Crates.io | telegraf |
lib.rs | telegraf |
version | 0.6.0 |
source | src |
created_at | 2020-03-01 01:45:36.001772 |
updated_at | 2023-03-28 02:25:15.720418 |
description | Minimal rust wrapper for the telegraf/influxdb protocol |
homepage | |
repository | https://github.com/maxmindlin/telegraf-rust |
max_upload_size | |
id | 214041 |
size | 34,076 |
Telegraf-rust is a lightweight client library for general metrics writing using Telegraf. Telegraf is a micro-service provided by InfluxData for making metrics reporting easy for distributed services - see their docs for more information.
This library does not provide querying or other InfluxDB client-library features. This is meant to be lightweight and simple for services to report metrics.
Telegraf-rust supports all socket connection types, such as UDS (unix domain socket):
tcp://
)udp://
)unix://
)unixgram://
)Add it to your Cargo.toml:
[dependencies]
telegraf = "*"
Using this library assumes you have a socket listener setup in your Telegraf configuration file. An example TCP connection looks like so:
[[inputs.socket_listener]]
service_address = "tcp://localhost:8094"
All usage will start by creating a socket connection via a Client
. This supports multiple connection protocols - which one you use will be determined by how your Telegraf input.socket_listener
configuration is setup.
Once a client is setup there are multiple different ways to write points:
use telegraf::*;
let mut client = Client::new("tcp://localhost:8094").unwrap();
#[derive(Metric)]
struct MyMetric {
field1: i32,
#[telegraf(tag)]
tag1: String,
}
let point = MyMetric { field1: 1, tag1: "tag" };
client.write(&point);
By default the measurement name will be the same as the struct. You can override this via derive attributes:
use telegraf::*;
#[derive(Metric)]
#[measurement = "custom_name"]
struct MyMetric {
field1: i32,
}
As with any Telegraf point, tags are optional but at least one field is required.
Timestamps are optional and can be set via the timestamp
attribute:
use telegraf::*;
#[derive(Metric)]
struct MyMetric {
#[telegraf(timestamp)]
ts: u64,
field1: i32,
}
point
macro to do ad-hoc metricsuse telegraf::*;
let mut client = Client::new("tcp://localhost:8094").unwrap();
let p = point!("measurement", ("tag1", "tag1Val"), ("field1", "val") ("field2", 10); 100);
client.write_point(&p);
The macro syntax is the following format:
(<measurement>, [(<tagName>, <tagVal>)], [(<fieldName>, <fieldVal>)]; <timestamp>)
Measurement name, tag set, and field set are comma separated. Tag and field tuples are space separated. Timestamp is semicolon separated. The tag set and timestamp are optional.
Point
initializationuse telegraf::{Client, Point};
let c = Client::new("tcp://localhost:8094").unwrap();
let p = Point::new(
String::from("measurement"),
vec![
(String::from("tag1"), String::from("tag1value"))
],
vec![
(String::from("field1"), Box::new(10)),
(String::from("field2"), Box::new(20.5)),
(String::from("field3"), Box::new("anything!"))
],
Some(100),
);
c.write_point(p)
Any attribute that will be the value of a field must implement the IntoFieldData
trait provided by this library.
pub trait IntoFieldData {
fn field_data(&self) -> FieldData;
}
Out of the box implementations are provided for many common data types, but manual implementation is possible for other data types.
Timestamps are optional. If not present, the Telegraf daemon will set the timestamp using the current time.
Timestamps are specified in nanosecond-precision Unix time, therefore u64
must implement the From<T>
trait for the field type, if the implementation is not already present:
use telegraf::*;
#[derive(Copy, Clone)]
struct MyType {
// ...
}
impl From<MyType> for u64 {
fn from(my_type: MyType) -> Self {
todo!()
}
}
#[derive(Metric)]
struct MyMetric {
#[telegraf(timestamp)]
ts: MyType,
field1: i32,
}
More information about timestamps can be found here.