Snyk has a proof-of-concept or detailed explanation of how to exploit this vulnerability.
In a few clicks we can analyze your entire application and see what components are vulnerable in your application, and suggest you quick fixes.
Test your applicationsLearn about Cross-site Scripting (XSS) vulnerabilities in an interactive lesson.
Start learningUpgrade @jupyterlab/git to version 0.54.0 or higher.
@jupyterlab/git is an A JupyterLab extension for version control using git
Affected versions of this package are vulnerable to Cross-site Scripting (XSS) in the createHeader method. An attacker can execute arbitrary JavaScript in another user's browser session by crafting a malicious filename containing a JavaScript payload, committing and renaming the file in a shared Git repository, and having the victim view the rename diff in the Git History tab. This can lead to the execution of arbitrary shell commands, exfiltration of secrets, or credentials from the victim's environment.
Note: This is only exploitable if the attacker has commit access to a Git repository that the victim clones and the victim navigates to the Git History tab, clicks the rename commit, and views the diff of the renamed file.
This vulnerability can be mitigated by replacing innerHTML with textContent for filename rendering in the createHeader method, or by applying proper HTML sanitization before inserting user-controlled filenames into the DOM.
Cross-site scripting (or XSS) is a code vulnerability that occurs when an attacker “injects” a malicious script into an otherwise trusted website. The injected script gets downloaded and executed by the end user’s browser when the user interacts with the compromised website.
This is done by escaping the context of the web application; the web application then delivers that data to its users along with other trusted dynamic content, without validating it. The browser unknowingly executes malicious script on the client side (through client-side languages; usually JavaScript or HTML) in order to perform actions that are otherwise typically blocked by the browser’s Same Origin Policy.
Injecting malicious code is the most prevalent manner by which XSS is exploited; for this reason, escaping characters in order to prevent this manipulation is the top method for securing code against this vulnerability.
Escaping means that the application is coded to mark key characters, and particularly key characters included in user input, to prevent those characters from being interpreted in a dangerous context. For example, in HTML, < can be coded as < and > can be coded as > in order to be interpreted and displayed as themselves in text, while within the code itself, they are used for HTML tags. If malicious content is injected into an application that escapes special characters and that malicious content uses < and > as HTML tags, those characters are nonetheless not interpreted as HTML tags by the browser if they’ve been correctly escaped in the application code and in this way the attempted attack is diverted.
The most prominent use of XSS is to steal cookies (source: OWASP HttpOnly) and hijack user sessions, but XSS exploits have been used to expose sensitive information, enable access to privileged services and functionality and deliver malware.
There are a few methods by which XSS can be manipulated:
| Type | Origin | Description |
|---|---|---|
| Stored | Server | The malicious code is inserted in the application (usually as a link) by the attacker. The code is activated every time a user clicks the link. |
| Reflected | Server | The attacker delivers a malicious link externally from the vulnerable web site application to a user. When clicked, malicious code is sent to the vulnerable web site, which reflects the attack back to the user’s browser. |
| DOM-based | Client | The attacker forces the user’s browser to render a malicious page. The data in the page itself delivers the cross-site scripting data. |
| Mutated | The attacker injects code that appears safe, but is then rewritten and modified by the browser, while parsing the markup. An example is rebalancing unclosed quotation marks or even adding quotation marks to unquoted parameters. |
?, &, /, <, > and spaces to their respective HTML or URL encoded equivalents.