Security Blog
The latest news and insights from Google on security and safety on the Internet
Announcing our first GCP VRP Prize winner and updates to 2020 program
11 mars 2020
Posted by Harshvardan Sharma, Information Security Engineer, Google
Last year, we
announced
a yearly Google Cloud Platform (GCP) VRP Prize to promote security research of GCP. Since then, we’ve received many interesting entries as part of this new initiative from the security research community. Today, we are announcing the winner as well as several updates to our program for 2020.
After careful evaluation of all the submissions, we are excited to announce our winner of the 2019 GCP VRP prize: Wouter ter Maat, who submitted a write-up about Google Cloud Shell vulnerabilities. You can read his winning write-up
here
.
There were several other excellent reports submitted to our GCP VRP in 2019. To learn more about them watch this
video
by LiveOverflow, which explains some of the top submissions in detail.
To encourage more security researchers to look for vulnerabilities in GCP and to better reward our top bug hunters, we're tripling the total amount of the GCP VRP Prize this year. We will pay out a total of $313,337 for the top vulnerability reports in GCP products submitted in 2020. The following prize amounts will be distributed between the top 6 submissions:
1st prize: $133,337
2nd prize: $73,331
3rd prize: $73,331
4th prize: $31,337
5th prize: $1,001
6th prize: $1,000
Like last year, submissions should have public write-ups in order to be eligible for the prize. The number of vulnerability reports in a single write-up is not a factor. You can even make multiple submissions, one for each write-up. These prizes are only for vulnerabilities found in GCP products. If you have budget constraints regarding access to testing environments, you can use the
free tier of GCP
. Note that this prize is not a replacement of our
Vulnerability Reward Program
(VRP), and that we will continue to pay security researchers under the VRP for disclosing security issues that affect Google services, including GCP. Complete details, terms and conditions about the prize can be found
here
.
Thank you to everyone who submitted entries in 2019! Make sure to nominate your VRP reports and write-ups for the 2020 GCP VRP prize
here
before December 31, 2020 at 11:59 GMT.
How Google Play Protect kept users safe in 2019
10 mars 2020
Posted by Rahul Mishra, Program Manager, Android Security and Privacy Team
Through 2019, Google Play Protect continued to improve the security for 2.5 billion Android devices. Built into Android, Play Protect scans over 100 billion apps every day for
malware and other harmful apps
. This past year, Play Protect prevented over 1.9 billion malware installs from unknown sources. Throughout 2019 there were many improvements made to Play Protect to bring the best of Google to Android devices to keep users safe. Some of the new features launched in 2019 include:
Advanced similarity detection
Play Protect now warns you about variations of known malware right
on the device
. On-device protections warn users about Potentially Harmful Apps (PHAs) at install time for a faster response. Since October 2019, Play Protect issued 380,000 warnings for install attempts using this system.
Warnings for apps targeting lower Android versions
Malware developers intentionally target devices running long outdated versions of Android to abuse exploits that have recently been patched. In 2018, Google Play started requiring new apps and app updates be built for new versions of the
Android OS
. This strategy ensures that users downloading apps from Google Play recieve apps that take advantage of the latest privacy and security improvements in the OS.
In 2019, we improved on this strategy with warnings to the user. Play Protect now notifies users when they install an app that is designed for outdated versions. The user can then make an informed decision to proceed with the installation or stop the app from being installed so they can look for an alternative that target the most current version of Android.
Uploading rare apps for scanning
The Android app ecosystem is growing at an exponential rate. Millions of new app versions are created and shared outside of Google Play daily posing a unique scaling challenge. Knowledge of new and rare apps is essential to provide the best protection possible.
We added a new feature that lets users help the fight against malware by sending apps Play Protect hasn't seen before for scanning during installation. The upload to Google’s scanning services preserves the privacy of the user and enables Play Protect to improve the protection for all users.
Integration with Google’s Files app
Google’s Files app
is used by hundreds of millions of people every month to manage the storage on their device, share files safely, and clean up clutter and duplicate files. This year, we integrated Google Play Protect notifications within the app so that users are prompted to scan and remove any harmful applications that may be installed.
Play Protect visual updates
The Google Play Store has over 2 billion monthly active users coming to safely find the right app, game, and other digital content. This year the team was excited to roll out a complete
visual redesign
. With this change, Play Protect made several user-facing updates to deliver a cleaner, more prominent experience including a reminder to enable app-scanning in My apps & games to improve security.
The mobile threat landscape is always changing and so Google Play Protect must keep adapting and improving to protect our users. Visit
developers.google.com/android/play-protect
to stay informed on all the new exciting features and improvements being added to Google Play Protect.
Acknowledgements:
Aaron Josephs, Ben Gruver, James Kelly, Rodrigo Farell, Wei Jin and William Luh
How Google does certificate lifecycle management
10 mars 2020
Posted by Siddharth Bhai and Ryan Hurst, Product Managers, Google Cloud
Over the last few years, we’ve seen the use of Transport Layer Security (TLS) on the web increase to more than 96% of all traffic seen by a Chrome browser on Chrome OS. That’s an increase of over 35% in just four years, as reported in our
Google Transparency Report
. Whether you’re a web developer, a business, or a netizen, this is a collective achievement that’s making the Internet a safer place for everyone.
Percentage of pages loaded over HTTPS in Chrome by platform (
Google Transparency Report
)
The way TLS is deployed has also changed. The maximum certificate validity for public certificates has gone from 5 years to 2 years (
CA/Browser Forum
), and that will drop to 1 year in the near future. To reduce the number of outages caused by manual certificate enrollments, the Internet Engineering Task Force (IETF) has standardized Automatic Certificate Management Environment (
ACME
). ACME enables Certificate Authorities (CAs) to offer TLS certificates for the public web in an automated and interoperable way.
As we round off this exciting tour of
recent TLS history
, we’d be remiss if we didn’t mention
Let’s Encrypt
- the first publicly trusted non-profit CA. Their focus on automation and TLS by default has been foundational to this massive increase in TLS usage. In fact, Let’s Encrypt just issued their billionth (!) certificate. Google has been an active supporter of Let’s Encrypt because we believe the work they do to make TLS accessible is important for the security and resilience of the Internet's infrastructure. Keep rocking, Let’s Encrypt!
Simplifying certificate lifecycle management for Google’s users
These are important strides we are making collectively in the security community. At the same time, these efforts mean we are moving to shorter-lived keys to improve security, which in-turn requires more frequent certificate renewals. Further, infrastructure deployments are getting more heterogeneous. Web traffic is served from multiple datacenters, often from different providers. This makes it hard to manually keep tabs on which certificates need renewing and ensuring new certificates are deployed correctly. So what is the way forward?
With the adoption numbers cited above, it’s clear that TLS, Web PKI, and certificate lifecycle management are foundational to every product we and our customers build and deploy. This is why we have been expanding significant effort to enable TLS by default for our products and services, while also automating certificate renewals to make certificate lifecycle management more reliable, globally scalable, and trustworthy for our customers. Our goal is simple: We want to ensure TLS just works out of the box regardless of which Google service you use.
In support of that goal, we have enabled automatic management of TLS certificates for Google services using an internal-only ACME service,
Google Trust Services
. This applies to our own products and services, as well as for our customers across Alphabet and Google Cloud. As a result, our users no longer need to worry about things like certificate expiration, because we automatically refresh the certificates for our customers. Some implementation highlights include:
All Blogger blogs, Google Sites, and Google My Business sites now get HTTPS by default for their custom domains.
Google Cloud customers get the benefits of Managed TLS on their domains. So:
Developers building with Firebase, Cloud Run, and AppEngine automatically get HTTPS for their applications.
When deploying applications with Google Kubernetes Engine or behind Google Cloud Load Balancing (GCLB), certificate management is taken care of if customers choose to use Google-managed certificates. This also makes TLS use with these products easy and reliable.
Performance, scalability, and reliability are foundational requirements for Google services. We have established our own publicly trusted CA, Google Trust Services to ensure we can meet those criteria for our products and services. At the same time, we believe in user choice. So even as we make it easier for you to use Google Trust Services, we have also made it possible across Google’s products and services to use Let’s Encrypt. This choice can be made easily through the
creation of a CAA record
indicating your preference.
While everyone appreciates TLS working out of the box, we also know power users have specialized needs. This is why we have provided rich capabilities in
Google Cloud Load Balancing
to let customers control policies around TLS termination.
In addition, through our work on
Certificate Transparency
in collaboration with other organizations, we have made it easier for our customers to protect their and their customers’ brands by monitoring the WebPKI ecosystem for certificates issued for their domains or those that look similar to their domains, so they can take proactive measures to stop any abuse before it becomes an issue. For example, Facebook used Certificate Transparency Logs to
catch
a number of phishing websites that tried to impersonate their services.
We recognize how important security, privacy, and reliability are to you and have been investing across our product portfolio to ensure that when it comes to TLS, you have the tools you need to deploy with confidence. Going forward, we look forward to a continued partnership to make the Internet a safer place together.
FuzzBench: Fuzzer Benchmarking as a Service
2 mars 2020
Posted by Jonathan Metzman, Abhishek Arya, Google OSS-Fuzz Team and László Szekeres, Google Software Analysis Team
We are excited to launch
FuzzBench
, a fully automated, open source, free service for evaluating fuzzers. The goal of FuzzBench is to make it painless to rigorously evaluate fuzzing research and make fuzzing research easier for the community to adopt.
Fuzzing
is an important bug finding technique. At Google, we’ve found tens of thousands of bugs (
1
,
2
) with fuzzers like libFuzzer and AFL. There are numerous research papers that either improve upon these tools (e.g. MOpt-AFL, AFLFast, etc) or introduce new techniques (e.g. Driller, QSYM, etc) for bug finding. However, it is hard to know how well these new tools and techniques generalize on a large set of real world programs. Though research normally includes evaluations, these
often have shortcomings
—they don't use a large and diverse set of real world benchmarks, use few trials, use short trials, or lack statistical tests to illustrate if findings are significant. This is understandable since full scale experiments can be prohibitively expensive for researchers. For example, a 24-hour, 10-trial, 10 fuzzer, 20 benchmark experiment would require 2,000 CPUs to complete in a day.
To help solve these issues the OSS-Fuzz team is launching FuzzBench, a fully automated, open source, free service. FuzzBench provides a framework for painlessly evaluating fuzzers in a reproducible way. To use FuzzBench, researchers can simply integrate a fuzzer and FuzzBench will run an experiment for 24 hours with many trials and real world benchmarks. Based on data from this experiment, FuzzBench will produce a report comparing the performance of the fuzzer to others and give insights into the strengths and weaknesses of each fuzzer. This should allow researchers to focus more of their time on perfecting techniques and less time setting up evaluations and dealing with existing fuzzers.
Integrating a fuzzer with FuzzBench is simple as most integrations are less than 50 lines of code (
example
). Once a fuzzer is integrated, it can fuzz almost all 250+
OSS-Fuzz projects
out of the box. We have already integrated
ten fuzzers
, including AFL, LibFuzzer, Honggfuzz, and several academic projects such as QSYM and Eclipser.
Reports include statistical tests to give an idea how likely it is that performance differences between fuzzers are simply due to chance, as well as the raw data so researchers can do their own analysis. Performance is determined by the amount of covered program edges, though we plan on adding crashes as a performance metric. You can view a sample report
here
.
How to Participate
Our goal is to develop FuzzBench with community contributions and input so that it becomes the gold standard for fuzzer evaluation. We invite members of the fuzzing research community to contribute their fuzzers and techniques, even while they are in development. Better evaluations will lead to more adoption and greater impact for fuzzing research.
We also encourage contributions of better ideas and techniques for evaluating fuzzers. Though we have made some progress on this problem, we have not solved it and we need the community’s help in developing these best practices.
Please join us by contributing to the
FuzzBench repo
on GitHub.
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