by Greg Simon & Eric Seidel
Blink is Chrome's open-source rendering engine. The Blink team is evolving the web and addressing the issues encountered by developers.
There have been a number of behind-the-scenes improvements started since our April launch.
First thing we did was to delete half our source, which we didn't necessarily need. We're still not done! And we're not doing this blind: code removal is based on anonymously reported aggregate statistics from Chrome users who opt in to reporting.
We publish a new developer API every six weeks: the same as Chrome's shipping schedule is.
One big change we made when we forked from Blink was to add an intents system: every time before we're going to change the web platform, we send a public announcement to Blink dev announcing our intent to add or remove a feature. Then we go off, and we code it! And then the very next day after the feature is checked in, it's already there shipping in our Canary builds. This feature is off by default, but you can turn it on using about:flags.
At chromestatus.com you can see the features we've worked on, the features we've shipped, and those we're planning to deprecate. You can also check the Chromium Releases blog, which has links to bugs and to our tracker dashboard.
Another big change is that we're removing WebKit prefixes. The intent is not to use Blink prefixes, but to have run-time flags (and not just compile-time flags).
Android WebView has been a big challenge – but HTML5Test shows that things are getting better. We're much closer to desktop in terms of having one set of web platform APIs everywhere (Web Audio is a great example of this!)
But how does the sausage machine work? Every single change we make to Blink is immediately run through over 30,000 tests, not to mention all the Chromium tests that run additionally later. We use 24 hour sheriffing, with thousands of bots, thousands of benchmarks, and systems that throw millions of broken web pages at our engine to make sure it doesn't fall over. We know that mobile is significantly slower, and this is something we're working hard to improve.
So what's new?
We want to know what you have to say!
If you feel C++ in your blood and want to write C++ with us, all of our code is open. You don't have to tell anybody or evangelize to us. You can just simply post a patch or file a bug!
by Parisa Tabriz
More people are connected to the web today than ever before – and from more places.
We're connected with our laptops, phones and tablets, and probably soon enough with personal devices and accessories. We access the internet from untrusted and sometimes even hostile networks. With so much of our lives moving online, it's imperative we take steps to protect our data and our users' data.
Above all, as developers we need to understand the necessity and practicality of SSL.
What's SSL? It stands for Secure Sockets Layer, and it's a cryptographic protocol designed to provide communication security over the internet. It guarantees privacy, via encryption and integrity, to prevent snooping or tampering with your internet connection. SSL has it's flaws, but it's the leading way – and really the only way – to ensure any kind of data communication security on the internet.
According to SSL Pulse, a year ago we had about just under 15% of SSL adoption; we're now over 50% adoption.
TLS: for most intents and purposes the same as SSL. To be precise, SSL 3.1 was renamed to TLS, and TLS is the IETF Standard name. But they're interchangeable!
HTTPS: this is HTTP over SSL, just the layering of the security capabilities of SSL and standard HTTP. First the client–server handshake, using public/private key cryptography to create a shared key – which is used by the second part of the SSL protocol to encrypt communication.
Networking on the internet may feel safe, immediate and fast. It feels like we're talking directly to the website. But in reality, it's not a direct connection. Our communications go via a wifi router, an ISP, and potentially other intermediary proxies between your device and the website. Without HTTPS, all our communications is in plain text.
Trouble is, users rarely type in a full URL specifying HTTPS – or they click a link using HTTP. Worse, it's possible to mount a (wo)man-in-the-middle attack and replace HTTPS with HTTP. A tool called SSLstrip introduced in 2009 does just that. Firesheep, from 2010, just listened to opened wifi networks for cookies being sent in the clear: that meant you could listen in on chat, or log in to someone's Facebook account.
But SSL is (relatively) cheap, fast and easy to deploy (check out ssllabs.com and Ilya Grigorik's book High Performance Browser Networking). For non-commercial use, you can even get free certificates from startssl.com! Public Key Pinning is designed to give website operators a means to restrict which certificate authorities can actually issue certificates for their sites.
"In January this year (2010), Gmail switched to using HTTPS for everything by default. .. In order to do this we had to deploy no additional machines and no special hardware. On our production frontend machines, SSL accounts for < 1% of the CPU load, < 10 KB of memory per connection, and < 2% of network overhead…
If you stop reading now you only need to remember one thing: SSL is not computationally expensive any more.”
– Overclocking SSL, Adam Langley (Google)
Lastly, a couple of bugs we see most commonly:
Slides: Got SSL?
by Sam Dutton & Jan Linden
Along with a proliferation of new devices and platforms on the web, we're seeing huge growth in audio, video and realtime communication. Online media is transforming the way we consume media of all kinds.
A UK government study found that 53% of adults 'media multi-task' while watching TV: using mobile devices to share and consume media. In many countries TV viewing is down and online viewing is up. In China, for example, in 2012 only 30% of households in Beijing watched TV, down from 70% in 2009. According to the W3C Highlights 2013, 'In the past year video-watching on mobile devices has doubled. This year in the US, the average time spent with digital media per day will surpass TV viewing. Viewing is no longer a passive act. In the US, 87% of entertainment consumers say they use at least one second-screen device while watching television.' According to Cisco 'video ... will be in the range of 80 to 90 percent of global consumer traffic by 2017'. That equates to nearly a million minutes of video every second.
So what do we have for web developers? An ecosystem of media APIs for the open Web: standardized, interoperable technologies that work across multiple platforms.