The CEFReader Controller Service serves as a mean to read and interpret CEF messages. Contrary to the ParseCEF Processor the CEFReader is intended to let the users access the whole range of record processing tools of NiFi, making it easy to work with a wide amount of incoming CEF messages.
The reader supports CEF Version 23. The expected format and the extension fields known by the Extension Dictionary are defined by the description of the ArcSight Common Event Format. The reader allows to work with Syslog prefixes and custom extensions. A couple of CEF message examples the reader can work with:
CEF:0|Company|Product|1.2.3|audit-login|Successful login|3| Oct 12 04:16:11 localhost CEF:0|Company|Product|1.2.3|audit-login|Successful login|3| Oct 12 04:16:11 localhost CEF:0|Company|Product|1.2.3|audit-login|Successful login|3|cn1Label=userid spt=46117 cn1=99999 cfp1=1.23 dst=127.0.0.1 c6a1=2345:0425:2CA1:0000:0000:0567:5673:23b5 dmac=00:0D:60:AF:1B:61 start=1479152665000 end=Jan 12 2017 12:23:45 dlat=456.789 loginsequence=123
It is possible to preserve the original message in the produced record. This comes in handy when the message contains a Syslog prefix which is not part of the Record instance. In order to preserve the raw message, the "Raw Message Field" property must be set. The reader will use the value of this property as field name and will add the raw message as custom extension field. The value of the "Raw Message Field" must differ from the header fields and the extension fields known by the CEF Extension Dictionary. If the property is empty, the raw message will not be added.
When using predefined schema, the field defined by the "Raw Message Field" must appear in it as a STRING record field. In case of the schema is inferred, the field will be automatically added as an additional custom extension, regardless of the Inference Strategy.
When a record is parsed from incoming data, it is separated into fields. Each of these fields is then looked up against the configured schema (by field name) in order to determine what the type of the data should be. If the field is not present in the schema, that field is omitted from the Record. If the field is found in the schema, the data type of the received data is compared against the data type specified in the schema. If the types match, the value of that field is used as-is. If the schema indicates that the field should be of a different type, then the Controller Service will attempt to coerce the data into the type specified by the schema. If the field cannot be coerced into the specified type, an Exception will be thrown.
The following rules apply when attempting to coerce a field value from one data type to another:
8can be coerced into any numeric type. However, the String value
8.2can be coerced into a Double or Float type but not an Integer.
If none of the above rules apply when attempting to coerce a value from one data type to another, the coercion will fail and an Exception will be thrown.
While NiFi's Record API does require that each Record have a schema, it is often convenient to infer the schema based on the values in the data, rather than having to manually create a schema. This is accomplished by selecting a value of "Infer Schema" for the "Schema Access Strategy" property. When using this strategy, the Reader will determine the schema by first parsing all data in the FlowFile, keeping track of all fields that it has encountered and the type of each field. Once all data has been parsed, a schema is formed that encompasses all fields that have been encountered.
A common concern when inferring schemas is how to handle the condition of two values that have different types. For example, a custom extension field might have a Float value in one record and String in an other. In these cases, the inferred will contain a CHOICE data type with FLOAT and STRING options. Records will be allowed to have either value for the particular field.
CEF format comes with specification not only to the message format but also has directives for the content. Because of this, the data type of some fields are not determined by the actual value(s) in the FlowFile but by the CEF format. This includes header fields, which always have to appear and comply to the data types defined in the CEF format. Also, extension fields from the Extension Dictionary might or might not appear in the generated schema based on the FlowFile content but in case an extension field is added it's data type is bound by the CEF format. Custom extensions have no similar restrictions, their presence in the schema is completely depending on the FlowFile content.
Schema inference in CEFReader supports multiple possible strategies for convenience. These strategies determine which fields should be included to the schema from the incoming CEF messages. With this, one might filter out custom extensions for example. It is important to mention that this will have serious effect on every further steps in the record procession. For example using an Inference Strategy which omits fields together with ConvertRecord Processor will result Records with only the part of the original fields.
Using this strategy will result a schema which contains only the header fields from the incoming message. All other fields (standard of custom extensions) will be ignored. The type of these fields are defined by the CEF format and regardless of the content of the message used as a template, their data type is also defined by the format.
Additionally to the header fields, this strategy will include standard extensions from the messages in the FlowFile. This means, not all standard extensions will be part of the outgoing Record but the ones the Schema Inference found in the incoming messages. The data type of these Record fields are determined by the CEF format, ignoring the actual value in the observed field.
While the type of the header and standard extension fields are bound by the CEF format, it is possible to add further fields to the message called "custom extensions". These fields are not part of the "Extension Dictionary", thus their data type is not predefined. Using "With custom extensions inferred" Inference Strategy, the CEFReader tries to determine the possible data type for these custom extension fields based on their value.
In some cases it is undesirable to let the Reader determine the type of the custom extensions. For convenience CEFReader provides an Inference Strategy which regardless of their value, consider custom extension fields as String data. Otherwise this strategy behaves like the "With custom extensions inferred".
This Record Reader requires that if a schema is to be inferred, that all records be read in order to ensure that the schema that gets inferred is applicable for all records in the FlowFile. However, this can become expensive, especially if the data undergoes many different transformations. To alleviate the cost of inferring schemas, the Record Reader can be configured with a "Schema Inference Cache" by populating the property with that name. This is a Controller Service that can be shared by Record Readers and Record Writers.
Whenever a Record Writer is used to write data, if it is configured with a "Schema Cache," it will also add the schema to the Schema Cache. This will result in an identifier for that schema being added as an attribute to the FlowFile.
Whenever a Record Reader is used to read data, if it is configured with a "Schema Inference Cache", it will first look for a "schema.cache.identifier" attribute on the FlowFile. If the attribute exists, it will use the value of that attribute to lookup the schema in the schema cache. If it is able to find a schema in the cache with that identifier, then it will use that schema instead of reading, parsing, and analyzing the data to infer the schema. If the attribute is not available on the FlowFile, or if the attribute is available but the cache does not have a schema with that identifier, then the Record Reader will proceed to infer the schema as described above.
The end result is that users are able to chain together many different Processors to operate on Record-oriented data. Typically, only the first such Processor in the chain will incur the "penalty" of inferring the schema. For all other Processors in the chain, the Record Reader is able to simply lookup the schema in the Schema Cache by identifier. This allows the Record Reader to infer a schema accurately, since it is inferred based on all data in the FlowFile, and still allows this to happen efficiently since the schema will typically only be inferred once, regardless of how many Processors handle the data.
An event is considered invalid if it is malformed in a way that the underlying CEF parser cannot read it properly. CEFReader has two ways to deal with malformed events determined by the usage of the property "Invalid Field". If the property is not set, the reading will fail at the time of reading the first invalid event. If the property is set, a product of the read will be a record with single field. The field is named based on the property and the value of the field will be the original event text. By default, the "Invalid Field" property is not set.
When the "Invalid Field" property is set, the read records might contain both records representing well formed CEF events and malformed ones as well. As of this, further steps might be needed in order to separate these before further processing.