field already exists, SET overwrites the previous value.

Syntax

SET:<field> = <string>

The field name is treated as a Mustache template if it contains two curly braces ‘{{‘. The template can access any field dictionary fields that have been parsed prior to this instruction. 

Default

none

Examples

  • The example below creates a field _temp_field with the value of _$log_entry_field. SET:_temp_field = {{_$log_entry_field}}

  • The example below creates a field with the value “DHCP lease”. SET:Message = DHCP lease

SPLIT_LIST_AT_ELEMENT

Splits a list created by ADD_VALUES in the <field_name> field at the specified index under the name <field_name>_2.

If the field is not a list and the index is not 0, or the index is beyond the length of the list, the event is treated as unparsed.

Syntax

SPLIT_LIST_AT_ELEMENT:<field_name> = <index>

Example

  • When the values in a list created by ADD_VALUES for fielda are  “monkey”, “business”, “cat”, and “nap”, this attribute statement would set the value of fielda to “monkey business” and set the value of fielda_2 to “catnap”. SPLIT_LIST_AT_ELEMENT:fielda = 2

START_TIME_FIELD

The name of the field that contains the start time for the event. For more information, see Timestamps and time handling.

Syntax

START_TIME_FIELD = <field>

Default

StartTime

Notes

If the field does not exist in a message, time is not set for the message.

START_TIME_HANDLING 

Specifies how to treat the value of _starttime, which can be set using either START_TIME_FIELD or  DEFAULT_START_TIME.

Syntax

START_TIME_HANDLING = <GIVEN|ROUND|CONSTANT>

Default

GIVEN

Notes

  • If GIVEN, ignore DEFAULT_START_TIME, start time defaults to current time on parsing machine
  • If ROUND, round start down using DEFAULT_START_TIME as the rounding increment in milliseconds, start time defaults to current time on parsing machine
  • If CONSTANT, treat DEFAULT_START_TIME as an ISO 8601 or a UNIX timestamp, set start time to this time; if missing, start time defaults to current time on parsing machine
  • If ROUND can also be set to the strings MINUTE, HOUR, DAY, and WEEK, which will result in the appropriate number of milliseconds being used.

STRIP_FIELDS 

Strips whitespace from the beginning and the end of field values at parse time.

Syntax

STRIP_FIELDS = <true|false>

Default

true

STRIP_WHITESPACE

Strips whitespace from the beginning and end of a message before parsing. Also strips whitespace from the beginning and end of a parsed value. 

Syntax

STRIP_WHITESPACE = <true|false>

Default 

true

TIME_PARSER 

Supplies time formats to be used in parsing the fields specified by START_TIME_FIELD and END_TIME_FIELD

The values parsed are assigned to _starttime and _endtime.

Syntax

TIME_PARSER = <time format 1>, <time format 2> ...

Default

None

Notes

The time formats are specified as in Java DateTimeFormatter. If a format contains a comma, enclose it in double quotes. There are some special additional cases:

  • X1 treats the time as if it’s in epoch seconds.
  • X1000 treats the time as if it’s in epoch milliseconds.

The formats will be tried in the order they are specified until one of them succeeds.

TIMEZONE

Use this attribute to specify the timezone where the messages originated. 

Syntax

TIMEZONE = <string>

Default

UTC

Example

TIMEZONE = America/Los_Angeles (PST)

Notes

Time zones are described either using the IANA time zone database names, using ISO-8601 style, as in ‘+07:00’, or one of the following = ‘local’, ‘utc’, ‘UTC’.

For IANA time zone database names, see https://en.wikipedia.org/wiki/Tz_database. The basic format is area/location. 

  • Area is a continent, an ocean, or “Etc”. For example, Africa, America, Antarctica, Arctic, Asia, Atlantic, Australia, Europe, Indian, Pacific.

  • Location is the name of a specific location within the area – usually a city or small island. For example, Costa_Rica, New_York, Los_Angeles

TRANSFORM

Apply the transform to the specified field, or the log entry with the field dictionary passed through if none is specified.

Syntax

TRANSFORM:<field_name> = <transform_stanza_name>

Default

If <field_name> isn’t specified, the field dictionary is passed through instead of the field. The current log entry will be used for parsing, and any fields currently added in the field dictionary will be accessible from the next transform. 

Notes

r| syntax can be used here.

TRANSFORM_ALL

Applies <transfer_stanza_nam> stanza to all fields (that have already been parsed or created by SET) that match the regular expression.

Like any other transform statement, TRANSFORM_ALL uses the parsing of the transform it's attached on the log entry or field, but it repeatedly tries to match the regex associated with the transform, starting from the last point the previous attempt finished, applying all the other parse actions associated with the transform on each successful parse.

For example, this:

TRANSFORM_ALL = Blah
[transform:Blah]
REGEX = (?P<_$match>[^,]+),?
TRANSFORM:_$match = Some_Other_Transform

it would apply Some_Other_Transform to all fields separated by commas. This is used for complicated parsing use cases, usually involving setting prefixes for recurring segments of elements. For example, if you had:

Prefix::Key:Value,Key2:Value2;Prefix2::Key:Value,Key2:Value2;...

You could do this to extract the values with the appropriate prefix:

TRANSFORM_ALL = Blah
...
[transform:Blah]
REGEX = (?P<_$prefix>[^:]+)::(?P<_$match>[^;]+);?
FIELD_PREFIX = {{_$prefix}}_
TRANSFORM:_$match = Some_Other_Transform
[transform:Some_Other_Transforrm]
REGEX = (?P<_$FIELD_1>[^:]+):(?P<_$VAL_1>[^,]+),?
REPEAT_MATCH = true

Syntax

TRANSFORM_ALL:<field_name> = <transform_stanza_name>

TRANSFORM_CASCADE

Iterates through a list of transforms and applies them to the specified field until one of them successfully parses or it runs out of transforms to apply. If it runs out of transforms to apply, that counts as a parse failure.

Syntax

TRANSFORM_CASCADE:<field_name> = <transform name 1>,<transform name 2>,..

Default

If <field_name> isn’t specified, the field dictionary is passed through instead of the field. The current log entry will be used for parsing, and any fields currently added in the field dictionary will be accessible from the next transform.

If the default field is used, the colon delimiter is not necessary. The syntax is then:

TRANSFORM_CASCADE = <transform>,<transform>,..

TRANSFORM_FIELD_IF_PRESENT

If the specified field exists (has been created with SET, or parsed from message), call the transform_stanza_name, using <field_name> as input.

Syntax

TRANSFORM_FIELD_IF_PRESENT:<field_name> = <transform_stanza_name>

TRANSFORM_IF

Compares a field value that has already been parsed or created by a SET, or the current log entry if no field is specified, to a regex and if the value matches, runs the specified transform on the field specified by <field_name> or the log entry with the field dictionary passed through.

Syntax

TRANSFORM_IF:<field_name>:<regex> = <transform_stanza_name>

Default

If <field_name> isn’t specified, the field dictionary is passed through instead of the field. The current log entry will be used for parsing, and any fields currently added in the field dictionary will be accessible from the next transform.

TRANSFORM_IF_ELSE

Compares a field value or the log entry if none is supplied to a regex, and if the value matches, runs the first of the two specified transforms with <field_name> (or the log entry by default) as input. If the value doesn't match the regex, the second specified transform is run.

Syntax

TRANSFORM_IF_ELSE:<field_name>:<regex> = <transform_success>, <transform_failure>

Default

If <field_name> isn’t specified, the field dictionary is passed through instead of the field. The current log entry will be used for parsing, and any fields currently added in the field dictionary will be accessible from the next transform.

TRANSFORM_IF_NOT_PRESENT

If the specified field is not part of the field dictionary, run transform_stanza_name with the field dictionary as input.

Syntax

TRANSFORM_IF_NOT_PRESENT:<field_name> = <transform_stanza_name>

TRANSFORM_IF_PRESENT

If the specified field exists (has been created with SET, or parsed from message) run transform_stanza_name with the log entry as input and the field dictionary passed through. 

Syntax

TRANSFORM_IF_PRESENT:<field_name> = <transform_stanza_name>

TRIM

Trims any characters specified in <characters to trim> from either end of the contents of the field (or fields if r|<some regex> is used) specified. The characters [ and ] should be escaped; treat <characters to trim> like a [] group in a regex. 

Syntax

TRIM:<field> = <characters to trim>

TRIM_RIGHT

Like TRIM, but only trims characters at the end of the string.

Syntax

TRIM_RIGHT:<field> = <characters to trim>

TRIM_LEFT

Like TRIM, but only trims characters at the beginning of the string.

Syntax

TRIM_LEFT:<field> = <characters to trim>

VARIABLE_PARSE

Behaves like VARIABLE_TRANSFORM, but with parsers instead of transforms.

Syntax

VARIABLE_PARSE:<type value> = <parser path>

VARIABLE_PARSE_INDEX

Behaves like VARIABLE_TRANSFORM_INDEX, but with parsers instead of transforms.

Syntax

VARIABLE_PARSE_INDEX:<field-to-parse_name> = <field_name1>, <field_name 2>...

Where:

field-to-parse_name = log entry

VARIABLE_TRANSFORM

Defines one of the transforms to select from in a variable transform group. This clause always follows a VARIABLE_TRANSFORM_INDEX clause or another VARIABLE_TRANSFORM. 

Syntax

VARIABLE_TRANSFORM:<type value> = <transform name>

If a VARIABLE_TRANSFORM is selected (see VARIABLE_TRANSFORM_INDEX for details), it is applied to the passed value. 

<type value> is a string with two special values: "default" and "none".

Default

"none"

Special cases

If <type value> is "default", the associated transform is applied, if no other VARIABLE_TRANSFORM clause’s <type value> matches the indexed field’s value.

The VARIABLE_TRANSFORM with <type value> of "none" is applied if the index field does not exist or has an undefined value.

Using the "default" transform and the "none" transform together without any other VARIABLE_TRANSFORM clauses is a common way to perform an action based on whether a field exists.

Examples

[transform:Parse Logs]
VARIABLE_TRANSFORM_INDEX = event.event_type_id
VARIABLE_TRANSFORM:1 = Parse Logs_Event Type 1
VARIABLE_TRANSFORM:2 = Parse Logs_Event Type 2
VARIABLE_TRANSFORM:3 = Parse Logs_Event Type 3

VARIABLE_TRANSFORM_INDEX (syntax 1)

Selects which transform from a variable transform group to apply based on the value(s) of the specified field(s) known as index field(s). 

Applicable to FORMAT = CSV only.

Syntax

VARIABLE_TRANSFORM_INDEX:<field-to-parse_name> = <int>, <int>, …

Where:

<int>, <int> … specify the list of field indexes (with zero being the first field) used to select fields. The values of those fields are concatenated using "-" as the separator; then the result is used to find the correct VARIABLE_TRANSFORM by its <type value>. The transform is applied then to field-to-parse-name. That completes the execution of the transform group.

If <field-to-parse_name> isn't specified it defaults to checking the log entry and passing through. 

VARIABLE_TRANSFORM_INDEX (syntax 2)

Selects which transform from a variable transform group to apply based on the value(s) of the specified field(s) known as index field(s).

Syntax

VARIABLE_TRANSFORM_INDEX:<field-to-parse_name> = <field_name1>, <field_name 2> …

<field-to-parse_name> defaults to _$log_entry.

<field_name 1>, <field_name 2> … specify the list of fields whose values are used to choose which variable transform to execute. The values are concatenated using "-" as the separator; then the result is used to find the correct VARIABLE_TRANSFORM by its <type value>. That transform is applied then to field-to-parse_name. That completes the execution of the transform group.

Example

VARIABLE_TRANSFORM_INDEX = ID

WRAPPER

Always applied first, before the FORMAT is applied. Applies the transform to the current log entry, then replaces the current log entry with a _$log_entry field created by the transform.

Syntax

WRAPPER = <Transform name>

ZIP

Takes keys and values in separate fields from a JSON event and combines them together into proper key-value pairs with the specified prefix. There are two separate methods to do this, regex (specified by r|) and non-regex. 

Syntax

ZIP\<ke\>\<value\> =\<prefix or %s template\>

Non-regex method

The non-regex method is simple, but isn’t always sufficient.. For example, this example:

ZIP:<key>:<value> = <prefix or %s template>

Will convert test_key_1 = x, test_val_1 = y into testPrefix_x = y, but won’t handle internal lists properly, for example, test_key_1_1. This is not supported because it makes assumptions about how those lists are formatted.

Value templating methods

There are two ways you can specify the value template: using a mustache template and a separate formatting method that uses %s to define where the name of the field will go. For example,

ZIP:test_key:test_val = {{sampleField}}_%s_testSuffix

Will convert test_key_1 = x, test_val_1 = y, sampleField = something into something_x_testSuffix = y.

r| regex handling

Regex that starts with r| syntax has certain requirements that regular regex does not. Specifically, you must specify a capture group, _$INDEX, which is an index shared by the key field and the value field. You can specify _$LIST_INDEX to support lists, but they must always be an integer. These parsed fields are not added to the field dictionary. For example,

ZIP:r|^test_key(?P<_$INDEX>.*):r|^test_key(?P<_$INDEX>_?[^_]*)(_(?P<_$LIST_INDEX>.*)) = testRegexPrefix_

Will successfully convert test_key_1 = x, test_val_1_1 = y, test_val_1_2 = z, test_val_1_4 = a into testRegexPrefix_x_1 = y, testRegexPrefix_x_2 = z, testRegexPrefix_x_4 = a.

Note that not every position needs to be defined.

Passing capture groups from the key

Any capture groups from the key can also be passed into the templates of the value. For example:

ZIP:r|^events\.(?P<_$INDEX>(?P<_$event_count>\d++\.)?+parameters\\.(\d++\.)?+)name.*:r|^events\.(?P<_$INDEX>(\d++\.)?+parameters\\.(\d++\.)?+)[^n\.]([^\.]*+\.(?P<_$LIST_INDEX>.*+))?+ = events.{{_$event_count}}

Will convert events.1.parameters.1.name = x, events.1.parameters.1.value = y into events.1.x = y. This is useful for lists of elements that themselves are numbered.

Mixing and matching regex and non-regex formats

You can mix and match these formats. That is advisable because the non-regex format is more performant. The _$INDEX capture group in a regex match will need to match all characters after the non-regex field. The following example behaves just like the previous one:

ZIP:test_key:r|^test_key(?P<_$INDEX>_?[^_]*)(_(?P<_$LIST_INDEX>.*)) = testRegexPrefix_

ZIP_NO_DROP

Behaves exactly like ZIP, but doesn’t drop the fields afterwards.

Syntax

ZIP_NO_DROP:<key>:<value> = <prefix or %s template>

Default

The default value for \<ke>is_$log_entry`

Attributes Specific to REGEX Format

EVENT_MULTILINE 

If true, parsing does not stop when a \n delimiter is encountered. EVENT_MULTILINE makes .* match \n when set to true, and also makes ^ and $ match the start and end of a line (\n).

Syntax

EVENT_MULTILINE = true | false

Default

false

REGEX

Parses messages using regex.

Syntax

REGEX = <regex>

Default

none

Notes

Capture groups are treated as fields, by default

If groups are named _$VAL_<match_name> or _$FIELD_<match_name> then field names and values for those fields can be captured from the original value. For example, 

REGEX = %{{WORD:_$FIELD_1}}:%{{HOSTNAME:_$VAL_1}}
RAW = Host:factorchain.com

would result in 

{"Host" = "factorchain.com"}

REPEAT_MATCH

After each subsequent match of a regex, continue matching on the remaining field value.

Syntax

REPEAT_MATCH = <true|false>

Default

false

Attributes Specific to CSV Format

Note The CSV log format will also record the designated FIELDS and OPTIONAL_FIELDS values in any CSV sub-transform and use those values to construct the fields dictionary.

FIELD_DELIMS

Value is a quoted string containing the set of delimiters used between field values in the body of the log.

Syntax

FIELD_DELIMS = <quoted_string>

Default

 ","

Notes

Use \ to escape double quote characters.

FIELD_HEADER_DELIMS

Delimiter to split the fields in FIELDS.

Syntax

FIELD_HEADER_DELIMS = <quoted_string>

Default

 “,”

FIELD_HEADER_QUOTE

Specifies the quote characters to use when parsing field names in CSV header line. Data contained between a pair of FIELD_HEADER_QUOTE is taken verbatim.

Syntax

FIELD_HEADER_QUOTE = <quoted_string>

Default

Value of FIELD_QUOTE

FIELD_QUOTE

Specifies the quote characters to use when parsing non-header lines in a CSV file.

Syntax

FIELD_QUOTE = <quoted_string>

Default

"\""

Notes

Data contained between a pair of FIELD_QUOTEs is taken verbatim.

FIELD_START_INDEX

Starting number of CSV elements at which field values are matched to values.

Syntax

FIELD_START_INDEX = <integer>

Default

0

FIELDS

Parsed values are sequentially assigned to these fields.

Syntax

FIELDS = <field_name>, <field_name>, ...

Default

none

Notes

  • If there are too many values, the field name assigned to each excess value will reflect its index order in the set of values. For example, if there are 8 parsed values, and only 7 field names specified, the name of the eighth field will be "8".
  • If there are too few values, value is set to default or empty string
  • If this is never defined in a CSV format transform, a warning will be added. To hide the warning without defining the fields at the current time, add “FIELDS = ” with no specified fields.

OPTIONAL_FIELDS

Once parsed values have been sequentially assigned to all fields mentioned in the FIELDS attribute, they will then be assigned to these optional fields. if there are not enough values to assign to all optional fields, no error will be recorded.

Syntax

OPTIONAL_FIELDS = <field_name>, <field_name>, ...

Default

none

Attributes Specific to XML Format

DICTIONARY_TAG

These elements contain dictionaries of values.

The named attributes are treated as field names and attribute values are treated as field values. Prepend the element_name to all field names found in the dictionary element.

Syntax

DICTIONARY_TAG:<element_name> = <attribute_name>, ...

Default

element_name default = none

attribute_name = none

FIELD_TAG

If the current element’s name matches element_name, store its value in a field whose name is stored in attribute_name in that element.

Syntax

FFIELD_TAG:<element_name> = <attribute_name>

Default

element_name = None
attribute_name default = "name"

IGNORE_DICTIONARY_TAG

Ignore the dictionary’s name when parsing for the field names, and ignore fields with this name if there are no other elements. However, the contents are still parsed.

Syntax

IGNORE_DICTIONARY_TAG = <element_name>

IGNORE_FIELDS_TAG

Ignores attributes with the inside the specified tag. The attributes are parsed but not added to the field dictionary.

Syntax

IGNORE_FIELDS_TAG = <element_name>

Example

Given an XML message that contains:

...
<Provider Name="Microsoft-Windows-Security-Auditing" Guid="{5484962...994-A5BA-3E3B0328C30D}" />
<EventID>4769</EventID>
<Version>0</Version>
...

This attribute statement will prevent the Name and the Guid attributes from being added to the field dictionary.

IGNORE_FIELDS_TAG = Provider

LOG_ENTRY_TAG

If an element's name is specified then treat it as a log entry element. Attributes are treated as field names and attribute values are treated as field values.

Syntax

LOG_ENTRY_TAG:<element_name> = <attribute_name>, <attribute_name>, ...

Default

element_name default = "event"
attribute_name default = none

PARSE_ALL_TAG

Parses all elements with the specified name, parsing every detail internal to tags within the element and parsing every element within the tag, including the name of the tag specified in the names of the parsed fields, unless otherwise specified.

Syntax

PARSE_ALL_TAG = <element_name>

ROOT_TAG

If an element's name is contained in this list, then treat it as a root element if events are being transmitted as a series.

Syntax

ROOT_TAG = <element_name>, <element_name>, ...

Default

root

Attributes Specific to JSON Format

JSON_DROP_NULLS

Drops all null values from the JSON.

Syntax

JSON_DROP_NULLS = <true|false>

Default

false

JSON_FLATTEN_SINGLE_LISTS 

Collapses redundant JSON elements from sources like AWS.

Syntax

JSON_FLATTEN_SINGLE_LISTS = <true|false>

Default

false

Attributes for dependencies stanza

INCLUDE

Includes resources from another parser.

Syntax

INCLUDE:/Parsers/path/to/parser = true

Default

none

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