Chromium Blog
News and developments from the open source browser project
Distributed Reliability Testing
2009年2月25日水曜日
We want Google Chrome to be as stable as possible. No matter what site you browse to or what you do, Chrome should never crash. A system we call "distributed reliability testing" is one of the main tools we use to help turn that goal into reality.
One of the advantages to being associated with Google is that we have access to a lot of information about the Web, and a lot of computers to test on. About once an hour, our distributed test infrastructure takes the very latest version of Google Chrome in development and uses it to automatically load a large number of the pages that Google has seen are most popular around the world. When it's done, it produces a report like this on the
Buildbot waterfall
that all our developers (and anyone else) can see:
Results for top 500 web sites:
success: 499; crashes: 0; crash dumps: 0; timeout: 1
Results for top 500 web sites without sandbox:
success: 463; crashes: 0; crash dumps: 0; timeout: 2
Results for extended list of web sites:
success: 99768; crashes: 3; crash dumps: 3; timeout: 463
Here the final test got through a bit over 100,000 pages before stopping to make way for the next build to be tested. And before each
Dev, Beta, or Stable channel
release, we run with a much larger number of URLs.
In addition, we "fuzz-test" the user interface, automatically performing arbitrary sequences of actions (opening a new tab, pressing the spacebar, opening various dialogs, etc. — a total of more than 30 possible actions). These are also run in our distributed testing architecture, so we can exercise thousands of combinations for each new version of Google Chrome in progress. The same report that shows the page-load results above collects these UI test results too:
Results for automated UI test:
success: 64643; crashes: 0; crash dumps: 0; timeout: 0
This sort of large-scale testing is great for finding crashes that happen only rarely, or that only affect pages that developers wouldn't have visited as part of their haphazard manual testing. By catching a problem right away even if it's very rare, it's easier for developers to figure out what change caused the error and fix it before it ever gets close to showing up in Google Chrome itself.
Posted by Pamela Greene and Patrick Johnson, Software Engineers
Spell Check Dictionary Improvements
2009年2月11日水曜日
If you're anything like us, you're spending more and more of your time working online. The spellchecker built into Chromium can be a big help in keeping your blog, email, documents, and forum postings spelled correctly and easy to read. Chromium integrates the popular open source library
Hunspell
with
WebKit's
built-in spellchecking infrastructure to check words and to provide suggestions in 27 different languages.
The Hunspell dictionary maintainers have done a great job creating high-quality dictionaries that anybody can use, but one of the problems with any dictionary is that there are inevitably omissions, especially as new words appear or proper nouns come into common use. We at Google are in a good position to use our knowledge of the internet to identify and fix some of these omissions. The Google translation team used their language models to generate a sorted list of the most popular words in each language. This was cross-checked with the Hunspell dictionaries to generate a list of the top 1000 words not present in each dictionary. This list includes many popular words, but also common misspellings. To remove these words, each list was reviewed by specialist in that language. Generally, we tried to keep proper nouns and even foreign words as long as they were in common usage.
We hope that by using the the existing GPL/LGPL/MPL tri-license for our addition, our work can be picked up by other users of Hunspell. We also hope to make more improvements in the future, both for additional languages like Turkish, and to refine the word lists we already have. If you're passionate about your language, you can
help out
by writing affix rules for the added words or reviewing more word lists.
The recent
dev-channel
release of Google Chrome (2.0.160.0) has the additional words we generated for 19 of the languages. Hopefully, you'll see fewer common words marked as misspelled. For example, the English dictionary now includes "antivirus," "anime," "screensaver," and "webcam," and commonly used names such as "BibTeX," "Mozilla," "Obama," and "Wikipedia." For our scientific users, we even have "
gastroenterology
," "
oligonucleotide
," and "
Saccharomyces
"! We'd like to give special thanks to the great help we got from the translation team who generated the words and the language search specialists who reviewed the lists.
Posted by Brett Wilson and Siddhartha Chattopadhyay, Software Engineers
Irregexp, Google Chrome's New Regexp Implementation
2009年2月4日水曜日
One of the new features in the most recent
dev-channel
release of Google Chrome (2.0.160.0) is Irregexp, a completely new implementation of
regular expressions
(regexps) in the V8 JavaScript engine. Irregexp builds on V8's existing infrastructure for memory management and native code generation and is tailored to work well for the kinds of regexps used by JavaScript programs on the web. The result is a considerable improvement in V8's regexp performance.
While the V8 team has been working hard to improve JavaScript performance, one part of the language that we have so far not given much attention is regexps. Our previous implementation was based on the widely used
PCRE
library developed by Philip Hazel at the University of Cambridge. The version we used, known as JSCRE, was adapted and improved by the WebKit project for use with JavaScript. Using JSCRE gave us a regular expression implementation that was compatible with industry standards and has served us well. However, as we've improved other parts of the language, regexps started to stand out as being slower than the rest. We felt it should be possible to improve performance by integrating with our existing infrastructure rather than using an external library. The SquirrelFish team is following a similar approach with their JavaScript engine.
A fundamental decision we made early in the design of Irregexp was that we would be willing to spend extra time compiling a regular expression if that would make running it faster. During compilation Irregexp first converts a regexp into an intermediate
automaton
representation. This is in many ways the "natural" and most accessible representation and makes it much easier to analyze and optimize the regexp. For instance, when compiling /Sun|Mon/ the automaton representation lets us recognize that both alternatives have an 'n' as their third character. We can quickly scan the input until we find an 'n' and then start to match the regexp two characters earlier. Irregexp looks up to four characters ahead and matches up to four characters at a time.
After optimization we generate native machine code which uses backtracking to try different alternatives. Backtracking can be time-consuming so we use optimizations to avoid as much of it as we can. There are
techniques
to avoid backtracking altogether but the nature of regexps in JavaScript makes it difficult to apply them in our case, though it is something we may implement in the future.
During development we have tested Irregexp against one million of the most popular webpages to ensure that the new implementation stays compatible with our previous implementation and the web. We have also used this data to create a new benchmark which is included in version 3 of the
V8 Benchmark Suite
. We feel this is a good reflection of what is found on the web.
If you want to try this out, and help us test it in the process, you can subscribe to the
dev-channel
and if you see problems that might be related to Irregexp consider filing a
bug
.
And BTW, we'll have sessions on V8 and other Chrome-related topics in May at
Google I/O
, Google's largest developer conference.
Posted by Erik Corry, Christian Plesner Hansen and Lasse Reichstein Holst Nielsen, Software Engineers
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