First steps

To start using the application you need to install PHP 7.4 with extensions listed below. The dependencies are managed by Composer - it will also validate your environment for required extensions and PHP version.

You can also use a ready-to-use docker container instead of using host installation of PHP, if you have a possibility always use a docker container.

Application requirements:

  • PHP 7.4+ with bcmath, openssl, iconv, ctype, fileinfo, json, pdo, pdo_sqlite, pdo_pgsql, pdo_mysql
  • Composer (PHP package manager)
  • “file” standard unix shell command
  • “sha256sum” unix shell command
  • “openssl” unix shell command
  • MariaDB 10.2+ / SQLite 3 / PostgreSQL 10.12+
  • NodeJS 12.x + NPM (for building simple frontend at installation time)

Notice: For PostgreSQL configuration please check the configuration reference at :ref:`postgresql_support` page

Manual installation

At first you need to create your own customized .env file with application configuration. You can create it from a template .env.dist.

Make sure the APP_ENV is set to prod, and that the database connection settings are valid. On default settings the application should be connecting to a SQLite3 database placed in local file, but please keep in mind, that this is not optimal for production usage.

cd server
cp .env.dist .env
edit .env

To install the application - download dependencies, install database schema use the make task install.

make install install_frontend

All right! The application should be ready to go.

Now set up an NGINX + PHP-FPM or Apache to redirect all traffic to point at /public/index.php

For more help please visit: https://symfony.com/doc/current/setup/web_server_configuration.html

When you have the web server up and running, you can check the health check endpoint.

# "test" is defined in "HEALTH_CHECK_CODE" environment variable
curl http://localhost/health?code=test

Installation with docker

There are at least four choices:

  • Use quay.io/riotkit/file-repository image by your own and follow the configuration reference
  • Generate a docker-compose.yaml using make print VARIANT=”gateway s3 postgres postgres-persistent” in env directory, and create your own environment basing on it
  • Copy the env environment from this repository and adjust to your needs
  • Take a look at our compose in env directory and at configuration reference, then create a Kubernetes or other type deployment

Proposed way to choose is the prepared docker-compose environment that is placed in env directory.

Preparing configuration of the environment:

Before you will run the environment we suggest to take a look at few configuration variables possibly most important for you at the beginning.

  • SECURITY_ADMIN_TOKEN: Will create an admin token for you automatically during container startup
  • BASE_URL: Application URL (in web browser)
edit ./env/.env
# For production usage please pick a fixed version
# List of available tags: https://quay.io/repository/riotkit/file-repository?tab=tags
FILE_REPOSITORY_VERSION=latest-build
BASE_URL=http://localhost:8000

#
# Docker Environment settings
#
COMPOSE_ENV_NAME=fr_tests

#
# This token will be added during File Repository container startup
# please CHANGE IT BEFORE STARTING an application on production
#
# See: https://www.uuidgenerator.net/
# See: Linux command "uuidgen" from e2fsprogs package
#
SECURITY_ADMIN_TOKEN=ca6a2635-d2cb-4682-ba81-3879dd0e8a77

#
# Code required to access health check endpoint
# http://localhost/health?code=test
#
HEALTH_CHECK_CODE=test

#
# PostgreSQL settings (when using PostgreSQL)
#
POSTGRES_USER=riotkit
POSTGRES_DB=rojava
POSTGRES_PASSWORD=rojava

#
# MySQL/MariaDB settings (when using MySQL/MariaDB)
#
MYSQL_DB=rojava
MYSQL_PASSWORD=rojava
MYSQL_USER=riotkit
MYSQL_ROOT_PASSWORD=solidarity-forever

#
# Minio Settings
#
MINIO_DOMAIN=s3-minio-test
MINIO_ACCESS_KEY=international_workers_association
MINIO_SECRET_KEY=six_hour_workingday_for_everybody

#
# Bahub client settings
#
BAHUB_VERSION=dev

#
# Backup collections
#
# To generate a collection type:
#   make sh
#   ./bin/console backup:create-collection -b 5 -o 10mib -c 2gib -s delete_oldest_when_adding_new -f test.gz
#
COLLECTIONS_POSTGRES_ID=946348f2-8f3c-4cf0-8827-650fb044ed39
COLLECTIONS_POSTGRES_SINGLE_DB_ID=74803fcf-6661-41b4-b063-58e8f614661a
COLLECTIONS_POSTGRES_BASE_ID=38358f25-b63e-4d70-bce2-71cda2258f70
COLLECTIONS_WWW_FILES_ID=7682aba1-38f5-4f20-a7c1-d939b3a5b928
COLLECTIONS_MYSQL_ID=43472cc8-a44b-489e-bb43-a867669a5a2c

Starting the example environment:

cd ./env
make up VARIANT="gateway s3 postgres persistent"

Generating a docker-compose example file:

cd ./env
make print VARIANT="gateway s3 postgres persistent"

Production tips:

  • Use external non-containerized database, do backups. If you want to use containers then use replication
  • Do not use SQLite3 for production. Use PostgreSQL or MySQL instead
  • Mount data as volumes. Use bind-mounts to have files placed on host filesystem (volumes can be deleted, bind-mounted files stays anyway)
  • Use SECURITY_ADMIN_TOKEN environment variable to setup an administrative token to be able to log-in into the application
  • For automation, use POST_INSTALL_CMD to execute console commands to create collections and tokens with ids your applications expects

Development environment setup

For development purposes use the “dev” configuration, which mounts the application into the docker container, in effect all changes are present in the application immediately without a rebuild.

You can also run the application with PostgreSQL and/or with S3 as a storage.

cd env
make up VARIANT="test"

# with PostgreSQL as a database
make up VARIANT="dev test postgres"

# bind application on port 80
make up VARIANT="dev test postgres gateway"

# keep all of the changes between environment restarts
make up VARIANT="dev test postgres postgres-persistent gateway"

# to have a good, production type configuration
make up VARIANT="s3 postgres postgres-persistent gateway"

# to have a production type configuration, that can be behind reverse proxy (do not expose ports itself to host)
make up VARIANT="s3 postgres postgres-persistent"

# to have server + Bahub client container and it's test containers
make up VARIANT="dev test postgres bahub-test"
make sh@bahub # here you can perform test backups upload/restore

Please check out the detailed instruction in the README file.

Post-installation

At this point you have the application, but you don’t have access to it - except if you use docker container and specify the SECURITY_ADMIN_TOKEN, then docker container would create an admin token for you. You will need to generate an administrative access token (if you dont have one already), to be able to create new tokens, manage backups, upload files to storage. To achieve this goal you need to execute a simple command.

You need to execute ./bin/console auth:generate-admin-token in the project directory.

So, when you have an administrative token, then you need a second token to upload backups. It’s not recommended to use administrative token on your servers. Recommended way is to generate a separate token, that is allowed to upload a backup to specified collection

To do so, check all available roles in the application:

GET /auth/roles?_token=YOUR-ADMIN-TOKEN-HERE

Note: If you DO NOT KNOW HOW to perform a request, then go to the /api/doc endpoint, type your token and submit a form for given endpoint.

You should see something like this:

{
    "status": true,
    "error_code": null,
    "http_code": 200,
    "errors": [],
    "context": {
        "pagination": {
            "page": 1,
            "perPageLimit": 4096,
            "maxPages": 1
        }
    },
    "message": "Matches found",
    "data": {
        "test-token-full-permissions": "",
        "internal-console-token": "",
        "upload.images": "Allows to upload images",
        "upload.videos": "Allows to upload video files",
        "upload.documents": "Allows to upload documents",
        "upload.backup": "Allows to submit backups",
        "upload.all": "Allows to upload ALL types of files regardless of mime type",
        "upload.enforce_no_password": "Enforce no password for all uploads for this token",
        "upload.enforce_tags_selected_in_token": "Enforce token tags. In result every uploaded file will have tags specified in token regardless if they were sent in request",
        "upload.only_once_successful": "",
        "security.authentication_lookup": "User can check information about ANY token",
        "security.search_for_tokens": "User can browse\/search for tokens",
        "security.overwrite": "User can overwrite files",
        "security.generate_tokens": "User can generate tokens with ANY roles",
        "security.use_technical_endpoints": "User can use technical endpoints to manage the application",
        "security.revoke_tokens": "User can expire other token, so it will be not valid anymore",
        "security.administrator": "Special: Marking - tokens with this marking will not be able to be revoked by non-administrators",
        "security.create_predictable_token_ids": "Allow to specify token id when creating a token",
        "deletion.all_files_including_protected_and_unprotected": "Delete files that do not have a password, and password protected without a password",
        "view.any_file": "Allows to download ANY file, even if a file is password protected",
        "view.files_from_all_tags": "List files from ANY tag that was requested, else the user can list only files by tags allowed in token",
        "view.can_use_listing_endpoint_at_all": "Define that the user can use the listing endpoint (basic usage)",
        "securecopy.stream": "Can use SecureCopy at all?",
        "securecopy.all_secrets_read": "Read SecureCopy secrets: Encryption method, password, initialization vector. With following role can read secrets of any token in the system.",
        "collections.create_new": "Allow person creating a new backup collection",
        "collections.create_new.with_custom_id": "Allow to assign a specific id, when creating a collection",
        "collections.allow_infinite_limits": "Allow creating backup collections that have no limits on size and length",
        "collections.modify_details_of_allowed_collections": "Edit collections where token is added as allowed",
        "collections.modify_any_collection_regardless_if_token_was_allowed_by_collection": "Allow to modify ALL collections. Collection don't have to allow such token which has this role",
        "collections.view_all_collections": "Allow to browse any collection regardless of if the user token was allowed by it or not",
        "collections.can_use_listing_endpoint": "Can use an endpoint that will allow to browse and search collections?",
        "collections.manage_tokens_in_allowed_collections": "Manage tokens in the collections where our current token is already added as allowed",
        "collections.delete_allowed_collections": "Delete collections where token is added as allowed",
        "collections.upload_to_allowed_collections": "Upload to allowed collections",
        "collections.list_versions_for_allowed_collections": "List versions for collections where the token was added as allowed",
        "collections.delete_versions_for_allowed_collections": "Delete versions only from collections where the token was added as allowed"
    }
}

To allow only uploading and browsing versions for assigned collections you may choose:

POST /auth/token/generate?_token=YOUR-ADMIN-TOKEN-THERE
{
    "roles": ["upload.backup", "collections.upload_to_allowed_collections", "collections.list_versions_for_allowed_collections"],
    "data": {
        "tags": [],
        "allowedMimeTypes": [],
        "maxAllowedFileSize": 0
    }
}

As the response you should get the token id that you need.

Remember the tokenId, now you can create collections and grant access for this token to your collections. Generated token will be able to upload to collections you allow it to.

Check next steps:

  1. Collection creation
  2. Assigning a token to the collection

That’s all.