在Ubuntu上实现PostgreSQL的高可用性,可以采用多种策略和技术。以下是一些常见的方法:
Patroni是一个用于管理PostgreSQL高可用性的工具,它支持多种后端,包括Pacemaker、Corosync和etcd。
sudo apt-get update
sudo apt-get install patroni
创建一个Patroni配置文件/etc/patroni.yml,示例配置如下:
scope: postgres
name: pg1
namespace: /db/
restapi:
listen: 0.0.0.0:8008
connect_address: 127.0.0.1
etcd:
host: 127.0.0.1:2379
ttl: 30
loop_wait: 10
retry_timeout: 10
maximum_lag_on_failover: 1048576
postgresql:
use_pg_rewind: true
use_slots: true
parameters:
wal_level: replica
max_connections: 100
hot_standby: on
synchronous_commit: off
synchronous_standby_names: '*'
archive_mode: on
archive_command: 'test ! -f /var/lib/postgresql/9.6/main/archive/%f && cp %p /var/lib/postgresql/9.6/main/archive/%f'
restore_command: 'cp /var/lib/postgresql/9.6/main/archive/%f %p'
wal_keep_segments: 64
max_wal_senders: 4
wal_sender_timeout: 60
max_replication_slots: 4
track_commit_timestamp: on
data_dir: /var/lib/postgresql/9.6/main
pg_hba:
- host replication replicator 127.0.0.1/32 md5
- host all all 0.0.0.0/0 md5
bootstrap:
dcs:
ttl: 30
loop_wait: 10
retry_timeout: 10
maximum_lag_on_failover: 1048576
postgresql:
use_pg_rewind: true
use_slots: true
parameters:
wal_level: replica
max_connections: 100
hot_standby: on
synchronous_commit: off
synchronous_standby_names: '*'
archive_mode: on
archive_command: 'test ! -f /var/lib/postgresql/9.6/main/archive/%f && cp %p /var/lib/postgresql/9.6/main/archive/%f'
restore_command: 'cp /var/lib/postgresql/9.6/main/archive/%f %p'
wal_keep_segments: 64
max_wal_senders: 4
wal_sender_timeout: 60
max_replication_slots: 4
track_commit_timestamp: on
data_dir: /var/lib/postgresql/9.6/main
pg_hba:
- host replication replicator 127.0.0.1/32 md5
- host all all 0.0.0.0/0 md5
sudo patroni /etc/patroni.yml
Pacemaker和Corosync是用于集群管理的工具,可以与Patroni结合使用来实现高可用性。
sudo apt-get update
sudo apt-get install pacemaker corosync
编辑/etc/corosync/corosync.conf文件,示例配置如下:
totem {
version: 2
cluster_name: pg_cluster
transport: udpu
}
nodelist {
node {
ring0_addr: node1.example.com
nodeid: 1
}
node {
ring0_addr: node2.example.com
nodeid: 2
}
}
quorum {
provider: corosync_votequorum
}
logging {
to_logfile: yes
logfile: /var/log/corosync/corosync.log
to_syslog: yes
}
sudo systemctl start corosync
sudo systemctl enable corosync
sudo systemctl start pacemaker
sudo systemctl enable pacemaker
使用pcs命令配置Pacemaker资源,例如:
sudo pcs resource create pgsql ocf:heartbeat:pgsql \
op monitor interval="30s" timeout="60s" \
params pgctl="/usr/lib/postgresql/9.6/bin/pg_ctl" \
op start timeout="120s" \
op stop timeout="120s" \
op promote timeout="120s" \
op demote timeout="120s" \
op monitor interval="30s" timeout="60s"
Pgpool-II是一个用于管理PostgreSQL连接的中间件,支持负载均衡和高可用性。
sudo apt-get update
sudo apt-get install pgpool2
编辑/etc/pgpool2/pgpool.conf文件,示例配置如下:
backend_hostname0 = 'node1.example.com'
backend_port0 = 5432
backend_weight0 = 1
backend_hostname1 = 'node2.example.com'
backend_port1 = 5432
backend_weight1 = 1
load_balance_mode = on
health_check_period = 10
health_check_timeout = 10
master_slave_mode = on
master_slave_sub_mode = 'stream'
failover_command = '/usr/lib/pgpool2/pcp_failover.sh %d %h %p %D %m %M %r'
sudo systemctl start pgpool2
sudo systemctl enable pgpool2
以上方法各有优缺点,选择哪种方法取决于你的具体需求和环境。Patroni提供了更高级的管理功能,而Pacemaker和Corosync则提供了更灵活的集群管理能力。Pgpool-II则更适合用于负载均衡和高可用性的场景。根据你的实际情况选择合适的方案进行部署。