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前言
Prometheus是自带数据存储功能的。不过保存的时间默认为15天。
对用户而言,Prometheus自带的本地存储的方式最大的优点是简单易用,基本无需配置。但缺点也是比较明显的:
数据无法长久保存,尤其是变更比较频繁的监控对象产生的数据,通常这种情况除了会导致性能问题外,还可能造成数据的丢失,比如K8S的监控
基于本地存储的话,Prometheus监控系统扩展比较难
以上缺点可以配置远程存储解决,使用remote_write和remote_read这两个接口,从第三方存储服务中进行监控数据的读写。
本文描述了一种基于 Influx-relay 和 Nginx 提供高可用 InfluxDB 存储的方法。
1.Prometheus 存储问题及解决方案
Prometheus本地存储专为短期且性能要求不高的数据而设计的,因此,使用的时候需要确认当前数据的保留期限以及相应的可用性要求。为了让我们将持久数据存储更长的时间,我们使用了“外部存储”机制。在这种模式下,Prometheus 将自己的数据复制到外部存储。
Prometheus高可用有多种方案,但我们选择了通过 InfluxDB 实现的高可用解决方案。InfluxDB 是一种可靠且强大的存储软件,有很多功能。此外,它非常适合与Grafana对接,从而提供可视化监控 。
| 软件 | 版本 |
Prometheus |
2.3.0 |
Grafana |
6.0.0 |
2.InfluxDB 安装概览
在我们的部署过程中,我们遵循了Influx-Relay 官方文档(https://github.com/influxdata/influxdb-relay/blob/master/README.md)。安装需要三个节点:
第一个和第二个是运行 Influx-relay 守护进程的 InfluxDB 实例
第三个是运行 Nginx 的负载均衡节点
根据InfluxDB 官方推荐的 Influx-Relay 方案,推荐使用 5 节点(四个 InfluxDB 实例 + Loadbalancer 节点),但三个节点足以满足我们的工作负载。
节点上操作系统都使用了 Ubuntu Xenial。见下表软件版本:
Software |
Version |
Ubuntu |
Ubuntu 16.04.1 LTS |
Kernel |
4.4.0-47-generic |
InfluxDB |
2.1 |
| Influx-Relay | adaa2ea7bf97af592884fcfa57df1a2a77adb571 |
Nginx |
nginx/1.16.0 |
部署 InfluxDB HA 我们使用了本文7.1中描述的Influxdb HA 部署脚本 。
3.InfluxDB HA机制实现
HA 机制已从 InfluxDB(自版本 1.xx 起)移出,现在仅作为企业选项提供。目前有一个官方的fork还在活跃,这里主要讲一下目前活跃的relay的fork,github地址在influxdb-relay(https://github.com/vente-privee/influxdb-relay)。
Influx-Relay
01
Influx-relay 是用 Golang 编写的,其原理总结为将写入查询代理到多个目的地(InfluxDB 实例)。Influx-Relay 在每个 InfluxDB 节点上运行,因此任何 InfluxDB 实例的写入请求都会在所有其他节点上进行镜像。Influx-Relay 轻巧而健壮,不会消耗太多系统资源。请参阅本文7.3描述的Influx-Relay配置。
nginx
02
Nginx 守护进程在单独的节点上运行并充当负载均衡器(上游代理模式)。它将“/query”查询直接重定向到每个 InfluxDB 实例,并将“/write”查询重定向到每个 Influx-relay 守护进程。轮询算法被调度用于查询和写入。这样,传入的读取和写入在整个 InfluxDB 集群中均衡。请参阅本文7.4描述的Nginx配置。
4.InfluxDB 监控
InfluxDB HA 安装使用 Prometheus 进行了测试,该 Prometheus 轮询 200 节点的服务,并生成大量流向其外部存储的数据流。为了测试 InfluxDB 性能,在 Grafana 的帮助下使用并可视化了“_internal”数据库计数器。我们发现 3 节点的 InfluxDB HA 可以轻松处理 200 节点的 Prometheus 负载,并且总体性能不会降低。用于 InfluxDB 监控的 Grafana 仪表板可以在参考本文的7.5部分。
5.InfluxDB HA 性能数据
InfluxDB 数据库性能数据
01
这些图表是通过Grafana 根据原生存储在 InfluxDB '_internal' 数据库中的指标构建的。为了创建可视化,我们使用了 Grafana InfluxDB Dashboard(https://docs.openstack.org/developer/performanc-docs/methodologies/monitoring/influxha.html#grafana-influxdb-dashboard)。
InfluxDB node1 数据库性能 |
InfluxDB node2 数据库性能 |
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操作系统性能数据
02
操作系统性能指标是使用 Telegraf 代理收集的,该代理安装在每个集群节点上,并按需启用需要的插件。请参阅Containerized Openstack Monitoring(https://docs.openstack.org/developer/performance-docs/methodologies/monitoring/index.html)文档中的Telegraf 系统(https://docs.openstack.org/developer/performance-docs/methodologies/monitoring/index.html#telegraf-sys-conf) 配置文件。
01
InfluxDB node1 操作系统性能
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02
InfluxDB node2 操作系统性能
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03
负载均衡节点操作系统性能
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6.如何部署
准备三个有工作网络和 Internet 访问权限的 Ubuntu Xenial 节点
暂时允许 root 用户 ssh 访问
解压 influx_ha_deployment.tar
在 influx_ha/deploy_influx_ha.sh 中设置对应的 SSH_PASSWORD 变量
配置节点 ip 变量,启动部署脚本,例如
INFLUX1=172.20.9.29 INFLUX2=172.20.9.19 BALANCER=172.20.9.27 bash -xe influx_ha/deploy_influx_ha.sh
7.应用程序
InfluxdbHA 部署脚本
01
#!/bin/bash -xe
INFLUX1=${INFLUX1:-172.20.9.29}
INFLUX2=${INFLUX2:-172.20.9.19}
BALANCER=${BALANCER:-172.20.9.27}
SSH_PASSWORD="r00tme"
SSH_USER="root"
SSH_OPTIONS="-o StrictHostKeyChecking=no -o UserKnownHostsFile=/dev/null"
type sshpass || (echo "sshpass is not installed" && exit 1)
ssh_exec() {
node=$1
shift
sshpass -p ${SSH_PASSWORD} ssh ${SSH_OPTIONS} ${SSH_USER}@${node} "$@"
}
scp_exec() {
node=$1
src=$2
dst=$3
sshpass -p ${SSH_PASSWORD} scp ${SSH_OPTIONS} ${2} ${SSH_USER}@${node}:${3}
}
# prepare influx1:
ssh_exec $INFLUX1 "echo 'deb https://repos.influxdata.com/ubuntu xenial stable' > /etc/apt/sources.list.d/influxdb.list"
ssh_exec $INFLUX1 "apt-get update && apt-get install -y influxdb"
scp_exec $INFLUX1 conf/influxdb.conf /etc/influxdb/influxdb.conf
ssh_exec $INFLUX1 "service influxdb restart"
ssh_exec $INFLUX1 "echo 'GOPATH=/root/gocode' >> /etc/environment"
ssh_exec $INFLUX1 "apt-get install -y golang-go && mkdir /root/gocode"
ssh_exec $INFLUX1 "source /etc/environment && go get -u github.com/influxdata/influxdb-relay"
scp_exec $INFLUX1 conf/relay_1.toml /root/relay.toml
ssh_exec $INFLUX1 "sed -i -e 's/influx1_ip/${INFLUX1}/g' -e 's/influx2_ip/${INFLUX2}/g' /root/relay.toml"
ssh_exec $INFLUX1 "influxdb-relay -config relay.toml &"
# prepare influx2:
ssh_exec $INFLUX2 "echo 'deb https://repos.influxdata.com/ubuntu xenial stable' > /etc/apt/sources.list.d/influxdb.list"
ssh_exec $INFLUX2 "apt-get update && apt-get install -y influxdb"
scp_exec $INFLUX2 conf/influxdb.conf /etc/influxdb/influxdb.conf
ssh_exec $INFLUX2 "service influxdb restart"
ssh_exec $INFLUX2 "echo 'GOPATH=/root/gocode' >> /etc/environment"
ssh_exec $INFLUX2 "apt-get install -y golang-go && mkdir /root/gocode"
ssh_exec $INFLUX2 "source /etc/environment && go get -u github.com/influxdata/influxdb-relay"
scp_exec $INFLUX2 conf/relay_2.toml /root/relay.toml
ssh_exec $INFLUX2 "sed -i -e 's/influx1_ip/${INFLUX1}/g' -e 's/influx2_ip/${INFLUX2}/g' /root/relay.toml"
ssh_exec $INFLUX2 "influxdb-relay -config relay.toml &"
# prepare balancer:
ssh_exec $BALANCER "apt-get install -y nginx"
scp_exec $BALANCER conf/influx-loadbalancer.conf /etc/nginx/sites-enabled/influx-loadbalancer.conf
ssh_exec $BALANCER "sed -i -e 's/influx1_ip/${INFLUX1}/g' -e 's/influx2_ip/${INFLUX2}/g' /etc/nginx/sites-enabled/influx-loadbalancer.conf"
ssh_exec $BALANCER "service nginx reload"
echo "INFLUX HA SERVICE IS AVAILABLE AT http://${BALANCER}:7076"01
配置压缩包(用于部署脚本)
influx_ha_deployment.tar`(https://docs.openstack.org/developer/performance-docs/_downloads/influx_ha_deployment.tar)
InfluxDB 配置
02
reporting-disabled = false
bind-address = ":8088"
[meta]
dir = "/var/lib/influxdb/meta"
retention-autocreate = true
logging-enabled = true
[data]
dir = "/var/lib/influxdb/data"
wal-dir = "/var/lib/influxdb/wal"
query-log-enabled = true
cache-max-memory-size = 1073741824
cache-snapshot-memory-size = 26214400
cache-snapshot-write-cold-duration = "10m0s"
compact-full-write-cold-duration = "4h0m0s"
max-series-per-database = 0
max-values-per-tag = 100000
trace-logging-enabled = false
[coordinator]
write-timeout = "10s"
max-concurrent-queries = 0
query-timeout = "0s"
log-queries-after = "0s"
max-select-point = 0
max-select-series = 0
max-select-buckets = 0
[retention]
enabled = true
check-interval = "30m0s"
[shard-precreation]
enabled = true
check-interval = "10m0s"
advance-period = "30m0s"
[admin]
enabled = false
bind-address = ":8083"
https-enabled = false
https-certificate = "/etc/ssl/influxdb.pem"
[monitor]
store-enabled = true
store-database = "_internal"
store-interval = "10s"
[subscriber]
enabled = true
http-timeout = "30s"
insecure-skip-verify = false
ca-certs = ""
write-concurrency = 40
write-buffer-size = 1000
[http]
enabled = true
bind-address = ":8086"
auth-enabled = false
log-enabled = true
write-tracing = false
pprof-enabled = true
https-enabled = false
https-certificate = "/etc/ssl/influxdb.pem"
https-private-key = ""
max-row-limit = 10000
max-connection-limit = 0
shared-secret = ""
realm = "InfluxDB"
unix-socket-enabled = false
bind-socket = "/var/run/influxdb.sock"
[[graphite]]
enabled = false
bind-address = ":2003"
database = "graphite"
retention-policy = ""
protocol = "tcp"
batch-size = 5000
batch-pending = 10
batch-timeout = "1s"
consistency-level = "one"
separator = "."
udp-read-buffer = 0
[[collectd]]
enabled = false
bind-address = ":25826"
database = "collectd"
retention-policy = ""
batch-size = 5000
batch-pending = 10
batch-timeout = "10s"
read-buffer = 0
typesdb = "/usr/share/collectd/types.db"
security-level = "none"
auth-file = "/etc/collectd/auth_file"
[[opentsdb]]
enabled = false
bind-address = ":4242"
database = "opentsdb"
retention-policy = ""
consistency-level = "one"
tls-enabled = false
certificate = "/etc/ssl/influxdb.pem"
batch-size = 1000
batch-pending = 5
batch-timeout = "1s"
log-point-errors = true
[[udp]]
enabled = false
bind-address = ":8089"
database = "udp"
retention-policy = ""
batch-size = 5000
batch-pending = 10
read-buffer = 0
batch-timeout = "1s"
precision = ""
[continuous_queries]
log-enabled = true
enabled = true
run-interval = "1s"Influx-Relay配置
03
01
第一个实例
# Name of the HTTP server, used for display purposes only
[[http]]
name = "influx-http"
# TCP address to bind to, for HTTP server
bind-addr = "influx1_ip:9096"
# Array of InfluxDB instances to use as backends for Relay
# name: name of the backend, used for display purposes only.
# location: full URL of the /write endpoint of the backend
# timeout: Go-parseable time duration. Fail writes if incomplete in this time.
# skip-tls-verification: skip verification for HTTPS location. WARNING: it's insecure. Don't use in production.
output = [
{ name="local-influx1", location = "http://127.0.0.1:8086/write", timeout="10s" },
{ name="remote-influx2", location = "http://influx2_ip:8086/write", timeout="10s" },
]
[[udp]]
# Name of the UDP server, used for display purposes only
name = "influx-udp"
# UDP address to bind to
bind-addr = "127.0.0.1:9096"
# Socket buffer size for incoming connections
read-buffer = 0 # default
# Precision to use for timestamps
precision = "n" # Can be n, u, ms, s, m, h
# Array of InfluxDB UDP instances to use as backends for Relay
# name: name of the backend, used for display purposes only.
# location: host and port of backend.
# mtu: maximum output payload size
output = [
{ name="local-influx1-udp", location="127.0.0.1:8089", mtu=512 },
{ name="remote-influx2-udp", location="influx2_ip:8089", mtu=512 },
]02
第二个实例
# Name of the HTTP server, used for display purposes only
[[http]]
name = "influx-http"
# TCP address to bind to, for HTTP server
bind-addr = "influx2_ip:9096"
# Array of InfluxDB instances to use as backends for Relay
# name: name of the backend, used for display purposes only.
# location: full URL of the /write endpoint of the backend
# timeout: Go-parseable time duration. Fail writes if incomplete in this time.
# skip-tls-verification: skip verification for HTTPS location. WARNING: it's insecure. Don't use in production.
output = [
{ name="local-influx2", location = "http://127.0.0.1:8086/write", timeout="10s" },
{ name="remote-influx1", location = "http://influx1_ip:8086/write", timeout="10s" },
]
[[udp]]
# Name of the UDP server, used for display purposes only
name = "influx-udp"
# UDP address to bind to
bind-addr = "127.0.0.1:9096"
# Socket buffer size for incoming connections
read-buffer = 0 # default
# Precision to use for timestamps
precision = "n" # Can be n, u, ms, s, m, h
# Array of InfluxDB UDP instances to use as backends for Relay
# name: name of the backend, used for display purposes only.
# location: host and port of backend.
# mtu: maximum output payload size
output = [
{ name="local-influx2-udp", location="127.0.0.1:8089", mtu=512 },
{ name="remote-influx1-udp", location="influx1_ip:8089", mtu=512 },
]Nginx 配置
04
client_max_body_size 20M;
upstream influxdb {
server influx1_ip:8086;
server influx2_ip:8086;
}
upstream relay {
server influx1_ip:9096;
server influx2_ip:9096;
}
server {
listen 7076;
location /query {
limit_except GET {
deny all;
}
proxy_pass http://influxdb;
}
location /write {
limit_except POST {
deny all;
}
proxy_pass http://relay;
}
}
# stream {
# upstream test {
# server server1:8003;
# server server2:8003;
# }
#
# server {
# listen 7003 udp;
# proxy_pass test;
# proxy_timeout 1s;
# proxy_responses 1;
# }
# }Grafana InfluxDB Dashboard
05
Influxdb对接Grafana所使用的Dashboard图形可以参考InfluxDB_Dashboard.json(https://docs.openstack.org/developer/performance-docs/_downloads/InfluxDB_Dashboard.json)
8.最后
目前influxdb本身的集群方案属于闭源状态,而本身的开源的influxdb并不支持高可用集群。Prometheus本身不推荐作为数据存储的工具,因此,通过influxdb-relay可以实现相对完善,可靠的监控高可用方案。
参考:
https://docs.openstack.org/developer/performance-docs/methodologies/monitoring/influxha.html#influxdbha-deployment-script
https://yeya24.github.io/post/influxdb_ha/
https://github.com/influxdata/influxdb-relay
https://github.com/vente-privee/influxdb-relay
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