24 KiB
category | tool | contributors | filename | |||
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tool | ansible |
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LearnAnsible.txt |
Ansible: the easiest orchestration tool
---
"{{ Why Ansible and Intro }}" in the second part of document
Installation
# Universal way
$ pip install ansible
# Debian, Ubuntu
$ apt-get install ansible
- Appendix A - How do I install ansible
- Additional Reading.
Basic ansible commands (shell execution)
# This command ping the localhost (defined in default inventory /etc/ansible/hosts)
$ ansible -m ping localhost
localhost | SUCCESS => {
"changed": false,
"ping": "pong"
}
Commands
There are few commands you should know about
ansible
(to run modules in CLI)ansible-playbook
(to run playbooks)ansible-vault
(to manage secrets)ansible-galaxy
(to install roles from github/galaxy)- and other!
Module
program (usaly python) that execute, do some work and return proper output :)
This program perform specialized task/action (like manage instances in the cloud, execute shell command).
The simplest module is called ping
- it just returns a JSON with pong
message.
Example of modules:
- Module:
ping
- the simplest module that is usefull to verify host connectivity - Module:
shell
- a module that executes shell command on a specified host(s).
Example of usage - ping
, shell
$ ansible -m ping
$ ansible -m shell -a 'date; whoami' localhost #hostname_or_a_group_name
- Module:
command
- executes a single command that will not be processed through the shell, so variables like $HOME will not work
$ ansible -m command -a 'date; whoami' # FAILURE
$ ansible -m command -a 'date'
$ ansible -m command -a 'whoami'
- Module:
file
- performs file operations (stat, link, dir, ...) - Module:
raw
- executes a low-down and dirty SSH command, not going through the module subsystem (usefull to install python2.7)
Inventory
Inventory is a set of objects/hosts against which we are executing our playbooks For this few minutes, lets asume that we are using default ansible inventory (which in Debian based system is placed in /etc/ansible/hosts_
Task
Execution of a single module is called a task
The simplest module is called ping
.
Another example of the module that allow you to execute command remotly on multiple resources is called shell. It is the same as you would execute command remotely over ssh.
Example of a Task run in CLI:
Run a ansible module
Playbook
Execution plan written in a form of script file(s) is called playbook
.
Playbook consist of multiple elements
- a list (or group) of hosts that 'the play' is executed against
task(s)
orrole(s)
that are going to be executed- multiple optional settings (like default variables, and way more) Playbook script language is YAML
You can think that playbook is very advanced CLI script that you are executing.
Example of the playbook:
This playbook would execute (on all hosts defined in the inventory) two tasks
*ping
that would return message pong
shell
that execute three commands and return the output to our terminal
hosts: all
tasks:
- name: "ping all"
ping:
- name: "execute a shell command"
shell: "date; whoami; df -h;"
You can execute a playbook with a command:
$ ansible-playbook path/name_of_the_playbook.yml
It is also possible to become a user other than root using --become-user:
More on ansible concept
ansible-roles (a 'template-playbooks in right structure')
There are tasks (modules) that can be run via CLI The execution plans of multiple tasks (with variables and logic) are called playbooks.
For parts of the code, that should be reusable, a concept called role
was introduced
Role is a structured way to keep your set of tasks, variables, handlers, default settings, and way more (meta, files, templates).
Role allows to reuse the same parts of code in multiple plybooks (you can parametrize this).
It is a great way to introduce object oriented
management for your applications.
Role can be included in your playbook (executed in your playbook).
hosts: all
tasks:
- name: "ping all"
ping:
- name: "execute a shell command"
shell: "date; whoami; df -h;"
role:
- some_role
- { role: another_role, some_variable: 'learnxiny', tags: ['my_tag'] }
pre_tasks:
- name: some pre-task
shell: echo 'this task is the last, but would be executed before roles, and before tasks'
Role directory structure:
roles/
some_role/
defaults/
files/
templates/
tasks/
handlers/
vars/
meta/
Role Handlers
Handlers are a task that can be triggered (notified) during execution of a playbook, but they itself execute at the very end of a playbook. It is a best way to restart a service, check if application port is open, etc.
ansible - variables
lookup's
templates
JINJA2
ansible-vault
inventory
dynamic inventory
Jinja2 and templates
jinja filters
ansible profiling - callback
facts-cache and ansible-cmdb
debugging ansible
Infrastructure as a code - what about Ansible
virtualenv
ansible - dynamic in AWS
create instance in AWS
create env in AWS
Naming
Bonus
writing own module
Python API
Web-UI: Ansible Tower, Jenkins, Rundeck
Tips and tricks
AND,XOR --check --diff tags meta no_logs
Introduction
Ansible is (one of the many) orchestration tools. It allows you to controll your environment (infrastructure and a code) and automate the manual tasks. 'You can think as simple as writing in bash with python API :) Of course the rabit hole is way deeper.'
Ansible have great integration with multiple operating systems (even Windows) and some hardware (switches, Firewalls, etc). It has multiple tools that integrate with the could providers. Almost every worth-notice cloud provider is present in the ecosystem (AWS, Azure, Google, DigitalOcean, OVH, etc...)
Main cons and pros
Cons
It is an agent-less tool - every agent consumes up to 16MB ram - in some environments, it may be noticable amount. It is agent-less - you have to verify your environment consistency 'on-demand' - there is no built-in mechanism taht would warn you about some change automatically (this can be achieved with reasonable effort - but it must be known) Official GUI Tool (web inferface) - Ansible Tower - is more than GUI, but it is expensive. There is no 'small enterprice' payment plan. Easy workaround with Rundeck or Jenkins is possible with reasonable workload.
Pros
It is an agent-less tools :) In most scenarios, it use ssh as a transport layer. In some way you can use it as 'bash on steroids'. It is very-very-very easy to start. If you are familiar with ssh concept - you already know ansible :) (almost). My personal record is: 'I did show how to install and use ansible (for simple raspberry pi cluster management) and it tool me 30 seconds to deliver a working tool !!!)' I do provide a training services - I'm able to teach a production-ready person - in 8 hours (1 training day)! It covers all needed to work aspects! No other tool can match this ease of use! It executes when you do it - other tools (salt, puppet, chef - might execute in different scenario than you would expect) Documentation is at the world-class standard! The comunity (github, stackOverflow) would help you very fast. Writing own modules and extension is fairly easy.
Neutral
Migration Ansible<->Salt is failrly easy - so if you would need an event-driven agent environment - it would be a good choice to start quick with Ansible, and convert to salt when needed.
Basics on ansible
Ansible uses ssh or paramiko as a transport layer. In a way you can imagine that you are using a ssh with API to perform your action. In the 'low-level' way you can use it to execute remote command in more controlled way (still using ssh). On the other hand - in advanced scope - you can use python anible code as a library to your own python scrips! This is awesome! (if you know what you are doing). It is a bit like fabric then.
But ansible is way more! It provides an execution plans, an API, library, callbacks, not forget to mention - COMUNITY! and great support by developers!
Github template placeholder - to be removed
Centralized Versioning VS Distributed Versioning
- Centralized version control focuses on synchronizing, tracking, and backing up files.
- Distributed version control focuses on sharing changes. Every change has a unique id.
- Distributed systems have no defined structure. You could easily have a SVN style, centralized system, with git.
Why Use Git?
- Can work offline.
- Collaborating with others is easy!
- Branching is easy!
- Branching is fast!
- Merging is easy!
- Git is fast.
- Git is flexible.
Git Architecture
Repository
A set of files, directories, historical records, commits, and heads. Imagine it as a source code data structure, with the attribute that each source code "element" gives you access to its revision history, among other things.
A git repository is comprised of the .git directory & working tree.
.git Directory (component of repository)
The .git directory contains all the configurations, logs, branches, HEAD, and more. Detailed List.
Working Tree (component of repository)
This is basically the directories and files in your repository. It is often referred to as your working directory.
Index (component of .git dir)
The Index is the staging area in git. It's basically a layer that separates your working tree from the Git repository. This gives developers more power over what gets sent to the Git repository.
Commit
A git commit is a snapshot of a set of changes, or manipulations to your Working Tree. For example, if you added 5 files, and removed 2 others, these changes will be contained in a commit (or snapshot). This commit can then be pushed to other repositories, or not!
Branch
A branch is essentially a pointer to the last commit you made. As you go on committing, this pointer will automatically update to point the latest commit.
Tag
A tag is a mark on specific point in history. Typically people use this functionality to mark release points (v1.0, and so on)
HEAD and head (component of .git dir)
HEAD is a pointer that points to the current branch. A repository only has 1
active HEAD.
head is a pointer that points to any commit. A repository can have any number
of heads.
Stages of Git
- Modified - Changes have been made to a file but file has not been committed to Git Database yet
- Staged - Marks a modified file to go into your next commit snapshot
- Committed - Files have been committed to the Git Database
Conceptual Resources
Commands
init
Create an empty Git repository. The Git repository's settings, stored information, and more is stored in a directory (a folder) named ".git".
$ git init
config
To configure settings. Whether it be for the repository, the system itself,
or global configurations ( global config file is ~/.gitconfig
).
# Print & Set Some Basic Config Variables (Global)
$ git config --global user.email "MyEmail@Zoho.com"
$ git config --global user.name "My Name"
help
To give you quick access to an extremely detailed guide of each command. Or to just give you a quick reminder of some semantics.
# Quickly check available commands
$ git help
# Check all available commands
$ git help -a
# Command specific help - user manual
# git help <command_here>
$ git help add
$ git help commit
$ git help init
# or git <command_here> --help
$ git add --help
$ git commit --help
$ git init --help
ignore files
To intentionally untrack file(s) & folder(s) from git. Typically meant for private & temp files which would otherwise be shared in the repository.
$ echo "temp/" >> .gitignore
$ echo "private_key" >> .gitignore
status
To show differences between the index file (basically your working copy/repo) and the current HEAD commit.
# Will display the branch, untracked files, changes and other differences
$ git status
# To learn other "tid bits" about git status
$ git help status
add
To add files to the staging area/index. If you do not git add
new files to
the staging area/index, they will not be included in commits!
# add a file in your current working directory
$ git add HelloWorld.java
# add a file in a nested dir
$ git add /path/to/file/HelloWorld.c
# Regular Expression support!
$ git add ./*.java
This only adds a file to the staging area/index, it doesn't commit it to the working directory/repo.
branch
Manage your branches. You can view, edit, create, delete branches using this command.
# list existing branches & remotes
$ git branch -a
# create a new branch
$ git branch myNewBranch
# delete a branch
$ git branch -d myBranch
# rename a branch
# git branch -m <oldname> <newname>
$ git branch -m myBranchName myNewBranchName
# edit a branch's description
$ git branch myBranchName --edit-description
tag
Manage your tags
# List tags
$ git tag
# Create a annotated tag
# The -m specifies a tagging message,which is stored with the tag.
# If you don’t specify a message for an annotated tag,
# Git launches your editor so you can type it in.
$ git tag -a v2.0 -m 'my version 2.0'
# Show info about tag
# That shows the tagger information, the date the commit was tagged,
# and the annotation message before showing the commit information.
$ git show v2.0
# Push a single tag to remote
$ git push origin v2.0
# Push a lot of tags to remote
$ git push origin --tags
checkout
Updates all files in the working tree to match the version in the index, or specified tree.
# Checkout a repo - defaults to master branch
$ git checkout
# Checkout a specified branch
$ git checkout branchName
# Create a new branch & switch to it
# equivalent to "git branch <name>; git checkout <name>"
$ git checkout -b newBranch
clone
Clones, or copies, an existing repository into a new directory. It also adds remote-tracking branches for each branch in the cloned repo, which allows you to push to a remote branch.
# Clone learnxinyminutes-docs
$ git clone https://github.com/adambard/learnxinyminutes-docs.git
# shallow clone - faster cloning that pulls only latest snapshot
$ git clone --depth 1 https://github.com/adambard/learnxinyminutes-docs.git
# clone only a specific branch
$ git clone -b master-cn https://github.com/adambard/learnxinyminutes-docs.git --single-branch
commit
Stores the current contents of the index in a new "commit." This commit contains the changes made and a message created by the user.
# commit with a message
$ git commit -m "Added multiplyNumbers() function to HelloWorld.c"
# automatically stage modified or deleted files, except new files, and then commit
$ git commit -a -m "Modified foo.php and removed bar.php"
# change last commit (this deletes previous commit with a fresh commit)
$ git commit --amend -m "Correct message"
diff
Shows differences between a file in the working directory, index and commits.
# Show difference between your working dir and the index
$ git diff
# Show differences between the index and the most recent commit.
$ git diff --cached
# Show differences between your working dir and the most recent commit
$ git diff HEAD
grep
Allows you to quickly search a repository.
Optional Configurations:
# Thanks to Travis Jeffery for these
# Set line numbers to be shown in grep search results
$ git config --global grep.lineNumber true
# Make search results more readable, including grouping
$ git config --global alias.g "grep --break --heading --line-number"
# Search for "variableName" in all java files
$ git grep 'variableName' -- '*.java'
# Search for a line that contains "arrayListName" and, "add" or "remove"
$ git grep -e 'arrayListName' --and \( -e add -e remove \)
Google is your friend; for more examples Git Grep Ninja
log
Display commits to the repository.
# Show all commits
$ git log
# Show only commit message & ref
$ git log --oneline
# Show merge commits only
$ git log --merges
# Show all commits represented by an ASCII graph
$ git log --graph
merge
"Merge" in changes from external commits into the current branch.
# Merge the specified branch into the current.
$ git merge branchName
# Always generate a merge commit when merging
$ git merge --no-ff branchName
mv
Rename or move a file
# Renaming a file
$ git mv HelloWorld.c HelloNewWorld.c
# Moving a file
$ git mv HelloWorld.c ./new/path/HelloWorld.c
# Force rename or move
# "existingFile" already exists in the directory, will be overwritten
$ git mv -f myFile existingFile
pull
Pulls from a repository and merges it with another branch.
# Update your local repo, by merging in new changes
# from the remote "origin" and "master" branch.
# git pull <remote> <branch>
$ git pull origin master
# By default, git pull will update your current branch
# by merging in new changes from its remote-tracking branch
$ git pull
# Merge in changes from remote branch and rebase
# branch commits onto your local repo, like: "git fetch <remote> <branch>, git
# rebase <remote>/<branch>"
$ git pull origin master --rebase
push
Push and merge changes from a branch to a remote & branch.
# Push and merge changes from a local repo to a
# remote named "origin" and "master" branch.
# git push <remote> <branch>
$ git push origin master
# By default, git push will push and merge changes from
# the current branch to its remote-tracking branch
$ git push
# To link up current local branch with a remote branch, add -u flag:
$ git push -u origin master
# Now, anytime you want to push from that same local branch, use shortcut:
$ git push
stash
Stashing takes the dirty state of your working directory and saves it on a stack of unfinished changes that you can reapply at any time.
Let's say you've been doing some work in your git repo, but you want to pull
from the remote. Since you have dirty (uncommited) changes to some files, you
are not able to run git pull
. Instead, you can run git stash
to save your
changes onto a stack!
$ git stash
Saved working directory and index state \
"WIP on master: 049d078 added the index file"
HEAD is now at 049d078 added the index file
(To restore them type "git stash apply")
Now you can pull!
git pull
...changes apply...
Now check that everything is OK
$ git status
# On branch master
nothing to commit, working directory clean
You can see what "hunks" you've stashed so far using git stash list
.
Since the "hunks" are stored in a Last-In-First-Out stack, our most recent
change will be at top.
$ git stash list
stash@{0}: WIP on master: 049d078 added the index file
stash@{1}: WIP on master: c264051 Revert "added file_size"
stash@{2}: WIP on master: 21d80a5 added number to log
Now let's apply our dirty changes back by popping them off the stack.
$ git stash pop
# On branch master
# Changes not staged for commit:
# (use "git add <file>..." to update what will be committed)
#
# modified: index.html
# modified: lib/simplegit.rb
#
git stash apply
does the same thing
Now you're ready to get back to work on your stuff!
rebase (caution)
Take all changes that were committed on one branch, and replay them onto another branch. Do not rebase commits that you have pushed to a public repo.
# Rebase experimentBranch onto master
# git rebase <basebranch> <topicbranch>
$ git rebase master experimentBranch
reset (caution)
Reset the current HEAD to the specified state. This allows you to undo merges, pulls, commits, adds, and more. It's a great command but also dangerous if you don't know what you are doing.
# Reset the staging area, to match the latest commit (leaves dir unchanged)
$ git reset
# Reset the staging area, to match the latest commit, and overwrite working dir
$ git reset --hard
# Moves the current branch tip to the specified commit (leaves dir unchanged)
# all changes still exist in the directory.
$ git reset 31f2bb1
# Moves the current branch tip backward to the specified commit
# and makes the working dir match (deletes uncommited changes and all commits
# after the specified commit).
$ git reset --hard 31f2bb1
reflog (caution)
Reflog will list most of the git commands you have done for a given time period, default 90 days.
This give you the a change to reverse any git commands that have gone wrong for instance if a rebase is has broken your application.
You can do this:
git reflog
to list all of the git commands for the rebase
38b323f HEAD@{0}: rebase -i (finish): returning to refs/heads/feature/add_git_reflog
38b323f HEAD@{1}: rebase -i (pick): Clarify inc/dec operators
4fff859 HEAD@{2}: rebase -i (pick): Update java.html.markdown
34ed963 HEAD@{3}: rebase -i (pick): [yaml/en] Add more resources (#1666)
ed8ddf2 HEAD@{4}: rebase -i (pick): pythonstatcomp spanish translation (#1748)
2e6c386 HEAD@{5}: rebase -i (start): checkout 02fb96d
- Select where to reset to, in our case its
2e6c386
, orHEAD@{5}
- 'git reset --hard HEAD@{5}' this will reset your repo to that head
- You can start the rebase again or leave it alone.
revert
Revert can be used to undo a commit. It should not be confused with reset which restores the state of a project to a previous point. Revert will add a new commit which is the inverse of the specified commit, thus reverting it.
# Revert a specified commit
$ git revert <commit>
rm
The opposite of git add, git rm removes files from the current working tree.
# remove HelloWorld.c
$ git rm HelloWorld.c
# Remove a file from a nested dir
$ git rm /pather/to/the/file/HelloWorld.c