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managedApplication | ||
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CONTRIBUTE.md | ||
LICENSE | ||
LICENSE-DOCS | ||
README.md | ||
azuredeploy-large-ha.json | ||
azuredeploy-maximal.json | ||
azuredeploy-minimal.json | ||
azuredeploy-moodle.json | ||
azuredeploy-small2mid-noha.json | ||
azuredeploy-wordpress.json | ||
azuredeploy.json | ||
azuredeploy.parameters.json | ||
metadata.json |
README.md
Deploy and Manage a Scalable LAMP Cluster on Azure
This repo contains guides and Azure Resource Manager templates designed to help you deploy and manage a highly available and scalable LAMP cluster on Azure. The template(s) provided here deploy an empty infrastructure/stack to deploy any general LAMP application.
If you have Azure account you can deploy LAMP via the Azure Portal using the buttons below. Please note that while you can use an Azure free account to get started, depending on which template configuration you choose you will likely be required to upgrade to a paid account.
Fully configurable deployment
The following button will allow you to specify various configurations for your LAMP cluster deployment. The number of configuration options might be overwhelming, so some pre-defined/restricted deployment options for typical LAMP scenarios follow this.
Predefined deployment options
Below are a list of pre-defined/restricted deployment options based on typical deployment scenarios (i.e. dev/test, production etc.) All configurations are fixed and you just need to pass your SSH public key to the template for logging in to the deployed VMs. Please note that the actual cost will be bigger with potentially autoscaled VMs, backups and network cost.
Deployment Type | Description | Estimated Cost | Launch |
---|---|---|---|
Minimal | This deployment will use NFS, MySQL, and smaller autoscale web frontend VM sku (1 core) that'll give faster deployment time (less than 30 minutes) and requires only 2 VM cores. Currently this will fit even in a free Azure trial subscription. | link | |
Small to Mid-Size | Supporting up to 1,000 concurrent users. This deployment will use NFS (with no high availability) and MySQL (8 vCores), without other options like Redis Cache. | link | |
Large size deployment (with high availability) | Supporting more than 2,000 concurrent users. This deployment will use GlusterFS (in high availability, requiring 2 VMs), MySQL (16 vCores) and Redis Cache. | link | |
Maximum | This maximal deployment will use GlusterFS (in high availability, adding 2 VMs for a GlusterFS cluster), MySQL with the highest SKU, Redis Cache, and pretty large storage sizes (for both data disks and DB). | link |
Stack Architecture
This template set deploys the following infrastructure core to your LAMP instance:
- Autoscaling web frontend layer (with nginx and PHP-FPM)
- Private Virtual Network for frontend instances
- Controller VM running cron and handling syslog for the autoscaling cluster
- Azure Load balancer to balance across the autoscaling instances
- Azure Database for MySQL or Azure Database for PostgreSQL or Azure SQL Database
- Dual GlusterFS nodes or NFS for highly available access to LAMP files
Next Steps
Prepare deployed cluster for LAMP applications
If you chose true
for the htmlLocalCopy
switch at your LAMP cluster deployment time, you can install additional LAMP sites on your cluster, utilizing Nginx's virtual host feature. To manage your installed cluster, you'll first need to login to the LAMP cluster controller virtual machine. The directory you'll need to work out of is /azlamp
. You will need privileged access which means that you'll either need to be root (superuser) or have sudo access.
Configuring the controller for a specific LAMP application (WordPress)
Connect via SSH
You can connect via SSH to the controller VM. From a Linux, macOS or Windows 10 client using the Windows Subsystem for Linux, you can connect to the controller's VM using SSH and the public IP or DNS name of the controller.
ssh user@ip-or-dns
The username can be configured with sshUsername
; the default value is azureadmin
. You'll be authenticating using your SSH private key, so no password is necessary for the SSH user.
Installation Destination
An example LAMP application (WordPress) is illustrated here for the sake of clarity. The approach is similar to any LAMP application out there.
First, you'd need to navigate to /azlamp/html
and create a directory based on a domain name you have in mind. An example domain name is used below:
cd /azlamp/html
mkdir wpsitename.mydomain.com
cd /azlamp/html/wpsitename.mydomain.com
Download the latest version of WordPress, for example with:
wget https://wordpress.org/latest.tar.gz
tar xvfz latest.tar.gz --strip 1
SSL Certs
The certificates for your LAMP application reside in /azlamp/certs/yourdomain
or in this instance, /azlamp/certs/wpsitename.mydomain.com
mkdir /azlamp/certs/wpsitename.mydomain.com
Copy over the .crt and .key files over to /azlamp/certs/wpsitename.mydomain.com
.
The file names should be changed to nginx.crt
and nginx.key
in order to be recognized by the configured nginx servers. Depending on your local environment, you may choose to use the utility scp or a tool like WinSCP to copy these files over to the cluster controller virtual machine.
You can also generate a self-signed certificate, useful for testing only:
openssl req -x509 -nodes -days 365 -newkey rsa:2048 \
-keyout /azlamp/certs/wpsitename.mydomain.com/nginx.key \
-out /azlamp/certs/wpsitename.mydomain.com/nginx.crt \
-subj "/C=US/ST=WA/L=Redmond/O=IT/CN=wpsitename.mydomain.com"
It's recommended that the certificate files be read-only to owner and that these files are owned by www-data:
chown www-data:www-data /azlamp/certs/wpsitename.mydomain.com/nginx.*
chmod 400 /azlamp/certs/wpsitename.mydomain.com/nginx.*
Linking to the content/cluster data location
Navigate to the WordPress content directory and run the following command:
mkdir -p /azlamp/data/wpsitename.mydomain.com/wp-content/uploads
ln -s /azlamp/data/wpsitename.mydomain.com/wp-content/uploads /azlamp/html/wpsitename.mydomain.com/wp-content/uploads
chmod 0777 /azlamp/data/wpsitename.mydomain.com/wp-content/uploads
This step is needed because the <siteroot>/wp-content/uploads
directory need to be shared across all web frontend instances, and WordPress configuration doesn't allow an external directory to be used as the uploads repository. In fact, Drupal also has a similar design, so a similar symbolic link will be needed for Drupal as well. This is in contrary to Moodle, which allows users to configure any external directory as its file storage location.
Update Nginx configurations on all web frontend instances
Once the correspnding html/data/certs directories are configured, we need to reconfigure all Nginx services on web frontend instances, so that a virtual host is added for each newly added site, and old ones are removed. This is done by the /azlamp/bin/update-vmss-config
hook (executed every minute on each and every VMSS instance using a cron job), which requires us to provide the commands to run on each VMSS instance. There's already a utility script installed for that, so it's easy to achieve this.
On the controller machine, look up the file /azlamp/bin/update-vmss-config
. If you haven't modified that file, you'll see the following lines in the file:
#1)
# . /azlamp/bin/utils.sh
# reset_all_sites_on_vmss true VMSS
#;;
Remove all the leading #
characters from these lines (to uncomment them) and save the file, then wait for about a minute. After that, your newly added sites should be available through the domain names specified/used as the directory names (Of course this assumes you set up your DNS records for your new site FQDNs so that their CNAME records point to the deployed LAMP cluster's load balancer DNS name, whis is of the form lb-xyz123.an_azure_region.cloudapp.azure.com
).
If you make changes and add or remove websites at a later time, you'll already have the above lines commented out. Just create another case
block, copying the 4 lines, but make sure to change the number so that it's one greater than the last VMSS config version number (you should be able to find that from the script). As an example, the final text would look like:
1)
. /azlamp/bin/utils.sh
reset_all_sites_on_vmss true VMSS
;;
2)
. /azlamp/bin/utils.sh
reset_all_sites_on_vmss true VMSS
;;
Replicate PHP files
The last step is to let the /azlamp/html
directory sync with /var/www/html
in every VMSS instance. This should be done by running this script on the controller machine, as root:
/usr/local/bin/update_last_modified_time.azlamp.sh
Once this is run and after a minute, the /var/www/html
directory on every VMSS instance should be the same as /azlamp/html
, and the newly added sites should be available.
At this point, your app is setup to use in the LAMP cluster. If you'd like to install a separate LAMP application (WordPress or otherwise), you'll have to repeat the process listed here with a new domain for the new application.
WordPress installer
Once you completed the steps above and you can see your WordPress website running in the browser, please follow the instructions here to complete configuring a database and finishing a WordPress install.
If you chose true
for the htmlLocalCopy
switch, WordPress will be running from a read-only directory, so the installer won't be able to create a wp-config.php
file for you. However, the installer will provide you with the full content of the required config file. On the controller VM, copy that content into the file /azlamp/html/wpsitename.mydomain.com/wp-config.php
. You then need to trigger a replication of the data, by running the script /usr/local/bin/update_last_modified_time.azlamp.sh
again from the controller VM, as root. Data will be replicated in around one minute.
Code of Conduct
This project has adopted the Microsoft Open Source Code of Conduct. For more information see the Code of Conduct FAQ or contact opencode@microsoft.com with any additional questions or comments.
Legal Notices
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