8. Presto Tarball Installation
8.1. Installing Presto
Download the Presto server tarball, presto-server-312-e.7.tar.gz, and unpack it.
The tarball will contain a single top-level directory,
presto-server-312-e.7, which we will call the installation directory.
Presto needs a data directory for storing logs, etc. We recommend creating a data directory outside of the installation directory, which allows it to be easily preserved when upgrading Presto.
8.2. Configuring Presto
etc directory inside the installation directory.
This will hold the following configuration:
- Node Properties: environmental configuration specific to each node
- JVM Config: command line options for the Java Virtual Machine
- Config Properties: configuration for the Presto server
- Catalog Properties: configuration for Connectors (data sources)
The node properties file,
etc/node.properties, contains configuration
specific to each node. A node is a single installed instance of Presto
on a machine. This file is typically created by the deployment system when
Presto is first installed. The following is a minimal
node.environment=production node.id=ffffffff-ffff-ffff-ffff-ffffffffffff node.data-dir=/var/presto/data
The above properties are described below:
node.environment: The name of the environment. All Presto nodes in a cluster must have the same environment name.
node.id: The unique identifier for this installation of Presto. This must be unique for every node. This identifier should remain consistent across reboots or upgrades of Presto. If running multiple installations of Presto on a single machine (i.e. multiple nodes on the same machine), each installation must have a unique identifier.
node.data-dir: The location (filesystem path) of the data directory. Presto will store logs and other data here.
The JVM config file,
etc/jvm.config, contains a list of command line
options used for launching the Java Virtual Machine. The format of the file
is a list of options, one per line. These options are not interpreted by
the shell, so options containing spaces or other special characters should
not be quoted.
The following provides a good starting point for creating
-server -Xmx16G -XX:-UseBiasedLocking -XX:+UseG1GC -XX:G1HeapRegionSize=32M -XX:+ExplicitGCInvokesConcurrent -XX:+ExitOnOutOfMemoryError -XX:+UseGCOverheadLimit -XX:+HeapDumpOnOutOfMemoryError -XX:ReservedCodeCacheSize=512M -Djdk.nio.maxCachedBufferSize=2000000
OutOfMemoryError will typically leave the JVM in an
inconsistent state, we write a heap dump (for debugging) and forcibly
terminate the process when this occurs.
The config properties file,
etc/config.properties, contains the
configuration for the Presto server. Every Presto server can function
as both a coordinator and a worker, but dedicating a single machine
to only perform coordination work provides the best performance on
The following is a minimal configuration for the coordinator:
coordinator=true node-scheduler.include-coordinator=false http-server.http.port=8080 query.max-memory=50GB query.max-memory-per-node=1GB query.max-total-memory-per-node=2GB discovery-server.enabled=true discovery.uri=http://example.net:8080
And this is a minimal configuration for the workers:
coordinator=false http-server.http.port=8080 query.max-memory=50GB query.max-memory-per-node=1GB query.max-total-memory-per-node=2GB discovery.uri=http://example.net:8080
Alternatively, if you are setting up a single machine for testing that will function as both a coordinator and worker, use this configuration:
coordinator=true node-scheduler.include-coordinator=true http-server.http.port=8080 query.max-memory=5GB query.max-memory-per-node=1GB query.max-total-memory-per-node=2GB discovery-server.enabled=true discovery.uri=http://example.net:8080
These properties require some explanation:
coordinator: Allow this Presto instance to function as a coordinator (accept queries from clients and manage query execution).
node-scheduler.include-coordinator: Allow scheduling work on the coordinator. For larger clusters, processing work on the coordinator can impact query performance because the machine’s resources are not available for the critical task of scheduling, managing and monitoring query execution.
http-server.http.port: Specifies the port for the HTTP server. Presto uses HTTP for all communication, internal and external.
query.max-memory: The maximum amount of distributed memory that a query may use.
query.max-memory-per-node: The maximum amount of user memory that a query may use on any one machine.
query.max-total-memory-per-node: The maximum amount of user and system memory that a query may use on any one machine, where system memory is the memory used during execution by readers, writers, and network buffers, etc.
discovery-server.enabled: Presto uses the Discovery service to find all the nodes in the cluster. Every Presto instance will register itself with the Discovery service on startup. In order to simplify deployment and avoid running an additional service, the Presto coordinator can run an embedded version of the Discovery service. It shares the HTTP server with Presto and thus uses the same port.
discovery.uri: The URI to the Discovery server. Because we have enabled the embedded version of Discovery in the Presto coordinator, this should be the URI of the Presto coordinator. Replace
example.net:8080to match the host and port of the Presto coordinator. This URI must not end in a slash.
You may also wish to set the following properties:
jmx.rmiregistry.port: Specifies the port for the JMX RMI registry. JMX clients should connect to this port.
jmx.rmiserver.port: Specifies the port for the JMX RMI server. Presto exports many metrics that are useful for monitoring via JMX.
See also Resource Groups.
The optional log levels file,
etc/log.properties, allows setting the
minimum log level for named logger hierarchies. Every logger has a name,
which is typically the fully qualified name of the class that uses the logger.
Loggers have a hierarchy based on the dots in the name (like Java packages).
For example, consider the following log levels file:
This would set the minimum level to
INFO for both
The default minimum level is
(thus the above example does not actually change anything).
There are four levels:
Presto accesses data via connectors, which are mounted in catalogs.
The connector provides all of the schemas and tables inside of the catalog.
For example, the Hive connector maps each Hive database to a schema,
so if the Hive connector is mounted as the
hive catalog, and Hive
contains a table
clicks in database
web, that table would be accessed
in Presto as
Catalogs are registered by creating a catalog properties file
For example, create
etc/catalog/jmx.properties with the following
contents to mount the
jmx connector as the
See Connectors for more information about configuring connectors.
8.3. Running Presto
The installation directory contains the launcher script in
Presto can be started as a daemon by running the following:
Alternatively, it can be run in the foreground, with the logs and other output being written to stdout/stderr (both streams should be captured if using a supervision system like daemontools):
Run the launcher with
--help to see the supported commands and
command line options. In particular, the
--verbose option is
very useful for debugging the installation.
After launching, you can find the log files in
launcher.log: This log is created by the launcher and is connected to the stdout and stderr streams of the server. It will contain a few log messages that occur while the server logging is being initialized and any errors or diagnostics produced by the JVM.
server.log: This is the main log file used by Presto. It will typically contain the relevant information if the server fails during initialization. It is automatically rotated and compressed.
http-request.log: This is the HTTP request log which contains every HTTP request received by the server. It is automatically rotated and compressed.