# read_gelf Parses an incoming GELF stream into events. ```tql read_gelf [merge=bool, raw=bool, schema=string, selector=string, schema_only=bool, unflatten_separator=string] ``` ## Description Parses an incoming [GELF](https://go2docs.graylog.org/current/getting_in_log_data/gelf.html) stream into events. ### `merge = bool (optional)` Merges all incoming events into a single schema\* that converges over time. This option is usually the fastest *for reading* highly heterogeneous data, but can lead to huge schemas filled with nulls and imprecise results. Use with caution. \*: In selector mode, only events with the same selector are merged. In merging mode, a repeated key will always overwrite the previous value. ### `raw = bool (optional)` Use only the raw types that are native to the parsed format. Fields that have a type specified in the chosen `schema` will still be parsed according to the schema. ### `schema = string (optional)` Provide the name of a schema to be used by the parser. If a schema with a matching name is installed, the result will always have all fields from that schema. * Fields that are specified in the schema, but did not appear in the input will be null. * Fields that appear in the input, but not in the schema will also be kept. Use `schema_only=true` to reject fields that are not in the schema. If the given schema does not exist, this option instead assigns the output schema name only. The `schema` option is incompatible with the `selector` option. ### `selector = string (optional)` Designates a field value as schema name with an optional dot-separated prefix. The string is parsed as `[:]`. The `prefix` is optional and will be prepended to the field value to generate the schema name. For example, the Suricata EVE JSON format includes a field `event_type` that contains the event type. Setting the selector to `event_type:suricata` causes an event with the value `flow` for the field `event_type` to map onto the schema `suricata.flow`. The `selector` option is incompatible with the `schema` option. ### `schema_only = bool (optional)` When working with an existing schema, this option will ensure that the output schema has *only* the fields from that schema. If the schema name is obtained via a `selector` and it does not exist, this has no effect. This option requires either `schema` or `selector` to be set. ### `unflatten_separator = string (optional)` A delimiter that, if present in keys, causes values to be treated as values of nested records. A popular example of this is the [Zeek JSON](https://preview.docs.tenzir.com/375/375/reference/operators/read_zeek_json.md) format. It includes the fields `id.orig_h`, `id.orig_p`, `id.resp_h`, and `id.resp_p` at the top-level. The data is best modeled as an `id` record with four nested fields `orig_h`, `orig_p`, `resp_h`, and `resp_p`. Without an unflatten separator, the data looks like this: Without unflattening ```json { "id.orig_h": "1.1.1.1", "id.orig_p": 10, "id.resp_h": "1.1.1.2", "id.resp_p": 5 } ``` With the unflatten separator set to `.`, Tenzir reads the events like this: With 'unflatten' ```json { "id": { "orig_h": "1.1.1.1", "orig_p": 10, "resp_h": "1.1.1.2", "resp_p": 5 } } ``` ### Duplicate Keys If the parser encounters a duplicate key in an event, it will transparently upgrade the field to be a list of values instead. For a simple example, consider this JSON file: Duplicate Keys ```json {"key": 7} {"key": 0.0, "key": 1} {"key": 42} ``` ```tql {key: 7} {key: [0.0, 1.0]} {key: 42} ``` If the values are of different type, conversions to a common type will be attempted, such as to a common number type. Ultimately values will be stringified if they do not share a common type: Type Conflict ```json {"key": 0.0, "key": "1.1.1.1", "key": "example.com"} ``` ```tql {key: ["0", "1.1.1.1", "example.com"]} ``` ## Examples ### Read a GELF stream from a TCP socket ```tql accept_tcp "0.0.0.0:54321" { read_gelf } ``` ## See Also * [Graylog](https://preview.docs.tenzir.com/375/375/integrations/graylog.md)