Getting Started

The documentation here will get you started to use the MHTTC interweb, developed with Python and Django. This is intended for developers. If you want to see the user documentation, see the user guide.

Setup

You will want to follow the instructions here and:

• create a Google Cloud Project, you can request one at Stanford here
• install the gcloud command line client and Python3+
• authenticate on the command line with gcloud auth application-default login

For example, after I’ve created my project and I’ve installed gcloud, I might login and then set the default project to be my new project:

$ gcloud auth application-default login
$ gcloud config set project <myproject>

Then to work locally (if you are developing) you’ll want to clone the project:

git clone https://github.com/vsoch/mhttc
cd mhttc

On the Google Project Console you’ll want to enable APIs for:

• Identity and Access Management (IAM) API
• Google Storage

Storage

Since app engine doesn’t allow writing to the filesystem, we will use Google Cloud Storage for file uploads, and use the django-storages library to do this (not yet developed).

Billing

Under billing, it’s good practice to also set up billing alerts - unintended charges to a project that you don’t know about can have dire consequences. A small server of this size shouldn’t cost more than $55 a month (this would be a LOT) so I generally would start with a lower monthly limit (possibly $55) with alerts at 25, 50, 75, and 100 percents, and adjust as needed.

Configuration

The application has a set of configuration variables that are discovered in the environment via an .env file that you can source before running the application, and these environment variables are also given to the app engine app.yaml file so they are discovered on App Engine. When you first start out, you can copy the dummy template provided in the repository:

cp .dummy-env .env

and also copy the app-example.yaml to an app.yaml file (that will contain secrets and not be included in the repository):

cp app-example.yaml app.yaml

For local development, you will want to populate the following configuration variables the the .env file:

Secret Key

A secret key is used to secure your server. You can use the secret key generator to make a new secret key, and also export it as the DJANGO_SECRET_KEY in your .env file:

export DJANGO_SECRET_KEY=123455

Google Analytics

If you want to use Google Analytics with your application, generate a key and add it to your application, again in the .env file.

export GOOGLE_ANALYTICS_ID=1111111111111111

Social Networks

If you want a twitter card / alias embedded in site metadata, export the TWITTER_USERNAME in your .env file. The default is already set for MHTTC.

export TWITTER_USERNAME=MHTTCNetwork

You can also easily link to an instagram or facebook.

export FACEBOOK_USERNAME=mhttc
export INSTAGRAM_USERNAME=mhttc

These last two are undefined by default and won’t show on the site.

Authentication

Since we want to control login via invited email address, we are going to disable having a register form, and users are required to login with an email and password. An administrator is responsible for adding new users.

Help Contact Email

To provide users with a contact form, although the site uses SendGrid for more bulk emails, we use formspree to drive the contact form, which better handles spam. You should export your HELP_CONTACT_EMAIL in the .env file as follows:

export HELP_CONTACT_EMAIL=myemail@domain.com

SendGrid Secrets

We use SendGrid to invite users to the site. Note that the emails can sometimes end up in spam, so you should be prepared to notify invitees of this.

SendGrid Sender Email

You’ll need a SENDGRID_SENDER_EMAIL exported in your .env file in order to use SendGrid:

export SENDGRID_SENDER_EMAIL=myemail@domain.com

If this is the same as your HELP_CONTACT_EMAIL you can leave it blank, and the help contact email will be used. Important before using the API this email needs to be added as a known Sender. If it is not, you will get a permission denied error. You also likely want to go to Settings -> Tracking and disable link tracking in email.

SendGrid

To send PDFs (and other emails) from the server, we use SendGrid. This means that you need to sign up for an account (the basic account with 100 emails per day is free) and then add the SENDGRID_API_KEY to your .env file:

export SENDGRID_API_KEY=xxxxxxxxxxxxxxx

Then to create your key:

1. Go to SendGrid and click on Settings -> Api keys in the left bar
2. Click the blue button to “Create API key”
3. Give your key a meaningful name (e.g., freegenes_dev_test)
4. Choose “Restricted Access” and give “Full Access” to mail send by clicking the bar on the far right circle.
5. Copy it to a safe place, likely your settings/config.py (it is only shown once!)

If the value is found to be None, emails will not be sent.

Rate Limits

It’s hard to believe that anyone would want to maliciously issue requests to your server, but it’s unfortunately a way of life. For this reason, all views have a rate limit, along with blocking ip addresses that exceed it (for the duration of the limit, one day). You can customize this:

VIEW_RATE_LIMIT="50/1d"  # The rate limit for each view, django-ratelimit, "50 per day per ipaddress)
VIEW_RATE_LIMIT_BLOCK=True # Given that someone goes over, are they blocked for the period?

And see the django-ratelimit documentation for other options.

Database

For our database, we use Stanford managed SQL. We won’t need this for local development, for which we will use sqlite (a local file database). If you ever need to delete and refresh this local testing database, you can do:

rm db.sqlite3

For deployment, you’ll need to first create your database in cloud managed sql, and export these environment variables in your local .env file:

export MYSQL_HOST=<the.hostname>
export MYSQL_USER=<dbusername>
export MYSQL_PASSWORD=<dbpassword>
export MYSQL_DATABASE=<databasename>

And then at the onset of development, you’ll need to both make and run migrations.

make migrations
make migrate

Sentry for Monitoring

We can create a few account on sentry.io to set up logging for our application, and be alerted if there are any errors. The steps there will walk you through setup, although you primarily just need to export the id number as SENTRY_ID in your local .env and app.yaml.

export SENTRY_ID=https://xxxxxxxxxxxxxxxxxxxxxxxxxxx.ingest.sentry.io/111111

Development

To develop locally, you’ll want to create a local environment and then install dependencies to it.

python -m venv env
source env/bin/activate
pip install  -r requirements.txt

And always source this environment before you start working. Then you will want to source your environment file:

source .env

To make migrations we usually might do this:

python manage.py makemigrations
python manage.py makemigrations main
python manage.py migrate

But to make it easier, there is an included Makefile that can be used to make migrations, and then migrate.

make migrations
make migrate

You also might want to generate the list of initial centers:

$ python manage.py create_centers
Creating Centers:

Creating center MHTTC Network Coordinating Office
Creating center National American Indian & Alaska Native MHTTC
Creating center National Hispanic & Latino MHTTC
Creating center New England MHTTC
Creating center Northeast & Caribbean MHTTC
Creating center Central East MHTTC
Creating center Southeast MHTTC
Creating center Great Lakes MHTTC
Creating center South Southwest MHTTC
Creating center Mid-America MHTTC
Creating center Mountain Plains MHTTC
Creating center Pacific Southwest MHTTC
Creating center Northwest MHTTC
There are a total of 14 centers.

If you need to edit this list, they are in the file at create_centers.py in the users management comands. And then we would typically use the manage.py to run the server.

python manage.py runserver

But there is also a make command that is easier to type:

make run

And then you can open up your browser to http://localhost:8000.

Deployment

1. Request Stanford AFS

If you don’t have a group on Stanford AFS, then you should first request one. This typically maps to a folder in the Stanford AFS web space, and we need this space to create a database there.

2. Request Stanford Managed SQL

Once you have the folder, you can self-request Stanford managed SQL. and the screen will take you immediately to a page with credentials to write into your .env file (for local setup) and your app.yaml (for deployment, discussed next).

3. Populate app.yaml

The app.yaml file that you created from the app-example.yaml (which you absolutely should not put environment variables in) should be populated with your environment variables from the .env file, along with your database credentials. As stated above, since we want to initialize the database from our local machine, we should also write them to the .env file.

4. Remove Migrations

Since we are starting with a fresh database, we can safely remove the many migrations that we made for testing.

rm -rf mhttc/apps/users/migrations/
rm -rf mhttc/apps/main/migrations

5. Setup Database Locally

If you haven’t already, source your environment with the newly added database:

source env/bin/activate
source .env

And then collect static, make migrations, and migrate. This should again create new database tables.

make collect
make migrations
make migrate

You can then run the server locally (using the now relational database instead of sqlite) and see the interface. You can add yourself (and another if needed) as a superuser:

python manage.py createsuperuser

You can also create the default “sister” 13 centers:

$ python manage.py create_centers
Creating Centers:

Creating center MHTTC Network Coordinating Office
Creating center National American Indian & Alaska Native MHTTC
Creating center National Hispanic & Latino MHTTC
Creating center New England MHTTC
Creating center Northeast & Caribbean MHTTC
Creating center Central East MHTTC
Creating center Southeast MHTTC
Creating center Great Lakes MHTTC
Creating center South Southwest MHTTC
Creating center Mid-America MHTTC
Creating center Mountain Plains MHTTC
Creating center Pacific Southwest MHTTC
Creating center Northwest MHTTC
There are a total of 13 centers.

And remember if you want someone to be added to the admin console, they need to be added as follows:

python manage.py add_superuser <username>

6. Add your Center

Since we added ourselves as users to the interface, we will want to edit our user to be associated with a center in the admin console. You can edit users at <hostname>/admin/users/user/ (http://127.0.0.1:8000/admin/users/user/). You won’t need to do this for all subsequent users that are invited via email, as they will select their center upon registration.

7. Test the local interface

And then log in to the interface! It’s good to look/test things now locally before deployment to make sure it works as expected.

make run

8. Google Cloud Permissions

Make sure that app engine is enabled, and that your user account (the email associated with your project) has create permissions for it. If you don’t, you will get a permission denied:

ERROR: (gcloud.app.create) PERMISSION_DENIED: The caller does not have permission

then you should go the IAM and Admin tab and ensure that the account associated with your user email (on your local machine) has proper permissions. If when you are doing the deployment you get a similar error:

ERROR: (gcloud.app.deploy) Error Response: [9] Cloud build 99bd2f7d-b098-41a8-9841-xxxxxxxx status: FAILURE
Build error details: Access to bucket staging.<project>.appspot.com denied. You must grant Storage Object Viewer permission to xxxxxxxx@cloudbuild.gserviceaccount.com.

Then simply follow the instruction! Google permissions are kind of hairy, and I’ve seen different behavior over time. It’s best to grant the minimal permissions you think are needed, and then adjust if necessary based on these messages.

9. Deploy

When you are ready, let’s deploy to app engine! Remember that your app.yaml should be entirely populated. This is where your .gcloudignore is important - anything that you don’t want uploaded to your project should be written there. If you have been working on other projects, make sure that the project associated with the MHTTC server is active:

$ gcloud config set project <myproject>

$ gcloud app create --project=<myproject>

When you are ready, deploy your app!

$ gcloud app deploy
Initializing App Engine resources...done.                                                                                                
Services to deploy:

descriptor:      [/home/vanessa/Desktop/Code/mhttc-web/app.yaml]
source:          [/home/vanessa/Desktop/Code/mhttc-web]
target project:  [project]
target service:  [default]
target version:  [xxxxxxxxx]
target url:      [https://<project>.<region_id>.r.appspot.com]

Do you want to continue (Y/n)?  y

Beginning deployment of service [default]...
╔════════════════════════════════════════════════════════════╗
╠═ Uploading 313 files to Google Cloud Storage                ═╣
╚════════════════════════════════════════════════════════════╝
File upload done.
Updating service [default]...done.                                             
Setting traffic split for service [default]...done.                            
Deployed service [default] to [https://som-mhttcnco.uc.r.appspot.com]

You can stream logs from the command line by running:
  $ gcloud app logs tail -s default

To view your application in the web browser run:
  $ gcloud app browse

In the above we see:

• a confirmation of app metadata
• files uploaded to Google Storage
• the final deployed URL.
• commands to show logs, or open to the url (browse).

Note that the .gcloudignore file is important to not upload your docs, Python environment, or other metadata or secrets. Speaking of environment variables, if you need additional ones you can add them to your app.yml file. Indeed, if you needed to write all of these functions (e.g., build a container, have static files uploaded to storage, etc.) it would have been very cumbersome. But this deployment is in fact incredibly easy! App Engine is great because you pay for what you use, and the base containers are maintained for you. And a few final tips:

• if you need to re-do the storage upload, you can delete the buckets entirely (both for staging and production) and they will be re-generated.

Custom Domain

If you want to add a custom domain, you can purchase it with Google Domains and then follow instructions to use it for App Engine.

Cleaning Up

You should navigate to App Engine –> Settings and then click on “Disable Application” to permanently disable it. Cleaning up also then means:

• deleting the production and staging storage buckets for your app
• deleting the storage artifacts bucket (e.g., logs) if they are not needed.

Remember, your app.yml that has environment variables must not be added to a public GitHub repository, or even a private one for that matter!

The complete details for this deployment are here.

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