7.0 KiB
+++ date = "2018-07-20T16:15:00+02:00" publishdate = "2018-07-20T16:15:00+02:00" title = "Deploying a Hugo website using Gitea and DroneCI" description = "Building a continuous delivery pipeline for static websites generated with Hugo" draft = false categories = ["Continuous Delivery", "Hugo"] tags = ["Hugo", "DevOps", "Gitea", "DroneCI"] toc = true
+++
This blog is created using the Hugo static site generator. I used
to deploy new posts using a bare git repository on the target server
and a post-receive
hook to build the posts and copy them to the
public web server directory. I followed this tutorial by Digital
Ocean. This worked well enough but, to deploy the blog, I always
needed to push to a separate git remote. Also I had to set up SSH
access to the server and the new git remote if I wanted to write posts
on another machine. I decided, a better setup was needed.
Goal
The goal of the new pipeline should be to automatically build and deploy the blog when commit is made to the repository:
+-------------------+ +------------+ +------------------+
| Git commit & push | -> | Hugo build | -> | Deploy to server |
+-------------------+ +------------+ +------------------+
Setup
A few weeks ago, I setup DroneCI aside my Gitea instance. There is a great plugin for DroneCI to build Hugo websites. Deploying the generated pages can be done using the SCP or rsync plugins. I decided to use rsync since it would be able to execute a custom script after copying the files over to the target machine (which might come in handy in the future).
Drone build pipelines are made up of several steps, where the changes
made on the repository in each step are persisted to the next step. So
when the first step (actually it is the second step since the first is
cloning the repository but this is an implicit step) builds the Hugo
website, the build output in the public/
directory will still exist
in the following step, so I can use the created files and copy them to
the target server in the second step. At this point my DroneCI
configuration looked like this:
pipeline:
build:
image: cbrgm/drone-hugo:latest
validate: true
url: https://www.vbrandl.net
deploy:
image: drillster/drone-rsync
hosts: [ "vbrandl.net" ]
target: /var/www/vbrandl.net
source: public/*
user: hugo
secrets: [ rsync_key ]
The SSH key for the user hugo
on the target server was added as a
secret to the repository so I was able to use rsync.
Due to Drones modular approach for build pipelines, it is trivial to
deploy the blog to other targets. There are plugins to deploy to AWS
S3, use FTP(S) for uploading and many others. Only the
deploy
step in the pipeline needs to be replaced.
Improving the Pipeline
Ahead-of-Time Compression
To take the load of compressing requested files from my web server, I
use the gzip_static
module of nginx. The compression is done
using the following Makefile
:
.PHONY: default clean
TARGETS = $(shell find . -type f -name '*.html')
TARGETS += $(shell find . -type f -name '*.asc')
TARGETS += $(shell find . -type f -name '*.css')
TARGETS += $(shell find . -type f -name '*.js')
TARGETS += $(shell find . -type f -name '*.txt')
TARGETS += $(shell find . -type f -name '*.xml')
TARGETS += $(shell find . -type f -name '*.svg')
TARGETS_GZ = $(patsubst %, %.gz, $(TARGETS))
CC=gzip
CFLAGS=-k -f -9
default: $(TARGETS_GZ)
%.gz : %
$(CC) $(CFLAGS) $<
clean:
rm -f $(TARGETS_GZ)
This way, when index.html
is requested and the client requests a
compressed file, nginx will look if index.html.gz
exists and if it
does, that file will be served, so the web server does not need to
compress the file on the fly. I implemented another step in my build
pipeline between the build and the deploy step, that uses the Alpine
Linux base image, installs make
and executes the Makefile
.
pipeline:
build:
image: cbrgm/drone-hugo:latest
validate: true
url: https://www.vbrandl.net
compress:
image: alpine:latest
commands:
- apk --no-cache update
- apk add make
- make -C public/ -f ../Makefile
deploy:
image: drillster/drone-rsync
hosts: [ "vbrandl.net" ]
target: /var/www/vbrandl.net
source: public/*
user: hugo
secrets: [ rsync_key ]
Multiple Environments
At this point I thought it would be fun to implement a staging area
for the blog to test unreleased drafts and get feedback on them,
without releasing them on the main blog. The staging area should be
based of the develop
branch of the blog and publish every post (draft,
expired and future posts). On my server I created a new directory for
the staging area and let staging.vbrandl.net point there.
I made use of conditional step execution in Drone pipelines to change the build and deploy steps depending on the branch:
pipeline:
build-dev:
image: cbrgm/drone-hugo:latest
buildDrafts: true
buildFuture: true
buildExpired: true
validate: true
url: https://staging.vbrandl.net
when:
branch: develop
build-prod:
image: cbrgm/drone-hugo:latest
buildDrafts: false
buildFuture: false
buildExpired: false
validate: true
url: https://www.vbrandl.net
when:
branch: master
compress:
image: alpine:latest
commands:
- apk --no-cache update
- apk add make
- make -C public/ -f ../Makefile
deploy-dev:
image: drillster/drone-rsync
hosts: [ "vbrandl.net" ]
target: /var/www/staging.vbrandl.net
source: public/*
user: hugo
secrets: [ rsync_key ]
when:
branch: develop
deploy-prod:
image: drillster/drone-rsync
hosts: [ "vbrandl.net" ]
target: /var/www/vbrandl.net
source: public/*
user: hugo
secrets: [ rsync_key ]
when:
branch: master
Now my blog is automatically deployed once I merge new posts into the
master
branch, and while using a separate staging area for my little
blog might be considered to be overkill, it was pretty fun to
implement a proper deployment pipeline.
The final pipeline looks like this:
+----------+ +-----------------+ +----------------+ +----------------+
| Git push | > | Hugo build $ENV | > | Compress files | > | Deploy to $ENV |
+----------+ +-----------------+ +----------------+ +----------------+