A database driver for Exasol to be used with the Rust sqlx framework, based on the Exasol Websocket API.
Inspired by Py-Exasol and based on the (now archived) rust-exasol sync driver.
MSRV: 1.70
The driver is currently in its
alphastage. This will change when it's seen some usage and seems mature enough to be declared stable.For simplicity, the crate's version resembles the
sqlxversion it is based on so that managing dependencies is simpler.With that in mind, please favor using a fixed version of
sqlxandsqlx-exasolinCargo.tomlto avoid issues, such as:toml sqlx = "=0.7.1" sqlx-exasol = "=0.7.1-alpha-3"
etl - enables the usage ETL jobs without TLS encryption.etl_native_tls - enables the etl feature and adds TLS encryption through
native-tls1etl_rustls - enables the etl feature and adds TLS encryption through
rustls1compression - enables compression support (for both connections and ETL jobs)uuid - enables support for the uuid cratechrono - enables support for the chrono crate typesrust_decimal - enables support for the rust_decimal typemigrate - enables the use of migrations and testing (just like in other sqlx drivers).Since the driver is used through sqlx and it implements the interfaces there, it can do all
the drivers shipped with sqlx do, with some caveats:
- Limitations
- no compile-time query check support1
- no sqlx-cli support1
- no locking migrations support2
- no column nullability checks3
- apart from migrations, only a single query per statement is allowed (including in
fixtures)4
The connection string is expected to be an URL with the exa:// scheme, e.g:
exa://sys:exasol@localhost:8563.
Using the driver for regular database interactions: ```rust use std::env; use sqlx_exasol::*;
let pool = ExaPool::connect(&env::var("DATABASE_URL").unwrap()).await?; let mut con = pool.acquire().await?;
sqlx::query("CREATE SCHEMA RUSTDOCTEST") .execute(&mut *con) .await?; ```
Array-like parameter binding, also featuring the [ExaIter] adapter.
An important thing to note is that the parameter sets must be of equal length,
otherwise an error is thrown:
```rust
use std::{collections::HashSet, env};
use sqlx_exasol::*;
let pool = ExaPool::connect(&env::var("DATABASE_URL").unwrap()).await?; let mut con = pool.acquire().await?;
let params1 = vec![1, 2, 3]; let params2 = HashSet::from([1, 2, 3]);
sqlx::query("INSERT INTO MY_TABLE VALUES (?, ?)") .bind(¶ms1) .bind(ExaIter::from(¶ms2)) .execute(&mut *con) .await?; ```
An EXPORT - IMPORT ETL data pipe. ```rust use std::env; use futuresutil::{ future::{tryjoin, tryjoin3, tryjoinall}, AsyncReadExt, AsyncWriteExt, TryFutureExt, }; use sqlxexasol::{etl::*, *};
async fn pipe(mut reader: ExaExport, mut writer: ExaImport) -> anyhow::Result<()> { let mut buf = vec![0; 5120].intoboxedslice(); let mut read = 1;
while read > 0 {
// Readers return EOF when there's no more data.
read = reader.read(&mut buf).await?;
// Write data to Exasol
writer.write_all(&buf[..read]).await?;
}
// Writes, unlike readers, MUST be closed to signal we won't send more data to Exasol
writer.close().await?;
Ok(())
}
let pool = ExaPool::connect(&env::var("DATABASE_URL").unwrap()).await?; let mut con1 = pool.acquire().await?; let mut con2 = pool.acquire().await?;
// Build EXPORT job let (exportfut, readers) = ExportBuilder::new(ExportSource::Table("TESTETL")) .build(&mut con1) .await?;
// Build IMPORT job let (importfut, writers) = ImportBuilder::new("TESTETL").build(&mut con2).await?;
// Use readers and writers in some futures let transport_futs = std::iter::zip(readers, writers).map(|(r, w)| pipe(r, w));
// Execute the EXPORT and IMPORT query futures along with the worker futures let (exportres, importres, ) = tryjoin3( exportfut.maperr(From::from), importfut.maperr(From::from), tryjoinall(transport_futs), ) .await?;
asserteq!(exportres.rowsaffected(), importres.rows_affected()); ```
Licensed under either of
at your option.
Contributions to this repository, unless explicitly stated otherwise, will be considered dual-licensed under MIT and Apache 2.0.
Bugs/issues encountered can be opened here
1: There is unfortunately no way to automagically choose a crate's feature flags based on its dependencies feature flags, so the TLS backend has
to be manually selected. While nothing prevents you from using, say native-tls with sqlx and rustls with Exasol ETL jobs, it might be best to avoid compiling
two different TLS backends. Therefore, consider choosing the sqlx and sqlx-exasol feature flags in a consistent manner.
2: The sqlx API powering the compile-time query checks and the sqlx-cli tool is not public. Even if it were, the drivers that are incorporated into sqlx are hardcoded in the part of the code that handles the compile-time driver decision logic.
The main problem from what I can gather is that there's no easy way of defining a plugin system in Rust at the moment, hence the hardcoding.
3: Exasol has no advisory or database locks and simple, unnested, transactions are unfortunately not enough to define a mechanism so that concurrent migrations do not collide. This does not pose a problem when migrations are run sequentially or do not act on the same database objects.
4: Exasol does not provide the information of whether a column is nullable or not, so the driver cannot implicitly decide whether a NULL value can go into a certain database column or not until it actually tries.
5: I didn't even know this (as I never even thought of doing it), but sqlx allows running multiple queries in a single statement. Due to limitations with the websocket API this driver is based on, sqlx-exasol can only run one query at a time.
This is only circumvented in migrations through a somewhat limited, convoluted and possibly costly workaround that tries to split queries by ;, which does not make it applicable for runtime queries at all.