Google Workspace Updates Weekly Recap – June 13, 2025

New update

Unless otherwise indicated, the features below are available to all Google Workspace customers, and are fully launched or in the process of rolling out. Rollouts should take no more than 15 business days to complete if launching to both Rapid and Scheduled Release at the same time. If not, each stage of rollout should take no more than 15 business days to complete.

Mitigating prompt injection attacks with a layered defense strategy
This week, we shared more details on how we protect Gemini and mitigate threats from malicious actors utilizing indirect prompt injection attacks to exfiltrate user data or execute other rogue actions. Google takes a layered security approach, with security measures designed for each stage of the prompt lifecycle. From Gemini 2.5 model hardening, to purpose-built machine learning (ML) models detecting malicious instructions, to system-level safeguards, we are meaningfully elevating the difficulty, expense, and complexity faced by an attacker. 

Our model training with adversarial data significantly enhanced our defenses against indirect prompt injection attacks in Gemini 2.5 models. This inherent model resilience is augmented with additional defenses that we built directly into Gemini, including: 
  • Prompt injection content classifiers 
  • Security thought reinforcement 
  • Markdown sanitization and suspicious 
  • URL redaction User confirmation framework 
  • End-user security mitigation notifications 
This layered approach to our security strategy strengthens the overall security framework for Gemini – throughout the prompt lifecycle and across diverse attack techniques. 

You can read the full blog post, “Mitigating prompt injection attacks with a layered defense strategy,” on the Google Online Security Blog.| Rolling out now to Rapid Release and Scheduled Release domains. | Available to all Google Workspace customers, Workspace Individual Subscribers, and users with personal Google accounts. | Visit the Help Center to learn: 

Previous announcements

The announcements below were published on the Workspace Updates blog earlier this week. Please refer to the original blog posts for complete details.
New class analytics and insights for educators in Google Classroom
Teachers can view data via an “Analytics” tab on their class pages. In addition, teachers will be able to see relevant insights on the class analytics page that alert them on how students are progressing and where they may need additional support. | Learn more about class analytics in Classroom.

Use Gemini in Google Docs on Android devices in 20+ languages
We’re excited to bring the power of Gemini in Docs to your Android devices so that you can understand, summarize, and ask questions about documents on mobile. As a result, you can use Gemini to surface insights and key points on-the-go. Plus, Gemini in Docs on Android is available in 20+ languages. | Learn more about Gemini in Docs on mobile.

Audit reports for data regions are now available in the Admin console
Using the security investigation tool, admins can now access a new data set: policy compliance log events. Admins can use these logs to view a list of their Assured Controls users, their assigned data regions, and any advanced data region settings. | Learn more about audit reports.

Data regions support for Gemini features in Google Workspace is now available
Beginning this week, Gemini features in Google Workspace apps, like Gemini in the side panel of Workspace apps or “Help me write” in Google Docs, for example, will now adhere to your organization’s data regionalization requirements. | Learn more about data regions support.

Generate fully editable charts using Gemini in Google Sheets 
Earlier this year, we introduced the ability for Gemini to provide insights and generate charts based on your data in Google Sheets. At that time, the generated charts could only be inserted as static images over cells in a spreadsheet. Starting this week, Gemini can produce fully editable charts that regenerate if the spreadsheet data changes. | Learn more about editable charts in Sheets.

Generate video clips with sound using Veo 3 in Google Vids
We're introducing our newest model, Veo 3, that enables users to generate 8-second videos with higher quality and realistic sound. | Learn more about Veo 3 in Vids.

Migrate email and calendar content from Microsoft Exchange Online to Google Workspace
The ability to migrate email from Microsoft Exchange Online to Google Workspace, part of our new Data migration service, is now generally available. | Learn more about email migration.

Use Gemini in Google Forms to summarize form responses 
To help you quickly gain insights from responses to Google Form short-answer or paragraph questions, we’re introducing AI-generated text summarizations. | Learn more about Forms summaries. 

Use Gemini in Google Forms to quickly create a new form
With Help me create in Forms, users can craft a form by entering a prompt that describes the form they want to create or a prompt that references supporting Docs, Sheets, Slides or PDFs. Gemini will then generate a draft form, incorporating details from any files you reference, that can be used instantly or further customized. | Learn more about Help me create in Forms.

Introducing PDF summary cards in Google Drive
We’re excited to expand the capabilities of Gemini in Drive files by introducing PDF summary cards. | Learn more about PDF summary cards.

New host management control for who can ask to join a meeting
Meeting hosts can now control who can request to join a meeting (also known as “knocking”). | Learn more about host controls.

Join a meeting using “companion mode” from Android and iOS tablets
You can use companion mode on Apple iPads & Android tablets and foldable devices. | Learn more about companion mode in Meet.

Introducing the Comeen Workplace AI Agent for the Comeen Google Chat app
We’re excited to announce the next evolution of the Comeen app: the Workplace AI Agent. This powerful assistant uses generative AI to help users complete key workplace actions using natural language. From bookings to workplace knowledge, everything happens in seconds through simple prompts. | Learn more about the Comeen Google Chat app.

Completed rollouts

The features below completed their rollouts to Rapid Release domains, Scheduled Release domains, or both. Please refer to the original blog posts for additional details.

Scheduled Release Domains: 
Rapid and Scheduled Release Domains: 
For a recap of announcements in the past six months, check out What’s new in Google Workspace (recent releases).

Introducing the Comeen Workplace AI Agent for the Comeen Google Chat app

What’s changing 

Last year, we introduced Comeen for Google Chat, an app that helps users effortlessly manage workplace resources by enabling them to confirm or release meeting rooms and desks via real-time notifications within Google Chat. 
 
Today, we’re excited to announce the next evolution of the Comeen app: the Workplace AI Agent. This powerful assistant uses generative AI to help users complete key workplace actions using natural language. From bookings to workplace knowledge, everything happens in seconds through simple prompts. For example, users can: 
  • Book workplace resources (workstations, meeting rooms). By asking the Comeen app to book a space, it will find the most suitable resource based on your building, capacity needs, and preferences. For example, you can type: 
    • “Book a desk for tomorrow” 
    • “Book a desk with a dual screen” 
    • “Book a room at 2pm for 8 people with a Google Meet Hardware” 
  • Answer workplace or building-related questions. When you ask about your workspace or colleagues, you will get contextual answers tailored to your organization’s configuration and your individual context. For example, you can ask: 
    • “Which rooms are available now?” 
    • “Is Room New York free tomorrow at 3pm?” 
    • “Where can I print on the 3rd floor?” 
Comeen Workplace AI Agent for the Comeen Google Chat app

Getting started 

Rollout pace 

Availability 

  • Available to all Google Workspace customers, Workspace Individual Subscribers, and users with personal Google accounts 

Resources 

Join a meeting using “companion mode” from Android and iOS tablets

What’s changing

Starting today, you can use companion mode on Apple iPads & Android tablets and foldable devices. Companion mode is a quick, light-weight way to participate in meetings without opening a laptop. This can be particularly useful in meeting spaces where room for a laptop is limited, or as an easy, discreet way to participate during large in-person meetings, such as all hands or town halls. 

Specifically, you can use companion mode to: 
  • Check-in to the room to be identified by name. 
  • Share an emoji reaction without interrupting the speaker. 
  • Raise your hand to indicate that you’d like to speak. 
  • Turn on captions to view subtitles as everyone speaks during a meeting. 
  • Exchange chat messages with other meeting participants. 
  • View and zoom in on presented content to easily follow along with the presenter on your own device. 
  • Use Meet in the split screen view, helping you multitask.Check-in to the room to be identified by name.
Check-in to the room to be identified by name.
Share an emoji reaction without interrupting the speaker
Share an emoji reaction without interrupting the speaker
Raise your hand to indicate that you’d like to speak
Raise your hand to indicate that you’d like to speak
Turn on captions to view subtitles as everyone speaks during a meeting
Turn on captions to view subtitles as everyone speaks during a meeting
Exchange chat messages with other meeting participants
Exchange chat messages with other meeting participants
View and zoom in on presented content to easily follow along with the presenter on your own device
View and zoom in on presented content to easily follow along with the presenter on your own device
Use Meet in the split screen view, helping you multitask
Use Meet in the split screen view, helping you multitask



Companion mode is already available for laptop and desktop devices, as well as Android and iOS mobile devices. 

Additional details 

  • Minimum Android build required: 
    • Meet: 308.0. (Android Settings > Apps > Meet > [App Info > Version]) 
    • Gmail: 2025.05.25. (Android Settings > Apps > Gmail > [App Info > Version]) 
  • Minimum iOS build required: 
    • Meet: 310.0. (Meet > Settings -> About, terms, and privacy > Version) 
    • Gmail: 6.0.250601. (Settings > About Gmail > Version) 

Getting started 

  • Admins: There is no admin control for this feature. 
  • End users: 
    • This feature will be available by default. You can join a meeting using companion mode from the green room before your meeting. Use this Help Center article and video guide to learn more about using companion mode in Google Meet. 
    • Note: Your audio and mic will automatically be muted—we recommend using meeting room hardware for audio and video to avoid feedback. 

Rollout pace 

Android: 
iOS: 

Availability 

  • Available to all Google Workspace customers, Workspace Individual Subscribers, and users with personal Google accounts 

Resources 

Mitigating prompt injection attacks with a layered defense strategy

Posted by Google GenAI Security Team

With the rapid adoption of generative AI, a new wave of threats is emerging across the industry with the aim of manipulating the AI systems themselves. One such emerging attack vector is indirect prompt injections. Unlike direct prompt injections, where an attacker directly inputs malicious commands into a prompt, indirect prompt injections involve hidden malicious instructions within external data sources. These may include emails, documents, or calendar invites that instruct AI to exfiltrate user data or execute other rogue actions. As more governments, businesses, and individuals adopt generative AI to get more done, this subtle yet potentially potent attack becomes increasingly pertinent across the industry, demanding immediate attention and robust security measures.


At Google, our teams have a longstanding precedent of investing in a defense-in-depth strategy, including robust evaluation, threat analysis, AI security best practices, AI red-teaming, adversarial training, and model hardening for generative AI tools. This approach enables safer adoption of Gemini in Google Workspace and the Gemini app (we refer to both in this blog as “Gemini” for simplicity). Below we describe our prompt injection mitigation product strategy based on extensive research, development, and deployment of improved security mitigations.


A layered security approach

Google has taken a layered security approach introducing security measures designed for each stage of the prompt lifecycle. From Gemini 2.5 model hardening, to purpose-built machine learning (ML) models detecting malicious instructions, to system-level safeguards, we are meaningfully elevating the difficulty, expense, and complexity faced by an attacker. This approach compels adversaries to resort to methods that are either more easily identified or demand greater resources. 


Our model training with adversarial data significantly enhanced our defenses against indirect prompt injection attacks in Gemini 2.5 models (technical details). This inherent model resilience is augmented with additional defenses that we built directly into Gemini, including: 


  1. Prompt injection content classifiers

  2. Security thought reinforcement

  3. Markdown sanitization and suspicious URL redaction

  4. User confirmation framework

  5. End-user security mitigation notifications


This layered approach to our security strategy strengthens the overall security framework for Gemini – throughout the prompt lifecycle and across diverse attack techniques.


1. Prompt injection content classifiers


Through collaboration with leading AI security researchers via Google's AI Vulnerability Reward Program (VRP), we've curated one of the world’s most advanced catalogs of generative AI vulnerabilities and adversarial data. Utilizing this resource, we built and are in the process of rolling out proprietary machine learning models that can detect malicious prompts and instructions within various formats, such as emails and files, drawing from real-world examples. Consequently, when users query Workspace data with Gemini, the content classifiers filter out harmful data containing malicious instructions, helping to ensure a secure end-to-end user experience by retaining only safe content. For example, if a user receives an email in Gmail that includes malicious instructions, our content classifiers help to detect and disregard malicious instructions, then generate a safe response for the user. This is in addition to built-in defenses in Gmail that automatically block more than 99.9% of spam, phishing attempts, and malware.


A diagram of Gemini’s actions based on the detection of the malicious instructions by content classifiers.


2. Security thought reinforcement


This technique adds targeted security instructions surrounding the prompt content to remind the large language model (LLM) to perform the user-directed task and ignore any adversarial instructions that could be present in the content. With this approach, we steer the LLM to stay focused on the task and ignore harmful or malicious requests added by a threat actor to execute indirect prompt injection attacks.

A diagram of Gemini’s actions based on additional protection provided by the security thought reinforcement technique. 


3. Markdown sanitization and suspicious URL redaction 


Our markdown sanitizer identifies external image URLs and will not render them, making the “EchoLeak” 0-click image rendering exfiltration vulnerability not applicable to Gemini. From there, a key protection against prompt injection and data exfiltration attacks occurs at the URL level. With external data containing dynamic URLs, users may encounter unknown risks as these URLs may be designed for indirect prompt injections and data exfiltration attacks. Malicious instructions executed on a user's behalf may also generate harmful URLs. With Gemini, our defense system includes suspicious URL detection based on Google Safe Browsing to differentiate between safe and unsafe links, providing a secure experience by helping to prevent URL-based attacks. For example, if a document contains malicious URLs and a user is summarizing the content with Gemini, the suspicious URLs will be redacted in Gemini’s response. 


Gemini in Gmail provides a summary of an email thread. In the summary, there is an unsafe URL. That URL is redacted in the response and is replaced with the text “suspicious link removed”. 


4. User confirmation framework


Gemini also features a contextual user confirmation system. This framework enables Gemini to require user confirmation for certain actions, also known as “Human-In-The-Loop” (HITL), using these responses to bolster security and streamline the user experience. For example, potentially risky operations like deleting a calendar event may trigger an explicit user confirmation request, thereby helping to prevent undetected or immediate execution of the operation.


The Gemini app with instructions to delete all events on Saturday. Gemini responds with the events found on Google Calendar and asks the user to confirm this action.


5. End-user security mitigation notifications


A key aspect to keeping our users safe is sharing details on attacks that we’ve stopped so users can watch out for similar attacks in the future. To that end, when security issues are mitigated with our built-in defenses, end users are provided with contextual information allowing them to learn more via dedicated help center articles. For example, if Gemini summarizes a file containing malicious instructions and one of Google’s prompt injection defenses mitigates the situation, a security notification with a “Learn more” link will be displayed for the user. Users are encouraged to become more familiar with our prompt injection defenses by reading the Help Center article


Gemini in Docs with instructions to provide a summary of a file. Suspicious content was detected and a response was not provided. There is a yellow security notification banner for the user and a statement that Gemini’s response has been removed, with a “Learn more” link to a relevant Help Center article.

Moving forward


Our comprehensive prompt injection security strategy strengthens the overall security framework for Gemini. Beyond the techniques described above, it also involves rigorous testing through manual and automated red teams, generative AI security BugSWAT events, strong security standards like our Secure AI Framework (SAIF), and partnerships with both external researchers via the Google AI Vulnerability Reward Program (VRP) and industry peers via the Coalition for Secure AI (CoSAI). Our commitment to trust includes collaboration with the security community to responsibly disclose AI security vulnerabilities, share our latest threat intelligence on ways we see bad actors trying to leverage AI, and offering insights into our work to build stronger prompt injection defenses. 


Working closely with industry partners is crucial to building stronger protections for all of our users. To that end, we’re fortunate to have strong collaborative partnerships with numerous researchers, such as Ben Nassi (Confidentiality), Stav Cohen (Technion), and Or Yair (SafeBreach), as well as other AI Security researchers participating in our BugSWAT events and AI VRP program. We appreciate the work of these researchers and others in the community to help us red team and refine our defenses.


We continue working to make upcoming Gemini models inherently more resilient and add additional prompt injection defenses directly into Gemini later this year. To learn more about Google’s progress and research on generative AI threat actors, attack techniques, and vulnerabilities, take a look at the following resources:


Mitigating prompt injection attacks with a layered defense strategy

Posted by Google GenAI Security Team

With the rapid adoption of generative AI, a new wave of threats is emerging across the industry with the aim of manipulating the AI systems themselves. One such emerging attack vector is indirect prompt injections. Unlike direct prompt injections, where an attacker directly inputs malicious commands into a prompt, indirect prompt injections involve hidden malicious instructions within external data sources. These may include emails, documents, or calendar invites that instruct AI to exfiltrate user data or execute other rogue actions. As more governments, businesses, and individuals adopt generative AI to get more done, this subtle yet potentially potent attack becomes increasingly pertinent across the industry, demanding immediate attention and robust security measures.


At Google, our teams have a longstanding precedent of investing in a defense-in-depth strategy, including robust evaluation, threat analysis, AI security best practices, AI red-teaming, adversarial training, and model hardening for generative AI tools. This approach enables safer adoption of Gemini in Google Workspace and the Gemini app (we refer to both in this blog as “Gemini” for simplicity). Below we describe our prompt injection mitigation product strategy based on extensive research, development, and deployment of improved security mitigations.


A layered security approach

Google has taken a layered security approach introducing security measures designed for each stage of the prompt lifecycle. From Gemini 2.5 model hardening, to purpose-built machine learning (ML) models detecting malicious instructions, to system-level safeguards, we are meaningfully elevating the difficulty, expense, and complexity faced by an attacker. This approach compels adversaries to resort to methods that are either more easily identified or demand greater resources. 


Our model training with adversarial data significantly enhanced our defenses against indirect prompt injection attacks in Gemini 2.5 models (technical details). This inherent model resilience is augmented with additional defenses that we built directly into Gemini, including: 


  1. Prompt injection content classifiers

  2. Security thought reinforcement

  3. Markdown sanitization and suspicious URL redaction

  4. User confirmation framework

  5. End-user security mitigation notifications


This layered approach to our security strategy strengthens the overall security framework for Gemini – throughout the prompt lifecycle and across diverse attack techniques.


1. Prompt injection content classifiers


Through collaboration with leading AI security researchers via Google's AI Vulnerability Reward Program (VRP), we've curated one of the world’s most advanced catalogs of generative AI vulnerabilities and adversarial data. Utilizing this resource, we built and are in the process of rolling out proprietary machine learning models that can detect malicious prompts and instructions within various formats, such as emails and files, drawing from real-world examples. Consequently, when users query Workspace data with Gemini, the content classifiers filter out harmful data containing malicious instructions, helping to ensure a secure end-to-end user experience by retaining only safe content. For example, if a user receives an email in Gmail that includes malicious instructions, our content classifiers help to detect and disregard malicious instructions, then generate a safe response for the user. This is in addition to built-in defenses in Gmail that automatically block more than 99.9% of spam, phishing attempts, and malware.


A diagram of Gemini’s actions based on the detection of the malicious instructions by content classifiers.


2. Security thought reinforcement


This technique adds targeted security instructions surrounding the prompt content to remind the large language model (LLM) to perform the user-directed task and ignore any adversarial instructions that could be present in the content. With this approach, we steer the LLM to stay focused on the task and ignore harmful or malicious requests added by a threat actor to execute indirect prompt injection attacks.

A diagram of Gemini’s actions based on additional protection provided by the security thought reinforcement technique. 


3. Markdown sanitization and suspicious URL redaction 


Our markdown sanitizer identifies external image URLs and will not render them, making the “EchoLeak” 0-click image rendering exfiltration vulnerability not applicable to Gemini. From there, a key protection against prompt injection and data exfiltration attacks occurs at the URL level. With external data containing dynamic URLs, users may encounter unknown risks as these URLs may be designed for indirect prompt injections and data exfiltration attacks. Malicious instructions executed on a user's behalf may also generate harmful URLs. With Gemini, our defense system includes suspicious URL detection based on Google Safe Browsing to differentiate between safe and unsafe links, providing a secure experience by helping to prevent URL-based attacks. For example, if a document contains malicious URLs and a user is summarizing the content with Gemini, the suspicious URLs will be redacted in Gemini’s response. 


Gemini in Gmail provides a summary of an email thread. In the summary, there is an unsafe URL. That URL is redacted in the response and is replaced with the text “suspicious link removed”. 


4. User confirmation framework


Gemini also features a contextual user confirmation system. This framework enables Gemini to require user confirmation for certain actions, also known as “Human-In-The-Loop” (HITL), using these responses to bolster security and streamline the user experience. For example, potentially risky operations like deleting a calendar event may trigger an explicit user confirmation request, thereby helping to prevent undetected or immediate execution of the operation.


The Gemini app with instructions to delete all events on Saturday. Gemini responds with the events found on Google Calendar and asks the user to confirm this action.


5. End-user security mitigation notifications


A key aspect to keeping our users safe is sharing details on attacks that we’ve stopped so users can watch out for similar attacks in the future. To that end, when security issues are mitigated with our built-in defenses, end users are provided with contextual information allowing them to learn more via dedicated help center articles. For example, if Gemini summarizes a file containing malicious instructions and one of Google’s prompt injection defenses mitigates the situation, a security notification with a “Learn more” link will be displayed for the user. Users are encouraged to become more familiar with our prompt injection defenses by reading the Help Center article


Gemini in Docs with instructions to provide a summary of a file. Suspicious content was detected and a response was not provided. There is a yellow security notification banner for the user and a statement that Gemini’s response has been removed, with a “Learn more” link to a relevant Help Center article.

Moving forward


Our comprehensive prompt injection security strategy strengthens the overall security framework for Gemini. Beyond the techniques described above, it also involves rigorous testing through manual and automated red teams, generative AI security BugSWAT events, strong security standards like our Secure AI Framework (SAIF), and partnerships with both external researchers via the Google AI Vulnerability Reward Program (VRP) and industry peers via the Coalition for Secure AI (CoSAI). Our commitment to trust includes collaboration with the security community to responsibly disclose AI security vulnerabilities, share our latest threat intelligence on ways we see bad actors trying to leverage AI, and offering insights into our work to build stronger prompt injection defenses. 


Working closely with industry partners is crucial to building stronger protections for all of our users. To that end, we’re fortunate to have strong collaborative partnerships with numerous researchers, such as Ben Nassi (Confidentiality), Stav Cohen (Technion), and Or Yair (SafeBreach), as well as other AI Security researchers participating in our BugSWAT events and AI VRP program. We appreciate the work of these researchers and others in the community to help us red team and refine our defenses.


We continue working to make upcoming Gemini models inherently more resilient and add additional prompt injection defenses directly into Gemini later this year. To learn more about Google’s progress and research on generative AI threat actors, attack techniques, and vulnerabilities, take a look at the following resources:


Mitigating prompt injection attacks with a layered defense strategy

Posted by Google GenAI Security Team

With the rapid adoption of generative AI, a new wave of threats is emerging across the industry with the aim of manipulating the AI systems themselves. One such emerging attack vector is indirect prompt injections. Unlike direct prompt injections, where an attacker directly inputs malicious commands into a prompt, indirect prompt injections involve hidden malicious instructions within external data sources. These may include emails, documents, or calendar invites that instruct AI to exfiltrate user data or execute other rogue actions. As more governments, businesses, and individuals adopt generative AI to get more done, this subtle yet potentially potent attack becomes increasingly pertinent across the industry, demanding immediate attention and robust security measures.


At Google, our teams have a longstanding precedent of investing in a defense-in-depth strategy, including robust evaluation, threat analysis, AI security best practices, AI red-teaming, adversarial training, and model hardening for generative AI tools. This approach enables safer adoption of Gemini in Google Workspace and the Gemini app (we refer to both in this blog as “Gemini” for simplicity). Below we describe our prompt injection mitigation product strategy based on extensive research, development, and deployment of improved security mitigations.


A layered security approach

Google has taken a layered security approach introducing security measures designed for each stage of the prompt lifecycle. From Gemini 2.5 model hardening, to purpose-built machine learning (ML) models detecting malicious instructions, to system-level safeguards, we are meaningfully elevating the difficulty, expense, and complexity faced by an attacker. This approach compels adversaries to resort to methods that are either more easily identified or demand greater resources. 


Our model training with adversarial data significantly enhanced our defenses against indirect prompt injection attacks in Gemini 2.5 models (technical details). This inherent model resilience is augmented with additional defenses that we built directly into Gemini, including: 


  1. Prompt injection content classifiers

  2. Security thought reinforcement

  3. Markdown sanitization and suspicious URL redaction

  4. User confirmation framework

  5. End-user security mitigation notifications


This layered approach to our security strategy strengthens the overall security framework for Gemini – throughout the prompt lifecycle and across diverse attack techniques.


1. Prompt injection content classifiers


Through collaboration with leading AI security researchers via Google's AI Vulnerability Reward Program (VRP), we've curated one of the world’s most advanced catalogs of generative AI vulnerabilities and adversarial data. Utilizing this resource, we built and are in the process of rolling out proprietary machine learning models that can detect malicious prompts and instructions within various formats, such as emails and files, drawing from real-world examples. Consequently, when users query Workspace data with Gemini, the content classifiers filter out harmful data containing malicious instructions, helping to ensure a secure end-to-end user experience by retaining only safe content. For example, if a user receives an email in Gmail that includes malicious instructions, our content classifiers help to detect and disregard malicious instructions, then generate a safe response for the user. This is in addition to built-in defenses in Gmail that automatically block more than 99.9% of spam, phishing attempts, and malware.


A diagram of Gemini’s actions based on the detection of the malicious instructions by content classifiers.


2. Security thought reinforcement


This technique adds targeted security instructions surrounding the prompt content to remind the large language model (LLM) to perform the user-directed task and ignore any adversarial instructions that could be present in the content. With this approach, we steer the LLM to stay focused on the task and ignore harmful or malicious requests added by a threat actor to execute indirect prompt injection attacks.

A diagram of Gemini’s actions based on additional protection provided by the security thought reinforcement technique. 


3. Markdown sanitization and suspicious URL redaction 


Our markdown sanitizer identifies external image URLs and will not render them, making the “EchoLeak” 0-click image rendering exfiltration vulnerability not applicable to Gemini. From there, a key protection against prompt injection and data exfiltration attacks occurs at the URL level. With external data containing dynamic URLs, users may encounter unknown risks as these URLs may be designed for indirect prompt injections and data exfiltration attacks. Malicious instructions executed on a user's behalf may also generate harmful URLs. With Gemini, our defense system includes suspicious URL detection based on Google Safe Browsing to differentiate between safe and unsafe links, providing a secure experience by helping to prevent URL-based attacks. For example, if a document contains malicious URLs and a user is summarizing the content with Gemini, the suspicious URLs will be redacted in Gemini’s response. 


Gemini in Gmail provides a summary of an email thread. In the summary, there is an unsafe URL. That URL is redacted in the response and is replaced with the text “suspicious link removed”. 


4. User confirmation framework


Gemini also features a contextual user confirmation system. This framework enables Gemini to require user confirmation for certain actions, also known as “Human-In-The-Loop” (HITL), using these responses to bolster security and streamline the user experience. For example, potentially risky operations like deleting a calendar event may trigger an explicit user confirmation request, thereby helping to prevent undetected or immediate execution of the operation.


The Gemini app with instructions to delete all events on Saturday. Gemini responds with the events found on Google Calendar and asks the user to confirm this action.


5. End-user security mitigation notifications


A key aspect to keeping our users safe is sharing details on attacks that we’ve stopped so users can watch out for similar attacks in the future. To that end, when security issues are mitigated with our built-in defenses, end users are provided with contextual information allowing them to learn more via dedicated help center articles. For example, if Gemini summarizes a file containing malicious instructions and one of Google’s prompt injection defenses mitigates the situation, a security notification with a “Learn more” link will be displayed for the user. Users are encouraged to become more familiar with our prompt injection defenses by reading the Help Center article


Gemini in Docs with instructions to provide a summary of a file. Suspicious content was detected and a response was not provided. There is a yellow security notification banner for the user and a statement that Gemini’s response has been removed, with a “Learn more” link to a relevant Help Center article.

Moving forward


Our comprehensive prompt injection security strategy strengthens the overall security framework for Gemini. Beyond the techniques described above, it also involves rigorous testing through manual and automated red teams, generative AI security BugSWAT events, strong security standards like our Secure AI Framework (SAIF), and partnerships with both external researchers via the Google AI Vulnerability Reward Program (VRP) and industry peers via the Coalition for Secure AI (CoSAI). Our commitment to trust includes collaboration with the security community to responsibly disclose AI security vulnerabilities, share our latest threat intelligence on ways we see bad actors trying to leverage AI, and offering insights into our work to build stronger prompt injection defenses. 


Working closely with industry partners is crucial to building stronger protections for all of our users. To that end, we’re fortunate to have strong collaborative partnerships with numerous researchers, such as Ben Nassi (Confidentiality), Stav Cohen (Technion), and Or Yair (SafeBreach), as well as other AI Security researchers participating in our BugSWAT events and AI VRP program. We appreciate the work of these researchers and others in the community to help us red team and refine our defenses.


We continue working to make upcoming Gemini models inherently more resilient and add additional prompt injection defenses directly into Gemini later this year. To learn more about Google’s progress and research on generative AI threat actors, attack techniques, and vulnerabilities, take a look at the following resources:


Mitigating prompt injection attacks with a layered defense strategy

Posted by Google GenAI Security Team

With the rapid adoption of generative AI, a new wave of threats is emerging across the industry with the aim of manipulating the AI systems themselves. One such emerging attack vector is indirect prompt injections. Unlike direct prompt injections, where an attacker directly inputs malicious commands into a prompt, indirect prompt injections involve hidden malicious instructions within external data sources. These may include emails, documents, or calendar invites that instruct AI to exfiltrate user data or execute other rogue actions. As more governments, businesses, and individuals adopt generative AI to get more done, this subtle yet potentially potent attack becomes increasingly pertinent across the industry, demanding immediate attention and robust security measures.


At Google, our teams have a longstanding precedent of investing in a defense-in-depth strategy, including robust evaluation, threat analysis, AI security best practices, AI red-teaming, adversarial training, and model hardening for generative AI tools. This approach enables safer adoption of Gemini in Google Workspace and the Gemini app (we refer to both in this blog as “Gemini” for simplicity). Below we describe our prompt injection mitigation product strategy based on extensive research, development, and deployment of improved security mitigations.


A layered security approach

Google has taken a layered security approach introducing security measures designed for each stage of the prompt lifecycle. From Gemini 2.5 model hardening, to purpose-built machine learning (ML) models detecting malicious instructions, to system-level safeguards, we are meaningfully elevating the difficulty, expense, and complexity faced by an attacker. This approach compels adversaries to resort to methods that are either more easily identified or demand greater resources. 


Our model training with adversarial data significantly enhanced our defenses against indirect prompt injection attacks in Gemini 2.5 models (technical details). This inherent model resilience is augmented with additional defenses that we built directly into Gemini, including: 


  1. Prompt injection content classifiers

  2. Security thought reinforcement

  3. Markdown sanitization and suspicious URL redaction

  4. User confirmation framework

  5. End-user security mitigation notifications


This layered approach to our security strategy strengthens the overall security framework for Gemini – throughout the prompt lifecycle and across diverse attack techniques.


1. Prompt injection content classifiers


Through collaboration with leading AI security researchers via Google's AI Vulnerability Reward Program (VRP), we've curated one of the world’s most advanced catalogs of generative AI vulnerabilities and adversarial data. Utilizing this resource, we built and are in the process of rolling out proprietary machine learning models that can detect malicious prompts and instructions within various formats, such as emails and files, drawing from real-world examples. Consequently, when users query Workspace data with Gemini, the content classifiers filter out harmful data containing malicious instructions, helping to ensure a secure end-to-end user experience by retaining only safe content. For example, if a user receives an email in Gmail that includes malicious instructions, our content classifiers help to detect and disregard malicious instructions, then generate a safe response for the user. This is in addition to built-in defenses in Gmail that automatically block more than 99.9% of spam, phishing attempts, and malware.


A diagram of Gemini’s actions based on the detection of the malicious instructions by content classifiers.


2. Security thought reinforcement


This technique adds targeted security instructions surrounding the prompt content to remind the large language model (LLM) to perform the user-directed task and ignore any adversarial instructions that could be present in the content. With this approach, we steer the LLM to stay focused on the task and ignore harmful or malicious requests added by a threat actor to execute indirect prompt injection attacks.

A diagram of Gemini’s actions based on additional protection provided by the security thought reinforcement technique. 


3. Markdown sanitization and suspicious URL redaction 


Our markdown sanitizer identifies external image URLs and will not render them, making the “EchoLeak” 0-click image rendering exfiltration vulnerability not applicable to Gemini. From there, a key protection against prompt injection and data exfiltration attacks occurs at the URL level. With external data containing dynamic URLs, users may encounter unknown risks as these URLs may be designed for indirect prompt injections and data exfiltration attacks. Malicious instructions executed on a user's behalf may also generate harmful URLs. With Gemini, our defense system includes suspicious URL detection based on Google Safe Browsing to differentiate between safe and unsafe links, providing a secure experience by helping to prevent URL-based attacks. For example, if a document contains malicious URLs and a user is summarizing the content with Gemini, the suspicious URLs will be redacted in Gemini’s response. 


Gemini in Gmail provides a summary of an email thread. In the summary, there is an unsafe URL. That URL is redacted in the response and is replaced with the text “suspicious link removed”. 


4. User confirmation framework


Gemini also features a contextual user confirmation system. This framework enables Gemini to require user confirmation for certain actions, also known as “Human-In-The-Loop” (HITL), using these responses to bolster security and streamline the user experience. For example, potentially risky operations like deleting a calendar event may trigger an explicit user confirmation request, thereby helping to prevent undetected or immediate execution of the operation.


The Gemini app with instructions to delete all events on Saturday. Gemini responds with the events found on Google Calendar and asks the user to confirm this action.


5. End-user security mitigation notifications


A key aspect to keeping our users safe is sharing details on attacks that we’ve stopped so users can watch out for similar attacks in the future. To that end, when security issues are mitigated with our built-in defenses, end users are provided with contextual information allowing them to learn more via dedicated help center articles. For example, if Gemini summarizes a file containing malicious instructions and one of Google’s prompt injection defenses mitigates the situation, a security notification with a “Learn more” link will be displayed for the user. Users are encouraged to become more familiar with our prompt injection defenses by reading the Help Center article


Gemini in Docs with instructions to provide a summary of a file. Suspicious content was detected and a response was not provided. There is a yellow security notification banner for the user and a statement that Gemini’s response has been removed, with a “Learn more” link to a relevant Help Center article.

Moving forward


Our comprehensive prompt injection security strategy strengthens the overall security framework for Gemini. Beyond the techniques described above, it also involves rigorous testing through manual and automated red teams, generative AI security BugSWAT events, strong security standards like our Secure AI Framework (SAIF), and partnerships with both external researchers via the Google AI Vulnerability Reward Program (VRP) and industry peers via the Coalition for Secure AI (CoSAI). Our commitment to trust includes collaboration with the security community to responsibly disclose AI security vulnerabilities, share our latest threat intelligence on ways we see bad actors trying to leverage AI, and offering insights into our work to build stronger prompt injection defenses. 


Working closely with industry partners is crucial to building stronger protections for all of our users. To that end, we’re fortunate to have strong collaborative partnerships with numerous researchers, such as Ben Nassi (Confidentiality), Stav Cohen (Technion), and Or Yair (SafeBreach), as well as other AI Security researchers participating in our BugSWAT events and AI VRP program. We appreciate the work of these researchers and others in the community to help us red team and refine our defenses.


We continue working to make upcoming Gemini models inherently more resilient and add additional prompt injection defenses directly into Gemini later this year. To learn more about Google’s progress and research on generative AI threat actors, attack techniques, and vulnerabilities, take a look at the following resources:


Mitigating prompt injection attacks with a layered defense strategy

Posted by Google GenAI Security Team

With the rapid adoption of generative AI, a new wave of threats is emerging across the industry with the aim of manipulating the AI systems themselves. One such emerging attack vector is indirect prompt injections. Unlike direct prompt injections, where an attacker directly inputs malicious commands into a prompt, indirect prompt injections involve hidden malicious instructions within external data sources. These may include emails, documents, or calendar invites that instruct AI to exfiltrate user data or execute other rogue actions. As more governments, businesses, and individuals adopt generative AI to get more done, this subtle yet potentially potent attack becomes increasingly pertinent across the industry, demanding immediate attention and robust security measures.


At Google, our teams have a longstanding precedent of investing in a defense-in-depth strategy, including robust evaluation, threat analysis, AI security best practices, AI red-teaming, adversarial training, and model hardening for generative AI tools. This approach enables safer adoption of Gemini in Google Workspace and the Gemini app (we refer to both in this blog as “Gemini” for simplicity). Below we describe our prompt injection mitigation product strategy based on extensive research, development, and deployment of improved security mitigations.


A layered security approach

Google has taken a layered security approach introducing security measures designed for each stage of the prompt lifecycle. From Gemini 2.5 model hardening, to purpose-built machine learning (ML) models detecting malicious instructions, to system-level safeguards, we are meaningfully elevating the difficulty, expense, and complexity faced by an attacker. This approach compels adversaries to resort to methods that are either more easily identified or demand greater resources. 


Our model training with adversarial data significantly enhanced our defenses against indirect prompt injection attacks in Gemini 2.5 models (technical details). This inherent model resilience is augmented with additional defenses that we built directly into Gemini, including: 


  1. Prompt injection content classifiers

  2. Security thought reinforcement

  3. Markdown sanitization and suspicious URL redaction

  4. User confirmation framework

  5. End-user security mitigation notifications


This layered approach to our security strategy strengthens the overall security framework for Gemini – throughout the prompt lifecycle and across diverse attack techniques.


1. Prompt injection content classifiers


Through collaboration with leading AI security researchers via Google's AI Vulnerability Reward Program (VRP), we've curated one of the world’s most advanced catalogs of generative AI vulnerabilities and adversarial data. Utilizing this resource, we built and are in the process of rolling out proprietary machine learning models that can detect malicious prompts and instructions within various formats, such as emails and files, drawing from real-world examples. Consequently, when users query Workspace data with Gemini, the content classifiers filter out harmful data containing malicious instructions, helping to ensure a secure end-to-end user experience by retaining only safe content. For example, if a user receives an email in Gmail that includes malicious instructions, our content classifiers help to detect and disregard malicious instructions, then generate a safe response for the user. This is in addition to built-in defenses in Gmail that automatically block more than 99.9% of spam, phishing attempts, and malware.


A diagram of Gemini’s actions based on the detection of the malicious instructions by content classifiers.


2. Security thought reinforcement


This technique adds targeted security instructions surrounding the prompt content to remind the large language model (LLM) to perform the user-directed task and ignore any adversarial instructions that could be present in the content. With this approach, we steer the LLM to stay focused on the task and ignore harmful or malicious requests added by a threat actor to execute indirect prompt injection attacks.

A diagram of Gemini’s actions based on additional protection provided by the security thought reinforcement technique. 


3. Markdown sanitization and suspicious URL redaction 


Our markdown sanitizer identifies external image URLs and will not render them, making the “EchoLeak” 0-click image rendering exfiltration vulnerability not applicable to Gemini. From there, a key protection against prompt injection and data exfiltration attacks occurs at the URL level. With external data containing dynamic URLs, users may encounter unknown risks as these URLs may be designed for indirect prompt injections and data exfiltration attacks. Malicious instructions executed on a user's behalf may also generate harmful URLs. With Gemini, our defense system includes suspicious URL detection based on Google Safe Browsing to differentiate between safe and unsafe links, providing a secure experience by helping to prevent URL-based attacks. For example, if a document contains malicious URLs and a user is summarizing the content with Gemini, the suspicious URLs will be redacted in Gemini’s response. 


Gemini in Gmail provides a summary of an email thread. In the summary, there is an unsafe URL. That URL is redacted in the response and is replaced with the text “suspicious link removed”. 


4. User confirmation framework


Gemini also features a contextual user confirmation system. This framework enables Gemini to require user confirmation for certain actions, also known as “Human-In-The-Loop” (HITL), using these responses to bolster security and streamline the user experience. For example, potentially risky operations like deleting a calendar event may trigger an explicit user confirmation request, thereby helping to prevent undetected or immediate execution of the operation.


The Gemini app with instructions to delete all events on Saturday. Gemini responds with the events found on Google Calendar and asks the user to confirm this action.


5. End-user security mitigation notifications


A key aspect to keeping our users safe is sharing details on attacks that we’ve stopped so users can watch out for similar attacks in the future. To that end, when security issues are mitigated with our built-in defenses, end users are provided with contextual information allowing them to learn more via dedicated help center articles. For example, if Gemini summarizes a file containing malicious instructions and one of Google’s prompt injection defenses mitigates the situation, a security notification with a “Learn more” link will be displayed for the user. Users are encouraged to become more familiar with our prompt injection defenses by reading the Help Center article


Gemini in Docs with instructions to provide a summary of a file. Suspicious content was detected and a response was not provided. There is a yellow security notification banner for the user and a statement that Gemini’s response has been removed, with a “Learn more” link to a relevant Help Center article.

Moving forward


Our comprehensive prompt injection security strategy strengthens the overall security framework for Gemini. Beyond the techniques described above, it also involves rigorous testing through manual and automated red teams, generative AI security BugSWAT events, strong security standards like our Secure AI Framework (SAIF), and partnerships with both external researchers via the Google AI Vulnerability Reward Program (VRP) and industry peers via the Coalition for Secure AI (CoSAI). Our commitment to trust includes collaboration with the security community to responsibly disclose AI security vulnerabilities, share our latest threat intelligence on ways we see bad actors trying to leverage AI, and offering insights into our work to build stronger prompt injection defenses. 


Working closely with industry partners is crucial to building stronger protections for all of our users. To that end, we’re fortunate to have strong collaborative partnerships with numerous researchers, such as Ben Nassi (Confidentiality), Stav Cohen (Technion), and Or Yair (SafeBreach), as well as other AI Security researchers participating in our BugSWAT events and AI VRP program. We appreciate the work of these researchers and others in the community to help us red team and refine our defenses.


We continue working to make upcoming Gemini models inherently more resilient and add additional prompt injection defenses directly into Gemini later this year. To learn more about Google’s progress and research on generative AI threat actors, attack techniques, and vulnerabilities, take a look at the following resources:


Mitigating prompt injection attacks with a layered defense strategy

Posted by Google GenAI Security Team

With the rapid adoption of generative AI, a new wave of threats is emerging across the industry with the aim of manipulating the AI systems themselves. One such emerging attack vector is indirect prompt injections. Unlike direct prompt injections, where an attacker directly inputs malicious commands into a prompt, indirect prompt injections involve hidden malicious instructions within external data sources. These may include emails, documents, or calendar invites that instruct AI to exfiltrate user data or execute other rogue actions. As more governments, businesses, and individuals adopt generative AI to get more done, this subtle yet potentially potent attack becomes increasingly pertinent across the industry, demanding immediate attention and robust security measures.


At Google, our teams have a longstanding precedent of investing in a defense-in-depth strategy, including robust evaluation, threat analysis, AI security best practices, AI red-teaming, adversarial training, and model hardening for generative AI tools. This approach enables safer adoption of Gemini in Google Workspace and the Gemini app (we refer to both in this blog as “Gemini” for simplicity). Below we describe our prompt injection mitigation product strategy based on extensive research, development, and deployment of improved security mitigations.


A layered security approach

Google has taken a layered security approach introducing security measures designed for each stage of the prompt lifecycle. From Gemini 2.5 model hardening, to purpose-built machine learning (ML) models detecting malicious instructions, to system-level safeguards, we are meaningfully elevating the difficulty, expense, and complexity faced by an attacker. This approach compels adversaries to resort to methods that are either more easily identified or demand greater resources. 


Our model training with adversarial data significantly enhanced our defenses against indirect prompt injection attacks in Gemini 2.5 models (technical details). This inherent model resilience is augmented with additional defenses that we built directly into Gemini, including: 


  1. Prompt injection content classifiers

  2. Security thought reinforcement

  3. Markdown sanitization and suspicious URL redaction

  4. User confirmation framework

  5. End-user security mitigation notifications


This layered approach to our security strategy strengthens the overall security framework for Gemini – throughout the prompt lifecycle and across diverse attack techniques.


1. Prompt injection content classifiers


Through collaboration with leading AI security researchers via Google's AI Vulnerability Reward Program (VRP), we've curated one of the world’s most advanced catalogs of generative AI vulnerabilities and adversarial data. Utilizing this resource, we built and are in the process of rolling out proprietary machine learning models that can detect malicious prompts and instructions within various formats, such as emails and files, drawing from real-world examples. Consequently, when users query Workspace data with Gemini, the content classifiers filter out harmful data containing malicious instructions, helping to ensure a secure end-to-end user experience by retaining only safe content. For example, if a user receives an email in Gmail that includes malicious instructions, our content classifiers help to detect and disregard malicious instructions, then generate a safe response for the user. This is in addition to built-in defenses in Gmail that automatically block more than 99.9% of spam, phishing attempts, and malware.


A diagram of Gemini’s actions based on the detection of the malicious instructions by content classifiers.


2. Security thought reinforcement


This technique adds targeted security instructions surrounding the prompt content to remind the large language model (LLM) to perform the user-directed task and ignore any adversarial instructions that could be present in the content. With this approach, we steer the LLM to stay focused on the task and ignore harmful or malicious requests added by a threat actor to execute indirect prompt injection attacks.

A diagram of Gemini’s actions based on additional protection provided by the security thought reinforcement technique. 


3. Markdown sanitization and suspicious URL redaction 


Our markdown sanitizer identifies external image URLs and will not render them, making the “EchoLeak” 0-click image rendering exfiltration vulnerability not applicable to Gemini. From there, a key protection against prompt injection and data exfiltration attacks occurs at the URL level. With external data containing dynamic URLs, users may encounter unknown risks as these URLs may be designed for indirect prompt injections and data exfiltration attacks. Malicious instructions executed on a user's behalf may also generate harmful URLs. With Gemini, our defense system includes suspicious URL detection based on Google Safe Browsing to differentiate between safe and unsafe links, providing a secure experience by helping to prevent URL-based attacks. For example, if a document contains malicious URLs and a user is summarizing the content with Gemini, the suspicious URLs will be redacted in Gemini’s response. 


Gemini in Gmail provides a summary of an email thread. In the summary, there is an unsafe URL. That URL is redacted in the response and is replaced with the text “suspicious link removed”. 


4. User confirmation framework


Gemini also features a contextual user confirmation system. This framework enables Gemini to require user confirmation for certain actions, also known as “Human-In-The-Loop” (HITL), using these responses to bolster security and streamline the user experience. For example, potentially risky operations like deleting a calendar event may trigger an explicit user confirmation request, thereby helping to prevent undetected or immediate execution of the operation.


The Gemini app with instructions to delete all events on Saturday. Gemini responds with the events found on Google Calendar and asks the user to confirm this action.


5. End-user security mitigation notifications


A key aspect to keeping our users safe is sharing details on attacks that we’ve stopped so users can watch out for similar attacks in the future. To that end, when security issues are mitigated with our built-in defenses, end users are provided with contextual information allowing them to learn more via dedicated help center articles. For example, if Gemini summarizes a file containing malicious instructions and one of Google’s prompt injection defenses mitigates the situation, a security notification with a “Learn more” link will be displayed for the user. Users are encouraged to become more familiar with our prompt injection defenses by reading the Help Center article


Gemini in Docs with instructions to provide a summary of a file. Suspicious content was detected and a response was not provided. There is a yellow security notification banner for the user and a statement that Gemini’s response has been removed, with a “Learn more” link to a relevant Help Center article.

Moving forward


Our comprehensive prompt injection security strategy strengthens the overall security framework for Gemini. Beyond the techniques described above, it also involves rigorous testing through manual and automated red teams, generative AI security BugSWAT events, strong security standards like our Secure AI Framework (SAIF), and partnerships with both external researchers via the Google AI Vulnerability Reward Program (VRP) and industry peers via the Coalition for Secure AI (CoSAI). Our commitment to trust includes collaboration with the security community to responsibly disclose AI security vulnerabilities, share our latest threat intelligence on ways we see bad actors trying to leverage AI, and offering insights into our work to build stronger prompt injection defenses. 


Working closely with industry partners is crucial to building stronger protections for all of our users. To that end, we’re fortunate to have strong collaborative partnerships with numerous researchers, such as Ben Nassi (Confidentiality), Stav Cohen (Technion), and Or Yair (SafeBreach), as well as other AI Security researchers participating in our BugSWAT events and AI VRP program. We appreciate the work of these researchers and others in the community to help us red team and refine our defenses.


We continue working to make upcoming Gemini models inherently more resilient and add additional prompt injection defenses directly into Gemini later this year. To learn more about Google’s progress and research on generative AI threat actors, attack techniques, and vulnerabilities, take a look at the following resources:


Mitigating prompt injection attacks with a layered defense strategy

Posted by Google GenAI Security Team

With the rapid adoption of generative AI, a new wave of threats is emerging across the industry with the aim of manipulating the AI systems themselves. One such emerging attack vector is indirect prompt injections. Unlike direct prompt injections, where an attacker directly inputs malicious commands into a prompt, indirect prompt injections involve hidden malicious instructions within external data sources. These may include emails, documents, or calendar invites that instruct AI to exfiltrate user data or execute other rogue actions. As more governments, businesses, and individuals adopt generative AI to get more done, this subtle yet potentially potent attack becomes increasingly pertinent across the industry, demanding immediate attention and robust security measures.


At Google, our teams have a longstanding precedent of investing in a defense-in-depth strategy, including robust evaluation, threat analysis, AI security best practices, AI red-teaming, adversarial training, and model hardening for generative AI tools. This approach enables safer adoption of Gemini in Google Workspace and the Gemini app (we refer to both in this blog as “Gemini” for simplicity). Below we describe our prompt injection mitigation product strategy based on extensive research, development, and deployment of improved security mitigations.


A layered security approach

Google has taken a layered security approach introducing security measures designed for each stage of the prompt lifecycle. From Gemini 2.5 model hardening, to purpose-built machine learning (ML) models detecting malicious instructions, to system-level safeguards, we are meaningfully elevating the difficulty, expense, and complexity faced by an attacker. This approach compels adversaries to resort to methods that are either more easily identified or demand greater resources. 


Our model training with adversarial data significantly enhanced our defenses against indirect prompt injection attacks in Gemini 2.5 models (technical details). This inherent model resilience is augmented with additional defenses that we built directly into Gemini, including: 


  1. Prompt injection content classifiers

  2. Security thought reinforcement

  3. Markdown sanitization and suspicious URL redaction

  4. User confirmation framework

  5. End-user security mitigation notifications


This layered approach to our security strategy strengthens the overall security framework for Gemini – throughout the prompt lifecycle and across diverse attack techniques.


1. Prompt injection content classifiers


Through collaboration with leading AI security researchers via Google's AI Vulnerability Reward Program (VRP), we've curated one of the world’s most advanced catalogs of generative AI vulnerabilities and adversarial data. Utilizing this resource, we built and are in the process of rolling out proprietary machine learning models that can detect malicious prompts and instructions within various formats, such as emails and files, drawing from real-world examples. Consequently, when users query Workspace data with Gemini, the content classifiers filter out harmful data containing malicious instructions, helping to ensure a secure end-to-end user experience by retaining only safe content. For example, if a user receives an email in Gmail that includes malicious instructions, our content classifiers help to detect and disregard malicious instructions, then generate a safe response for the user. This is in addition to built-in defenses in Gmail that automatically block more than 99.9% of spam, phishing attempts, and malware.


A diagram of Gemini’s actions based on the detection of the malicious instructions by content classifiers.


2. Security thought reinforcement


This technique adds targeted security instructions surrounding the prompt content to remind the large language model (LLM) to perform the user-directed task and ignore any adversarial instructions that could be present in the content. With this approach, we steer the LLM to stay focused on the task and ignore harmful or malicious requests added by a threat actor to execute indirect prompt injection attacks.

A diagram of Gemini’s actions based on additional protection provided by the security thought reinforcement technique. 


3. Markdown sanitization and suspicious URL redaction 


Our markdown sanitizer identifies external image URLs and will not render them, making the “EchoLeak” 0-click image rendering exfiltration vulnerability not applicable to Gemini. From there, a key protection against prompt injection and data exfiltration attacks occurs at the URL level. With external data containing dynamic URLs, users may encounter unknown risks as these URLs may be designed for indirect prompt injections and data exfiltration attacks. Malicious instructions executed on a user's behalf may also generate harmful URLs. With Gemini, our defense system includes suspicious URL detection based on Google Safe Browsing to differentiate between safe and unsafe links, providing a secure experience by helping to prevent URL-based attacks. For example, if a document contains malicious URLs and a user is summarizing the content with Gemini, the suspicious URLs will be redacted in Gemini’s response. 


Gemini in Gmail provides a summary of an email thread. In the summary, there is an unsafe URL. That URL is redacted in the response and is replaced with the text “suspicious link removed”. 


4. User confirmation framework


Gemini also features a contextual user confirmation system. This framework enables Gemini to require user confirmation for certain actions, also known as “Human-In-The-Loop” (HITL), using these responses to bolster security and streamline the user experience. For example, potentially risky operations like deleting a calendar event may trigger an explicit user confirmation request, thereby helping to prevent undetected or immediate execution of the operation.


The Gemini app with instructions to delete all events on Saturday. Gemini responds with the events found on Google Calendar and asks the user to confirm this action.


5. End-user security mitigation notifications


A key aspect to keeping our users safe is sharing details on attacks that we’ve stopped so users can watch out for similar attacks in the future. To that end, when security issues are mitigated with our built-in defenses, end users are provided with contextual information allowing them to learn more via dedicated help center articles. For example, if Gemini summarizes a file containing malicious instructions and one of Google’s prompt injection defenses mitigates the situation, a security notification with a “Learn more” link will be displayed for the user. Users are encouraged to become more familiar with our prompt injection defenses by reading the Help Center article


Gemini in Docs with instructions to provide a summary of a file. Suspicious content was detected and a response was not provided. There is a yellow security notification banner for the user and a statement that Gemini’s response has been removed, with a “Learn more” link to a relevant Help Center article.

Moving forward


Our comprehensive prompt injection security strategy strengthens the overall security framework for Gemini. Beyond the techniques described above, it also involves rigorous testing through manual and automated red teams, generative AI security BugSWAT events, strong security standards like our Secure AI Framework (SAIF), and partnerships with both external researchers via the Google AI Vulnerability Reward Program (VRP) and industry peers via the Coalition for Secure AI (CoSAI). Our commitment to trust includes collaboration with the security community to responsibly disclose AI security vulnerabilities, share our latest threat intelligence on ways we see bad actors trying to leverage AI, and offering insights into our work to build stronger prompt injection defenses. 


Working closely with industry partners is crucial to building stronger protections for all of our users. To that end, we’re fortunate to have strong collaborative partnerships with numerous researchers, such as Ben Nassi (Confidentiality), Stav Cohen (Technion), and Or Yair (SafeBreach), as well as other AI Security researchers participating in our BugSWAT events and AI VRP program. We appreciate the work of these researchers and others in the community to help us red team and refine our defenses.


We continue working to make upcoming Gemini models inherently more resilient and add additional prompt injection defenses directly into Gemini later this year. To learn more about Google’s progress and research on generative AI threat actors, attack techniques, and vulnerabilities, take a look at the following resources: