As any web application, Oro application generally follows a client – server architecture to deliver the web content prepared by the server-side stack to the client-side and deliver response. Oro application rely on the number of embedded, integrated, and distributed technologies explained below.
A client, whether it is a web-browser or a third-party application connected via the API, makes requests to the Oro application server-side to get the application content or JSON response. Information received in response from the server-side may be used:
- By the web browser – to render or update the web page shown to the end user.
- By the third party application – to launch data synchronization, trigger actions in Oro applications or other integrated systems.
Oro applications supports the following web browsers:
- Mozilla Firefox (latest version)
- Google Chrome (latest version)
- Microsoft Internet Explorer (v.11 and above)
- Microsoft Edge (latest version)
- Safari (latest version)
Out of the box, Oro Applications are mobile friendly due to the responsive and adaptive UI.
In addition to the HTTP connections, Oro applications establish websocket connections between web browsers and server side for the real-time communication (e.g. status notifications, alerts, etc.)
On the server-side, the Oro application is composed of the multiple systems and elements that interact to deliver a reliable, scalable, and responsive Oro solution. They are detailed in the following sections.
Oro PHP Application¶
The core component, let us call it Oro PHP Application, is a modular PHP web application that leverage the Symfony framework and Doctrine ORM strengths. It interacts with the following system components:
- Database and RDBMS
- Web Server and PHP
- Message Queue
- Search Engine
Database and RDBMS¶
Oro application uses the database to store application data and uses Doctrine database abstraction layer (DBAL) and object-relational mapper (ORM) to interact with the database. That enables out of the box support of various databases enabled by Doctrine. On top of that, in Oro application, Doctrine capabilities are extended with additional database functions in the Oro Doctrine Extensions library. Currently the extended functions are supported for MySQL and PostgreSQL databases only.
- MySQL in CE and EE
- PostgreSQL in EE only (for scalability)
For implementation details, see Database System Component topic for more information about the database component.
Web Server and PHP¶
A web server is an HTTP server that manages client requests and proxies them to the Oro PHP Application. Web server may rely on the PHP-FPM to process requests to Oro PHP Application and prepare the response.
Oro application uses Message Queue to enable asynchronous processing for the heavy jobs that, when executed immediately, may cause performance degradation. For example, reindexation of a large volume of data, creation of large bulks of items, etc. is usually handled via MQ consumers. To process the queued messages, Oro application uses a proprietary consumer service. It is running as a daemon and handles all the asynchronous jobs (messages) registered within a Message Queue. Consumer service is scalable and can run as a parallel processes and/or on multiple servers to handle a large volume of asynchronous processes. Number of processes required depends on the server capacity. To guarantee the acceptable response time and address spikes in the server-side workload, you can scale the message processing by adding more consumer services on demand.
Supported MQ solutions:
- Proprietary DB-based MQ in CE and EE
- RabbitMQ in EE only (for scalability)
For implementation details, see Message Queue topic for more information about the message queue component.
Oro application uses Search Index to enable full-text search and speed up the run-time access to the large amounts of application data.
Supported search index providers:
For implementation details, see Search Index topic for more information about the search index component.
Notes on Deployment Options¶
For a compact and resource-efficient deployment, all systems and elements of the Oro application may be hosted on a single physical or virtual server instance. For scalable high-load deployments: Multiple instances of Oro application may be hosted on their dedicated web servers, where the load balancer directs client requests to the necessary web server. All systems and elements of the Oro application may be hosted on their own dedicated server and could be scaled separately.
Next step: Oro PHP Application Structure