本文作者系:视野金服工程师 | 吴海胜 首发于 Nebula Graph 论坛:https://discuss.nebula-graph.com.cn/t/topic/1388
一、前言
本文介绍如何使用 Docker Swarm 来部署 Nebula Graph 集群,并部署客户端负载均衡和高可用。
二、nebula 集群搭建
2.1 环境准备
机器准备
ip | 内存(Gb) | cpu(核数) |
---|---|---|
192.168.1.166 | 16 | 4 |
192.168.1.167 | 16 | 4 |
192.168.1.168 | 16 | 4 |
在安装前确保所有机器已安装 Docker
2.2 初始化 swarm 集群
在 192.168.1.166 机器上执行
代码语言:txt复制$ docker swarm init --advertise-addr 192.168.1.166
Swarm initialized: current node (dxn1zf6l61qsb1josjja83ngz) is now a manager.
To add a worker to this swarm, run the following command:
docker swarm join
--token SWMTKN-1-49nj1cmql0jkz5s954yi3oex3nedyz0fb0xx14ie39trti4wxv-8vxv8rssmk743ojnwacrr2e7c
192.168.1.166:2377
To add a manager to this swarm, run 'docker swarm join-token manager' and follow the instructions.
2.3 加入 worker 节点
根据 init 命令提示内容,加入 swarm worker 节点,在 192.168.1.167 192.168.1.168 分别执行
代码语言:txt复制docker swarm join
--token SWMTKN-1-49nj1cmql0jkz5s954yi3oex3nedyz0fb0xx14ie39trti4wxv-8vxv8rssmk743ojnwacrr2e7c
192.168.1.166:2377
2.4 验证集群
代码语言:txt复制docker node ls
ID HOSTNAME STATUS AVAILABILITY MANAGER STATUS ENGINE VERSION
h0az2wzqetpwhl9ybu76yxaen * KF2-DATA-166 Ready Active Reachable 18.06.1-ce
q6jripaolxsl7xqv3cmv5pxji KF2-DATA-167 Ready Active Leader 18.06.1-ce
h1iql1uvm7123h3gon9so69dy KF2-DATA-168 Ready Active 18.06.1-ce
2.5 配置 docker stack
代码语言:txt复制vi docker-stack.yml
配置如下内容
代码语言:txt复制version: '3.6'
services:
metad0:
image: vesoft/nebula-metad:nightly
env_file:
- ./nebula.env
command:
- --meta_server_addrs=192.168.1.166:45500,192.168.1.167:45500,192.168.1.168:45500
- --local_ip=192.168.1.166
- --ws_ip=192.168.1.166
- --port=45500
- --data_path=/data/meta
- --log_dir=/logs
- --v=0
- --minloglevel=2
deploy:
replicas: 1
restart_policy:
condition: on-failure
placement:
constraints:
- node.hostname == KF2-DATA-166
healthcheck:
test: ["CMD", "curl", "-f", "http://192.168.1.166:11000/status"]
interval: 30s
timeout: 10s
retries: 3
start_period: 20s
ports:
- target: 11000
published: 11000
protocol: tcp
mode: host
- target: 11002
published: 11002
protocol: tcp
mode: host
- target: 45500
published: 45500
protocol: tcp
mode: host
volumes:
- data-metad0:/data/meta
- logs-metad0:/logs
networks:
- nebula-net
metad1:
image: vesoft/nebula-metad:nightly
env_file:
- ./nebula.env
command:
- --meta_server_addrs=192.168.1.166:45500,192.168.1.167:45500,192.168.1.168:45500
- --local_ip=192.168.1.167
- --ws_ip=192.168.1.167
- --port=45500
- --data_path=/data/meta
- --log_dir=/logs
- --v=0
- --minloglevel=2
deploy:
replicas: 1
restart_policy:
condition: on-failure
placement:
constraints:
- node.hostname == KF2-DATA-167
healthcheck:
test: ["CMD", "curl", "-f", "http://192.168.1.167:11000/status"]
interval: 30s
timeout: 10s
retries: 3
start_period: 20s
ports:
- target: 11000
published: 11000
protocol: tcp
mode: host
- target: 11002
published: 11002
protocol: tcp
mode: host
- target: 45500
published: 45500
protocol: tcp
mode: host
volumes:
- data-metad1:/data/meta
- logs-metad1:/logs
networks:
- nebula-net
metad2:
image: vesoft/nebula-metad:nightly
env_file:
- ./nebula.env
command:
- --meta_server_addrs=192.168.1.166:45500,192.168.1.167:45500,192.168.1.168:45500
- --local_ip=192.168.1.168
- --ws_ip=192.168.1.168
- --port=45500
- --data_path=/data/meta
- --log_dir=/logs
- --v=0
- --minloglevel=2
deploy:
replicas: 1
restart_policy:
condition: on-failure
placement:
constraints:
- node.hostname == KF2-DATA-168
healthcheck:
test: ["CMD", "curl", "-f", "http://192.168.1.168:11000/status"]
interval: 30s
timeout: 10s
retries: 3
start_period: 20s
ports:
- target: 11000
published: 11000
protocol: tcp
mode: host
- target: 11002
published: 11002
protocol: tcp
mode: host
- target: 45500
published: 45500
protocol: tcp
mode: host
volumes:
- data-metad2:/data/meta
- logs-metad2:/logs
networks:
- nebula-net
storaged0:
image: vesoft/nebula-storaged:nightly
env_file:
- ./nebula.env
command:
- --meta_server_addrs=192.168.1.166:45500,192.168.1.167:45500,192.168.1.168:45500
- --local_ip=192.168.1.166
- --ws_ip=192.168.1.166
- --port=44500
- --data_path=/data/storage
- --log_dir=/logs
- --v=0
- --minloglevel=2
deploy:
replicas: 1
restart_policy:
condition: on-failure
placement:
constraints:
- node.hostname == KF2-DATA-166
depends_on:
- metad0
- metad1
- metad2
healthcheck:
test: ["CMD", "curl", "-f", "http://192.168.1.166:12000/status"]
interval: 30s
timeout: 10s
retries: 3
start_period: 20s
ports:
- target: 12000
published: 12000
protocol: tcp
mode: host
- target: 12002
published: 12002
protocol: tcp
mode: host
volumes:
- data-storaged0:/data/storage
- logs-storaged0:/logs
networks:
- nebula-net
storaged1:
image: vesoft/nebula-storaged:nightly
env_file:
- ./nebula.env
command:
- --meta_server_addrs=192.168.1.166:45500,192.168.1.167:45500,192.168.1.168:45500
- --local_ip=192.168.1.167
- --ws_ip=192.168.1.167
- --port=44500
- --data_path=/data/storage
- --log_dir=/logs
- --v=0
- --minloglevel=2
deploy:
replicas: 1
restart_policy:
condition: on-failure
placement:
constraints:
- node.hostname == KF2-DATA-167
depends_on:
- metad0
- metad1
- metad2
healthcheck:
test: ["CMD", "curl", "-f", "http://192.168.1.167:12000/status"]
interval: 30s
timeout: 10s
retries: 3
start_period: 20s
ports:
- target: 12000
published: 12000
protocol: tcp
mode: host
- target: 12002
published: 12004
protocol: tcp
mode: host
volumes:
- data-storaged1:/data/storage
- logs-storaged1:/logs
networks:
- nebula-net
storaged2:
image: vesoft/nebula-storaged:nightly
env_file:
- ./nebula.env
command:
- --meta_server_addrs=192.168.1.166:45500,192.168.1.167:45500,192.168.1.168:45500
- --local_ip=192.168.1.168
- --ws_ip=192.168.1.168
- --port=44500
- --data_path=/data/storage
- --log_dir=/logs
- --v=0
- --minloglevel=2
deploy:
replicas: 1
restart_policy:
condition: on-failure
placement:
constraints:
- node.hostname == KF2-DATA-168
depends_on:
- metad0
- metad1
- metad2
healthcheck:
test: ["CMD", "curl", "-f", "http://192.168.1.168:12000/status"]
interval: 30s
timeout: 10s
retries: 3
start_period: 20s
ports:
- target: 12000
published: 12000
protocol: tcp
mode: host
- target: 12002
published: 12006
protocol: tcp
mode: host
volumes:
- data-storaged2:/data/storage
- logs-storaged2:/logs
networks:
- nebula-net
graphd1:
image: vesoft/nebula-graphd:nightly
env_file:
- ./nebula.env
command:
- --meta_server_addrs=192.168.1.166:45500,192.168.1.167:45500,192.168.1.168:45500
- --port=3699
- --ws_ip=192.168.1.166
- --log_dir=/logs
- --v=0
- --minloglevel=2
deploy:
replicas: 1
restart_policy:
condition: on-failure
placement:
constraints:
- node.hostname == KF2-DATA-166
depends_on:
- metad0
- metad1
- metad2
healthcheck:
test: ["CMD", "curl", "-f", "http://192.168.1.166:13000/status"]
interval: 30s
timeout: 10s
retries: 3
start_period: 20s
ports:
- target: 3699
published: 3699
protocol: tcp
mode: host
- target: 13000
published: 13000
protocol: tcp
# mode: host
- target: 13002
published: 13002
protocol: tcp
mode: host
volumes:
- logs-graphd:/logs
networks:
- nebula-net
graphd2:
image: vesoft/nebula-graphd:nightly
env_file:
- ./nebula.env
command:
- --meta_server_addrs=192.168.1.166:45500,192.168.1.167:45500,192.168.1.168:45500
- --port=3699
- --ws_ip=192.168.1.167
- --log_dir=/logs
- --v=2
- --minloglevel=2
deploy:
replicas: 1
restart_policy:
condition: on-failure
placement:
constraints:
- node.hostname == KF2-DATA-167
depends_on:
- metad0
- metad1
- metad2
healthcheck:
test: ["CMD", "curl", "-f", "http://192.168.1.167:13001/status"]
interval: 30s
timeout: 10s
retries: 3
start_period: 20s
ports:
- target: 3699
published: 3640
protocol: tcp
mode: host
- target: 13000
published: 13001
protocol: tcp
mode: host
- target: 13002
published: 13003
protocol: tcp
# mode: host
volumes:
- logs-graphd2:/logs
networks:
- nebula-net
graphd3:
image: vesoft/nebula-graphd:nightly
env_file:
- ./nebula.env
command:
- --meta_server_addrs=192.168.1.166:45500,192.168.1.167:45500,192.168.1.168:45500
- --port=3699
- --ws_ip=192.168.1.168
- --log_dir=/logs
- --v=0
- --minloglevel=2
deploy:
replicas: 1
restart_policy:
condition: on-failure
placement:
constraints:
- node.hostname == KF2-DATA-168
depends_on:
- metad0
- metad1
- metad2
healthcheck:
test: ["CMD", "curl", "-f", "http://192.168.1.168:13002/status"]
interval: 30s
timeout: 10s
retries: 3
start_period: 20s
ports:
- target: 3699
published: 3641
protocol: tcp
mode: host
- target: 13000
published: 13002
protocol: tcp
# mode: host
- target: 13002
published: 13004
protocol: tcp
mode: host
volumes:
- logs-graphd3:/logs
networks:
- nebula-net
networks:
nebula-net:
external: true
attachable: true
name: host
volumes:
data-metad0:
logs-metad0:
data-metad1:
logs-metad1:
data-metad2:
logs-metad2:
data-storaged0:
logs-storaged0:
data-storaged1:
logs-storaged1:
data-storaged2:
logs-storaged2:
logs-graphd:
logs-graphd2:
logs-graphd3:
编辑 nebula.env,加入如下内容
代码语言:txt复制TZ=UTC
USER=root
2.6 启动 nebula 集群
代码语言:txt复制docker stack deploy nebula -c docker-stack.yml
三、集群负载均衡及高可用配置
Nebula Graph 的客户端目前(1.X)没有提供负载均衡的能力,只是随机选一个 graphd 去连接。所以生产使用的时候要自己做个负载均衡和高可用。
图 3.1
将整个部署架构分为三层,数据服务层,负载均衡层及高可用层。如图 3.1 所示
负载均衡层:对 client 请求做负载均衡,将请求分发至下方数据服务层
高可用层: 这里实现的是 haproxy 的高可用,保证负载均衡层的服务从而保证整个集群的正常服务
3.1 负载均衡配置
haproxy 使用 docker-compose 配置。分别编辑以下三个文件
Dockerfile 加入以下内容
代码语言:txt复制FROM haproxy:1.7
COPY haproxy.cfg /usr/local/etc/haproxy/haproxy.cfg
EXPOSE 3640
docker-compose.yml 加入以下内容
代码语言:txt复制version: "3.2"
services:
haproxy:
container_name: haproxy
build: .
volumes:
- ./haproxy.cfg:/usr/local/etc/haproxy/haproxy.cfg
ports:
- 3640:3640
restart: always
networks:
- app_net
networks:
app_net:
external: true
haproxy.cfg 加入以下内容
代码语言:txt复制global
daemon
maxconn 30000
log 127.0.0.1 local0 info
log 127.0.0.1 local1 warning
defaults
log-format %hr %ST %B %Ts
log global
mode http
option http-keep-alive
timeout connect 5000ms
timeout client 10000ms
timeout server 50000ms
timeout http-request 20000ms
# custom your own frontends && backends && listen conf
# CUSTOM
listen graphd-cluster
bind *:3640
mode tcp
maxconn 300
balance roundrobin
server server1 192.168.1.166:3699 maxconn 300 check
server server2 192.168.1.167:3699 maxconn 300 check
server server3 192.168.1.168:3699 maxconn 300 check
listen stats
bind *:1080
stats refresh 30s
stats uri /stats
3.2 启动 haproxy
代码语言:txt复制docker-compose up -d
3.3 高可用配置
注:配置 keepalive 需预先准备好 vip(虚拟 ip),在以下配置中 192.168.1.99 便为虚拟 ip
在 192.168.1.166 、192.168.1.167、192.168.1.168上 均做以下配置
安装 keepalived
代码语言:txt复制apt-get update && apt-get upgrade && apt-get install keepalived -y
更改 keepalived配置文件 /etc/keepalived/keepalived.conf
(三台机器中 做如下配置,priority 应设置不同值确定优先级)
192.168.1.166 机器配置
代码语言:txt复制global_defs {
router_id lb01 # 标识信息,一个名字而已;
}
vrrp_script chk_haproxy {
script "killall -0 haproxy" interval 2
}
vrrp_instance VI_1 {
state MASTER
interface ens160
virtual_router_id 52
priority 999
# 设定 MASTER 与 BACKUP 负载均衡器之间同步检查的时间间隔,单位是秒
advert_int 1
# 设置验证类型和密码
authentication {
# 设置验证类型,主要有 PASS 和 AH 两种
auth_type PASS
# 设置验证密码,在同一个 vrrp_instance 下,MASTER 与 BACKUP 必须使用相同的密码才能正常通信
auth_pass amber1
}
virtual_ipaddress {
# 虚拟 IP 为 192.168.1.99/24; 绑定接口为 ens160; 别名 ens169:1,主备相同
192.168.1.99/24 dev ens160 label ens160:1
}
track_script {
chk_haproxy
}
}
167 机器配置
代码语言:txt复制global_defs {
router_id lb01 # 标识信息,一个名字而已;
}
vrrp_script chk_haproxy {
script "killall -0 haproxy" interval 2
}
vrrp_instance VI_1 {
state BACKUP
interface ens160
virtual_router_id 52
priority 888
# 设定 MASTER 与 BACKUP 负载均衡器之间同步检查的时间间隔,单位是秒
advert_int 1
# 设置验证类型和密码
authentication {
# 设置验证类型,主要有 PASS 和 AH 两种
auth_type PASS
# 设置验证密码,在同一个 vrrp_instance 下,MASTER 与 BACKUP 必须使用相同的密码才能正常通信
auth_pass amber1
}
virtual_ipaddress {
# 虚拟 IP 为 192.168.1.99/24; 绑定接口为 ens160; 别名 ens160:1,主备相同
192.168.1.99/24 dev ens160 label ens160:1
}
track_script {
chk_haproxy
}
}
168 机器配置
代码语言:txt复制global_defs {
router_id lb01 # 标识信息,一个名字而已;
}
vrrp_script chk_haproxy {
script "killall -0 haproxy" interval 2
}
vrrp_instance VI_1 {
state BACKUP
interface ens160
virtual_router_id 52
priority 777
# 设定 MASTER 与 BACKUP 负载均衡器之间同步检查的时间间隔,单位是秒
advert_int 1
# 设置验证类型和密码
authentication {
# 设置验证类型,主要有 PASS 和 AH 两种
auth_type PASS
# 设置验证密码,在同一个 vrrp_instance 下,MASTER 与 BACKUP 必须使用相同的密码才能正常通信
auth_pass amber1
}
virtual_ipaddress {
# 虚拟 IP 为 192.168.1.99/24;绑定接口为 ens160; 别名 ens160:1,主备相同
192.168.1.99/24 dev ens160 label ens160:1
}
track_script {
chk_haproxy
}
}
keepalived 相关命令
代码语言:txt复制# 启动 keepalived
systemctl start keepalived
# 使 keepalived 开机自启
systemctl enable keeplived
# 重启 keepalived
systemctl restart keepalived
四、其他
离线怎么部署?把镜像更改为私有镜像库就成了,有问题欢迎来勾搭啊。
我的小鱼你醒了 还认识早晨吗 昨夜你曾经说 愿夜幕永不开启
如果你对本文有任何疑问,欢迎来论坛和原作者聊聊~~ 原帖地址:https://discuss.nebula-graph.com.cn/t/topic/1388