Making the world’s information safely accessible.

Safety First

Keeping over two billion devices safer.

Google Safe Browsing helps protect over two billion devices every day by showing warnings to users when they attempt to navigate to dangerous sites or download dangerous files. Safe Browsing also notifies webmasters when their websites are compromised by malicious actors and helps them diagnose and resolve the problem so that their visitors stay safer. Safe Browsing protections work across Google products and power safer browsing experiences across the Internet.

Our Transparency Report includes details on the threats that Safe Browsing identifies. The Transparency Report includes our Site Status diagnostic tool that you can use to see whether a site currently contains content that Safe Browsing has determined to be dangerous.

Product Protection

Safe Browsing protects Google and other products.

Chrome and Other Browsers

Chrome and other browsers use Safe Browsing to show users a warning message before they visit a dangerous site or download a harmful app. Our scanning infrastructure also protects the Chrome Web Store from potentially harmful extensions. Learn more

Search

Users see a Safe Browsing message in Search results when Safe Browsing has found that the site they’re about to visit might be dangerous. Learn more

Gmail

Safe Browsing protects Gmail users by identifying dangerous links in email messages and showing warnings if users click on them. Learn more

Android

Google and Android security teams collaborated to develop an app scanning infrastructure that protects Google Play and powers Verify Apps to protect users who install apps from outside Google Play. Safe Browsing also protects Chrome users on Android by showing them warnings before they visit dangerous sites. Learn more

Ads

Google’s Ads Security team uses Safe Browsing to make sure that Google ads do not promote dangerous pages. Learn more

Beginnings

A history of safety

Safe Browsing launched in 2007 to protect users across the web from phishing attacks, and has evolved to give users tools to help protect themselves from web-based threats like malware, unwanted software, and social engineering across desktop and mobile platforms.

Our Safe Browsing engineering, product, and operations teams work at the forefront of security research and technology to build systems that help users protect themselves from harm. Check out our Research and the Google Security Blog for updates on Safe Browsing and other Google security technology.

API Documentation

Protection for all

To make the Internet safer for everyone, we’ve made Safe Browsing services free and publicly available for developers and other companies to use in their applications and browsers. Today, half the world’s online population is protected by Safe Browsing. If you are a developer and would like to protect your users from online threats, get started by visiting our API Documentation. If you are a webmaster, you can sign up for Google Search Console to receive notifications and help with security issues.

API Documentation

Policies

Safe Browsing gives users the ability to protect themselves from multiple types of unsafe sites and applications. Our policies help define the types of web threats about which Safe Browsing will notify users and webmasters.

Malware

Since 2006, Safe Browsing has warned users when they attempt to navigate to sites that might be malicious. Malware is software specifically designed to harm a device, the software it's running, or its users.

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Unwanted Software

In 2014, we added protection against a broad category of harmful technology that we now call “Unwanted Software”: for example, programs disguised as helpful downloads that actually make unexpected changes to your computer like switching your homepage or other browser settings to ones you don’t want.

Learn more

Social Engineering

Since 2005, Safe Browsing has protected users across the web from Social Engineering attacks. A Social Engineering attack tricks users into performing an action that they normally would not if they knew the true identity of the attacker. A common example is Phishing, where a page tries to steal a user's password or other personal data.

Learn more