关于Kubernetes集群中常见问题的排查方法的一些笔记

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篇首语:本文由小常识网(cha138.com)小编为大家整理,主要介绍了关于Kubernetes集群中常见问题的排查方法的一些笔记相关的知识,希望对你有一定的参考价值。

写在前面


  • 学习K8s,所以整理记忆
  • 文章理论内容来源于:
  • 《Kubernetes权威指南:从Docker到Kubernetes实践全接触》第四版.第十一章
  • 这里整理学习笔记

一切时代的艺术都在努力为我们内心那神圣的无声的欲望提供语言。 ——赫尔曼·黑塞《彼得·卡门青》


因为没有具体的Demo,所以文章有些空,类似于一些指导思想,读着乏味,这里先列出干货:一些查问题的网站,关于内容之后有机会在补充相关的案例,如果解决问题,时间紧张的小伙伴还是针对问题描述下面的平台里找找

查问题的网站
Kubernetes官网中监控、记录和调试相关问题: https://kubernetes.io/docs/tasks/debug-application-cluster/
Kubernetes官方论坛: https://discuss.kubernetes.io/(这个需要科学上网)
GitHub库关于Kubernetes问题列表:https://github.com/kubernetes/kubernetes/issues
StackOverflow网站上关于Kubernetes的问题讨论:https://stackoverflow.com/questions/tagged/kubernetes
Kubernetes Slack聊天群组: https://kubernetes.slack.com/(需要谷歌账号)

Kubernetes集群中常见问题的排查方法

为了跟踪和发现在Kubernetes集群中运行的容器应用出现的问题,我们常用如下查错方法。

查看Kubernetes对象的当前运行时信息,特别是与对象关联的Event事件。这些事件记录了相关主题发生时间最近发生时间发生次数事件原因等,对排查故障非常有价值。通过查看对象的运行时数据,我们还可以发现参数错误关联错误状态异常等明显问题。由于在Kubernetes中多种对象相互关联,因此这一步可能会涉及多·个相关对象的排查问题。

对于服务、容器方面的问题,可能需要深入容器内部进行故障诊断,此时可以通过查看容器的运行日志来定位具体问题。

对于某些复杂问题,例如Pod调度这种全局性的问题,可能需要结合集群中每个节点上的Kubernetes服务日志来排查。比如搜集Master上的kube-apiserver, kube-schedule, kube-controler-manager服务日志,以及各个Node上的kubelet, kube-proxy服务日志.

查看系统Event

Kubernetes集群创建Pod后,我们可以通过kubectl get pods命令查看Pod列表,但通过该命令显示的信息有限。Kubernetes提供了kubectl describe pod命令来查看一个Pod的详细信息,例如:

通过kubectl describe pod命令,可以显示Pod创建时的配置定义、状态等信息,还可以显示与该Pod相关的最近的Event事件,事件信息对于查错非常有用。

如果某个Pod一直处于Pending状态,我们就可以通过kubectl describe了解具体的原因:

  • 没有可用的Node以供调度,可能原因为pod端口冲突,或者受Taints影响,。
  • 开启了资源配额管理,但在当前调度的目标节点上资源不足
  • 镜像下载失败等

查看pod详细信息

┌──[root@vms81.liruilongs.github.io]-[~]
└─$kubectl describe pods   etcd-vms81.liruilongs.github.io -n kube-system
# pod创建的基本信息
Name:                 etcd-vms81.liruilongs.github.io
Namespace:            kube-system
Priority:             2000001000
Priority Class Name:  system-node-critical
Node:                 vms81.liruilongs.github.io/192.168.26.81
Start Time:           Tue, 25 Jan 2022 21:54:20 +0800
Labels:               component=etcd
                      tier=control-plane
Annotations:          kubeadm.kubernetes.io/etcd.advertise-client-urls: https://192.168.26.81:2379
                      kubernetes.io/config.hash: 1502584f9ab841720212d4341d723ba2
                      kubernetes.io/config.mirror: 1502584f9ab841720212d4341d723ba2
                      kubernetes.io/config.seen: 2021-12-13T00:01:04.834825537+08:00
                      kubernetes.io/config.source: file
                      seccomp.security.alpha.kubernetes.io/pod: runtime/default
Status:               Running # Node当前的运行状态, 
IP:                   192.168.26.81
IPs:
  IP:           192.168.26.81
Controlled By:  Node/vms81.liruilongs.github.io
Containers:
  etcd:  # pod的一些基础信息
    Container ID:  docker://20d99a98a4c2590e8726916932790200ba1cf93c48f3c84ca1298ffdcaa4f28a
    Image:         registry.aliyuncs.com/google_containers/etcd:3.5.0-0
    Image ID:      docker-pullable://registry.aliyuncs.com/google_containers/etcd@sha256:9ce33ba33d8e738a5b85ed50b5080ac746deceed4a7496c550927a7a19ca3b6d
    Port:          <none>
    Host Port:     <none>
    Command:  # 容器运行的一些启动参数
      etcd
      --advertise-client-urls=https://192.168.26.81:2379
      --cert-file=/etc/kubernetes/pki/etcd/server.crt
      --client-cert-auth=true
      --data-dir=/var/lib/etcd
      --initial-advertise-peer-urls=https://192.168.26.81:2380
      --initial-cluster=vms81.liruilongs.github.io=https://192.168.26.81:2380
      --key-file=/etc/kubernetes/pki/etcd/server.key
      --listen-client-urls=https://127.0.0.1:2379,https://192.168.26.81:2379
      --listen-metrics-urls=http://127.0.0.1:2381
      --listen-peer-urls=https://192.168.26.81:2380
      --name=vms81.liruilongs.github.io
      --peer-cert-file=/etc/kubernetes/pki/etcd/peer.crt
      --peer-client-cert-auth=true
      --peer-key-file=/etc/kubernetes/pki/etcd/peer.key
      --peer-trusted-ca-file=/etc/kubernetes/pki/etcd/ca.crt
      --snapshot-count=10000
      --trusted-ca-file=/etc/kubernetes/pki/etcd/ca.crt
    State:          Running
      Started:      Tue, 25 Jan 2022 21:54:20 +0800
    Last State:     Terminated
      Reason:       Error
      Exit Code:    255
      Started:      Mon, 24 Jan 2022 08:35:16 +0800
      Finished:     Tue, 25 Jan 2022 21:53:56 +0800
    Ready:          True
    Restart Count:  128
    Requests: # 涉及到的一些资源信息
      cpu:        100m
      memory:     100Mi
    Liveness:     http-get http://127.0.0.1:2381/health delay=10s timeout=15s period=10s #success=1 #failure=8
    Startup:      http-get http://127.0.0.1:2381/health delay=10s timeout=15s period=10s #success=1 #failure=24
    Environment:  <none>
    Mounts:
      /etc/kubernetes/pki/etcd from etcd-certs (rw)
      /var/lib/etcd from etcd-data (rw)
Conditions:    #pod启动以后会做一系列的自检工作:
  Type              Status
  Initialized       True
  Ready             True
  ContainersReady   True
  PodScheduled      True
Volumes:     # 映射的宿主机的数据卷信息,这里的定义为宿主机共享
  etcd-certs:
    Type:          HostPath (bare host directory volume)
    Path:          /etc/kubernetes/pki/etcd
    HostPathType:  DirectoryOrCreate
  etcd-data:
    Type:          HostPath (bare host directory volume)
    Path:          /var/lib/etcd
    HostPathType:  DirectoryOrCreate
QoS Class:         Burstable
Node-Selectors:    <none>
Tolerations:       :NoExecute op=Exists
Events:            <none>  
┌──[root@vms81.liruilongs.github.io]-[~]
└─$

查看集群中的Node节点和节点的详细信息

[root@liruilong k8s]# kubectl  get nodes
NAME        STATUS    AGE
127.0.0.1   Ready     2d
[root@liruilong k8s]# kubectl describe node 127.0.0.1
# Node基本信息:名称、标签、创建时间等。
Name:                   127.0.0.1
Role:
Labels:                 beta.kubernetes.io/arch=amd64
                        beta.kubernetes.io/os=linux
                        kubernetes.io/hostname=127.0.0.1
Taints:                 <none>
CreationTimestamp:      Fri, 27 Aug 2021 00:07:09 +0800
Phase:
# Node当前的运行状态, Node启动以后会做一系列的自检工作:
# 比如磁盘是否满了,如果满了就标注OutODisk=True
# 否则继续检查内存是否不足(如果内存不足,就标注MemoryPressure=True)
# 最后一切正常,就设置为Ready状态(Ready=True)
# 该状态表示Node处于健康状态, Master将可以在其上调度新的任务了(如启动Pod)
Conditions:
  Type                  Status  LastHeartbeatTime                       LastTransitionTime                      Reason                          Message
  ----                  ------  -----------------                       ------------------                      ------                          -------
  OutOfDisk             False   Sun, 29 Aug 2021 23:05:53 +0800         Sat, 28 Aug 2021 00:30:35 +0800         KubeletHasSufficientDisk        kubelet has sufficient disk space available
  MemoryPressure        False   Sun, 29 Aug 2021 23:05:53 +0800         Fri, 27 Aug 2021 00:07:09 +0800         KubeletHasSufficientMemory      kubelet has sufficient memory available
  DiskPressure          False   Sun, 29 Aug 2021 23:05:53 +0800         Fri, 27 Aug 2021 00:07:09 +0800         KubeletHasNoDiskPressure        kubelet has no disk pressure
  Ready                 True    Sun, 29 Aug 2021 23:05:53 +0800         Sat, 28 Aug 2021 00:30:35 +0800         KubeletReady                    kubelet is posting ready status
# Node的主机地址与主机名。
Addresses:              127.0.0.1,127.0.0.1,127.0.0.1
# Node上的资源总量:描述Node可用的系统资源,包括CPU、内存数量、最大可调度Pod数量等,注意到目前Kubernetes已经实验性地支持GPU资源分配了(alpha.kubernetes.io/nvidia-gpu=0)
Capacity:
 alpha.kubernetes.io/nvidia-gpu:        0
 cpu:                                   1
 memory:                                1882012Ki
 pods:                                  110
# Node可分配资源量:描述Node当前可用于分配的资源量。
Allocatable:
 alpha.kubernetes.io/nvidia-gpu:        0
 cpu:                                   1
 memory:                                1882012Ki
 pods:                                  110
# 主机系统信息:包括主机的唯一标识UUID, Linux kernel版本号、操作系统类型与版本、Kubernetes版本号、kubelet与kube-proxy的版本号等。  
System Info:
 Machine ID:                    963c2c41b08343f7b063dddac6b2e486
 System UUID:                   EB90EDC4-404C-410B-800F-3C65816C0E2D
 Boot ID:                       4a9349b0-ce4b-4b4a-8766-c5c4256bb80b
 Kernel Version:                3.10.0-1160.15.2.el7.x86_64
 OS Image:                      CentOS Linux 7 (Core)
 Operating System:              linux
 Architecture:                  amd64
 Container Runtime Version:     docker://1.13.1
 Kubelet Version:               v1.5.2
 Kube-Proxy Version:            v1.5.2
ExternalID:                     127.0.0.1
# 当前正在运行的Pod列表概要信息
Non-terminated Pods:            (3 in total)
  Namespace                     Name                    CPU Requests    CPU Limits      Memory Requests Memory Limits
  ---------                     ----                    ------------    ----------      --------------- -------------
  default                       mysql-2cpt9             0 (0%)          0 (0%)          0 (0%)          0 (0%)
  default                       myweb-53r32             0 (0%)          0 (0%)          0 (0%)          0 (0%)
  default                       myweb-609w4             0 (0%)          0 (0%)          0 (0%)          0 (0%)
# 已分配的资源使用概要信息,例如资源申请的最低、最大允许使用量占系统总量的百分比。
Allocated resources:
  (Total limits may be over 100 percent, i.e., overcommitted.
  CPU Requests  CPU Limits      Memory Requests Memory Limits
  ------------  ----------      --------------- -------------
  0 (0%)        0 (0%)          0 (0%)          0 (0%)
# Node相关的Event信息。
Events:
  FirstSeen     LastSeen        Count   From                    SubObjectPath   Type            Reason                  Message
  ---------     --------        -----   ----                    -------------   --------        ------                  -------
  4h            27m             3       kubelet 127.0.0.1                     Warning         MissingClusterDNS       kubelet does not have ClusterDNS IP configured and cannot create Pod using "ClusterFirst" policy. pod: "myweb-609w4_default(01d719dd-08b1-11ec-9d6a-00163e1220cb)". Falling back to DNSDefault policy.
  25m           25m             1       kubelet 127.0.0.1                     Warning         MissingClusterDNS       kubelet does not have ClusterDNS IP configured and cannot create Pod using "ClusterFirst" policy. pod: "mysql-2cpt9_default(1c9353ba-08d7-11ec-9d6a-00163e1220cb)". Falling back to DNSDefault policy.

查看容器日志

在需要排查容器内部应用程序生成的日志时,我们可以使用kubectl logs <pod_name>命令

这里打印etcd数据库的日志信息,查看日志中异常的相关信息,这里用过过滤error关键字的方法来查看相关的信息

┌──[root@vms81.liruilongs.github.io]-[~]
└─$kubectl logs  etcd-vms81.liruilongs.github.io -n kube-system | grep -i error | head  -5
"level":"info","ts":"2022-01-25T13:54:33.191Z","caller":"wal/repair.go:96","msg":"repaired","path":"/var/lib/etcd/member/wal/0000000000000014-0000000000185aba.wal","error":"unexpected EOF"
"level":"info","ts":"2022-01-25T13:54:33.192Z","caller":"etcdserver/storage.go:109","msg":"repaired WAL","error":"unexpected EOF"
"level":"warn","ts":"2022-01-25T13:54:33.884Z","caller":"embed/config_logging.go:169","msg":"rejected connection","remote-addr":"127.0.0.1:53950","server-name":"","error":"EOF"
"level":"warn","ts":"2022-01-25T13:54:33.885Z","caller":"embed/config_logging.go:169","msg":"rejected connection","remote-addr":"127.0.0.1:53948","server-name":"","error":"EOF"
"level":"warn","ts":"2022-01-28T03:00:37.549Z","caller":"etcdserver/util.go:166","msg":"apply request took too long","took":"628.230855ms","expected-duration":"100ms","prefix":"read-only range ","request":"key:\\"/registry/runtimeclasses/\\" range_end:\\"/registry/runtimeclasses0\\" count_only:true ","response":"","error":"context canceled"
┌──[root@vms81.liruilongs.github.io]-[~]
└─$

查看Kubernetes服务日志

如果在Linux系统上安装Kubernetes,并且使用systemd系统管理Kubernetes服务,那么systemdjournal系统会接管服务程序的输出日志。在这种环境中,可以通过使用systemd statusjournalct具来查看系统服务的日志。例如:

查看服务服务启动的相关信息,通过这个,可以定位服务加载的配置文件信息,启动参数配置情况

┌──[root@vms81.liruilongs.github.io]-[~]
└─$systemctl status kubelet.service -l
● kubelet.service - kubelet: The Kubernetes Node Agent
   Loaded: loaded (/usr/lib/systemd/system/kubelet.service; enabled; vendor preset: disabled)
  Drop-In: /usr/lib/systemd/system/kubelet.service.d
           └─10-kubeadm.conf
   Active: active (running) since 二 2022-01-25 21:53:35 CST; 6 days ago
     Docs: https://kubernetes.io/docs/
 Main PID: 1014 (kubelet)
   Memory: 208.2M
   CGroup: /system.slice/kubelet.service
           └─1014 /usr/bin/kubelet --bootstrap-kubeconfig=/etc/kubernetes/bootstrap-kubelet.conf --kubeconfig=/etc/kubernetes/kubelet.conf --config=/var/lib/kubelet/config.yaml --network-plugin=cni --pod-infra-container-image=registry.aliyuncs.com/google_containers/pause:3.5

2月 01 17:47:14 vms81.liruilongs.github.io kubelet[1014]: W0201 17:47:14.258523    1014 container.go:586] Failed to update stats for container "/kubepods.slice/kubepods-burstable.slice/kubepods-burstable-pode1b874bfdef201d69db10b200b8f47d5.slice/docker-c20fa960cfebd38172e123a5d87ecd499518bf22381f7aaa62d57131e7eb1aae.scope": unable to determine device info for dir: /var/lib/docker/overlay2/07d7695f2c479fbd0b654016345fcbacd0838276fb57f8291f993ed6799fae8d/diff: stat failed on /var/lib/docker/overlay2/07d7695f2c479fbd0b654016345fcbacd0838276fb57f8291f993ed6799fae8d/diff with error: no such file or directory, continuing to push stats
。。。。。。。。。。

通过 journalct来查看相关的服务日志信息,查看当前用户下的kubelet服务日志中有error关键字的字段的报错问题

┌──[root@vms81.liruilongs.github.io]-[~]
└─$journalctl  -u kubelet.service  | grep -i error | head -2
125 21:53:55 vms81.liruilongs.github.io kubelet[1014]: I0125 21:53:55.865441    1014 docker_service.go:264] "Docker Info" dockerInfo=&ID:HN3K:C6LG:QGV7:N2CG:VELF:CJ6T:HFR5:EEKH:HLPO:CDEU:GN3E:QAJJ Containers:32 ContainersRunning:11 ContainersPaused:0 ContainersStopped:21 Images:32 Driver:overlay2 DriverStatus:[[Backing Filesystem xfs] [Supports d_type true] [Native Overlay Diff true] [userxattr false]] SystemStatus:[] Plugins:Volume:[local] Network:[bridge host ipvlan macvlan null overlay] Authorization:[] Log:[awslogs fluentd gcplogs gelf journald json-file local logentries splunk syslog] MemoryLimit:true SwapLimit:true KernelMemory:true KernelMemoryTCP:true CPUCfsPeriod:true CPUCfsQuota:true CPUShares:true CPUSet:true PidsLimit:true IPv4Forwarding:true BridgeNfIptables:true BridgeNfIP6tables:true Debug:false NFd:26 OomKillDisable:true NGoroutines:39 SystemTime:2022-01-25T21:53:55.833509372+08:00 LoggingDriver:json-file CgroupDriver:systemd CgroupVersion:1 NEventsListener:0 KernelVersion:3.10.0-693.el7.x86_64 OperatingSystem:CentOS Linux 7 (Core) OSVersion:7 OSType:linux Architecture:x86_64 IndexServerAddress:https://index.docker.io/v1/ RegistryConfig:0xc000a8f960 NCPU:2 MemTotal:4126896128 GenericResources:[] DockerRootDir:/var/lib/docker HTTPProxy: HTTPSProxy: NoProxy: Name:vms81.liruilongs.github.io Labels:[] ExperimentalBuild:false ServerVersion:20.10.9 ClusterStore: ClusterAdvertise: Runtimes:map[io.containerd.runc.v2:Path:runc Args:[] Shim:<nil> io.containerd.runtime.v1.linux:Path:runc Args:[] Shim:<nil> runc:Path:runc Args:[] Shim:<nil>] DefaultRuntime:runc Swarm:NodeID: NodeAddr: LocalNodeState:inactive ControlAvailable:false Error: RemoteManagers:[] Nodes:0 Managers:0 Cluster:<nil> Warnings:[] LiveRestoreEnabled:false Isolation: InitBinary:docker-init ContainerdCommit:ID:5b46e404f6b9f661a205e28d59c982d3634148f8 Expected:5b46e404f6b9f661a205e28d59c982d3634148f8 RuncCommit:ID:v1.0.2-0-g52b36a2 Expected:v1.0.2-0-g52b36a2 InitCommit:ID:de40ad0 Expected:de40ad0 SecurityOptions:[name=seccomp,profile=default] ProductLicense: DefaultAddressPools:[]
125 21:53:56 vms81.liruilongs.github.io kubelet[1014]: E0125 21:53:56.293100    1014 controller.go:144] failed to ensure lease exists, will retry in 200ms, error: Get "https://192.168.26.81:6443/apis/coordination.k8s.io/v1/namespaces/kube-node-lease/leases/vms81.liruilongs.github.io?timeout=10s": dial tcp 192.168.26.81:6443: connect: connection refused
┌──[root@vms81.liruilongs.github.io]-[~]
└─$

如果不使用systemd系统接管Kubernetes服务的标准输出,则也可以通过日志相关的启动参数来指定日志的存放目录。当然,这里的相关启动参数的配置信息需要通过查看pod文件来查看

查看kube-controller-manager的启动参数和认证相关的配置文件

┌──[root@vms81.liruilongs.github.io]-[~]
└─$kubectl describe  pod kube-controller-manager-vms81.liruilongs.github.io -n kube-system | grep -i -A 20  command
    Command:
      kube-controller-manager
      --allocate-node-cidrs=true
      --authentication-kubeconfig=/etc/kubernetes/controller-manager.conf
      --authorization-kubeconfig=/etc/kubernetes/controller-manager.conf
      --bind-address=127.0.0.1
      --client-ca-file=/etc/kubernetes/pki/ca.crt
      --cluster-cidr=10.244.0.0/16
      --cluster-name=kubernetes
      --cluster-signing-cert-file=/etc/kubernetes/pki/ca.crt
      --cluster-signing-key-file=/etc/kubernetes/pki/ca.key
      --controllers=*,bootstrapsigner,tokencleaner
      --kubeconfig=/etc/kubernetes/controller-manager.conf
      --leader-elect=true
      --port=0
      --requestheader-client-ca-file=/etc/kubernetes/pki/front-proxy-ca.crt
      --root-ca-file=/etc/kubernetes/pki/ca.crt
      --service-account-private-key-file=/etc/kubernetes/pki/sa.key
      --service-cluster-ip-range=10.96.0.0/12
      --use-service-account-credentials=true
    State:          Running
┌──[root@vms81.liruilongs.github.io]-[~]
└─$kubectl describe  pod kube-controller-manager-vms81.liruilongs.github.io -n kube-system | grep  kubeconfig
      --authentication-kubeconfig=/etc/kubernetes/controller-manager.conf
      --authorization-kubeconfig=/etc/kubernetes/controller-manager.conf
      --kubeconfig=/etc/kubernetes/controller-manager.conf
      /etc/kubernetes/controller-manager.conf from kubeconfig (ro)
  kubeconfig:
┌──[root@vms81.liruilongs.github.io]-[~]
└─$kubectl describe  pod kube-controller-manager-vms81.liruilongs.github.io -n kube-system | grep -i -A 20  Volumes
Volumes:
  ca-certs:
    Type:          HostPath (bare host directory volume)
    Path:          /etc/ssl/certs
    HostPathType:  DirectoryOrCreate
  etc-pki:
    Type:          HostPath (bare host directory volume)
    Path:          /etc/pki
    HostPathType:  DirectoryOrCreate
  flexvolume-dir:
    Type:          HostPath (bare host directory volume)
    Path:          /usr/libexec/kubernetes/kubelet-plugins/volume/exec
    HostPathType:  DirectoryOrCreate
  k8s-certs:
    Type:          HostPath (bare host directory volume)
    Path:          /etc/kubernetes/pki
    HostPathType:  DirectoryOrCreate
  kubeconfig:
    Type:          HostPath (bare host directory volume)
    Path:          /etc/kubernetes/controller-manager.conf
    HostPathType:  FileOrCreate
┌──[root@vms81.liruilongs.github.io]-[~]
└─$

Pod资源对象相关的问题,比如无法创建Pod, Pod启动后就停止或者Pod副本无法增加,等等。此时,可以先确定Pod在哪个节点上,然后登录这个节点,从kubelet的日志中查询该Pod的完整日志,然后进行问题排查。

对于与Pod扩容相关或者与RC相关的问题,则很可能在kube-controller-managerkube-scheduler的日志中找出问题的关键点。

┌──[root@vms81.liruilongs.github.io]-[~]
└─$kubectl logs  kube-scheduler-vms81.liruilongs.github.io
┌──[root@vms81.liruilongs.github.io]-[~]
└─$kubectl logs  kube-controller-manager-vms81.liruilongs.github.io

kube-proxy经常被我们忽视,因为即使它意外停止, Pod的状态也是正常的,但会导致某些服务访问异常。这些错误通常与每个节点上的kube-proxy服务有着密切的关系。遇到这些问题时,首先要排查kube-proxy服务的日志,同时排查防火墙服务,要特别留意在防火墙中是否有人为添加的可疑规则。

┌──[root@vms81.liruilongs.github.io]-[~]
└─$kubectl logs kube-proxy-tbwz5

常见问题

由于无法下载pause镜像导致Pod一直处于Pending状态

Pod创建成功,但RESTARTS数量持续增加:容器的启动命令不能保持在前台运行。

通过服务名无法访问服务

Kubernetes集群中应尽量使用服务名访问正在运行的微服务,但有时会访问失败。由于服务涉及服务名的DNS域名解析kube-proxy组件的负载分发后端Pod列表的状态等,所以可通过以下几方面排查问题。

1.查看Service后端Endpoint是否正常

可以通过kubectl get endpoints <service name>命令查看某个服务的后端Endpoint列表,如果列表为空,则可能因为:

┌──[root@vms81.liruilongs.github.io]-[~]
└─$kubectl get svc
NAME                                TYPE        CLUSTER-IP       EXTERNAL-IP   PORT(S)                        AGE
kube-dns                            ClusterIP   10.96.0.10       <none>        53/UDP,53/TCP,9153/TCP         50d
liruilong-kube-prometheus-kubelet   ClusterIP   None             <none>        10250/TCP,10255/TCP,4194/TCP   16d
metrics-server                      ClusterIP   10.111.104.173   <none>        443/TCP                        50d
┌──[root@vms81.liruilongs.github.io]-[~]
└─$kubectl get endpoints
NAME                                ENDPOINTS                                                                 AGE
kube-dns                            10.244.88.66:53,10.244.88.67:53,10.244.88.66:53 + 3 more...               50d
liruilong-kube-prometheus-kubelet   192.168.26.81:10250,192.168.26.82:10250,192.168.26.83:10250 + 6 more...   16d
metrics-server                      <none>                                                                    50d
┌──[root@vms81.liruilongs.github.io]-[~]
└─$
  • ServiceLabel SelectorPod的Label不匹配,沒有相关的pod可以提供能力
  • 后端Pod一直没有达到Ready状态(通过kubectl get pods进一步查看Pod的状态)
  • Service的targetPort端口号与Pod的containerPort不一致等。即容器暴露的端口不是SVC暴露的端口,需要使用targetPort来转发

2·查看Service的名称能否被正确解析为ClusterIP地址

可以通过在客户端容器中ping ..svc进行检查,如果能够得到ServiceClusterlP地址,则说明DNS服务能够正确解析Service的名称;如果不能得到ServiceClusterlP地址,则可能是因为Kubernetes集群DNS服务工作异常

3·查看kube-proxy转发规则是否正确

我们可以将kube-proxy服务设置为IPVS或iptables负载分发模式

  • 对于IPVS负载分发模式,可以通过ipvsadm工具查看Node上的IPVS规则,查看是否正确设置Service ClusterlP的相关规则。

  • 对于iptables负载分发模式,可以通过查看Node上的iptables规则,查看是否正确设置Service ClusterlP的相关规则。

寻求帮助

网站和社区
Kubernetes官网中监控、记录和调试相关问题: https://kubernetes.io/docs/tasks/debug-application-cluster/
Kubernetes官方论坛: https://discuss.kubernetes.io/(这个需要科学上网)
GitHub库关于Kubernetes问题列表:https://github.com/kubernetes/kubernetes/issues
StackOverflow网站上关于Kubernetes的问题讨论:https://stackoverflow.com/questions/tagged/kubernetes
Kubernetes Slack聊天群组: https://kubernetes.slack.com/(需要谷歌账号)

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