Security Blog
The latest news and insights from Google on security and safety on the Internet
An update on SHA-1 certificates in Chrome
18 décembre 2015
Posted by Lucas Garron, Chrome security and David Benjamin, Chrome networking
As
announced last September
and supported by
further recent research
, Google Chrome does not treat SHA-1 certificates as secure anymore, and will completely stop supporting them over the next year. Chrome will discontinue support in two steps: first, blocking new SHA-1 certificates; and second, blocking all SHA-1 certificates.
Step 1: Blocking new SHA-1 certificates
Starting in early 2016 with Chrome version 48, Chrome will display a certificate error if it encounters a site with a leaf certificate that:
is signed with a SHA-1-based signature
is issued on or after January 1, 2016
chains to a public CA
We are hopeful that no one will encounter this error, since public CAs must stop issuing SHA-1 certificates in 2016 per the
Baseline Requirements for SSL
.
In addition, a later version of Chrome in 2016 may extend these criteria in order to help guard against SHA-1 collision attacks on older devices, by displaying a certificate error for sites with certificate chains that:
contain an intermediate or leaf certificate signed with a SHA-1-based signature
contain an intermediate or leaf certificate issued on or after January 1, 2016
chain to a public CA
(Note that the first two criteria can match different certificates.)
Note that sites using new SHA-1 certificates that chain to local trust anchors (rather than public CAs) will continue to work without a certificate error. However, they will still be subject to the UI downgrade specified in our
original announcement
.
Step 2: Blocking all SHA-1 certificates
Starting January 1, 2017 at the latest, Chrome will completely stop supporting SHA-1 certificates. At this point, sites that have a SHA-1-based signature as part of the certificate chain (not including the self-signature on the root certificate) will trigger a fatal network error. This includes certificate chains that end in a local trust anchor as well as those that end at a public CA.
In line with
Microsoft Edge
and
Mozilla Firefox
, the target date for this step is January 1, 2017, but we are considering moving it earlier to July 1, 2016 in light of ongoing research. We therefore urge sites to replace any remaining SHA-1 certificates as soon as possible.
Note that Chrome uses the certificate trust settings of the host OS where possible, and that an update such as Microsoft’s
planned change
will cause a fatal network error in Chrome, regardless of Chrome’s intended target date.
Keeping your site safe and compatible
As individual TLS features are found to be too weak, browsers need to drop support for those features to keep users safe. Unfortunately, SHA-1 certificates are not the only feature that browsers will remove in the near future.
As we
announced
on our security-dev mailing list, Chrome 48 will also stop supporting RC4 cipher suites for TLS connections. This aligns with timelines for
Microsoft Edge
and
Mozilla Firefox
.
For security and interoperability in the face of upcoming browser changes, site operators should ensure that their servers use SHA-2 certificates, support non-RC4 cipher suites, and follow TLS best practices. In particular, we recommend that most sites support TLS 1.2 and prioritize the ECDHE_RSA_WITH_AES_128_GCM cipher suite. We also encourage site operators to use tools like the
SSL Labs server test
and
Mozilla's SSL Configuration Generator
.
Indexing HTTPS pages by default
17 décembre 2015
Posted by
Zineb Ait Bahajji
, WTA, and the Google Security and Indexing teams
[Cross-posted from the
Webmaster Central Blog
]
At Google, user security has always been a top priority. Over the years, we’ve worked hard to promote a more secure web and to provide a better browsing experience for users.
Gmail
,
Google search
, and YouTube have had secure connections for some time, and we also started giving a slight
ranking boost to HTTPS URLs
in search results last year. Browsing the web should be a private experience between the user and the website, and must not be subject to
eavesdropping
,
man-in-the-middle attacks
, or data modification. This is why we’ve been strongly promoting
HTTPS everywhere
.
As a natural continuation of this, today we'd like to announce that we're adjusting our indexing system to look for more HTTPS pages. Specifically, we’ll start crawling HTTPS equivalents of HTTP pages, even when the former are not linked to from any page. When two URLs from the same domain appear to have the same content but are served over different protocol schemes, we’ll typically choose to index the HTTPS URL if:
It doesn’t contain insecure dependencies.
It isn’t blocked from crawling by robots.txt.
It doesn’t redirect users to or through an insecure HTTP page.
It doesn’t have a rel="canonical" link to the HTTP page.
It doesn’t contain a noindex robots meta tag.
It doesn’t have on-host outlinks to HTTP URLs.
The sitemaps lists the HTTPS URL, or doesn’t list the HTTP version of the URL.
The server has a valid TLS certificate.
Although our systems prefer the HTTPS version by default, you can also make this clearer for other search engines by redirecting your HTTP site to your HTTPS version and by implementing the
HSTS header
on your server.
We’re excited about taking another step forward in making the web more secure. By showing users HTTPS pages in our search results, we’re hoping to decrease the risk for users to browse a website over an insecure connection and making themselves vulnerable to content injection attacks. As usual, if you have any questions or comments, please let us know in the comments section below or in our
webmaster help forums
.
Proactive measures in digital certificate security
11 décembre 2015
Posted by Ryan Sleevi, Software Engineer
Over the course of the coming weeks, Google will be moving to distrust the “Class 3 Public Primary CA” root certificate operated by Symantec Corporation, across Chrome, Android, and Google products. We are taking this action in response to a
notification by Symantec Corporation
that, as of December 1, 2015, Symantec has decided that this root will no longer comply with the
CA/Browser Forum’s Baseline Requirements
. As these requirements reflect industry best practice and are the foundation for publicly trusted certificates, the failure to comply with these represents an unacceptable risk to users of Google products.
Symantec has informed us they intend to use this root certificate for purposes other than publicly-trusted certificates. However, as this root certificate will no longer adhere to the CA/Browser Forum’s Baseline Requirements, Google is no longer able to ensure that the root certificate, or certificates issued from this root certificate, will not be used to intercept, disrupt, or impersonate the secure communication of Google’s products or users. As Symantec is unwilling to specify the new purposes for these certificates, and as they are aware of the risk to Google’s users, they have requested that Google take preventative action by removing and distrusting this root certificate. This step is necessary because this root certificate is widely trusted on platforms such as Android, Windows, and versions of OS X prior to OS X 10.11, and thus certificates Symantec issues under this root certificate would otherwise be treated as trustworthy.
Symantec has indicated that they do not believe their customers, who are the operators of secure websites, will be affected by this removal. Further, Symantec has also indicated that, to the best of their knowledge, they do not believe customers who attempt to access sites secured with Symantec certificates will be affected by this. Users or site operators who encounter issues with this distrusting and removal should
contact Symantec Technical Support
.
Further Technical Details of Affected Root:
Friendly Name:
Class 3 Public Primary Certification Authority
Subject:
C=US, O=VeriSign, Inc., OU=Class 3 Public Primary Certification Authority
Public Key Hash (SHA-1):
E2:7F:7B:D8:77:D5:DF:9E:0A:3F:9E:B4:CB:0E:2E:A9:EF:DB:69:77
Public Key Hash (SHA-256):
B1:12:41:42:A5:A1:A5:A2:88:19:C7:35:34:0E:FF:8C:9E:2F:81:68:FE:E3:BA:18:7F:25:3B:C1:A3:92:D7:E2
MD2 Version
Fingerprint (SHA-1):
74:2C:31:92:E6:07:E4:24:EB:45:49:54:2B:E1:BB:C5:3E:61:74:E2
Fingerprint (SHA-256):
E7:68:56:34:EF:AC:F6:9A:CE:93:9A:6B:25:5B:7B:4F:AB:EF:42:93:5B:50:A2:65:AC:B5:CB:60:27:E4:4E:70
SHA1 Version
Fingerprint (SHA-1)
: A1:DB:63:93:91:6F:17:E4:18:55:09:40:04:15:C7:02:40:B0:AE:6B
Fingerprint (SHA-256)
: A4:B6:B3:99:6F:C2:F3:06:B3:FD:86:81:BD:63:41:3D:8C:50:09:CC:4F:A3:29:C2:CC:F0:E2:FA:1B:14:03:05
Year one: progress in the fight against Unwanted Software
9 décembre 2015
Posted by Moheeb Abu Rajab, Google Security Team
“At least 2 or 3 times a week I get a big blue warning screen with a loud voice telling me that I’ve a virus and to call the number at the end of the big blue warning.”
“I’m covered with ads and unwanted interruptions. what’s the fix?”
“I WORK FROM HOME AND THIS POPING [sic] UP AND RUNNING ALL OVER MY COMPUTER IS NOT RESPECTFUL AT ALL THANK YOU.”
Launched in 2007
, Safe Browsing has long helped protect people across the web from well-known online dangers like phishing and malware. More recently, however, we’ve seen an increase in user complaints like the ones above. These issues and others—hijacked browser settings, software installed without users' permission that resists attempts to uninstall—have signaled the rise of a new type of malware that our systems haven’t been able to reliably detect.
More than a year ago
, we began a broad fight against this category of badness that we now call “Unwanted Software”, or “UwS” (pronounced “ooze”). Today, we wanted to share some progress and outline the work that must happen in order to continue protecting users across the web.
What is UwS and how does it get on my computer?
In order to combat UwS, we first needed to define it. Despite lots of variety, our research enabled us to develop a
defining list of characteristics
that this type of software often displays:
It is deceptive, promising a value proposition that it does not meet.
It tries to trick users into installing it or it piggybacks on the installation of another program.
It doesn’t tell the user about all of its principal and significant functions.
It affects the user’s system in unexpected ways.
It is difficult to remove.
It collects or transmits private information without the user’s knowledge.
It is bundled with other software and its presence is not disclosed.
Next, we had to better understand how UwS is being disseminated.
This varies quite a bit, but time and again, deception is at the heart of these tactics. Common UwS distribution tactics include:
unwanted ad injection
, misleading ads such as “trick-to-click”, ads disguised as ‘download’ or ‘play’ buttons, bad software downloader practices, misleading or missing disclosures about what the software does, hijacked browser default settings, annoying system pop-up messages, and more.
Here are a few specific examples:
Deceptive ads leading to UwS downloads
Ads from unwanted ads injector taking over a New York Times page and sending the user to phone scams
Unwanted ad injector inserts ads on the Google search results page
New tab page is overridden by UwS
UwS hijacks Chrome navigations and directs users to a scam tech support website
One year of progress
Because UwS touches so many different parts of people’s online experiences, we’ve worked to fight it on many different fronts. Weaving UwS detection into Safe Browsing has been critical to this work, and we’ve pursued other efforts as well—here’s an overview:
We now include UwS in
Safe Browsing
and its
API
, enabling people who use Chrome and other browsers to see warnings before they go to sites that contain UwS. The red warning below appears in Chrome.
We launched the
Chrome Cleanup Tool
, a one-shot UwS removal tool that has helped clean more than 40 million devices. We shed more light on a common symptom of UwS—
unwanted ad injectors
. We outlined
how they make money
and
launched a new filter
in DoubleClick Bid Manager that removes impressions generated by unwanted ad injectors before bids are made.
We started using
UwS as a signal in search
to reduce the likelihood that sites with UwS would appear in search results.
We started
disabling
Google ads that lead to sites with UwS downloads.
It’s still early, but these changes have already begun to move the needle.
UwS-related Chrome user complaints have fallen. Last year, before we rolled-out our new policies, these were 40% of total complaints and now they’re 20%.
We’re now showing more than 5 million Safe Browsing warnings per day on Chrome related to UwS to ensure users are aware of a site’s potential risks.
We helped more than 14 million users remove over 190 deceptive Chrome extensions from their devices.
We
reduced the number of UwS warnings
that users see via AdWords by 95%, compared to last year. Even prior to last year, less than 1% of UwS downloads were due to AdWords.
However, there is still a long way to go. 20% of all feedback from Chrome users is related to UwS and we believe 1 in 10 Chrome users have hijacked settings or unwanted ad injectors on their machines. We expect users of other browsers continue to suffer from similar issues; there is lots of work still to be done.
Looking ahead: broad industry participation is essential
Given the complexity of the UwS ecosystem, the involvement of players across the industry is key to making meaningful progress in this fight. This chain is only as strong as its weakest links: everyone must work to develop and enforce strict, clear policies related to major sources of UwS.
If we’re able, as an industry, to enforce these policies, then everyone will be able to provide better experiences for their users. With this in mind, we’re very pleased to see that the
FTC recently warned consumers
about UwS and characterizes UwS as a
form of malware
. This is an important step toward uniting the online community and focusing good actors on the common goal of eliminating UwS.
We’re still in the earliest stages of the fight against UwS, but we’re moving in the right direction. We’ll continue our efforts to protect users from UwS and work across the industry to eliminate these bad practices.
A new version of Authenticator for Android
7 décembre 2015
Posted by Alexei Czeskis, Software Engineer
Authenticator for Android is used by millions of users and, combined with
2-Step Verification
, it provides an extra layer of protection for Google Accounts.
Our latest version has some cool new features. You will notice a new icon and a refreshed design. There's also support for
Android Wear
devices, so you'll be able to get verification codes from compatible devices, like your watch.
The new Authenticator also comes with a developer preview of support for NFC Security Key, based on the FIDO Universal 2nd Factor (U2F) protocol via NFC. Play Store will prompt for the NFC permission before you install this version of Authenticator.
Developers who want to learn more about U2F can refer to FIDO's
specifications
. Additionally, you can try it out at
https://u2fdemo.appspot.com
. Note that you'll need an Android device running the latest versions of Google Chrome and Authenticator and also a
Security Key
with NFC support.
You can find the latest
Authenticator for Android on the Play Store
.
Protecting hundreds of millions more mobile users
7 décembre 2015
Posted by Noé Lutz, Nathan Parker, Stephan Somogyi; Google Chrome and Safe Browsing Teams
Google Safe Browsing has been protecting well over a billion desktop users against
malware, unwanted software, and social engineering sites
on the web for years. Today, we’re pleased to announce that we’ve extended our protective umbrella to hundreds of millions of Chrome users on Android.
How To Get It
If you’re an Android user, you probably already have it! This new Safe Browsing client on Android is part of Google Play Services, starting with version 8.1. The first app to use it is Chrome, starting with version 46—we’re now protecting all Android Chrome users by default. If you look at Chrome’s Settings > Privacy menu, you can verify that Safe Browsing is enabled and that you’re protected. Chrome warns you about dangerous sites as shown below. It does this
while preserving your privacy, just like on desktop
.
What Came Before
The Android platform and the Play Store have long had protection against potentially harmful apps. And as our adversaries have improved their skills in trying to evade us, we’ve improved our detection, keeping Android app users safe. But not all dangers to mobile users come from apps.
What’s New
Social engineering
—and phishing in particular—requires different protection; we need to keep an up-to-date list of bad sites on the device to make sure we can warn people before they browse into a trap. Providing this protection on a mobile device is much more difficult than on a desktop system, in no small part because we have to make sure that list doesn’t get stale, yet:
Mobile data costs money for most users around the world. Data size matters a lot.
Mobile data speeds are slower than Wi-Fi in much of the world. Data size matters a lot.
Cellular connectivity quality is much more uneven, so getting the right data to the device quickly is critically important. Data size matters a lot.
Maximum Protection Per Bit
Bytes are big: our mantra is that every single bit that Safe Browsing sends a mobile device must improve protection. Network bandwidth and battery are the scarcest resources on a mobile device, so we had to carefully rethink how to best protect mobile users. Some social engineering attacks only happen in certain parts of the world, so we only send information that protects devices in the geographic regions they’re in.
We also make sure that we send information about the riskiest sites first: if we can only get a very short update through, as is often the case on lower-speed networks in emerging economies, the update really has to count. We also worked with Google’s compression team to make the little data that we do send as small as possible.
Together with the Android Security team, we made the software on the device extra stingy with memory and processor use, and careful about minimizing network traffic. All of these details matter to us; we must not waste our users’ data plans, or a single moment of their battery life.
More Mobile
We hunt badness on the Internet so that you don’t discover it the hard way, and our protection should never be an undue burden on your networking costs or your device’s battery. As more of the world relies on the mobile web, we want to make sure you’re as safe as can be, as efficiently as possible.
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