CSC/ECE 517 Fall 2014/oss M1453 sst: Difference between revisions
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===Installing dependencies for Servo=== | ===Installing dependencies for Servo=== | ||
The following are the commands to install dependencies for servo on different platforms:<ref name="Installing servo">https://github.com/servo/servo</ref> | The following are the commands to install dependencies for servo on different platforms:<ref name="Installing servo">https://github.com/servo/servo</ref> | ||
On OS X (homebrew): | On OS X (homebrew): | ||
brew install automake pkg-config python glfw3 cmake | brew install automake pkg-config python glfw3 cmake |
Revision as of 06:30, 27 October 2014
Expand the coverage of the developer tools for inspecting web content in Servo remotely from a Firefox browser - requires the ability to read JavaScript code in Firefox
Background Information
Firefox supports remote debugging - i.e. communicating with an arbitrary server that implements a protocol for exposing information about web content. Servo implements a very basic developer tools server that currently supports executing JS remotely and investigating the DOM tree in the document inspector. We want to expand these capabilities by allowing remote modification of the DOM tree, better JS console integration (exposing historical and real-time exceptions), and enabling server->client messages that are not responses to client->server messages.
Developer tools
The Mozilla debugging protocol allows a debugger to connect to a browser, discover what sorts of things are present to debug or inspect, select JavaScript threads to watch, and observe and modify their execution. The protocol provides a unified view of JavaScript, DOM nodes, CSS rules, and the other technologies used in client-side web applications. The protocol ought to be sufficiently general to be extended for use with other sorts of clients (profilers, say) and servers (mail readers; random XULrunner applications). <ref name="Remote debugging tools in Mozilla">https://wiki.mozilla.org/Remote_Debugging_Protocol</ref>
All communication between debugger (client) and browser (server) is in the form of JSON objects. This makes the protocol directly readable by humans, capable of graceful evolution, and easy to implement using stock libraries. In particular, it should be easy to create mock implementations for testing and experimentation.
The protocol operates at the JavaScript level, not at the C++ or machine level, and assumes that the JavaScript implementation itself is healthy and responsive. The JavaScript program being executed may well have gone wrong, but the JavaScript implementation's internal state must not be corrupt. Bugs in the implementation may cause the debugger to fail; bugs in the interpreted program must not.
Setting up remote debugging
Firefox acts as the client and provides the user interface to control the developer tools. The guide to explain how to use remote debugging to inspect or debug code running in Firefox is here
Servo
Servo is an experimental web browser engine under development by Mozilla Research. It is an ambitious project aimed at rebuilding the browser on modern parallel hardware. Servo aims at addressing the causes of security vulnerabilities while designing a platform that can fully utilize the performance of tomorrow’s massively parallel hardware to enable new and richer experiences on the Web. Servo is written in Rust, a new type safe, systems language which is authored by Mozilla.
Mozilla has paired up with Samsung which will port this advanced technology Web browser engine to Android and ARM. Samsung will contribute a ARM back end to Rust and the necessary infrastructure to cross-compile to Android along with other improvements.
The mission of the experimental engine is to take advantage of tomorrow’s faster, multi-core, heterogeneous computing architectures. The prototype seeks to create a highly parallel environment, in which typical web browser components such as rendering, layout, HTML parsing, image decoding will be handled by specific and disjoint tasks, thus achieving the objective of optimal usage of parallel architecture.
Rust
Rust is a new programming language designed to support concurrency and parallelism in building platforms both in functional and object-oriented paradigms that take full advantage of modern hardware. Its static type system is safe and expressive and it provides strong guarantees about isolation, concurrency execution and memory safety.
Rust combines powerful and flexible modern programming constructs with a clear performance model to make program efficiency predictable and manageable. One important way it achieves this is by allowing fine-grained control over memory allocation through contiguous records and stack allocation. This control is balanced with the absolute requirement of safety: Rust’s type system and runtime guarantee the absence of data races, buffer overflow, stack overflow or access to uninitialized or deallocated memory. There are a number of ways to install Rust, but the easiest is to use the rustup script. If you're on Linux or a Mac, all you need to do is this:
$ curl -s https://static.rust-lang.org/rustup.sh | sudo sh
(If you're concerned about curl | sudo sh, check references).<ref name="building-from-source">https://github.com/rust-lang/rust</ref><ref name="lang-install">http://www.rust-lang.org/install.html</ref> If you're on Windows, please download either the 32-bit installer or the 64-bit installer and run it.
Uninstalling Rust
$ curl -s https://static.rust-lang.org/rustup.sh | sudo sh -s -- --uninstall
If you used the Windows installer, just re-run the .exe and it will give you an uninstall option.
Project Description
Installing dependencies for Servo
The following are the commands to install dependencies for servo on different platforms:<ref name="Installing servo">https://github.com/servo/servo</ref>
On OS X (homebrew):
brew install automake pkg-config python glfw3 cmake pip install virtualenv
On OS X (MacPorts):
sudo port install python27 py27-virtualenv cmake
On Debian-based Linuxes:
sudo apt-get install curl freeglut3-dev \ libfreetype6-dev libgl1-mesa-dri libglib2.0-dev xorg-dev \ msttcorefonts gperf g++ cmake python-virtualenv \ libssl-dev libglfw-dev
On Fedora:
sudo yum install curl freeglut-devel libtool gcc-c++ libXi-devel \ freetype-devel mesa-libGL-devel glib2-devel libX11-devel libXrandr-devel gperf \ fontconfig-devel cabextract ttmkfdir python python-virtualenv expat-devel \ rpm-build openssl-devel glfw-devel cmake pushd . cd /tmp wget http://corefonts.sourceforge.net/msttcorefonts-2.5-1.spec rpmbuild -bb msttcorefonts-2.5-1.spec sudo yum install $HOME/rpmbuild/RPMS/noarch/msttcorefonts-2.5-1.noarch.rpm popd
On Arch Linux:
sudo pacman -S base-devel git python2 python2-virtualenv mesa glfw ttf-font cmake
Building Servo
Usage
mach [global arguments] build [command arguments]
Global Arguments
-v, --verbose Print verbose output. -l FILENAME, --log-file FILENAME Filename to write log data to. --log-interval Prefix log line with interval from last message rather than relative time. Note that this is NOT execution time if there are parallel operations. --log-no-times Do not prefix log lines with times. By default, mach will prefix each output line with the time since command start. -h, --help Show this help message.
Command Arguments
--target TARGET, -t TARGET Cross compile for given target platform --release, -r Build in release mode --jobs JOBS, -j JOBS Number of jobs to run in parallel --android Build for Android --verbose, -v Print verbose output
Running Servo
Usage
mach [global arguments] run [command arguments]
Global Arguments
-v, --verbose Print verbose output. -l FILENAME, --log-file FILENAME Filename to write log data to. --log-interval Prefix log line with interval from last message rather than relative time. Note that this is NOT execution time if there are parallel operations. --log-no-times Do not prefix log lines with times. By default, mach will prefix each output line with the time since command start. -h, --help Show this help message.
Command Arguments
params Command-line arguments to be passed through to Servo
Implementation
This project mainly aims at expanding the remote debugging capabilities provided by Servo. The current implementation provides a developer tools server which currently supports executing JS remotely and investigating the DOM tree in the document inspector. The scope of this project is to expand the coverage of remote debugging capabilities. These include:
- remote modification of the DOM tree
- better exposure of exception in JS console
- enable Server-Client messages.
Work done in Part 1
Build Servo
Setup a local instance of Servo. Install the dependencies and successfully build Servo. Reproduce the problem of Servo window getting hung up when opened with an instance of devtools.
Fixing the issue of successful Servo Exit
This issue was fixed by sending an Exit message to the developer tools. On browser close, a ServerExitMsg
message is sent from the handle_exit
method in the constellation.rs
file.
Storing and exiting connections
The accepted streams were stored in a Mutable Vector
in the devtools/lib.rs
file. On the exit of Servo the corresponding read and write end of the stream were closed successfully.
The following two files were modified to include the new code.
Future Scope
- Separate devtools event handling from script handling tasks.
- Implement client server messages to update the attribute values of a HTML node.
- Send a console message to the developer tools server.
- Synchronously fetch the cached messages from tasks.
- Create an error reporter for error logging and notification.
- Dynamic buffering and sending of messages to Developer Tools.
- Support for disparate client reading and writing.
- Send a detailed error message to the client when an error is reported to the tasks.
References
<references/>