A Trino client for the Python programming language. It supports Python>=3.7 and pypy.
See DEVELOPMENT for information about code style, development process, and guidelines.
See CONTRIBUTING for contribution requirements.
Installation
$ pip install trino
Quick Start
Use the DBAPI interface to query Trino:
from trino.dbapi import connect
conn = connect(
host="<host>",
port=<port>,
user="<username>",
catalog="<catalog>",
schema="<schema>",
)
cur = conn.cursor()
cur.execute("SELECT * FROM system.runtime.nodes")
rows = cur.fetchall()This will query the system.runtime.nodes system tables that shows the nodes
in the Trino cluster.
The DBAPI implementation in trino.dbapi provides methods to retrieve fewer
rows for example Cursor.fetchone() or Cursor.fetchmany(). By default
Cursor.fetchmany() fetches one row. Please set
trino.dbapi.Cursor.arraysize accordingly.
Prerequisite
- Trino server >= 351
Compatibility
trino.sqlalchemy is compatible with the latest 1.3.x and 1.4.x SQLAlchemy
versions at the time of release of a particular version of the client.
Installation
$ pip install trino[sqlalchemy]
Usage
To connect to Trino using SQLAlchemy, use a connection string (URL) following this pattern:
trino://<username>:<password>@<host>:<port>/<catalog>/<schema>
NOTE: password and schema are optional
Examples:
from sqlalchemy import create_engine
from sqlalchemy.schema import Table, MetaData
from sqlalchemy.sql.expression import select, text
engine = create_engine('trino://user@localhost:8080/system')
connection = engine.connect()
rows = connection.execute(text("SELECT * FROM runtime.nodes")).fetchall()
# or using SQLAlchemy schema
nodes = Table(
'nodes',
MetaData(schema='runtime'),
autoload=True,
autoload_with=engine
)
rows = connection.execute(select(nodes)).fetchall()In order to pass additional connection attributes use connect_args method. Attributes can also be passed in the connection string.
from sqlalchemy import create_engine
from trino.sqlalchemy import URL
engine = create_engine(
URL(
host="localhost",
port=8080,
catalog="system"
),
connect_args={
"session_properties": {'query_max_run_time': '1d'},
"client_tags": ["tag1", "tag2"],
"experimental_python_types": True,
"roles": {"catalog1": "role1"},
}
)
# or in connection string
engine = create_engine(
'trino://user@localhost:8080/system?'
'session_properties={"query_max_run_time": "1d"}'
'&client_tags=["tag1", "tag2"]'
'&experimental_python_types=true'
'&roles={"catalog1": "role1"}'
)
# or using the URL factory method
engine = create_engine(URL(
host="localhost",
port=8080,
client_tags=["tag1", "tag2"],
experimental_python_types=True
))The BasicAuthentication class can be used to connect to a Trino cluster configured with
the Password file, LDAP or Salesforce authentication type:
-
DBAPI
from trino.dbapi import connect from trino.auth import BasicAuthentication conn = connect( user="<username>", auth=BasicAuthentication("<username>", "<password>"), http_scheme="https", ... )
-
SQLAlchemy
from sqlalchemy import create_engine engine = create_engine("trino://<username>:<password>@<host>:<port>/<catalog>") # or as connect_args from trino.auth import BasicAuthentication engine = create_engine( "trino://<username>@<host>:<port>/<catalog>", connect_args={ "auth": BasicAuthentication("<username>", "<password>"), "http_scheme": "https", } )
The JWTAuthentication class can be used to connect to a Trino cluster configured with
the JWT authentication type:
-
DBAPI
from trino.dbapi import connect from trino.auth import JWTAuthentication conn = connect( user="<username>", auth=JWTAuthentication("<jwt_token>"), http_scheme="https", ... )
-
SQLAlchemy
from sqlalchemy import create_engine engine = create_engine("trino://<username>@<host>:<port>/<catalog>/<schema>?access_token=<jwt_token>") # or as connect_args from trino.auth import JWTAuthentication engine = create_engine( "trino://<username>@<host>:<port>/<catalog>", connect_args={ "auth": JWTAuthentication("<jwt_token>"), "http_scheme": "https", } )
The OAuth2Authentication class can be used to connect to a Trino cluster configured with
the OAuth2 authentication type.
A callback to handle the redirect url can be provided via param redirect_auth_url_handler of the trino.auth.OAuth2Authentication class. By default, it will try to launch a web browser (trino.auth.WebBrowserRedirectHandler) to go through the authentication flow and output the redirect url to stdout (trino.auth.ConsoleRedirectHandler). Multiple redirect handlers are combined using the trino.auth.CompositeRedirectHandler class.
The OAuth2 token will be cached either per trino.auth.OAuth2Authentication instance or, when keyring is installed, it will be cached within a secure backend (MacOS keychain, Windows credential locker, etc) under a key including host of the Trino connection. Keyring can be installed using pip install 'trino[external-authentication-token-cache]'.
-
DBAPI
from trino.dbapi import connect from trino.auth import OAuth2Authentication conn = connect( user="<username>", auth=OAuth2Authentication(), http_scheme="https", ... )
-
SQLAlchemy
from sqlalchemy import create_engine from trino.auth import OAuth2Authentication engine = create_engine( "trino://<username>@<host>:<port>/<catalog>", connect_args={ "auth": OAuth2Authentication(), "http_scheme": "https", } )
CertificateAuthentication class can be used to connect to Trino cluster configured with certificate based authentication. CertificateAuthentication requires paths to a valid client certificate and private key.
-
DBAPI
from trino.dbapi import connect from trino.auth import CertificateAuthentication conn = connect( user="<username>", auth=CertificateAuthentication("/path/to/cert.pem", "/path/to/key.pem"), http_scheme="https", ... )
-
SQLAlchemy
from sqlalchemy import create_engine from trino.auth import CertificateAuthentication engine = create_engine("trino://<username>@<host>:<port>/<catalog>/<schema>?cert=<cert>&key=<key>") # or as connect_args engine = create_engine( "trino://<username>@<host>:<port>/<catalog>", connect_args={ "auth": CertificateAuthentication("/path/to/cert.pem", "/path/to/key.pem"), "http_scheme": "https", } )
The KerberosAuthentication class can be used to connect to a Trino cluster configured with
the Kerberos authentication type:
-
DBAPI
from trino.dbapi import connect from trino.auth import KerberosAuthentication conn = connect( user="<username>", auth=KerberosAuthentication(...), http_scheme="https", ... )
-
SQLAlchemy
from sqlalchemy import create_engine from trino.auth import KerberosAuthentication engine = create_engine( "trino://<username>@<host>:<port>/<catalog>", connect_args={ "auth": KerberosAuthentication(...), "http_scheme": "https", } )
In the case where user who submits the query is not the same as user who authenticates to Trino server (e.g in Superset),
you can set username to be different from principal_id. Note that principal_id is extracted from auth,
for example username in BasicAuthentication, sub in JWT token or service-name in KerberosAuthentication.
You need to make sure that principal_id has permission to impersonate username.
Extra credentials can be sent as:
import trino
conn = trino.dbapi.connect(
host='localhost',
port=443,
user='the-user',
extra_credential=[('a.username', 'bar'), ('a.password', 'foo')],
)
cur = conn.cursor()
cur.execute('SELECT * FROM system.runtime.nodes')
rows = cur.fetchall()Authorization roles to use for catalogs, specified as a dict with key-value pairs for the catalog and role. For example, {"catalog1": "roleA", "catalog2": "roleB"} sets roleA for catalog1 and roleB for catalog2. See Trino docs.
import trino
conn = trino.dbapi.connect(
host='localhost',
port=443,
user='the-user',
roles={"catalog1": "roleA", "catalog2": "roleB"},
)In order to disable SSL verification, set the verify parameter to False.
from trino.dbapi import connect
from trino.auth import BasicAuthentication
conn = connect(
user="<username>",
auth=BasicAuthentication("<username>", "<password>"),
http_scheme="https",
verify=False
)To use self-signed certificates, specify a path to the certificate in verify parameter.
More details can be found in the Python requests library documentation.
from trino.dbapi import connect
from trino.auth import BasicAuthentication
conn = connect(
user="<username>",
auth=BasicAuthentication("<username>", "<password>"),
http_scheme="https",
verify="/path/to/cert.crt"
)The client runs by default in autocommit mode. To enable transactions, set
isolation_level to a value different than IsolationLevel.AUTOCOMMIT:
from trino.dbapi import connect
from trino.transaction import IsolationLevel
with connect(
isolation_level=IsolationLevel.REPEATABLE_READ,
...
) as conn:
cur = conn.cursor()
cur.execute('INSERT INTO sometable VALUES (1, 2, 3)')
cur.fetchall()
cur.execute('INSERT INTO sometable VALUES (4, 5, 6)')
cur.fetchall()The transaction is created when the first SQL statement is executed.
trino.dbapi.Connection.commit() will be automatically called when the code
exits the with context and the queries succeed, otherwise
trino.dbapi.Connection.rollback() will be called.
If you enable the flag experimental_python_types, the client will convert the results of the query to the
corresponding Python types. For example, if the query returns a DECIMAL column, the result will be a Decimal object.
Limitations of the Python types are described in the
Python types documentation. These limitations will generate an
exception trino.exceptions.DataError if the query returns a value that cannot be converted to the corresponding Python
type.
import trino
import pytz
from datetime import datetime
conn = trino.dbapi.connect(
experimental_python_types=True,
...
)
cur = conn.cursor()
params = datetime(2020, 1, 1, 16, 43, 22, 320000, tzinfo=pytz.timezone('America/Los_Angeles'))
cur.execute("SELECT ?", params=(params,))
rows = cur.fetchall()
assert rows[0][0] == params
assert cur.description[0][1] == "timestamp with time zone"Feel free to create an issue as it makes your request visible to other users and contributors.
If an interactive discussion would be better or if you just want to hangout and chat about the Trino Python client, you can join us on the #python-client channel on Trino Slack.