comparison

2021-03-28 23:32:05 -06:00 · 2021-03-28 23:32:05 -06:00 · 07c29826ad
parent e61ec35755
commit 07c29826ad
1 changed files with 69 additions and 27 deletions
--- a/96
+++ b/96
@ -1,29 +1,71 @@
-Recommended content:
+Hello, Adolfo from Portainer here
 From a single server MVP to scale – easy with Portainer
 We assume you already have you web-app running within a container
 Select your orchestration (what is best practice, what are reasons, what are limits ???)
- Kubernetes
+We have prepared a set of comparison videos of Portainer vs 4 different Kubernetes management tools:
 - Docker Swarm
-10-100 server : Docker Swarm
+Kubernetes Dashboard
-50-200 server: microk8s (easy as docker swarm, but prepare for further growth ???)
+Lens
-100-100.000: kubernetes
+CrossPlane
-Setup infrastructure (swarm or microk8s)
+Rancher UI
-Launch servers (virtual or bare metal)
+
-Create master
+
-Join further nodes
+the idea is to basically show the steps required to deploy an application on each of the tools vs Portainer and I am going to use a basic implementation of the redis database.
-Launch Portainer
+
-…
+
-Launch reverse proxy via Portainer
+
-The reverse proxy will automatically load balance all incoming requests to the web-app containers
+Here I start with Portainer vs Kubernetes Dashboard with a redis server deployment. In both cases I use microk8s and the process starts with the search for the proper container image in both cases.
-The proxy will hot reload when containers change, not interrupt ongoing and long-running requests (?)
+
-The proxy can automatically forward to services based on sub-domains and/or paths via labels (?)
+In Portainer I used the Applications menu option and deployed redis with ,
-Launch services (web-app and others)
+
-Launch you services with Portainer, set labels for sub-domain and/or path
+
-Example: www (wordpress), api (nodejs) (?)
+bitnami/redis
-Database: only one instance per server on dedicated servers
+
-Scale up
+
-Check metrics
+
-Easily scale services up and down, add more servers
+
-7. b. Manage credentials, pass them to the web-app so it can connect to the database.
+apiVersion: v1
 kind: ConfigMap
 metadata:
  name: example-redis-config
 data:
  redis-config: ""
  apiVersion: v1
  kind: Pod
  metadata:
    name: redis
  spec:
    containers:
    - name: redis
      image: redis:5.0.4
      command:
        - redis-server
        - "/redis-master/redis.conf"
      env:
      - name: MASTER
        value: "true"
      ports:
      - containerPort: 6379
      resources:
        limits:
          cpu: "0.1"
      volumeMounts:
      - mountPath: /redis-master-data
        name: data
      - mountPath: /redis-master
        name: config
    volumes:
      - name: data
        emptyDir: {}
      - name: config
        configMap:
          name: example-redis-config
          items:
          - key: redis-config
            path: redis.conf
 token=$(microk8s kubectl -n kube-system get secret | grep default-token | cut -d " " -f1)
 microk8s kubectl -n kube-system describe secret $token
 kubectl create clusterrolebinding --user system:serviceaccount:kube-system:default kube-system-cluster-admin --clusterrole cluster-admin