A Trino client for the Go programming language. It enables you to send SQL statements from your Go application to Trino, and receive the resulting data.
- Native Go implementation
- Connections over HTTP or HTTPS
- HTTP Basic, Kerberos, and JSON web token (JWT) authentication
- Per-query user information for access control
- Support custom HTTP client (tunable conn pools, timeouts, TLS)
- Supports conversion from Trino to native Go data types
string
,sql.NullString
int64
,sql.NullInt64
float64
,sql.NullFloat64
map
,trino.NullMap
time.Time
,trino.NullTime
- Up to 3-dimensional arrays to Go slices, of any supported type
- Go 1.21 or newer
- Trino 372 or newer
You need a working environment with Go installed and $GOPATH set.
Download and install Trino database/sql driver:
go get github.com/trinodb/trino-go-client/trino
Make sure you have Git installed and in your $PATH.
This Trino client is an implementation of Go's database/sql/driver
interface.
In order to use it, you need to import the package and use the
database/sql
API then.
Use trino
as driverName
and a valid DSN as the
dataSourceName
.
Example:
import "database/sql"
import _ "github.com/trinodb/trino-go-client/trino"
dsn := "http://user@localhost:8080?catalog=default&schema=test"
db, err := sql.Open("trino", dsn)
Both HTTP Basic, Kerberos, and JWT authentication are supported.
If the DSN contains a password, the client enables HTTP Basic authentication by
setting the Authorization
header in every request to Trino.
HTTP Basic authentication is only supported on encrypted connections over HTTPS.
This driver supports Kerberos authentication by setting up the Kerberos fields in the Config struct.
Please refer to the Coordinator Kerberos Authentication for server-side configuration.
This driver supports JWT authentication by setting up the AccessToken
field
in the
Config
struct.
Please refer to the Coordinator JWT Authentication for server-side configuration.
It's possible to pass user information to Trino, different from the principal used to authenticate to the coordinator. See the System Access Control documentation for details.
In order to pass user information in queries to Trino, you have to add a NamedArg to the query parameters where the key is X-Trino-User. This parameter is used by the driver to inform Trino about the user executing the query regardless of the authentication method for the actual connection, and its value is NOT passed to the query.
Example:
db.Query("SELECT * FROM foobar WHERE id=?", 1, sql.Named("X-Trino-User", string("Alice")))
The position of the X-Trino-User NamedArg is irrelevant and does not affect the query in any way.
The Data Source Name is a URL with a mandatory username, and optional query string parameters that are supported by this driver, in the following format:
http[s]://user[:pass]@host[:port][?parameters]
The easiest way to build your DSN is by using the Config.FormatDSN helper function.
The driver supports both HTTP and HTTPS. If you use HTTPS it's recommended that
you also provide a custom http.Client
that can validate (or skip) the
security checks of the server certificate, and/or to configure TLS client
authentication.
Parameters are case-sensitive
Refer to the Trino Concepts documentation for more information.
Type: string
Valid values: string describing the source of the connection to Trino
Default: empty
The source
parameter is optional, but if used, can help Trino admins
troubleshoot queries and trace them back to the original client.
Type: string
Valid values: the name of a catalog configured in the Trino server
Default: empty
The catalog
parameter defines the Trino catalog where schemas exist to
organize tables.
Type: string
Valid values: the name of an existing schema in the catalog
Default: empty
The schema
parameter defines the Trino schema where tables exist. This is
also known as namespace in some environments.
Type: string
Valid values: comma-separated list of key=value session properties
Default: empty
The session_properties
parameter must contain valid parameters accepted by
the Trino server. Run SHOW SESSION
in Trino to get the current list.
Type: string
Valid values: the name of a client previously registered to the driver
Default: empty (defaults to http.DefaultClient)
The custom_client
parameter allows the use of custom http.Client
for the
communication with Trino.
Register your custom client in the driver, then refer to it by name in the DSN,
on the call to sql.Open
:
foobarClient := &http.Client{
Transport: &http.Transport{
Proxy: http.ProxyFromEnvironment,
DialContext: (&net.Dialer{
Timeout: 30 * time.Second,
KeepAlive: 30 * time.Second,
DualStack: true,
}).DialContext,
MaxIdleConns: 100,
IdleConnTimeout: 90 * time.Second,
TLSHandshakeTimeout: 10 * time.Second,
ExpectContinueTimeout: 1 * time.Second,
TLSClientConfig: &tls.Config{
// your config here...
},
},
}
trino.RegisterCustomClient("foobar", foobarClient)
db, err := sql.Open("trino", "https://user@localhost:8080?custom_client=foobar")
A custom client can also be used to add OpenTelemetry instrumentation. The otelhttp package provides a transport wrapper that creates spans for HTTP requests and propagates the trace ID in HTTP headers:
otelClient := &http.Client{
Transport: otelhttp.NewTransport(http.DefaultTransport),
}
trino.RegisterCustomClient("otel", otelClient)
db, err := sql.Open("trino", "https://user@localhost:8080?custom_client=otel")
http://user@localhost:8080?source=hello&catalog=default&schema=foobar
https://user@localhost:8443?session_properties=query_max_run_time=10m,query_priority=2
When passing arguments to queries, the driver supports the following Go data types:
- integers
bool
string
- slices
trino.Numeric
- a string representation of a numbertime.Time
- passed to Trino as a timestamp with a time zone- the result of
trino.Date(year, month, day)
- passed to Trino as a date - the result of
trino.Time(hour, minute, second, nanosecond)
- passed to Trino as a time without a time zone - the result of
trino.TimeTz(hour, minute, second, nanosecond, location)
- passed to Trino as a time with a time zone - the result of
trino.Timestamp(year, month, day, hour, minute, second, nanosecond)
- passed to Trino as a timestamp without a time zone
It's not yet possible to pass:
float32
orfloat64
byte
time.Duration
json.RawMessage
- maps
To use the unsupported types, pass them as strings and use casts in the query, like so:
SELECT * FROM table WHERE col_double = cast(? AS DOUBLE) OR col_timestamp = CAST(? AS TIMESTAMP)
When reading response rows, the driver supports most Trino data types, except:
- time and timestamps with precision - all time types are returned as
time.Time
. All precisions up to nanoseconds (TIMESTAMP(9)
orTIME(9)
) are supported (since this is the maximum precision Golang'stime.Time
supports). If a query returns columns defined with a greater precision, values are trimmed to 9 decimal digits. UseCAST
to reduce the returned precision, or convert the value to a string that then can be parsed manually. DECIMAL
- returned as stringIPADDRESS
- returned as stringINTERVAL YEAR TO MONTH
andINTERVAL DAY TO SECOND
- returned as stringUUID
- returned as string
Data types like HyperLogLog
, SetDigest
, QDigest
, and TDigest
are not
supported and cannot be returned from a query.
For reading nullable columns, use:
trino.NullTime
trino.NullMap
- which stores a map ofmap[string]interface{}
or similar structs from thedatabase/sql
package, likesql.NullInt64
To read query results containing arrays or maps, pass one of the following
structs to the Scan()
function:
trino.NullSliceBool
trino.NullSliceString
trino.NullSliceInt64
trino.NullSliceFloat64
trino.NullSliceTime
trino.NullSliceMap
For two or three dimensional arrays, use trino.NullSlice2Bool
and
trino.NullSlice3Bool
or equivalents for other data types.
To read ROW
values, implement the sql.Scanner
interface in a struct. Its
Scan()
function receives a []interface{}
slice, with values of the
following types:
bool
json.Number
for any numeric Trino types[]interface{}
for Trino arraysmap[string]interface{}
for Trino mapsstring
for other Trino types, as character, date, time, or timestamp
Apache License V2.0, as described in the LICENSE file.
You can build the client code locally and run tests with the following command:
go test -v -race -timeout 2m ./...
For contributing, development, and release guidelines, see CONTRIBUTING.md.