In WhatsUp Gold versions released before 2023.1, an API endpoint was found to be missing an authentication mechanism. It is possible for an unauthenticated attacker to enumerate ancillary credential information stored within WhatsUp Gold.
Telerik Extensions for ASP.NET MVC (all versions) does not whitelist requests, which can allow a remote attacker to access files inside the server's web directory. NOTE: this product has been obsolete since June 2013.
Directory traversal vulnerability in report/reportViewAction.jsp in Progress Software OpenEdge 11.2 allows remote attackers to read arbitrary files via a .. (dot dot) in the selection parameter.
In WhatsUp Gold versions released before 2024.0.0, an Authentication Bypass issue exists which allows an attacker to obtain encrypted user credentials.
In WhatsUp Gold versions released before 2023.1.3, a vulnerability exists in the TestController functionality. A specially crafted unauthenticated HTTP request can lead to a disclosure of sensitive information.
In WhatsUp Gold versions released before 2023.1.3, an unauthenticated Path Traversal vulnerability exists Wug.UI.Areas.Wug.Controllers.SessionController.LoadNMScript. This allows allows reading of any file from the applications web-root directory .
The Progress MOVEit Automation configuration export function prior to 2024.0.0 uses a cryptographic method with insufficient bit length.
In Progress Flowmon Packet Investigator before 12.1.0, a Flowmon user with access to Flowmon Packet Investigator could leverage a path-traversal vulnerability to retrieve files on the Flowmon appliance's local filesystem.
In Progress Ipswitch WhatsUp Gold 16.1 through 21.1.1, and 22.0.0, it is possible for an unauthenticated attacker to obtain the WhatsUp Gold installation serial number.
A Directory Traversal issue was discovered in SSHServerAPI.dll in Progress ipswitch WS_FTP Server 2018 before 8.6.1. An attacker can supply a string using special patterns via the SCP protocol to disclose WS_FTP usernames as well as filenames.
In WhatsUp Gold versions released before 2023.1.3, an unauthenticated Arbitrary File Read issue exists in Wug.UI.Areas.Wug.Controllers.SessionController.CachedCSS. This vulnerability allows reading of any file with iisapppool\NmConsole privileges.
Use of reversible password encryption algorithm allows attackers to decrypt passwords. Sensitive information can be easily unencrypted by the attacker, stolen credentials can be used for arbitrary actions to corrupt the system.
An SSRF issue was discovered in NmAPI.exe in Ipswitch WhatsUp Gold before 2018 (18.0). Malicious actors can submit specially crafted requests via the NmAPI executable to (1) gain unauthorized access to the WhatsUp Gold system, (2) obtain information about the WhatsUp Gold system, or (3) execute remote commands.
In WhatsUp Gold versions released before 2023.1.3, a Server Side Request Forgery vulnerability exists in the GetASPReport feature. This allows any authenticated user to retrieve ASP reports from an HTML form.
In WhatsUp Gold versions released before 2023.1.3, an authenticated SSRF vulnerability in Wug.UI.Areas.Wug.Controllers.SessionControler.Update allows a low privileged user to chain this SSRF with an Improper Access Control vulnerability. This can be used to escalate privileges to Admin.
In Progress Ipswitch WhatsUp Gold 17.0.0 through 21.1.1, and 22.0.0, it is possible for an authenticated user to invoke an API transaction that would allow them to read sensitive operating-system attributes from a host that is accessible by the WhatsUp Gold system.
In WhatsUp Gold versions released before 2023.1.2 , an SSRF vulnerability exists in Whatsup Gold's Issue exists in the HTTP Monitoring functionality. Due to the lack of proper authorization, any authenticated user can access the HTTP monitoring functionality, what leads to the Server Side Request Forgery.
In WhatsUp Gold versions released before 2023.1.2 , a blind SSRF vulnerability exists in Whatsup Gold's FaviconController that allows an attacker to send arbitrary HTTP requests on behalf of the vulnerable server.
A remote unauthenticated attacker can abuse a web service in SAP NetWeaver Application Server for Java (Administrator System Overview), versions 7.30, 7.31, 7.40, 7.50, by sending a specially crafted XML file and trick the application server into leaking authentication credentials for its own SAP Management console, resulting in Server-Side Request Forgery.
A Server-Side Request Forgery vulnerability in DELMIA Apriso Release 2017 through Release 2022 could allow an unauthenticated attacker to issue requests to arbitrary hosts on behalf of the server running the DELMIA Apriso application.
GroupViewProxyServlet in RoomWizard before 4.4.x allows SSRF via the url parameter.
The copy function in application/admin/controller/Article.php in NoneCms 1.3.0 allows remote attackers to access the content of internal and external network resources via Server Side Request Forgery (SSRF), because URL validation only considers whether the URL contains the "csdn" substring.
An issue in Ladder v.0.0.1 thru v.0.0.21 allows a remote attacker to obtain sensitive information via a crafted request to the API.
Adobe Experience Manager versions 6.2 and 6.3 have a Server-Side Request Forgery vulnerability. Successful exploitation could lead to sensitive information disclosure.
Adobe Experience Manager versions 6.4 and earlier have a Server-Side Request Forgery vulnerability. Successful exploitation could lead to sensitive information disclosure.
The Omni Commerce Connect API (OCC) of SAP Hybris Commerce, versions 6.*, is vulnerable to server-side request forgery (SSRF) attacks. This is due to a misconfiguration of XML parser that is used in the server-side implementation of OCC.
TrueLayer.NET is the .Net client for TrueLayer. The vulnerability could potentially allow a malicious actor to gain control over the destination URL of the HttpClient used in the API classes. For applications using the SDK, requests to unexpected resources on local networks or to the internet could be made which could lead to information disclosure. The issue can be mitigated by having strict egress rules limiting the destinations to which requests can be made, and applying strict validation to any user input passed to the `truelayer-dotnet` library. Versions of TrueLayer.Client `v1.6.0` and later are not affected.
In JetBrains TeamCity before 2020.2.3, information disclosure via SSRF was possible.
GPT Academic version 3.83 is vulnerable to a Server-Side Request Forgery (SSRF) vulnerability through its HotReload plugin function, which calls the crazy_utils.get_files_from_everything() API without proper sanitization. This allows attackers to exploit the vulnerability to abuse the victim GPT Academic's Gradio Web server's credentials to access unauthorized web resources.
D-Tale is a visualizer for Pandas data structures. Users hosting versions D-Tale prior to 3.9.0 publicly can be vulnerable to server-side request forgery (SSRF), allowing attackers to access files on the server. Users should upgrade to version 3.9.0, where the `Load From the Web` input is turned off by default. The only workaround for versions earlier than 3.9.0 is to only host D-Tale to trusted users.
CWE-918: Server-Side Request Forgery (SSRF) vulnerability exists that could cause unauthorized access to sensitive data when an attacker sends a specially crafted document to a vulnerable endpoint.
Cursor is a code editor built for programming with AI. In versions below 1.3, Mermaid (which is used to render diagrams) allows embedding images which then get rendered by Cursor in the chat box. An attacker can use this to exfiltrate sensitive information to a third-party attacker controlled server through an image fetch after successfully performing a prompt injection. A malicious model (or hallucination/backdoor) might also trigger this exploit at will. This issue requires prompt injection from malicious data (web, image upload, source code) in order to exploit. In that case, it can send sensitive information to an attacker-controlled external server. This is fixed in version 1.3.
Some Dahua software products have a vulnerability of server-side request forgery (SSRF). An Attacker can access internal resources by concatenating links (URL) that conform to specific rules.
The GeoAnalytics feature in Qlik Sense April 2020 patch 4 allows SSRF.
CWE-918: Server-Side Request Forgery (SSRF) vulnerability exists that could cause unauthorized access to sensitive data when an attacker configures the application to access a malicious url.
A Server-Side Request Forgery (SSRF) vulnerability exists in infiniflow/ragflow version 0.12.0. The vulnerability is present in the `POST /v1/llm/add_llm` and `POST /v1/conversation/tts` endpoints. Attackers can specify an arbitrary URL as the `api_base` when adding an `OPENAITTS` model, and subsequently access the `tts` REST API endpoint to read contents from the specified URL. This can lead to unauthorized access to internal web resources.
There is a server-side request forgery vulnerability in HUAWEI P40 versions 10.1.0.118(C00E116R3P3). This vulnerability is due to insufficient validation of parameters while dealing with some messages. A successful exploit could allow the attacker to gain access to certain resource which the attacker are supposed not to do.
langgenius/dify version 0.9.1 contains a Server-Side Request Forgery (SSRF) vulnerability. The vulnerability exists due to improper handling of the api_endpoint parameter, allowing an attacker to make direct requests to internal network services. This can lead to unauthorized access to internal servers and potentially expose sensitive information, including access to the AWS metadata endpoint.
In version 3.83 of binary-husky/gpt_academic, a Server-Side Request Forgery (SSRF) vulnerability exists in the Markdown_Translate.get_files_from_everything() API. This vulnerability is exploited through the HotReload(Markdown翻译中) plugin function, which allows downloading arbitrary web hosts by only checking if the link starts with 'http'. Attackers can exploit this vulnerability to abuse the victim GPT Academic's Gradio Web server's credentials to access unauthorized web resources.
Server-Side Request Forgery (SSRF) vulnerability in PhonePe PhonePe Payment Solutions.This issue affects PhonePe Payment Solutions: from n/a through 1.0.15.
Appwrite <= v1.4.13 is affected by a Server-Side Request Forgery (SSRF) via the '/v1/avatars/favicon' endpoint due to an incomplete fix of CVE-2023-27159.
ControlID iDSecure On-premises versions 4.7.48.0 and prior are vulnerable to a server-side request forgery vulnerability which could allow an unauthenticated attacker to retrieve information from other servers.
The inclusion of the web scraper for AnythingLLM means that any user with the proper authorization level (manager, admin, and when in single user) could put in the URL ``` http://169.254.169.254/latest/meta-data/identity-credentials/ec2/security-credentials/ec2-instance ``` which is a special IP and URL that resolves only when the request comes from within an EC2 instance. This would allow the user to see the connection/secret credentials for their specific instance and be able to manage it regardless of who deployed it. The user would have to have pre-existing knowledge of the hosting infra which the target instance is deployed on, but if sent - would resolve if on EC2 and the proper `iptable` or firewall rule is not configured for their setup.
Server-Side Request Forgery (SSRF) vulnerability in cgi component in Synology Media Server before 1.8.3-2881 allows remote attackers to access intranet resources via unspecified vectors.
Server-Side Request Forgery (SSRF) in Microsoft Power Apps allows an unauthorized attacker to disclose information over a network
AutoGPT is a platform that allows users to create, deploy, and manage continuous artificial intelligence agents that automate complex workflows. Prior to 0.6.1, AutoGPT allows SSRF due to DNS Rebinding in requests wrapper. AutoGPT is built with a wrapper around Python's requests library, hardening the application against SSRF. The code for this wrapper can be found in autogpt_platform/backend/backend/util/request.py. The requested hostname of a URL which is being requested is validated, ensuring that it does not resolve to any local ipv4 or ipv6 addresses. However, this check is not sufficient, as a DNS server may initially respond with a non-blocked address, with a TTL of 0. This means that the initial resolution would appear as a non-blocked address. In this case, validate_url() will return the url as successful. After validate_url() has successfully returned the url, the url is then passed to the real request() function. When the real request() function is called with the validated url, request() will once again resolve the address of the hostname, because the record will not have been cached (due to TTL 0). This resolution may be in the "invalid range". This type of attack is called a "DNS Rebinding Attack". This vulnerability is fixed in 0.6.1.
The Popup Builder WordPress plugin before 4.2.6 does not validate a parameter before making a request to it, which could allow users with the administrator role to perform SSRF attack in Multisite WordPress configurations.
An SSRF issue was discovered in tecrail Responsive FileManager 9.13.4 via the upload.php url parameter. NOTE: this issue exists because of an incomplete fix for CVE-2018-15495.
Audiobookshelf is a self-hosted audiobook and podcast server. Prior to 2.7.0, Audiobookshelf is vulnerable to unauthenticated blind server-side request (SSRF) vulnerability in `podcastUtils.js`. This vulnerability has been addressed in version 2.7.0. There are no known workarounds for this vulnerability.
Audiobookshelf is a self-hosted audiobook and podcast server. Prior to 2.7.0, Audiobookshelf is vulnerable to unauthenticated blind server-side request (SSRF) vulnerability in Auth.js. This vulnerability has been addressed in version 2.7.0. There are no known workarounds for this vulnerability.