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pgcat.toml
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pgcat.toml
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#
# PgCat config example.
#
#
# General pooler settings
[general]
# What IP to run on, 0.0.0.0 means accessible from everywhere.
host = "0.0.0.0"
# Port to run on, same as PgBouncer used in this example.
port = 6432
# Whether to enable prometheus exporter or not.
enable_prometheus_exporter = true
# Port at which prometheus exporter listens on.
prometheus_exporter_port = 9930
# How long to wait before aborting a server connection (ms).
connect_timeout = 5000 # milliseconds
# How long an idle connection with a server is left open (ms).
idle_timeout = 30000 # milliseconds
# Max connection lifetime before it's closed, even if actively used.
server_lifetime = 86400000 # 24 hours
# How long a client is allowed to be idle while in a transaction (ms).
idle_client_in_transaction_timeout = 0 # milliseconds
# How much time to give the health check query to return with a result (ms).
healthcheck_timeout = 1000 # milliseconds
# How long to keep connection available for immediate re-use, without running a healthcheck query on it
healthcheck_delay = 30000 # milliseconds
# How much time to give clients during shutdown before forcibly killing client connections (ms).
shutdown_timeout = 60000 # milliseconds
# How long to ban a server if it fails a health check (seconds).
ban_time = 60 # seconds
# If we should log client connections
log_client_connections = false
# If we should log client disconnections
log_client_disconnections = false
# When set to true, PgCat reloads configs if it detects a change in the config file.
autoreload = 15000
# Number of worker threads the Runtime will use (4 by default).
worker_threads = 5
# Number of seconds of connection idleness to wait before sending a keepalive packet to the server.
tcp_keepalives_idle = 5
# Number of unacknowledged keepalive packets allowed before giving up and closing the connection.
tcp_keepalives_count = 5
# Number of seconds between keepalive packets.
tcp_keepalives_interval = 5
# Path to TLS Certificate file to use for TLS connections
# tls_certificate = ".circleci/server.cert"
# Path to TLS private key file to use for TLS connections
# tls_private_key = ".circleci/server.key"
# Enable/disable server TLS
server_tls = false
# Verify server certificate is completely authentic.
verify_server_certificate = false
# User name to access the virtual administrative database (pgbouncer or pgcat)
# Connecting to that database allows running commands like `SHOW POOLS`, `SHOW DATABASES`, etc..
admin_username = "admin_user"
# Password to access the virtual administrative database
admin_password = "admin_pass"
# Default plugins that are configured on all pools.
[plugins]
# Prewarmer plugin that runs queries on server startup, before giving the connection
# to the client.
[plugins.prewarmer]
enabled = false
queries = [
"SELECT pg_prewarm('pgbench_accounts')",
]
# Log all queries to stdout.
[plugins.query_logger]
enabled = false
# Block access to tables that Postgres does not allow us to control.
[plugins.table_access]
enabled = false
tables = [
"pg_user",
"pg_roles",
"pg_database",
]
# Intercept user queries and give a fake reply.
[plugins.intercept]
enabled = true
[plugins.intercept.queries.0]
query = "select current_database() as a, current_schemas(false) as b"
schema = [
["a", "text"],
["b", "text"],
]
result = [
["${DATABASE}", "{public}"],
]
[plugins.intercept.queries.1]
query = "select current_database(), current_schema(), current_user"
schema = [
["current_database", "text"],
["current_schema", "text"],
["current_user", "text"],
]
result = [
["${DATABASE}", "public", "${USER}"],
]
# pool configs are structured as pool.<pool_name>
# the pool_name is what clients use as database name when connecting.
# For a pool named `sharded_db`, clients access that pool using connection string like
# `postgres://sharding_user:sharding_user@pgcat_host:pgcat_port/sharded_db`
[pools.sharded_db]
# Pool mode (see PgBouncer docs for more).
# `session` one server connection per connected client
# `transaction` one server connection per client transaction
pool_mode = "transaction"
# Load balancing mode
# `random` selects the server at random
# `loc` selects the server with the least outstanding busy conncetions
load_balancing_mode = "random"
# If the client doesn't specify, PgCat routes traffic to this role by default.
# `any` round-robin between primary and replicas,
# `replica` round-robin between replicas only without touching the primary,
# `primary` all queries go to the primary unless otherwise specified.
default_role = "any"
# Prepared statements cache size.
# TODO: update documentation
prepared_statements_cache_size = 500
# If Query Parser is enabled, we'll attempt to parse
# every incoming query to determine if it's a read or a write.
# If it's a read query, we'll direct it to a replica. Otherwise, if it's a write,
# we'll direct it to the primary.
query_parser_enabled = true
# If the query parser is enabled and this setting is enabled, we'll attempt to
# infer the role from the query itself.
query_parser_read_write_splitting = true
# If the query parser is enabled and this setting is enabled, the primary will be part of the pool of databases used for
# load balancing of read queries. Otherwise, the primary will only be used for write
# queries. The primary can always be explicitly selected with our custom protocol.
primary_reads_enabled = true
# Allow sharding commands to be passed as statement comments instead of
# separate commands. If these are unset this functionality is disabled.
# sharding_key_regex = '/\* sharding_key: (\d+) \*/'
# shard_id_regex = '/\* shard_id: (\d+) \*/'
# regex_search_limit = 1000 # only look at the first 1000 characters of SQL statements
# Defines the behavior when no shard is selected in a sharded system.
# `random`: picks a shard at random
# `random_healthy`: picks a shard at random favoring shards with the least number of recent errors
# `shard_<number>`: e.g. shard_0, shard_4, etc. picks a specific shard, everytime
# no_shard_specified_behavior = "shard_0"
# So what if you wanted to implement a different hashing function,
# or you've already built one and you want this pooler to use it?
# Current options:
# `pg_bigint_hash`: PARTITION BY HASH (Postgres hashing function)
# `sha1`: A hashing function based on SHA1
sharding_function = "pg_bigint_hash"
# Query to be sent to servers to obtain the hash used for md5 authentication. The connection will be
# established using the database configured in the pool. This parameter is inherited by every pool
# and can be redefined in pool configuration.
# auth_query="SELECT usename, passwd FROM pg_shadow WHERE usename='$1'"
# User to be used for connecting to servers to obtain the hash used for md5 authentication by sending the query
# specified in `auth_query_user`. The connection will be established using the database configured in the pool.
# This parameter is inherited by every pool and can be redefined in pool configuration.
# auth_query_user = "sharding_user"
# Password to be used for connecting to servers to obtain the hash used for md5 authentication by sending the query
# specified in `auth_query_user`. The connection will be established using the database configured in the pool.
# This parameter is inherited by every pool and can be redefined in pool configuration.
# auth_query_password = "sharding_user"
# Automatically parse this from queries and route queries to the right shard!
# automatic_sharding_key = "data.id"
# Idle timeout can be overwritten in the pool
idle_timeout = 40000
# Connect timeout can be overwritten in the pool
connect_timeout = 3000
# When enabled, ip resolutions for server connections specified using hostnames will be cached
# and checked for changes every `dns_max_ttl` seconds. If a change in the host resolution is found
# old ip connections are closed (gracefully) and new connections will start using new ip.
# dns_cache_enabled = false
# Specifies how often (in seconds) cached ip addresses for servers are rechecked (see `dns_cache_enabled`).
# dns_max_ttl = 30
# Plugins can be configured on a pool-per-pool basis. This overrides the global plugins setting,
# so all plugins have to be configured here again.
[pool.sharded_db.plugins]
[pools.sharded_db.plugins.prewarmer]
enabled = true
queries = [
"SELECT pg_prewarm('pgbench_accounts')",
]
[pools.sharded_db.plugins.query_logger]
enabled = false
[pools.sharded_db.plugins.table_access]
enabled = false
tables = [
"pg_user",
"pg_roles",
"pg_database",
]
[pools.sharded_db.plugins.intercept]
enabled = true
[pools.sharded_db.plugins.intercept.queries.0]
query = "select current_database() as a, current_schemas(false) as b"
schema = [
["a", "text"],
["b", "text"],
]
result = [
["${DATABASE}", "{public}"],
]
[pools.sharded_db.plugins.intercept.queries.1]
query = "select current_database(), current_schema(), current_user"
schema = [
["current_database", "text"],
["current_schema", "text"],
["current_user", "text"],
]
result = [
["${DATABASE}", "public", "${USER}"],
]
# User configs are structured as pool.<pool_name>.users.<user_index>
# This section holds the credentials for users that may connect to this cluster
[pools.sharded_db.users.0]
# PostgreSQL username used to authenticate the user and connect to the server
# if `server_username` is not set.
username = "sharding_user"
# PostgreSQL password used to authenticate the user and connect to the server
# if `server_password` is not set.
password = "sharding_user"
pool_mode = "transaction"
# PostgreSQL username used to connect to the server.
# server_username = "another_user"
# PostgreSQL password used to connect to the server.
# server_password = "another_password"
# Maximum number of server connections that can be established for this user
# The maximum number of connection from a single Pgcat process to any database in the cluster
# is the sum of pool_size across all users.
pool_size = 9
# Maximum query duration. Dangerous, but protects against DBs that died in a non-obvious way.
# 0 means it is disabled.
statement_timeout = 0
[pools.sharded_db.users.1]
username = "other_user"
password = "other_user"
pool_size = 21
statement_timeout = 15000
connect_timeout = 1000
idle_timeout = 1000
# Shard configs are structured as pool.<pool_name>.shards.<shard_id>
# Each shard config contains a list of servers that make up the shard
# and the database name to use.
[pools.sharded_db.shards.0]
# Array of servers in the shard, each server entry is an array of `[host, port, role]`
servers = [["127.0.0.1", 5432, "primary"], ["localhost", 5432, "replica"]]
# Array of mirrors for the shard, each mirror entry is an array of `[host, port, index of server in servers array]`
# Traffic hitting the server identified by the index will be sent to the mirror.
# mirrors = [["1.2.3.4", 5432, 0], ["1.2.3.4", 5432, 1]]
# Database name (e.g. "postgres")
database = "shard0"
[pools.sharded_db.shards.1]
servers = [["127.0.0.1", 5432, "primary"], ["localhost", 5432, "replica"]]
database = "shard1"
[pools.sharded_db.shards.2]
servers = [["127.0.0.1", 5432, "primary" ], ["localhost", 5432, "replica" ]]
database = "shard2"
[pools.simple_db]
pool_mode = "session"
default_role = "primary"
query_parser_enabled = true
primary_reads_enabled = true
sharding_function = "pg_bigint_hash"
[pools.simple_db.users.0]
username = "simple_user"
password = "simple_user"
pool_size = 5
min_pool_size = 3
server_lifetime = 60000
statement_timeout = 0
[pools.simple_db.shards.0]
servers = [
[ "127.0.0.1", 5432, "primary" ],
[ "localhost", 5432, "replica" ]
]
database = "some_db"