fix-redirects.sh: adding forced redirect

testing changes for 90min

slides/_redirects

@@ -0,0 +1,2 @@
+/ /kube-90min.yml.html 200!
+

slides/common/prereqs.md

@@ -1,46 +1,4 @@
-# Pre-requirements
-
-- Be comfortable with the UNIX command line
-
-  - navigating directories
-
-  - editing files
-
-  - a little bit of bash-fu (environment variables, loops)
-
-- Some Docker knowledge
-
-  - `docker run`, `docker ps`, `docker build`
-
-  - ideally, you know how to write a Dockerfile and build it
-    <br/>
-    (even if it's a `FROM` line and a couple of `RUN` commands)
-
-- It's totally OK if you are not a Docker expert!
-
----
-
-class: title
-
-*Tell me and I forget.*
-<br/>
-*Teach me and I remember.*
-<br/>
-*Involve me and I learn.*
-
-Misattributed to Benjamin Franklin
-
-[(Probably inspired by Chinese Confucian philosopher Xunzi)](https://www.barrypopik.com/index.php/new_york_city/entry/tell_me_and_i_forget_teach_me_and_i_may_remember_involve_me_and_i_will_lear/)
-
----
-
-## Hands-on sections
-
-- The whole workshop is hands-on
-
-- We are going to build, ship, and run containers!
-
-- You are invited to reproduce all the demos
+## Hands-on
 
 - All hands-on sections are clearly identified, like the gray rectangle below
 
@@ -50,53 +8,10 @@ Misattributed to Benjamin Franklin
 
 - Go to @@SLIDES@@ to view these slides
 
-- Join the chat room: @@CHAT@@
-
-<!-- ```open @@SLIDES@@``` -->
-
 ]
 
----
-
-class: in-person
-
-## Where are we going to run our containers?
-
----
-
-class: in-person, pic
-
-![You get a cluster](images/you-get-a-cluster.jpg)
-
----
-
-class: in-person
-
-## You get a cluster of cloud VMs
-
 - Each person gets a private cluster of cloud VMs (not shared with anybody else)
 
-- They'll remain up for the duration of the workshop
-
-- You should have a little card with login+password+IP addresses
-
-- You can automatically SSH from one VM to another
-
-- The nodes have aliases: `node1`, `node2`, etc.
-
----
-
-class: in-person
-
-## Why don't we run containers locally?
-
-- Installing that stuff can be hard on some machines
-
-  (32 bits CPU or OS... Laptops without administrator access... etc.)
-
-- *"The whole team downloaded all these container images from the WiFi!
-  <br/>... and it went great!"* (Literally no-one ever)
-
 - All you need is a computer (or even a phone or tablet!), with:
 
   - an internet connection
@@ -109,201 +24,18 @@ class: in-person
 
 class: in-person
 
-## SSH clients
-
-- On Linux, OS X, FreeBSD... you are probably all set
-
-- On Windows, get one of these:
-
-  - [putty](http://www.putty.org/)
-  - Microsoft [Win32 OpenSSH](https://github.com/PowerShell/Win32-OpenSSH/wiki/Install-Win32-OpenSSH)
-  - [Git BASH](https://git-for-windows.github.io/)
-  - [MobaXterm](http://mobaxterm.mobatek.net/)
-
-- On Android, [JuiceSSH](https://juicessh.com/)
-  ([Play Store](https://play.google.com/store/apps/details?id=com.sonelli.juicessh))
-  works pretty well
-
-- Nice-to-have: [Mosh](https://mosh.org/) instead of SSH, if your internet connection tends to lose packets
-
----
-
-class: in-person, extra-details
-
-## What is this Mosh thing?
-
-*You don't have to use Mosh or even know about it to follow along.
-<br/>
-We're just telling you about it because some of us think it's cool!*
-
-- Mosh is "the mobile shell"
-
-- It is essentially SSH over UDP, with roaming features
-
-- It retransmits packets quickly, so it works great even on lossy connections
-
-  (Like hotel or conference WiFi)
-
-- It has intelligent local echo, so it works great even in high-latency connections
-
-  (Like hotel or conference WiFi)
-
-- It supports transparent roaming when your client IP address changes
-
-  (Like when you hop from hotel to conference WiFi)
-
----
-
-class: in-person, extra-details
-
-## Using Mosh
-
-- To install it: `(apt|yum|brew) install mosh`
-
-- It has been pre-installed on the VMs that we are using
-
-- To connect to a remote machine: `mosh user@host`
-
-  (It is going to establish an SSH connection, then hand off to UDP)
-
-- It requires UDP ports to be open
-
-  (By default, it uses a UDP port between 60000 and 61000)
-
----
-
-class: in-person
-
 ## Connecting to our lab environment
 
 .exercise[
 
 - Log into the first VM (`node1`) with your SSH client
 
-<!--
-```bash
-for N in $(awk '/\Wnode/{print $2}' /etc/hosts); do
-  ssh -o StrictHostKeyChecking=no $N true
-done
-```
-
-```bash
-if which kubectl; then
-  kubectl get all -o name | grep -v service/kubernetes | xargs -rn1 kubectl delete
-fi
-```
--->
-
 - Check that you can SSH (without password) to `node2`:
   ```bash
   ssh node2
   ```
 - Type `exit` or `^D` to come back to `node1`
 
-<!-- ```bash exit``` -->
-
 ]
 
 If anything goes wrong — ask for help!
-
----
-
-## Doing or re-doing the workshop on your own?
-
-- Use something like
-  [Play-With-Docker](http://play-with-docker.com/) or
-  [Play-With-Kubernetes](https://medium.com/@marcosnils/introducing-pwk-play-with-k8s-159fcfeb787b)
-
-  Zero setup effort; but environment are short-lived and
-  might have limited resources
-
-- Create your own cluster (local or cloud VMs)
-
-  Small setup effort; small cost; flexible environments
-
-- Create a bunch of clusters for you and your friends
-    ([instructions](https://@@GITREPO@@/tree/master/prepare-vms))
-
-  Bigger setup effort; ideal for group training
-
----
-
-class: self-paced
-
-## Get your own Docker nodes
-
-- If you already have some Docker nodes: great!
-
-- If not: let's get some thanks to Play-With-Docker
-
-.exercise[
-
-- Go to http://www.play-with-docker.com/
-
-- Log in
-
-- Create your first node
-
-<!-- ```open http://www.play-with-docker.com/``` -->
-
-]
-
-You will need a Docker ID to use Play-With-Docker.
-
-(Creating a Docker ID is free.)
-
----
-
-## We will (mostly) interact with node1 only
-
-*These remarks apply only when using multiple nodes, of course.*
-
-- Unless instructed, **all commands must be run from the first VM, `node1`**
-
-- We will only checkout/copy the code on `node1`
-
-- During normal operations, we do not need access to the other nodes
-
-- If we had to troubleshoot issues, we would use a combination of:
-
-  - SSH (to access system logs, daemon status...)
-  
-  - Docker API (to check running containers and container engine status)
-
----
-
-## Terminals
-
-Once in a while, the instructions will say:
-<br/>"Open a new terminal."
-
-There are multiple ways to do this:
-
-- create a new window or tab on your machine, and SSH into the VM;
-
-- use screen or tmux on the VM and open a new window from there.
-
-You are welcome to use the method that you feel the most comfortable with.
-
----
-
-## Tmux cheatsheet
-
-[Tmux](https://en.wikipedia.org/wiki/Tmux) is a terminal multiplexer like `screen`.
-
-*You don't have to use it or even know about it to follow along.
-<br/>
-But some of us like to use it to switch between terminals.
-<br/>
-It has been preinstalled on your workshop nodes.*
-
-- Ctrl-b c → creates a new window
-- Ctrl-b n → go to next window
-- Ctrl-b p → go to previous window
-- Ctrl-b " → split window top/bottom
-- Ctrl-b % → split window left/right
-- Ctrl-b Alt-1 → rearrange windows in columns
-- Ctrl-b Alt-2 → rearrange windows in rows
-- Ctrl-b arrows → navigate to other windows
-- Ctrl-b d → detach session
-- tmux attach → reattach to session

slides/common/sampleapp.md

@@ -94,61 +94,6 @@ class: extra-details
 
 ---
 
-## Service discovery in container-land
-
-- We do not hard-code IP addresses in the code
-
-- We do not hard-code FQDN in the code, either
-
-- We just connect to a service name, and container-magic does the rest
-
-  (And by container-magic, we mean "a crafty, dynamic, embedded DNS server")
-
----
-
-## Example in `worker/worker.py`
-
-```python
-redis = Redis("`redis`")
-
-
-def get_random_bytes():
-    r = requests.get("http://`rng`/32")
-    return r.content
-
-
-def hash_bytes(data):
-    r = requests.post("http://`hasher`/",
-                      data=data,
-                      headers={"Content-Type": "application/octet-stream"})
-```
-
-(Full source code available [here](
-https://@@GITREPO@@/blob/8279a3bce9398f7c1a53bdd95187c53eda4e6435/dockercoins/worker/worker.py#L17
-))
-
----
-
-class: extra-details
-
-## Links, naming, and service discovery
-
-- Containers can have network aliases (resolvable through DNS)
-
-- Compose file version 2+ makes each container reachable through its service name
-
-- Compose file version 1 did require "links" sections
-
-- Network aliases are automatically namespaced
-
-  - you can have multiple apps declaring and using a service named `database`
-
-  - containers in the blue app will resolve `database` to the IP of the blue database
-
-  - containers in the green app will resolve `database` to the IP of the green database
-
----
-
 ## What's this application?
 
 --

slides/kube-90min.yml

@@ -0,0 +1,52 @@
+title: |
+  Kubernetes 101
+
+#chat: "[Slack](https://dockercommunity.slack.com/messages/C7GKACWDV)"
+#chat: "[Gitter](https://gitter.im/jpetazzo/training-20180413-paris)"
+chat: "In person!"
+
+gitrepo: github.com/jpetazzo/container.training
+
+slides: http://container.training/
+
+exclude:
+- self-paced
+- extra-details
+
+chapters:
+- common/title.md
+- logistics.md
+#- kube/intro.md
+- common/about-slides.md
+- common/toc.md
+- - common/prereqs.md
+  - kube/versions-k8s.md
+  - common/sampleapp.md
+# Bridget doesn't go into as much depth with compose
+  #- common/composescale.md
+  - common/composedown.md
+  - kube/concepts-k8s.md
+#  - common/declarative.md
+  - kube/declarative.md
+#  - kube/kubenet.md
+  - kube/kubectlget.md
+  - kube/setup-k8s.md
+- - kube/kubectlrun.md
+  - kube/kubectlexpose.md
+  - kube/ourapponkube.md
+  #- kube/kubectlproxy.md
+- - kube/dashboard.md
+  - kube/kubectlscale.md
+  - kube/daemonset.md
+  - kube/rollout.md
+# Stern is interesting but can be skipped
+#- - kube/logs-cli.md
+# Bridget hasn't added EFK yet
+  #- kube/logs-centralized.md
+  - kube/helm.md
+  - kube/namespaces.md
+  - kube/whatsnext.md
+  - kube/links.md
+# Bridget-specific
+#  - kube/links-bridget.md
+  - common/thankyou.md

slides/kube-halfday.yml

@@ -14,9 +14,7 @@ exclude:
 
 chapters:
 - common/title.md
-#- logistics.md
-# Bridget-specific; others use logistics.md
-- logistics-bridget.md
+- logistics.md
 - kube/intro.md
 - common/about-slides.md
 - common/toc.md

slides/kube/concepts-k8s.md

@@ -171,11 +171,7 @@ class: pic
 
 ---
 
-## Do we need to run Docker at all?
-
-No!
-
---
+## Default container runtime
 
 - By default, Kubernetes uses the Docker Engine to run containers
 
@@ -185,42 +181,6 @@ No!
 
   (like CRI-O, or containerd)
 
----
-
-## Do we need to run Docker at all?
-
-Yes!
-
---
-
-- In this workshop, we run our app on a single node first
-
-- We will need to build images and ship them around
-
-- We can do these things without Docker
-  <br/>
-  (and get diagnosed with NIH¹ syndrome)
-
-- Docker is still the most stable container engine today
-  <br/>
-  (but other options are maturing very quickly)
-
-.footnote[¹[Not Invented Here](https://en.wikipedia.org/wiki/Not_invented_here)]
-
----
-
-## Do we need to run Docker at all?
-
-- On our development environments, CI pipelines ... :
-
-  *Yes, almost certainly*
-
-- On our production servers:
-
-  *Yes (today)*
-
-  *Probably not (in the future)*
-
 .footnote[More information about CRI [on the Kubernetes blog](https://kubernetes.io/blog/2016/12/container-runtime-interface-cri-in-kubernetes)]
 
 ---
@@ -235,6 +195,7 @@ Yes!
 
   - node (a machine — physical or virtual — in our cluster)
   - pod (group of containers running together on a node)
+    - IP addresses are associated with *pods*, not with individual containers
   - service (stable network endpoint to connect to one or multiple containers)
   - namespace (more-or-less isolated group of things)
   - secret (bundle of sensitive data to be passed to a container)
@@ -246,25 +207,3 @@ Yes!
 class: pic
 
 ![Node, pod, container](images/k8s-arch3-thanks-weave.png)
-
----
-
-class: pic
-
-![One of the best Kubernetes architecture diagrams available](images/k8s-arch4-thanks-luxas.png)
-
----
-
-## Credits
-
-- The first diagram is courtesy of Weave Works
-
-  - a *pod* can have multiple containers working together
-
-  - IP addresses are associated with *pods*, not with individual containers
-
-- The second diagram is courtesy of Lucas Käldström, in [this presentation](https://speakerdeck.com/luxas/kubeadm-cluster-creation-internals-from-self-hosting-to-upgradability-and-ha)
-
-  - it's one of the best Kubernetes architecture diagrams available!
-
-Both diagrams used with permission.

slides/kube/daemonset.md

@@ -212,34 +212,6 @@ daemonset.apps/rng  2        2        2      2           2          <none>
 
 ---
 
-## Too many pods
-
-- If we check with `kubectl get pods`, we see:
-
-  - *one pod* for the deployment (named `rng-xxxxxxxxxx-yyyyy`)
-
-  - *one pod per node* for the daemon set (named `rng-zzzzz`)
-
-  ```
-  NAME                        READY     STATUS    RESTARTS   AGE
-  rng-54f57d4d49-7pt82        1/1       Running   0          11m
-  rng-b85tm                   1/1       Running   0          25s
-  rng-hfbrr                   1/1       Running   0          25s
-  [...]
-  ```
-
---
-
-The daemon set created one pod per node, except on the master node.
-
-The master node has [taints](https://kubernetes.io/docs/concepts/configuration/taint-and-toleration/) preventing pods from running there.
-
-(To schedule a pod on this node anyway, the pod will require appropriate [tolerations](https://kubernetes.io/docs/concepts/configuration/taint-and-toleration/).)
-
-.footnote[(Off by one? We don't run these pods on the node hosting the control plane.)]
-
----
-
 ## What are all these pods doing?
 
 - Let's check the logs of all these `rng` pods
@@ -344,162 +316,6 @@ The replica set selector also has a `pod-template-hash`, unlike the pods in our
 
 ---
 
-# Updating a service through labels and selectors
-
-- What if we want to drop the `rng` deployment from the load balancer?
-
-- Option 1: 
-
-  - destroy it
-
-- Option 2: 
-
-  - add an extra *label* to the daemon set
-
-  - update the service *selector* to refer to that *label*
-
---
-
-Of course, option 2 offers more learning opportunities. Right?
-
----
-
-## Add an extra label to the daemon set
-
-- We will update the daemon set "spec"
-
-- Option 1:
-
-  - edit the `rng.yml` file that we used earlier
-
-  - load the new definition with `kubectl apply`
-
-- Option 2: 
-
-  - use `kubectl edit`
-
---
-
-*If you feel like you got this💕🌈, feel free to try directly.*
-
-*We've included a few hints on the next slides for your convenience!*
-
----
-
-## We've put resources in your resources
-
-- Reminder: a daemon set is a resource that creates more resources!
-
-- There is a difference between:
-
-  - the label(s) of a resource (in the `metadata` block in the beginning)
-
-  - the selector of a resource (in the `spec` block)
-
-  - the label(s) of the resource(s) created by the first resource (in the `template` block)
-
-- You need to update the selector and the template (metadata labels are not mandatory)
-
-- The template must match the selector
-
-  (i.e. the resource will refuse to create resources that it will not select)
-
----
-
-## Adding our label
-
-- Let's add a label `isactive: yes`
-
-- In YAML, `yes` should be quoted; i.e. `isactive: "yes"`
-
-.exercise[
-
-- Update the daemon set to add `isactive: "yes"` to the selector and template label:
-  ```bash
-  kubectl edit daemonset rng
-  ```
-
-- Update the service to add `isactive: "yes"` to its selector:
-  ```bash
-  kubectl edit service rng
-  ```
-
-]
-
----
-
-## Checking what we've done
-
-.exercise[
-
-- Check the most recent log line of all `run=rng` pods to confirm that exactly one per node is now active:
-  ```bash
-  kubectl logs -l run=rng --tail 1
-  ```
-
-]
-
-The timestamps should give us a hint about how many pods are currently receiving traffic.
-
-.exercise[
-
-- Look at the pods that we have right now:
-  ```bash
-  kubectl get pods
-  ```
-
-]
-
----
-
-## Cleaning up
-
-- The pods of the deployment and the "old" daemon set are still running
-
-- We are going to identify them programmatically
-
-.exercise[
-
-- List the pods with `run=rng` but without `isactive=yes`:
-  ```bash
-  kubectl get pods -l run=rng,isactive!=yes
-  ```
-
-- Remove these pods:
-  ```bash
-  kubectl delete pods -l run=rng,isactive!=yes
-  ```
-
-]
-
----
-
-## Cleaning up stale pods
-
-```
-$ kubectl get pods
-NAME                        READY     STATUS        RESTARTS   AGE
-rng-54f57d4d49-7pt82        1/1       Terminating   0          51m
-rng-54f57d4d49-vgz9h        1/1       Running       0          22s
-rng-b85tm                   1/1       Terminating   0          39m
-rng-hfbrr                   1/1       Terminating   0          39m
-rng-vplmj                   1/1       Running       0          7m
-rng-xbpvg                   1/1       Running       0          7m
-[...]
-```
-
-- The extra pods (noted `Terminating` above) are going away
-
-- ... But a new one (`rng-54f57d4d49-vgz9h` above) was restarted immediately!
-
---
-
-- Remember, the *deployment* still exists, and makes sure that one pod is up and running
-
-- If we delete the pod associated to the deployment, it is recreated automatically
-
----
-
 ## Deleting a deployment
 
 .exercise[
@@ -524,63 +340,3 @@ rng-xbpvg                   1/1       Running       0          11m
 ```
 
 Ding, dong, the deployment is dead! And the daemon set lives on.
-
----
-
-## Avoiding extra pods
-
-- When we changed the definition of the daemon set, it immediately created new pods. We had to remove the old ones manually.
-
-- How could we have avoided this?
-
---
-
-- By adding the `isactive: "yes"` label to the pods before changing the daemon set!
-
-- This can be done programmatically with `kubectl patch`:
-
-  ```bash
-    PATCH='
-    metadata:
-      labels:
-        isactive: "yes"
-    '
-    kubectl get pods -l run=rng -l controller-revision-hash -o name |
-      xargs kubectl patch -p "$PATCH" 
-  ```
-
----
-
-## Labels and debugging
-
-- When a pod is misbehaving, we can delete it: another one will be recreated
-
-- But we can also change its labels
-
-- It will be removed from the load balancer (it won't receive traffic anymore)
-
-- Another pod will be recreated immediately
-
-- But the problematic pod is still here, and we can inspect and debug it
-
-- We can even re-add it to the rotation if necessary
-
-  (Very useful to troubleshoot intermittent and elusive bugs)
-
----
-
-## Labels and advanced rollout control
-
-- Conversely, we can add pods matching a service's selector
-
-- These pods will then receive requests and serve traffic
-
-- Examples:
-
-  - one-shot pod with all debug flags enabled, to collect logs
-
-  - pods created automatically, but added to rotation in a second step
-    <br/>
-    (by setting their label accordingly)
-
-- This gives us building blocks for canary and blue/green deployments

slides/kube/dashboard.md

@@ -10,9 +10,6 @@
 
   3) bypass authentication for the dashboard
 
---
-
-There is an additional step to make the dashboard available from outside (we'll get to that)
 
 --
 
@@ -148,58 +145,6 @@ The dashboard will then ask you which authentication you want to use.
 
 ---
 
-## Exposing the dashboard over HTTPS
-
-- We took a shortcut by forwarding HTTP to HTTPS inside the cluster
-
-- Let's expose the dashboard over HTTPS!
-
-- The dashboard is exposed through a `ClusterIP` service (internal traffic only)
-
-- We will change that into a `NodePort` service (accepting outside traffic)
-
-.exercise[
-
-- Edit the service:
-  ```bash
-  kubectl edit service kubernetes-dashboard
-  ```
-
-]
-
---
-
-`NotFound`?!? Y U NO WORK?!?
-
----
-
-## Editing the `kubernetes-dashboard` service
-
-- If we look at the [YAML](https://goo.gl/Qamqab) that we loaded before, we'll get a hint
-
---
-
-- The dashboard was created in the `kube-system` namespace
-
---
-
-.exercise[
-
-- Edit the service:
-  ```bash
-  kubectl -n kube-system edit service kubernetes-dashboard
-  ```
-
-- Change `ClusterIP` to `NodePort`, save, and exit
-
-- Check the port that was assigned with `kubectl -n kube-system get services`
-
-- Connect to https://oneofournodes:3xxxx/ (yes, https)
-
-]
-
----
-
 ## Running the Kubernetes dashboard securely
 
 - The steps that we just showed you are *for educational purposes only!*

slides/kube/kubectlget.md

@@ -1,3 +1,5 @@
+class: extra-details
+
 # First contact with `kubectl`
 
 - `kubectl` is (almost) the only tool we'll need to talk to Kubernetes
@@ -79,6 +81,8 @@
 
 ---
 
+class: extra-details
+
 ## What's available?
 
 - `kubectl` has pretty good introspection facilities

slides/kube/kubectlrun.md

@@ -81,6 +81,8 @@ Note: as of 1.10.1, resource types are displayed in more detail.
 
 ---
 
+class: extra-details
+
 ## Our `pingpong` deployment
 
 - `kubectl run` created a *deployment*, `deployment.apps/pingpong`
@@ -133,6 +135,8 @@ pod/pingpong-7c8bbcd9bc-6c9qz   1/1       Running   0          10m
 
 ---
 
+class: extra-details
+
 ## Streaming logs in real time
 
 - Just like `docker logs`, `kubectl logs` supports convenient options:
@@ -223,6 +227,8 @@ We could! But the *deployment* would notice it right away, and scale back to the
 
 ---
 
+clas: extra-details
+
 ## Viewing logs of multiple pods
 
 - When we specify a deployment name, only one single pod's logs are shown
@@ -246,6 +252,8 @@ Unfortunately, `--follow` cannot (yet) be used to stream the logs from multiple
 
 ---
 
+class: extra-details
+
 ## Aren't we flooding 1.1.1.1?
 
 - If you're wondering this, good question!

slides/kube/links.md

@@ -1,19 +1,10 @@
 # Links and resources
 
-All things Kubernetes:
-
 - [Kubernetes Community](https://kubernetes.io/community/) - Slack, Google Groups, meetups
-- [Kubernetes on StackOverflow](https://stackoverflow.com/questions/tagged/kubernetes)
-- [Play With Kubernetes Hands-On Labs](https://medium.com/@marcosnils/introducing-pwk-play-with-k8s-159fcfeb787b)
 
-All things Docker:
+- [Azure Kubernetes Service](https://docs.microsoft.com/azure/aks/)
 
-- [Docker documentation](http://docs.docker.com/)
-- [Docker Hub](https://hub.docker.com)
-- [Docker on StackOverflow](https://stackoverflow.com/questions/tagged/docker)
-- [Play With Docker Hands-On Labs](http://training.play-with-docker.com/)
-
-Everything else:
+- [Cloud Developer Advocates](https://developer.microsoft.com/advocates/)
 
 - [Local meetups](https://www.meetup.com/)
 

slides/kube/ourapponkube.md

@@ -4,6 +4,8 @@ Our app on Kube
 
 ---
 
+class: extra-details
+
 ## What's on the menu?
 
 In this part, we will:
@@ -130,6 +132,8 @@ We should see:
 
 ---
 
+class: extra-details
+
 ## Testing our local registry
 
 - We can retag a small image, and push it to the registry
@@ -151,6 +155,8 @@ We should see:
 
 ---
 
+class: extra-details
+
 ## Checking again what's on our local registry
 
 - Let's use the same endpoint as before

slides/kube/rollout.md

@@ -192,7 +192,6 @@ class: extra-details
 
 ## Checking the dashboard during the bad rollout
 
-If you haven't deployed the Kubernetes dashboard earlier, just skip this slide.
 
 .exercise[
 

slides/kube/setup-k8s.md

@@ -24,23 +24,6 @@
 
 ---
 
-## `kubeadm` drawbacks
-
-- Doesn't set up Docker or any other container engine
-
-- Doesn't set up the overlay network
-
-- Doesn't set up multi-master (no high availability)
-
---
-
-  (At least ... not yet!)
-
---
-
-- "It's still twice as many steps as setting up a Swarm cluster 😕" -- Jérôme
-
----
 
 ## Other deployment options
 

slides/kube/whatsnext.md

@@ -1,45 +1,3 @@
-# Next steps
-
-*Alright, how do I get started and containerize my apps?*
-
---
-
-Suggested containerization checklist:
-
-.checklist[
-- write a Dockerfile for one service in one app
-- write Dockerfiles for the other (buildable) services
-- write a Compose file for that whole app
-- make sure that devs are empowered to run the app in containers
-- set up automated builds of container images from the code repo
-- set up a CI pipeline using these container images
-- set up a CD pipeline (for staging/QA) using these images
-]
-
-And *then* it is time to look at orchestration!
-
----
-
-## Namespaces
-
-- Namespaces let you run multiple identical stacks side by side
-
-- Two namespaces (e.g. `blue` and `green`) can each have their own `redis` service
-
-- Each of the two `redis` services has its own `ClusterIP`
-
-- `kube-dns` creates two entries, mapping to these two `ClusterIP` addresses:
-
-  `redis.blue.svc.cluster.local` and `redis.green.svc.cluster.local`
-
-- Pods in the `blue` namespace get a *search suffix* of `blue.svc.cluster.local`
-
-- As a result, resolving `redis` from a pod in the `blue` namespace yields the "local" `redis`
-
-.warning[This does not provide *isolation*! That would be the job of network policies.]
-
----
-
 ## Stateful services (databases etc.)
 
 - As a first step, it is wiser to keep stateful services *outside* of the cluster
@@ -172,17 +130,3 @@ Sorry Star Trek fans, this is not the federation you're looking for!
 - Synchronize resources across clusters
 
 - Discover resources across clusters
-
----
-
-## Developer experience
-
-*I've put this last, but it's pretty important!*
-
-- How do you on-board a new developer?
-
-- What do they need to install to get a dev stack?
-
-- How does a code change make it from dev to prod?
-
-- How does someone add a component to a stack?

slides/logistics.md

@@ -1,31 +1,14 @@
 ## Intros
 
-- This slide should be customized by the tutorial instructor(s).
+ - Hello! We are:
 
-- Hello! We are:
+   - .emoji[✨] Ashley ([@ashleymcnamara](https://twitter.com/ashleymcnamara))
 
-   - .emoji[👩🏻‍🏫] Ann O'Nymous ([@...](https://twitter.com/...), Megacorp Inc)
+   - .emoji[🌟] Brian ([@bketelsen](https://twitter.com/bketelsen))
 
-   - .emoji[👨🏾‍🎓] Stu Dent ([@...](https://twitter.com/...), University of Wakanda)
-
- <!-- .dummy[
-
-   - .emoji[👷🏻‍♀️] AJ ([@s0ulshake](https://twitter.com/s0ulshake), Travis CI)
-
-   - .emoji[🐳] Jérôme ([@jpetazzo](https://twitter.com/jpetazzo), Enix SAS)
-
-   - .emoji[⛵] Jérémy ([@jeremygarrouste](twitter.com/jeremygarrouste), Inpiwee)
-
-] -->
-
-- The workshop will run from ...
-
-- There will be a lunch break at ...
-
-  (And coffee breaks!)
+- The workshop will run from 13:30-15:00
 
 - Feel free to interrupt for questions at any time
 
 - *Especially when you see full screen container pictures!*
 
-- Live feedback, questions, help: @@CHAT@@