CSC/ECE 517 Fall 2015/M1506-Refactor-GLES2-Implementation: Difference between revisions
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./mach run [url] -G GL or ./mach run [url] --graphics GL (for GL) | ./mach run [url] -G GL or ./mach run [url] --graphics GL (for GL) | ||
./mach run [url] -G ES2 or ./mach run [url] --graphics ES2 (for ES2) | ./mach run [url] -G ES2 or ./mach run [url] --graphics ES2 (for ES2) | ||
* | * This option selected is passed onto the rust-layers, which is modified to support ES2 for both linux and android versions. Hence, based on the option selected by the user, rust-layers renders the corresponding graphic backend on linux and android targets.To achieve this, the main changes are done in the platform to remove the EGL specific implementation from the Android platform to a more generic one, so that it can be used by both android and linux systems. | ||
<center>[[File:RefactorGLESMozilla.png]]</center> | <center>[[File:RefactorGLESMozilla.png]]</center> |
Revision as of 23:18, 3 December 2015
' Refactor GLES2 Student Project with SERVO & RUST '
Servo is a prototype web browser engine written in the RUST language.Servo uses a variety of back-end implementations for drawing graphics depending on the operating system.One of such back-end is only compatible with Android right now, and we want to extend and refactor that back-end to enable on all Linux systems..
Introduction
Servo
ServoServo is an open source prototype web browser layout engine being developed by Mozilla, and it is written in Rust language. The main idea is to create a highly parallel environment, in which different components can be handled by fine grained, isolated tasks. The different components can be rendering, HTML parsing, etc.
Rust
Rust is an open source systems programming language developed by Mozilla. Servo is written in Rust. The main purpose behind it's design is to be thread safe and concurrent. The emphasis is also on speed, safety and control of memory layout.
Project Description
Setup of Development environment
- Servo can be built and compiled in the following steps:
Servo is built with Cargo, the Rust package manager. Mozilla's Mach tools are used to orchestrate the build and other tasks.
git clone https://github.com/servo/servo cd servo ./mach build --dev ./mach run tests/html/about-mozilla.html
- Next, we need a cargo override for servo to use our local copy of Rust-layers. For this, we created a
.cargo
folder in our home directory(same place that servo and Rust-layers reside), and added aconfig
file to that folder. The content of that config file is a path to our local Rust-layers.
paths = [path/to/rust_layers]
Overview
- After building servo and rust-layers successfully, we added a new command line argument in Servo, which would allow user to select the graphics backend (GL or ES2).
Example is as below
./mach run [url] -G GL or ./mach run [url] --graphics GL (for GL) ./mach run [url] -G ES2 or ./mach run [url] --graphics ES2 (for ES2)
- This option selected is passed onto the rust-layers, which is modified to support ES2 for both linux and android versions. Hence, based on the option selected by the user, rust-layers renders the corresponding graphic backend on linux and android targets.To achieve this, the main changes are done in the platform to remove the EGL specific implementation from the Android platform to a more generic one, so that it can be used by both android and linux systems.
Requirement Analysis
Earlier, only OpenGL implementation was supported for Android targets and we would be extending the ES2 implementation to support it for Linux targets. As a part of the final project, we accomplished the following steps:
- Enable selection of the render api working from the command line, so the user can pick whether to use GL or ES2
- Modify the necessary files so that the current version of GL or ES2 are returned whenever either of them are selected
- Make the EGL libs available on Linux for rust-layers to compile rust-egl on Linux build.
- Separate out the EGLImageNativeSurface implementation from Android and move it to EGL
- Enable use of EGL or GLX for Linux
Implementation
Servo
Servo/components/utils/opts.rs
added the new command line option to enable user to select the option of GL or ES2 as the rendering backend. The options of GL or ES2 are stored as an enum called RenderApi , such that running the Servo with option --render-api=chosen_option sets the corresponding Api.
Servo/ports/glutin/window.rs
gl_version()
function is modified in a way that based on what is selected as the RenderApi option by the user, the corresponding version of the Api is set. To talk more in detail, if the render api is set to GL, it returns the current value (GL 2.1) & if set to ES2, it returns OpenGlEs 2.0.
native_display()
for linux target is also modified to call the specific NativeDisplay constructor based on the RenderApi option chosen by the user. Hence for the GL case, the existing NativeDisplay::new constructor is called, but if ES2 is selected, NativeDisplay::from_es2() is called, which has been introduced by us in an attempt to support ES2 for the linux platform as well.
Rust-Layers
rust-layers/cargo.toml
In order to make the egl libraries available to the Linux too, the cargo.toml is edited which defines the different dependencies that various platforms has. Before, the dependency on rust-egl was added only for android targets but now these dependencies have been added for Linux targets as well.
rust-layers/src/platform/egl/surface.rs
In order to support EGL for both linux and android targets, we moved the implementation of EGLImageNativeSurface
from the android specific surface.rs
and introduced a new folder egl
which contains its own surface.rs
and implements a generic EGLImageNativeSurface
rust-layers/src/lib.rs
Since egl needs to be supported for linux too now, the extern crate egl call needs to be linked on Linux as well now. Hence in the cfg flag, the target_os="linux" is added in addition to android.
In the pub mod platform { }, introduced a new pub mod egl {} section to pull in the new egl/surface.rs
implemented for both android and linux targets.
rust-layers/src/platform/linux/surface.rs
In order to ensure that ES2 is supported for linux targets too, we need to enable the use of EGL & GLX in the linux specific surface.rs
A new enum is created for NativeDisplay which has two different values of EGLDisplayInfo
& GlxDisplayInfo
and respectively, two constructors are created . The existing NativeDisplay::new constructor is modified to return NativeDisplay::Glx(info)
for the GL version , and the NativeDisplay::from_es2() constructor introduced earlier can return NativeDisplay::::Egl(egl_info)
for the ES2 version.
rust-layers/src/platform/surface.rs
Earlier, the android target was using its own surface.rs
and the linux target was using its own surface.rs
. But after the implementation of egl/surface.rs
, changes were made to platform surface.rs
which uses the egl surface.rs for both android and linux now.
Useful libraries
waffle-gl/waffle: A C library for selecting an OpenGL API and window system at runtime.
Design Pattern
The aim is to use ES2 implementation of rust layers for both android and Linux. So we need to use a design pattern that will allow us to extend the current implementation to support Linux targets too and give the user the flexibility to choose between the two implementations for rendering the backend.
We propose to use Decorator pattern. The decorator pattern gives the user the ability to choose between the implementations that are desired, and attach the corresponding implementation to the target dynamically at runtime.
References
1. https://doc.rust-lang.org/stable/book/
2. https://en.wikipedia.org/wiki/Rust_(programming_language)
3. https://en.wikipedia.org/wiki/Servo_(layout_engine)
4. https://github.com/servo/servo/wiki/Refactor-GLES2-student-project
5. http://doc.crates.io/guide.html#overriding-dependencies
6. http://rustbyexample.com/
7. http://javarevisited.blogspot.com/2014/11/strategy-design-pattern-in-java-using-Enum-Example.html