--- title: "loki.process | Grafana Agent documentation" description: "Learn about loki.process" --- # loki.process `loki.process` receives log entries from other loki components, applies one or more processing *stages*, and forwards the results to the list of receivers in the component’s arguments. A stage is a multi-purpose tool that can parse, transform, and filter log entries before they’re passed to a downstream component. These stages are applied to each log entry in order of their appearance in the configuration file. All stages within a `loki.process` block have access to the log entry’s label set, the log line, the log timestamp, as well as a shared map of ’extracted’ values so that the results of one stage can be used in a subsequent one. Multiple `loki.process` components can be specified by giving them different labels. ## Usage Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy loki.process "LABEL" { forward_to = RECEIVER_LIST stage.STAGENAME { ... } ... } ``` ## Arguments `loki.process` supports the following arguments: Expand table | Name | Type | Description | Default | Required | |--------------|----------------------|------------------------------------------------|---------|----------| | `forward_to` | `list(LogsReceiver)` | Where to forward log entries after processing. | | yes | ## Blocks The following blocks are supported inside the definition of `loki.process`: Expand table | Hierarchy | Block | Description | Required | |----------------------------|--------------------------------------------------------------|----------------------------------------------------------------|----------| | stage.cri | [stage.cri](#stagecri-block) | Configures a pre-defined CRI-format pipeline. | no | | stage.decolorize | [stage.decolorize](#stagedecolorize-block) | Strips ANSI color codes from log lines. | no | | stage.docker | [stage.docker](#stagedocker-block) | Configures a pre-defined Docker log format pipeline. | no | | stage.drop | [stage.drop](#stagedrop-block) | Configures a `drop` processing stage. | no | | stage.eventlogmessage | [stage.eventlogmessage](#stageeventlogmessage-block) | Extracts data from the Message field in the Windows Event Log. | no | | stage.geoip | [stage.geoip](#stagegeoip-block) | Configures a `geoip` processing stage. | no | | stage.json | [stage.json](#stagejson-block) | Configures a JSON processing stage. | no | | stage.label\_drop | [stage.label\_drop](#stagelabel_drop-block) | Configures a `label_drop` processing stage. | no | | stage.label\_keep | [stage.label\_keep](#stagelabel_keep-block) | Configures a `label_keep` processing stage. | no | | stage.labels | [stage.labels](#stagelabels-block) | Configures a `labels` processing stage. | no | | stage.limit | [stage.limit](#stagelimit-block) | Configures a `limit` processing stage. | no | | stage.logfmt | [stage.logfmt](#stagelogfmt-block) | Configures a `logfmt` processing stage. | no | | stage.luhn | [stage.luhn](#stageluhn-block) | Configures a `luhn` processing stage. | no | | stage.match | [stage.match](#stagematch-block) | Configures a `match` processing stage. | no | | stage.metrics | [stage.metrics](#stagemetrics-block) | Configures a `metrics` stage. | no | | stage.multiline | [stage.multiline](#stagemultiline-block) | Configures a `multiline` processing stage. | no | | stage.output | [stage.output](#stageoutput-block) | Configures an `output` processing stage. | no | | stage.pack | [stage.pack](#stagepack-block) | Configures a `pack` processing stage. | no | | stage.regex | [stage.regex](#stageregex-block) | Configures a `regex` processing stage. | no | | stage.replace | [stage.replace](#stagereplace-block) | Configures a `replace` processing stage. | no | | stage.sampling | [stage.sampling](#stagesampling-block) | Samples logs at a given rate. | no | | stage.static\_labels | [stage.static\_labels](#stagestatic_labels-block) | Configures a `static_labels` processing stage. | no | | stage.structured\_metadata | [stage.structured\_metadata](#stagestructuredmetadata-block) | Configures a structured metadata processing stage. | no | | stage.template | [stage.template](#stagetemplate-block) | Configures a `template` processing stage. | no | | stage.tenant | [stage.tenant](#stagetenant-block) | Configures a `tenant` processing stage. | no | | stage.timestamp | [stage.timestamp](#stagetimestamp-block) | Configures a `timestamp` processing stage. | no | A user can provide any number of these stage blocks nested inside `loki.process`; these will run in order of appearance in the configuration file. ### stage.cri block The `stage.cri` inner block enables a predefined pipeline which reads log lines using the CRI logging format. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |----------------------------------|----------|----------------------------------------------------------------------|---------|----------| | `max_partial_lines` | `number` | Maximum number of partial lines to hold in memory. | `100` | no | | `max_partial_line_size` | `number` | Maximum number of characters which a partial line can have. | `0` | no | | `max_partial_line_size_truncate` | `bool` | Truncate partial lines that are longer than `max_partial_line_size`. | `false` | no | `max_partial_line_size` is only taken into account if `max_partial_line_size_truncate` is set to `true`. Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy stage.cri {} ``` CRI specifies log lines as single space-delimited values with the following components: - `time`: The timestamp string of the log - `stream`: Either `stdout` or `stderr` - `flags`: CRI flags including `F` or `P` - `log`: The contents of the log line Given the following log line, the subsequent key-value pairs are created in the shared map of extracted data: ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```none "2019-04-30T02:12:41.8443515Z stdout F message" content: message stream: stdout timestamp: 2019-04-30T02:12:41.8443515 ``` ### stage.decolorize block The `stage.decolorize` strips ANSI color codes from the log lines, thus making it easier to parse logs further. The `stage.decolorize` block does not support any arguments or inner blocks, so it is always empty. Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy stage.decolorize {} ``` `stage.decolorize` turns each line having a color code into a non-colored one, for example: ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```none [2022-11-04 22:17:57.811] \033[0;32http\033[0m: GET /_health (0 ms) 204 ``` is turned into ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```none [2022-11-04 22:17:57.811] http: GET /_health (0 ms) 204 ``` ### stage.docker block The `stage.docker` inner block enables a predefined pipeline which reads log lines in the standard format of Docker log files. The `stage.docker` block does not support any arguments or inner blocks, so it is always empty. Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy stage.docker {} ``` Docker log entries are formatted as JSON with the following keys: - `log`: The content of log line - `stream`: Either `stdout` or `stderr` - `time`: The timestamp string of the log line Given the following log line, the subsequent key-value pairs are created in the shared map of extracted data: ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```none {"log":"log message\n","stream":"stderr","time":"2019-04-30T02:12:41.8443515Z"} output: log message\n stream: stderr timestamp: 2019-04-30T02:12:41.8443515 ``` ### stage.drop block The `stage.drop` inner block configures a filtering stage that drops log entries based on several options. If multiple options are provided, they’re treated as AND clauses and must *all* be true for the log entry to be dropped. To drop entries with an OR clause, specify multiple `drop` blocks in sequence. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |-----------------------|------------|------------------------------------------------------------------------------------------------------------------------|----------------|----------| | `source` | `string` | Name or comma-separated list of names from extracted data to match. If empty or not defined, it uses the log message. | `""` | no | | `separator` | `string` | When `source` is a comma-separated list of names, this separator is placed between concatenated extracted data values. | `";"` | no | | `expression` | `string` | A valid RE2 regular expression. | `""` | no | | `value` | `string` | If both `source` and `value` are specified, the stage drops lines where `value` exactly matches the source content. | `""` | no | | `older_than` | `duration` | If specified, the stage drops lines whose timestamp is older than the current time minus this duration. | `""` | no | | `longer_than` | `string` | If specified, the stage drops lines whose size exceeds the configured value. | `""` | no | | `drop_counter_reason` | `string` | A custom reason to report for dropped lines. | `"drop_stage"` | no | The `expression` field must be a RE2 regex string. - If `source` is empty or not provided, the regex attempts to match the log line itself. - If `source` is a single name, the regex attempts to match the corresponding value from the extracted map. - If `source` is a comma-separated list of names, the corresponding values from the extracted map are concatenated using `separator` and the regex attempts to match the concatenated string. The `value` field can only work with values from the extracted map, and must be specified together with `source`. - If `source` is a single name, the entries are dropped when there is an exact match between the corresponding value from the extracted map and the `value`. - If `source` is a comma-separated list of names, the entries are dropped when the `value` matches the `source` values from extracted data, concatenated using the `separator`. Whenever an entry is dropped, the metric `loki_process_dropped_lines_total` is incremented. By default, the reason label is `"drop_stage"`, but you can provide a custom label using the `drop_counter_reason` argument. The following stage drops log entries that contain the word `debug` *and* are longer than 1KB. Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy stage.drop { expression = ".*debug.*" longer_than = "1KB" } ``` On the following example, we define multiple `drop` blocks so `loki.process` drops entries that are either 24h or older, are longer than 8KB, *or* the extracted value of ‘app’ is equal to foo. Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy stage.drop { older_than = "24h" drop_counter_reason = "too old" } stage.drop { longer_than = "8KB" drop_counter_reason = "too long" } stage.drop { source = "app" value = "foo" } ``` ### stage.eventlogmessage block The `eventlogmessage` stage extracts data from the Message string that appears in the Windows Event Log. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |-----------------------|----------|--------------------------------------------------------|-----------|----------| | `source` | `string` | Name of the field in the extracted data to parse. | `message` | no | | `overwrite_existing` | `bool` | Whether to overwrite existing extracted data fields. | `false` | no | | `drop_invalid_labels` | `bool` | Whether to drop fields that are not valid label names. | `false` | no | When `overwrite_existing` is set to `true`, the stage overwrites existing extracted data fields with the same name. If set to `false`, the `_extracted` suffix will be appended to an already existing field name. When `drop_invalid_labels` is set to `true`, the stage drops fields that are not valid label names. If set to `false`, the stage will automatically convert them into valid labels replacing invalid characters with underscores. #### Example combined with `stage.json` Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy stage.json { expressions = { message = "", Overwritten = "", } } stage.eventlogmessage { source = "message" overwrite_existing = true } ``` Given the following log line: ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```none {"event_id": 1, "Overwritten": "old", "message": "Message type:\r\nOverwritten: new\r\nImage: C:\\Users\\User\\agent.exe"} ``` The first stage would create the following key-value pairs in the set of extracted data: - `message`: `Message type:\r\nOverwritten: new\r\nImage: C:\Users\User\agent.exe` - `Overwritten`: `old` The second stage will parse the value of `message` from the extracted data and append/overwrite the following key-value pairs to the set of extracted data: - `Image`: `C:\\Users\\User\\agent.exe` - `Message_type`: (empty string) - `Overwritten`: `new` ### stage.json block The `stage.json` inner block configures a JSON processing stage that parses incoming log lines or previously extracted values as JSON and uses [JMESPath expressions](https://jmespath.org/tutorial.html) to extract new values from them. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |------------------|---------------|--------------------------------------------------------|---------|----------| | `expressions` | `map(string)` | Key-value pairs of JMESPath expressions. | | yes | | `source` | `string` | Source of the data to parse as JSON. | `""` | no | | `drop_malformed` | `bool` | Drop lines whose input cannot be parsed as valid JSON. | `false` | no | When configuring a JSON stage, the `source` field defines the source of data to parse as JSON. By default, this is the log line itself, but it can also be a previously extracted value. The `expressions` field is the set of key-value pairs of JMESPath expressions to run. The map key defines the name with which the data is extracted, while the map value is the expression used to populate the value. Here’s a given log line and two JSON stages to run. Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy {"log":"log message\n","extra":"{\"user\":\"agent\"}"} loki.process "username" { stage.json { expressions = {output = "log", extra = ""} } stage.json { source = "extra" expressions = {username = "user"} } } ``` In this example, the first stage uses the log line as the source and populates these values in the shared map. An empty expression means using the same value as the key (so `extra="extra"`). ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```none output: log message\n extra: {"user": "agent"} ``` The second stage uses the value in `extra` as the input and appends the following key-value pair to the set of extracted data. ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```none username: agent ``` > Note > > Due to a limitation of the upstream jmespath library, you must wrap any string that contains a hyphen `-` in quotes so that it’s not considered a numerical expression. > > If you don’t use quotes to wrap a string that contains a hyphen, you will get errors like: `Unexpected token at the end of the expression: tNumber` > > You can use one of two options to circumvent this issue: > > 1. An escaped double quote. For example: `http_user_agent = "\"request_User-Agent\""` > 2. A backtick quote. For example: ``http_user_agent = `"request_User-Agent"` `` ### stage.label\_drop block The `stage.label_drop` inner block configures a processing stage that drops labels from incoming log entries. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |----------|----------------|---------------------------------------------|---------|----------| | `values` | `list(string)` | Configures a `label_drop` processing stage. | `{}` | no | Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy stage.label_drop { values = [ "kubernetes_node_name", "kubernetes_namespace" ] } ``` ### stage.label\_keep block The `stage.label_keep` inner block configures a processing stage that filters the label set of an incoming log entry down to a subset. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |----------|----------------|---------------------------------------------|---------|----------| | `values` | `list(string)` | Configures a `label_keep` processing stage. | `{}` | no | Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy stage.label_keep { values = [ "kubernetes_pod_name", "kubernetes_pod_container_name" ] } ``` ### stage.labels block The `stage.labels` inner block configures a labels processing stage that can read data from the extracted values map and set new labels on incoming log entries. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |----------|---------------|-----------------------------------------|---------|----------| | `values` | `map(string)` | Configures a `labels` processing stage. | `{}` | no | In a labels stage, the map’s keys define the label to set and the values are how to look them up. If the value is empty, it is inferred to be the same as the key. Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy stage.labels { values = { env = "", // Sets up an 'env' label, based on the 'env' extracted value. user = "username", // Sets up a 'user' label, based on the 'username' extracted value. } } ``` ### stage.structured\_metadata block The `stage.structured_metadata` inner block configures a stage that can read data from the extracted values map and add them to log entries as structured metadata. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |----------|---------------|-----------------------------------------------------------------------------|---------|----------| | `values` | `map(string)` | Specifies the list of labels to add from extracted values map to log entry. | `{}` | no | In a structured\_metadata stage, the map’s keys define the label to set and the values are how to look them up. If the value is empty, it is inferred to be the same as the key. Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy stage.structured_metadata { values = { env = "", // Sets up an 'env' property to structured metadata, based on the 'env' extracted value. user = "username", // Sets up a 'user' property to structured metadata, based on the 'username' extracted value. } } ``` ### stage.limit block The `stage.limit` inner block configures a rate-limiting stage that throttles logs based on several options. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |-----------------------|----------|----------------------------------------------------------------------------------|---------|----------| | `rate` | `number` | The maximum rate of lines per second that the stage forwards. | | yes | | `burst` | `number` | The maximum number of burst lines that the stage forwards. | | yes | | `by_label_name` | `string` | The label to use when rate-limiting on a label name. | `""` | no | | `drop` | `bool` | Whether to discard or backpressure lines that exceed the rate limit. | `false` | no | | `max_distinct_labels` | `number` | The number of unique values to keep track of when rate-limiting `by_label_name`. | `10000` | no | The rate limiting is implemented as a “token bucket” of size `burst`, initially full and refilled at `rate` tokens per second. Each received log entry consumes one token from the bucket. When `drop` is set to true, incoming entries that exceed the rate-limit are dropped, otherwise they are queued until more tokens are available. Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy stage.limit { rate = 5 burst = 10 } ``` If `by_label_name` is set, then `drop` must be set to `true`. This enables the stage to rate-limit not by the number of lines but by the number of labels. The following example rate-limits entries from each unique `namespace` value independently. Any entries without the `namespace` label are not rate-limited. The stage keeps track of up to `max_distinct_labels` unique values, defaulting at 10000. Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy stage.limit { rate = 10 burst = 10 drop = true by_label_name = "namespace" } ``` ### stage.logfmt block The `stage.logfmt` inner block configures a processing stage that reads incoming log lines as logfmt and extracts values from them. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |-----------|---------------|----------------------------------------------|---------|----------| | `mapping` | `map(string)` | Key-value pairs of logmft fields to extract. | | yes | | `source` | `string` | Source of the data to parse as logfmt. | `""` | no | The `source` field defines the source of data to parse as logfmt. When `source` is missing or empty, the stage parses the log line itself, but it can also be used to parse a previously extracted value. This stage uses the [go-logfmt](https://github.com/go-logfmt/logfmt) unmarshaler, so that numeric or boolean types are unmarshalled into their correct form. The stage does not perform any other type conversions. If the extracted value is a complex type, it is treated as a string. Let’s see how this works on the following log line and stages. ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```none time=2012-11-01T22:08:41+00:00 app=loki level=WARN duration=125 message="this is a log line" extra="user=foo" stage.logfmt { mapping = { "extra" = "" } } stage.logfmt { mapping = { "username" = "user" } source = "extra" } ``` The first stage parses the log line itself and inserts the `extra` key in the set of extracted data, with the value of `user=foo`. The second stage parses the contents of `extra` and appends the `username: foo` key-value pair to the set of extracted data. ### stage.luhn block The `stage.luhn` inner block configures a processing stage that reads incoming log lines and redacts strings that match a Luhn algorithm. The [Luhn algorithm](https://en.wikipedia.org/wiki/Luhn_algorithm) is a simple checksum formula used to validate various identification numbers, such as credit card numbers, IMEI numbers, National Provider Identifier numbers in the US, and Canadian Social Insurance Numbers. Many Payment Card Industry environments require these numbers to be redacted. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |---------------|----------|------------------------------------------------|------------------|----------| | `replacement` | `string` | String to substitute the matched patterns with | `"**REDACTED**"` | no | | `source` | `string` | Source of the data to parse. | `""` | no | | `minLength` | `int` | Minimum length of digits to consider | `13` | no | The `source` field defines the source of data to search. When `source` is missing or empty, the stage parses the log line itself, but it can also be used to parse a previously extracted value. The following example log line contains an approved credit card number. ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```none time=2012-11-01T22:08:41+00:00 app=loki level=WARN duration=125 message="credit card approved 4032032513548443" extra="user=foo" stage.luhn { replacement = "**DELETED**" } ``` The stage parses the log line, redacts the credit card number, and produces the following updated log line: ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```none time=2012-11-01T22:08:41+00:00 app=loki level=INFO duration=125 message="credit card approved **DELETED**" extra="user=foo" ``` ### stage.match block The `stage.match` inner block configures a filtering stage that can conditionally either apply a nested set of processing stages or drop an entry when a log entry matches a configurable LogQL stream selector and filter expressions. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |-----------------------|----------|-------------------------------------------------------------------------------------------------------|-----------------|----------| | `selector` | `string` | The LogQL stream selector and line filter expressions to use. | | yes | | `pipeline_name` | `string` | A custom name to use for the nested pipeline. | `""` | no | | `action` | `string` | The action to take when the selector matches the log line. Supported values are `"keep"` and `"drop"` | `"keep"` | no | | `drop_counter_reason` | `string` | A custom reason to report for dropped lines. | `"match_stage"` | no | > Note > > The filters do not include label filter expressions such as `| label == "foobar"`. The `stage.match` block supports a number of `stage.*` inner blocks, like the top-level block. These are used to construct the nested set of stages to run if the selector matches the labels and content of the log entries. It supports all the same `stage.NAME` blocks as the in the top level of the loki.process component. If the specified action is `"drop"`, the metric `loki_process_dropped_lines_total` is incremented with every line dropped. By default, the reason label is `"match_stage"`, but a custom reason can be provided by using the `drop_counter_reason` argument. Let’s see this in action, with the following log lines and stages ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```none { "time":"2023-01-18T17:08:41+00:00", "app":"foo", "component": ["parser","type"], "level" : "WARN", "message" : "app1 log line" } { "time":"2023-01-18T17:08:42+00:00", "app":"bar", "component": ["parser","type"], "level" : "ERROR", "message" : "foo noisy error" } stage.json { expressions = { "appname" = "app" } } stage.labels { values = { "applbl" = "appname" } } stage.match { selector = "{applbl=\"foo\"}" stage.json { expressions = { "msg" = "message" } } } stage.match { selector = "{applbl=\"qux\"}" stage.json { expressions = { "msg" = "msg" } } } stage.match { selector = "{applbl=\"bar\"} |~ \".*noisy error.*\"" action = "drop" drop_counter_reason = "discard_noisy_errors" } stage.output { source = "msg" } ``` The first two stages parse the log lines as JSON, decode the `app` value into the shared extracted map as `appname`, and use its value as the `applbl` label. The third stage uses the LogQL selector to only execute the nested stages on lines where the `applbl="foo"`. So, for the first line, the nested JSON stage adds `msg="app1 log line"` into the extracted map. The fourth stage uses the LogQL selector to only execute on lines where `applbl="qux"`; that means it won’t match any of the input, and the nested JSON stage does not run. The fifth stage drops entries from lines where `applbl` is set to ‘bar’ and the line contents matches the regex `.*noisy error.*`. It also increments the `loki_process_dropped_lines_total` metric with a label `drop_counter_reason="discard_noisy_errors"`. The final output stage changes the contents of the log line to be the value of `msg` from the extracted map. In this case, the first log entry’s content is changed to `app1 log line`. ### stage.metrics block The `stage.metrics` inner block configures stage that allows to define and update metrics based on values from the shared extracted map. The created metrics are available at the Agent’s root /metrics endpoint. The `stage.metrics` block does not support any arguments and is only configured via a number of nested inner `metric.*` blocks, one for each metric that should be generated. The following blocks are supported inside the definition of `stage.metrics`: Expand table | Hierarchy | Block | Description | Required | |------------------|--------------------------------------------|-------------------------------|----------| | metric.counter | [metric.counter](#metriccounter-block) | Defines a `counter` metric. | no | | metric.gauge | [metric.gauge](#metricgauge-block) | Defines a `gauge` metric. | no | | metric.histogram | [metric.histogram](#metrichistogram-block) | Defines a `histogram` metric. | no | > Note > > The metrics will be reset if you reload the Grafana Agent configuration file. #### metric.counter block Defines a metric whose value only goes up. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |---------------------|------------|----------------------------------------------------------------------------------------------------------|--------------------------|----------| | `name` | `string` | The metric name. | | yes | | `action` | `string` | The action to take. Valid actions are `set`, `inc`, `dec`,`add`, or `sub`. | | yes | | `description` | `string` | The metric’s description and help text. | `""` | no | | `source` | `string` | Key from the extracted data map to use for the metric. Defaults to the metric name. | `""` | no | | `prefix` | `string` | The prefix to the metric name. | `"loki_process_custom_"` | no | | `max_idle_duration` | `duration` | Maximum amount of time to wait until the metric is marked as ‘stale’ and removed. | `"5m"` | no | | `value` | `string` | If set, the metric only changes if `source` exactly matches the `value`. | `""` | no | | `match_all` | `bool` | If set to true, all log lines are counted, without attemptng to match the `source` to the extracted map. | `false` | no | | `count_entry_bytes` | `bool` | If set to true, counts all log lines bytes. | `false` | no | A counter cannot set both `match_all` to true *and* a `value`. A counter cannot set `count_entry_bytes` without also setting `match_all=true` *or* `action=add`. The valid `action` values are `inc` and `add`. The `inc` action increases the metric value by 1 for each log line that passed the filter. The `add` action converts the extracted value to a positive float and adds it to the metric. #### metric.gauge block Defines a gauge metric whose value can go up or down. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |---------------------|------------|-------------------------------------------------------------------------------------|--------------------------|----------| | `name` | `string` | The metric name. | | yes | | `action` | `string` | The action to take. Valid actions are `inc` and `add`. | | yes | | `description` | `string` | The metric’s description and help text. | `""` | no | | `source` | `string` | Key from the extracted data map to use for the metric. Defaults to the metric name. | `""` | no | | `prefix` | `string` | The prefix to the metric name. | `"loki_process_custom_"` | no | | `max_idle_duration` | `duration` | Maximum amount of time to wait until the metric is marked as ‘stale’ and removed. | `"5m"` | no | | `value` | `string` | If set, the metric only changes if `source` exactly matches the `value`. | `""` | no | The valid `action` values are `inc`, `dec`, `set`, `add`, or `sub`. `inc` and `dec` increment and decrement the metric’s value by 1 respectively. If `set`, `add, or`sub\` is chosen, the extracted value must be convertible to a positive float and is set, added to, or subtracted from the metric’s value. #### metric.histogram block Defines a histogram metric whose values are recorded in predefined buckets. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |---------------------|---------------|-------------------------------------------------------------------------------------|--------------------------|----------| | `name` | `string` | The metric name. | | yes | | `buckets` | `list(float)` | The action to take. Valid actions are `set`, `inc`, `dec`,`add`, or `sub`. | | yes | | `description` | `string` | The metric’s description and help text. | `""` | no | | `source` | `string` | Key from the extracted data map to use for the metric. Defaults to the metric name. | `""` | no | | `prefix` | `string` | The prefix to the metric name. | `"loki_process_custom_"` | no | | `max_idle_duration` | `duration` | Maximum amount of time to wait until the metric is marked as ‘stale’ and removed. | `"5m"` | no | | `value` | `string` | If set, the metric only changes if `source` exactly matches the `value`. | `""` | no | #### metrics behavior If `value` is not present, all incoming log entries match. Label values on created metrics can be dynamic, which can cause exported metrics to explode in cardinality or go stale, for example, when a stream stops receiving new logs. To prevent unbounded growth of the `/metrics` endpoint, any metrics which have not been updated within `max_idle_duration` are removed. The `max_idle_duration` must be greater or equal to `"1s"`, and it defaults to `"5m"`. The metric values extracted from the log data are internally converted to floats. The supported values are the following: - integer - floating point number - string - Two types of string format are supported: - Strings that represent floating point numbers, for example, “0.804” is converted to 0.804. - Duration format strings. Valid time units are “ns”, “us”, “ms”, “s”, “m”, “h”. A value in this format is converted to a floating point number of seconds, for example, “0.5ms” is converted to 0.0005. - boolean: - true is converted to 1. - false is converted to 0. The following pipeline creates a counter which increments every time any log line is received by using the `match_all` parameter. The pipeline creates a second counter which adds the byte size of these log lines by using the `count_entry_bytes` parameter. These two metrics disappear after 24 hours if no new entries are received, to avoid building up metrics which no longer serve any use. These two metrics are a good starting point to track the volume of log streams in both the number of entries and their byte size, to identify sources of high-volume or high-cardinality data. Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy stage.metrics { metric.counter { name = "log_lines_total" description = "total number of log lines" prefix = "my_custom_tracking_" match_all = true action = "inc" max_idle_duration = "24h" } } stage.metrics { metric.counter { name = "log_bytes_total" description = "total bytes of log lines" prefix = "my_custom_tracking_" match_all = true count_entry_bytes = true action = "add" max_idle_duration = "24h" } } ``` Here, the first stage uses a regex to extract text in the format `order_status=` in the log line. The second stage, defines a counter which increments the `successful_orders_total` and `failed_orders_total` based on the previously extracted values. Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy stage.regex { expression = "^.* order_status=(?P.*?) .*$" } stage.metrics { metric.counter { name = "successful_orders_total" description = "successful orders" source = "order_status" value = "success" action = "inc" } } stage.metrics { metric.counter { name = "failed_orders_total" description = "failed orders" source = "order_status" value = "fail" action = "inc" } } ``` In this example, the first stage extracts text in the format of `retries=`, from the log line. The second stage creates a gauge whose current metric value is increased by the number extracted from the retries field. Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy stage.regex { expression = "^.* retries=(?P\\d+) .*$" } stage.metrics { metric.gauge { name = "retries_total" description = "total_retries" source = "retries" action = "add" } } ``` The following example shows a histogram that reads `response_time` from the extracted map and places it into a bucket, both increasing the count of the bucket and the sum for that particular bucket: Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy stage.metrics { metric.histogram { name = "http_response_time_seconds" description = "recorded response times" source = "response_time" buckets = [0.001,0.0025,0.005,0.010,0.025,0.050] } } ``` ### stage.multiline block The `stage.multiline` inner block merges multiple lines into a single block before passing it on to the next stage in the pipeline. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |-----------------|------------|----------------------------------------------------|---------|----------| | `firstline` | `string` | Name from extracted data to use for the log entry. | | yes | | `max_wait_time` | `duration` | The maximum time to wait for a multiline block. | `"3s"` | no | | `max_lines` | `number` | The maximum number of lines a block can have. | `128` | no | A new block is identified by the RE2 regular expression passed in `firstline`. Any line that does *not* match the expression is considered to be part of the block of the previous match. If no new logs arrive with `max_wait_time`, the block is sent on. The `max_lines` field defines the maximum number of lines a block can have. If this is exceeded, a new block is started. Let’s see how this works in practice with an example stage and a stream of log entries from a Flask web service. ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```none stage.multiline { firstline = "^\\[\\d{4}-\\d{2}-\\d{2} \\d{1,2}:\\d{2}:\\d{2}\\]" max_wait_time = "10s" } [2023-01-18 17:41:21] "GET /hello HTTP/1.1" 200 - [2023-01-18 17:41:25] ERROR in app: Exception on /error [GET] Traceback (most recent call last): File "/home/pallets/.pyenv/versions/3.8.5/lib/python3.8/site-packages/flask/app.py", line 2447, in wsgi_app response = self.full_dispatch_request() File "/home/pallets/.pyenv/versions/3.8.5/lib/python3.8/site-packages/flask/app.py", line 1952, in full_dispatch_request rv = self.handle_user_exception(e) File "/home/pallets/.pyenv/versions/3.8.5/lib/python3.8/site-packages/flask/app.py", line 1821, in handle_user_exception reraise(exc_type, exc_value, tb) File "/home/pallets/.pyenv/versions/3.8.5/lib/python3.8/site-packages/flask/_compat.py", line 39, in reraise raise value File "/home/pallets/.pyenv/versions/3.8.5/lib/python3.8/site-packages/flask/app.py", line 1950, in full_dispatch_request rv = self.dispatch_request() File "/home/pallets/.pyenv/versions/3.8.5/lib/python3.8/site-packages/flask/app.py", line 1936, in dispatch_request return self.view_functions[rule.endpoint](**req.view_args) File "/home/pallets/src/deployment_tools/hello.py", line 10, in error raise Exception("Sorry, this route always breaks") Exception: Sorry, this route always breaks [2023-01-18 17:42:24] "GET /error HTTP/1.1" 500 - [2023-01-18 17:42:29] "GET /hello HTTP/1.1" 200 - ``` All ‘blocks’ that form log entries of separate web requests start with a timestamp in square brackets. The stage detects this with the regular expression in `firstline` to collapse all lines of the traceback into a single block and thus a single Loki log entry. ### stage.output block The `stage.output` inner block configures a processing stage that reads from the extracted map and changes the content of the log entry that is forwarded to the next component. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |----------|----------|----------------------------------------------------|---------|----------| | `source` | `string` | Name from extracted data to use for the log entry. | | yes | Let’s see how this works for the following log line and three-stage pipeline: ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```none {"user": "John Doe", "message": "hello, world!"} stage.json { expressions = { "user" = "user", "message" = "message" } } stage.labels { values = { "user" = "user" } } stage.output { source = "message" } ``` The first stage extracts the following key-value pairs into the shared map: ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```none user: John Doe message: hello, world! ``` Then, the second stage adds `user="John Doe"` to the label set of the log entry, and the final output stage changes the log line from the original JSON to `hello, world!`. ### stage.pack block The `stage.pack` inner block configures a transforming stage that replaces the log entry with a JSON object that embeds extracted values and labels with it. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |--------------------|----------------|---------------------------------------------------------------------------------|---------|----------| | `labels` | `list(string)` | The values from the extracted data and labels to pack with the log entry. | | yes | | `ingest_timestamp` | `bool` | Whether to replace the log entry timestamp with the time the `pack` stage runs. | `true` | no | This stage lets you embed extracted values and labels together with the log line, by packing them into a JSON object. The original message is stored under the `_entry` key, and all other keys retain their values. This is useful in cases where you *do* want to keep a certain label or metadata, but you don’t want it to be indexed as a label due to high cardinality. The querying capabilities of Loki make it easy to still access this data so it can be filtered and aggregated at query time. For example, consider the following log entry: ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```none log_line: "something went wrong" labels: { "level" = "error", "env" = "dev", "user_id" = "f8fas0r" } ``` and this processing stage: Alloy ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```alloy stage.pack { labels = ["env", "user_id"] } ``` The stage transforms the log entry into the following JSON object, where the two embedded labels are removed from the original log entry: JSON ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```json { "_entry": "something went wrong", "env": "dev", "user_id": "f8fas0r" } ``` At query time, Loki’s [`unpack` parser](/docs/loki/latest/logql/log_queries/#unpack) can be used to access these embedded labels and replace the log line with the original one stored in the `_entry` field automatically. When combining several log streams to use with the `pack` stage, you can set `ingest_timestamp` to true to avoid interlaced timestamps and out-of-order ingestion issues. ### stage.regex block The `stage.regex` inner block configures a processing stage that parses log lines using regular expressions and uses named capture groups for adding data into the shared extracted map of values. The following arguments are supported: Expand table | Name | Type | Description | Default | Required | |--------------|----------|--------------------------------------------------------------------|---------|----------| | `expression` | `string` | A valid RE2 regular expression. Each capture group must be named. | | yes | | `source` | `string` | Name from extracted data to parse. If empty, uses the log message. | `""` | no | The `expression` field needs to be a RE2 regex string. Every matched capture group is added to the extracted map, so it must be named like: `(?Pre)`. The name of the capture group is then used as the key in the extracted map for the matched value. Because of how River strings work, any backslashes in `expression` must be escaped with a double backslash; for example `"\\w"` or `"\\S+"`. If the `source` is empty or missing, then the stage parses the log line itself. If it’s set, the stage parses a previously extracted value with the same name. Given the following log line and regex stage, the extracted values are shown below: ![Copy code to clipboard](/media/images/icons/icon-copy-small-2.svg) Copy ```none 2019-01-01T01:00:00.000000001Z stderr P i'm a log message! stage.regex { expression = "^(?s)(?P