LXC Docker and the Future of Software Delivery
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This document discusses Linux containers and Docker. It describes how Linux containers provide isolation using namespaces and cgroups to allow applications to run consistently across different environments. Docker builds on Linux containers to make them easy to use, create, share, and deploy. Docker allows building images from Dockerfiles, sharing images in registries, and provides tools for continuous integration workflows. The document outlines Docker's roadmap and growing ecosystem of related projects.
![Dockerfile example
FROM ubuntu
RUN apt-get -y update
RUN apt-get install -y g++
RUN apt-get install -y erlang-dev erlang-manpages erlang-base-hipe ...
RUN apt-get install -y libmozjs185-dev libicu-dev libtool ...
RUN apt-get install -y make wget
RUN wget http://.../apache-couchdb-1.3.1.tar.gz | tar -C /tmp -zxf-
RUN cd /tmp/apache-couchdb-* && ./configure && make install
RUN printf "[httpd]nport = 8101nbind_address = 0.0.0.0" >
/usr/local/etc/couchdb/local.d/docker.ini
EXPOSE 8101
CMD ["/usr/local/bin/couchdb"]](https://image.slidesharecdn.com/linuxcon-docker-130916163019-phpapp02-140801195256-phpapp02/85/LXC-Docker-and-the-Future-of-Software-Delivery-37-320.jpg)
LXC Docker and the Future of Software Delivery
- 1. LXC, Docker, and the future of software delivery Linuxcon – New Orleans, 2013 Jérôme Petazzoni, dotCloud Inc.
- 2. Outline ● Why Linux Containers? ● What are Linux Containers exactly? ● What do we need on top of LXC? ● Why Docker? ● What is Docker exactly? ● Where is it going?
- 3. Why Linux Containers? What are we trying to solve?
- 4. The Matrix From Hell
- 5. The Matrix From Hell
- 6. Many payloads ● backend services (API) ● databases ● distributed stores ● webapps
- 7. Many payloads ● Go ● Java ● Node.js ● PHP ● Python ● Ruby ● …
- 8. Many payloads ● CherryPy ● Django ● Flask ● Plone ● ...
- 9. Many payloads ● Apache ● Gunicorn ● uWSGI ● ...
- 10. Many payloads + your code
- 11. Many targets ● your local development environment ● your coworkers' developement environment ● your Q&A team's test environment ● some random demo/test server ● the staging server(s) ● the production server(s) ● bare metal ● virtual machines ● shared hosting + your dog's Raspberry Pi
- 12. Many targets ● BSD ● Linux ● OS X ● Windows
- 13. Many targets ● BSD ● Linux ● OS X ● Windows
- 14. The Matrix From Hell Static website ? ? ? ? ? ? ? Web frontend ? ? ? ? ? ? ? background workers ? ? ? ? ? ? ? User DB ? ? ? ? ? ? ? Analytics DB ? ? ? ? ? ? ? Queue ? ? ? ? ? ? ? Development VM QA Server Single Prod Server Onsite Cluster Public Cloud Contributor’s laptop Customer Servers
- 16. Many products ● clothes ● electronics ● raw materials ● wine ● …
- 17. Many transportation methods ● ships ● trains ● trucks ● ...
- 18. Another matrix from hell ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ?
- 19. Solution to the transport problem: the intermodal shipping container
- 20. Solution to the transport problem: the intermodal shipping container ● 90% of all cargo now shipped in a standard container ● faster and cheaper to load and unload on ships (by an order of magnitude) ● less theft, less damage ● freight cost used to be >25% of final goods cost, now <3% ● 5000 ships deliver 200M containers per year
- 21. Solution to the deployment problem: the Linux container
- 22. Linux containers... ● run everywhere – regardless of kernel version – regardless of host distro – (but container and host architecture must match) ● run anything – if it can run on the host, it can run in the container – i.e., if it can run on a Linux kernel, it can run
- 23. What are Linux Containers exactly?
- 24. High level approach: it's a lightweight VM ● own process space ● own network interface ● can run stuff as root ● can have its own /sbin/init (different from the host)
- 25. Low level approach: it's chroot on steroids ● can also not have its own /sbin/init ● container = isolated process(es) ● share kernel with host ● no device emulation (neither HVM nor PV)
- 26. Separation of concerns: Dave the Developer ● inside my container: – my code – my libraries – my package manager – my app – my data
- 27. Separation of concerns: Oscar the Ops guy ● outside the container: – logging – remote access – network configuration – monitoring
- 28. How does it work? Isolation with namespaces ● pid ● mnt ● net ● uts ● ipc ● user
- 29. How does it work? Isolation with cgroups ● memory ● cpu ● blkio ● devices
- 30. Efficiency: almost no overhead ● processes are isolated, but run straight on the host ● CPU performance = native performance ● memory performance = a few % shaved off for (optional) accounting ● network performance = small overhead; can be optimized to zero overhead
- 31. Efficiency: storage-friendly ● unioning filesystems (AUFS, overlayfs) ● snapshotting filesystems (BTRFS, ZFS) ● copy-on-write (thin snapshots with LVM or device-mapper) This wasn't part of LXC at first; but you definitely want it!
- 32. Efficiency: storage-friendly ● provisioning now takes a few milliseconds ● … and a few kilobytes ● creating a new base/image/whateveryoucallit takes a few seconds
- 33. Docker
- 34. What's Docker? ● Open Source engine to commoditize LXC ● using copy-on-write for quick provisioning ● allowing to create and share images ● propose a standard format for containers
- 35. Yes, but... ● « I don't need Docker; I can do all that stuff with LXC tools, rsync, some scripts! » ● correct on all accounts; but it's also true for apt, dpkg, rpm, yum, etc. ● the whole point is to commoditize, i.e. make it ridiculously easy to use
- 36. Docker: authoring images ● you can author « images » – either with « run+commit » cycles, taking snapshots – or with a Dockerfile (=source code for a container) – both ways, it's ridiculously easy ● you can run them – anywhere – multiple times
- 37. Dockerfile example FROM ubuntu RUN apt-get -y update RUN apt-get install -y g++ RUN apt-get install -y erlang-dev erlang-manpages erlang-base-hipe ... RUN apt-get install -y libmozjs185-dev libicu-dev libtool ... RUN apt-get install -y make wget RUN wget http://.../apache-couchdb-1.3.1.tar.gz | tar -C /tmp -zxf- RUN cd /tmp/apache-couchdb-* && ./configure && make install RUN printf "[httpd]nport = 8101nbind_address = 0.0.0.0" > /usr/local/etc/couchdb/local.d/docker.ini EXPOSE 8101 CMD ["/usr/local/bin/couchdb"]
- 38. Docker: sharing images ● you can push/pull images to/from a registry (public or private) ● you can search images through a public index ● dotCloud maintains a collection of base images (Ubuntu, Fedora...) ● satisfaction guaranteed or your money back
- 39. Docker: not sharing images ● private registry – for proprietary code – or security credentials – or fast local access
- 40. Typical workflow ● code in local environment (« dockerized » or not) ● each push to the git repo triggers a hook ● the hook tells a build server to clone the code and run « docker build » (using the Dockerfile) ● the containers are tested (nosetests, Jenkins...), and if the tests pass, pushed to the registry ● production servers pull the containers and run them ● for network services, load balancers are updated
- 41. Hybrid clouds ● Docker is part of OpenStack « Havana », as a Nova driver + Glance translator ● typical workflow: – code on local environment – push container to Glance-backed registry – run and manage containers using OpenStack APIs ● Docker confirmed to work with: Digital Ocean, EC2, Joyent, Linode, and many more (not praising a specific vendor, just pointing that it « just works »)
- 42. Docker: the community ● Docker: >160 contributors ● latest milestone (0.6): 40 contributors ● GitHub repository: >600 forks
- 43. Docker: the ecosystem ● CoreOS (full distro based on Docker) ● Deis (PAAS; available) ● Dokku (mini-Heroku in 100 lines of bash) ● Flynn (PAAS; in development) ● Maestro (orchestration from a simple YAML file) ● OpenStack integration ● Shipper (fabric-like orchestration) And many more
- 44. Docker roadmap ● Today: Docker 0.6 – LXC – AUFS ● Tomorrow: Docker 0.7 – LXC – device-mapper thin snapshots (target: RHEL) ● The day after: Docker 1.0 – LXC, libvirt, qemu, KVM, OpenVZ, chroot… – multiple storage back-ends – plugins