---
title: TDengine Rust Connector
sidebar_label: Rust
description: This document describes the TDengine Rust connector.
toc_max_heading_level: 4
---
import Tabs from '@theme/Tabs';
import TabItem from '@theme/TabItem';
import Preparition from "./_preparation.mdx"
import RustInsert from "../../07-develop/03-insert-data/_rust_sql.mdx"
import RustBind from "../../07-develop/03-insert-data/_rust_stmt.mdx"
import RustSml from "../../07-develop/03-insert-data/_rust_schemaless.mdx"
import RustQuery from "../../07-develop/04-query-data/_rust.mdx"
[](https://crates.io/crates/taos)  [](https://docs.rs/taos)
`taos` is the official Rust connector for TDengine. Rust developers can develop applications to access the TDengine instance data.
`taos` provides two ways to establish connections. One is the **Native Connection**, which connects to TDengine instances via the TDengine client driver (taosc). The other is the **WebSocket connection**, which connects to TDengine instances via the WebSocket interface provided by taosAdapter. You can specify a connection type with Cargo features. By default, both types are supported. The Websocket connection can be used on any platform. The native connection can be used on any platform that the TDengine Client supports.
The source code for the Rust connectors is located on [GitHub](https://github.com/taosdata/taos-connector-rust).
## Supported platforms
Native connections are supported on the same platforms as the TDengine client driver.
Websocket connections are supported on all platforms that can run Go.
## Version history
| connector-rust version | TDengine version | major features |
| :----------------: | :--------------: | :--------------------------------------------------: |
| v0.8.8 | 3.0.5.0 | TMQ: get assignments and seek offset. |
| v0.8.0 | 3.0.4.0 | Support schemaless insert. |
| v0.7.6 | 3.0.3.0 | Support req_id in query. |
| v0.6.0 | 3.0.0.0 | Base features. |
The Rust Connector is still under rapid development and is not guaranteed to be backward compatible before 1.0. We recommend using TDengine version 3.0 or higher to avoid known issues.
## Installation
### Pre-installation preparation
* Install the Rust development toolchain
* If using the native connection, please install the TDengine client driver. Please refer to [install client driver](/reference/connector#install-client-driver)
### Add taos dependency
Depending on the connection method, add the [taos][taos] dependency in your Rust project as follows:
In `cargo.toml`, add [taos][taos]:
```toml
[dependencies]
# use default feature
taos = "*"
```
In `cargo.toml`, add [taos][taos] and enable the ws feature:
```toml
[dependencies]
taos = { version = "*", default-features = false, features = ["ws"] }
```
In `cargo.toml`, add [taos][taos] and enable the native feature:
```toml
[dependencies]
taos = { version = "*", default-features = false, features = ["native"] }
```
## Establishing a connection
[TaosBuilder] creates a connection constructor through the DSN connection description string.
```rust
let builder = TaosBuilder::from_dsn("taos://")?;
```
You can now use this object to create the connection.
```rust
let conn = builder.build()?;
```
The connection object can create more than one.
```rust
let conn1 = builder.build()?;
let conn2 = builder.build()?;
```
The structure of the DSN description string is as follows:
```text
[+]://[[:@]:][/][?=[&=]]
|------|------------|---|-----------|-----------|------|------|------------|-----------------------|
|driver| protocol | | username | password | host | port | database | params |
```
The parameters are described as follows:
- **driver**: Specify a driver name so that the connector can choose which method to use to establish the connection. Supported driver names are as follows:
- **taos**: Table names use the TDengine connector driver.
- **tmq**: Use the TMQ to subscribe to data.
- **http/ws**: Use Websocket to establish connections.
- **https/wss**: Use Websocket to establish connections, and enable SSL/TLS.
- **protocol**: Specify which connection method to use. For example, `taos+ws://localhost:6041` uses Websocket to establish connections.
- **username/password**: Username and password used to create connections.
- **host/port**: Specifies the server and port to establish a connection. If you do not specify a hostname or port, native connections default to `localhost:6030` and Websocket connections default to `localhost:6041`.
- **database**: Specify the default database to connect to. It's optional.
- **params**: Optional parameters.
A sample DSN description string is as follows:
```text
taos+ws://localhost:6041/test
```
This indicates that the Websocket connection method is used on port 6041 to connect to the server localhost and use the database `test` by default.
You can create DSNs to connect to servers in your environment.
```rust
use taos::*;
// use native protocol.
let builder = TaosBuilder::from_dsn("taos://localhost:6030")?;
let conn1 = builder.build();
// use websocket protocol.
let conn2 = TaosBuilder::from_dsn("taos+ws://localhost:6041")?;
```
After the connection is established, you can perform operations on your database.
```rust
async fn demo(taos: &Taos, db: &str) -> Result<(), Error> {
// prepare database
taos.exec_many([
format!("DROP DATABASE IF EXISTS `{db}`"),
format!("CREATE DATABASE `{db}`"),
format!("USE `{db}`"),
])
.await?;
let inserted = taos.exec_many([
// create super table
"CREATE TABLE `meters` (`ts` TIMESTAMP, `current` FLOAT, `voltage` INT, `phase` FLOAT) \
TAGS (`groupid` INT, `location` BINARY(24))",
// create child table
"CREATE TABLE `d0` USING `meters` TAGS(0, 'California.LosAngles')",
// insert into child table
"INSERT INTO `d0` values(now - 10s, 10, 116, 0.32)",
// insert with NULL values
"INSERT INTO `d0` values(now - 8s, NULL, NULL, NULL)",
// insert and automatically create table with tags if not exists
"INSERT INTO `d1` USING `meters` TAGS(1, 'California.SanFrancisco') values(now - 9s, 10.1, 119, 0.33)",
// insert many records in a single sql
"INSERT INTO `d1` values (now-8s, 10, 120, 0.33) (now - 6s, 10, 119, 0.34) (now - 4s, 11.2, 118, 0.322)",
]).await?;
assert_eq!(inserted, 6);
let mut result = taos.query("select * from `meters`").await?;
for field in result.fields() {
println!("got field: {}", field.name());
}
let values = result.
}
```
There are two ways to query data: Using built-in types or the [serde](https://serde.rs) deserialization framework.
```rust
// Query option 1, use rows stream.
let mut rows = result.rows();
while let Some(row) = rows.try_next().await? {
for (name, value) in row {
println!("got value of {}: {}", name, value);
}
}
// Query options 2, use deserialization with serde.
#[derive(Debug, serde::Deserialize)]
#[allow(dead_code)]
struct Record {
// deserialize timestamp to chrono::DateTime
ts: DateTime,
// float to f32
current: Option,
// int to i32
voltage: Option,
phase: Option,
groupid: i32,
// binary/varchar to String
location: String,
}
let records: Vec = taos
.query("select * from `meters`")
.await?
.deserialize()
.try_collect()
.await?;
dbg!(records);
Ok(())
```
## Usage examples
### Write data
#### SQL Write
#### STMT Write
#### Schemaless Write
### Query data
## API Reference
### Connector Constructor
You create a connector constructor by using a DSN.
```rust
let cfg = TaosBuilder::default().build()?;
```
You use the builder object to create multiple connections.
```rust
let conn: Taos = cfg.build();
```
### Connection pooling
In complex applications, we recommend enabling connection pools. [taos] implements connection pools based on [r2d2].
As follows, a connection pool with default parameters can be generated.
```rust
let pool = TaosBuilder::from_dsn(dsn)?.pool()?;
```
You can set the same connection pool parameters using the connection pool's constructor.
```rust
let dsn = "taos://localhost:6030";
let opts = PoolBuilder::new()
.max_size(5000) // max connections
.max_lifetime(Some(Duration::from_secs(60 * 60))) // lifetime of each connection
.min_idle(Some(1000)) // minimal idle connections
.connection_timeout(Duration::from_secs(2));
let pool = TaosBuilder::from_dsn(dsn)?.with_pool_builder(opts)?;
```
In the application code, use `pool.get()? ` to get a connection object [Taos].
```rust
let taos = pool.get()?;
```
### Connectors
The [Taos][struct.Taos] object provides an API to perform operations on multiple databases.
1. `exec`: Execute some non-query SQL statements, such as `CREATE`, `ALTER`, `INSERT`, etc.
```rust
let affected_rows = taos.exec("INSERT INTO tb1 VALUES(now, NULL)").await?;
```
2. `exec_many`: Run multiple SQL statements simultaneously or in order.
```rust
taos.exec_many([
"CREATE DATABASE test",
"USE test",
"CREATE TABLE `tb1` (`ts` TIMESTAMP, `val` INT)",
]).await?;
```
3. `query`: Run a query statement and return a [ResultSet] object.
```rust
let mut q = taos.query("select * from log.logs").await?;
```
The [ResultSet] object stores query result data and the names, types, and lengths of returned columns
You can obtain column information by using [.fields()].
```rust
let cols = q.fields();
for col in cols {
println!("name: {}, type: {:?} , bytes: {}", col.name(), col.ty(), col.bytes());
}
```
It fetches data line by line.
```rust
let mut rows = result.rows();
let mut nrows = 0;
while let Some(row) = rows.try_next().await? {
for (col, (name, value)) in row.enumerate() {
println!(
"[{}] got value in col {} (named `{:>8}`): {}",
nrows, col, name, value
);
}
nrows += 1;
}
```
Or use the [serde](https://serde.rs) deserialization framework.
```rust
#[derive(Debug, Deserialize)]
struct Record {
// deserialize timestamp to chrono::DateTime
ts: DateTime,
// float to f32
current: Option,
// int to i32
voltage: Option,
phase: Option,
groupid: i32,
// binary/varchar to String
location: String,
}
let records: Vec = taos
.query("select * from `meters`")
.await?
.deserialize()
.try_collect()
.await?;
```
Note that Rust asynchronous functions and an asynchronous runtime are required.
[Taos][struct.Taos] provides Rust methods for some SQL statements to reduce the number of `format!`s.
- `.describe(table: &str)`: Executes `DESCRIBE` and returns a Rust data structure.
- `.create_database(database: &str)`: Executes the `CREATE DATABASE` statement.
- `.use_database(database: &str)`: Executes the `USE` statement.
In addition, this structure is also the entry point for [Parameter Binding](#Parameter Binding Interface) and [Line Protocol Interface](#Line Protocol Interface). Please refer to the specific API descriptions for usage.
### Bind Interface
Similar to the C interface, Rust provides the bind interface's wrapping. First, the [Taos][struct.taos] object creates a parameter binding object [Stmt] for an SQL statement.
```rust
let mut stmt = Stmt::init(&taos).await?;
stmt.prepare("INSERT INTO ? USING meters TAGS(?, ?) VALUES(?, ?, ?, ?)")?;
```
The bind object provides a set of interfaces for implementing parameter binding.
#### `.set_tbname(name)`
To bind table names.
```rust
let mut stmt = taos.stmt("insert into ? values(? ,?)")?;
stmt.set_tbname("d0")?;
```
#### `.set_tags(&[tag])`
Bind sub-table table names and tag values when the SQL statement uses a super table.
```rust
let mut stmt = taos.stmt("insert into ? using stb0 tags(?) values(? ,?)")?;
stmt.set_tbname("d0")?;
stmt.set_tags(&[Value::VarChar("taos".to_string())])?;
```
#### `.bind(&[column])`
Bind value types. Use the [ColumnView] structure to create and bind the required types.
```rust
let params = vec![
ColumnView::from_millis_timestamp(vec![164000000000]),
ColumnView::from_bools(vec![true]),
ColumnView::from_tiny_ints(vec![i8::MAX]),
ColumnView::from_small_ints(vec![i16::MAX]),
ColumnView::from_ints(vec![i32::MAX]),
ColumnView::from_big_ints(vec![i64::MAX]),
ColumnView::from_unsigned_tiny_ints(vec![u8::MAX]),
ColumnView::from_unsigned_small_ints(vec![u16::MAX]),
ColumnView::from_unsigned_ints(vec![u32::MAX]),
ColumnView::from_unsigned_big_ints(vec![u64::MAX]),
ColumnView::from_floats(vec![f32::MAX]),
ColumnView::from_doubles(vec![f64::MAX]),
ColumnView::from_varchar(vec!["ABC"]),
ColumnView::from_nchar(vec!["涛思数据"]),
];
let rows = stmt.bind(¶ms)?.add_batch()?.execute()?;
```
#### `.execute()`
Execute SQL. [Stmt] objects can be reused, re-binded, and executed after execution. Before execution, ensure that all data has been added to the queue with `.add_batch`.
```rust
stmt.execute()?;
// next bind cycle.
//stmt.set_tbname()?;
//stmt.bind()?;
//stmt.execute()?;
```
For a working example, see [GitHub](https://github.com/taosdata/taos-connector-rust/blob/main/examples/bind.rs).
### Subscriptions
TDengine starts subscriptions through [TMQ](../../../taos-sql/tmq/).
You create a TMQ connector by using a DSN.
```rust
let tmq = TmqBuilder::from_dsn("taos://localhost:6030/?group.id=test")?;
```
Create a consumer:
```rust
let mut consumer = tmq.build()?;
```
A single consumer can subscribe to one or more topics.
```rust
consumer.subscribe(["tmq_meters"]).await?;
```
The TMQ is of [futures::Stream](https://docs.rs/futures/latest/futures/stream/index.html) type. You can use the corresponding API to consume each message in the queue and then use `.commit` to mark them as consumed.
```rust
{
let mut stream = consumer.stream();
while let Some((offset, message)) = stream.try_next().await? {
// get information from offset
// the topic
let topic = offset.topic();
// the vgroup id, like partition id in kafka.
let vgroup_id = offset.vgroup_id();
println!("* in vgroup id {vgroup_id} of topic {topic}\n");
if let Some(data) = message.into_data() {
while let Some(block) = data.fetch_raw_block().await? {
// one block for one table, get table name if needed
let name = block.table_name();
let records: Vec = block.deserialize().try_collect()?;
println!(
"** table: {}, got {} records: {:#?}\n",
name.unwrap(),
records.len(),
records
);
}
}
consumer.commit(offset).await?;
}
}
```
Get assignments:
Version requirements connector-rust >= v0.8.8, TDengine >= 3.0.5.0
```rust
let assignments = consumer.assignments().await.unwrap();
```
Seek offset:
Version requirements connector-rust >= v0.8.8, TDengine >= 3.0.5.0
```rust
consumer.offset_seek(topic, vgroup_id, offset).await;
```
Unsubscribe:
```rust
consumer.unsubscribe().await;
```
The following parameters can be configured for the TMQ DSN. Only `group.id` is mandatory.
- `group.id`: Within a consumer group, load balancing is implemented by consuming messages on an at-least-once basis.
- `client.id`: Subscriber client ID.
- `auto.offset.reset`: Initial point of subscription. *earliest* subscribes from the beginning, and *latest* subscribes from the newest message. The default is earliest. Note: This parameter is set per consumer group.
- `enable.auto.commit`: Automatically commits. This can be enabled when data consistency is not essential.
- `auto.commit.interval.ms`: Interval for automatic commits.
For more information, see [GitHub sample file](https://github.com/taosdata/TDengine/blob/3.0/docs/examples/rust/nativeexample/examples/subscribe_demo.rs).
For information about other structure APIs, see the [Rust documentation](https://docs.rs/taos).
[taos]: https://github.com/taosdata/rust-connector-taos
[r2d2]: https://crates.io/crates/r2d2
[TaosBuilder]: https://docs.rs/taos/latest/taos/struct.TaosBuilder.html
[TaosCfg]: https://docs.rs/taos/latest/taos/struct.TaosCfg.html
[struct.Taos]: https://docs.rs/taos/latest/taos/struct.Taos.html
[Stmt]: https://docs.rs/taos/latest/taos/struct.Stmt.html