This vulnerability allows remote attackers to execute escalate privileges on affected installations of SolarWinds Orion Platform 2020.2. Authentication is not required to exploit this vulnerability. The specific flaw exists within the SaveUserSetting endpoint. The issue results from improper restriction of this endpoint to unprivileged users. An attacker can leverage this vulnerability to escalate privileges their privileges from Guest to Administrator. Was ZDI-CAN-11903.

ProcessFileUpload.jsp in SolarWinds Storage Manager before 6.2 allows remote attackers to upload and execute arbitrary files via unspecified vectors.

Stack-based buffer overflow in the TEA decoding algorithm in RhinoSoft Serv-U FTP server 7.0.0.1, 9.0.0.5, and other versions before 9.1.0.0 allows remote attackers to execute arbitrary code via a long hexadecimal string.

userlogin.jsp in SolarWinds Firewall Security Manager (FSM) before 6.6.5 HotFix1 allows remote attackers to gain privileges and execute arbitrary code via unspecified vectors, related to client session handling.

SolarWinds Serv-U before 15.2.2 allows Unauthenticated Macro Injection.

SolarWinds Serv-U FTP server before 15.2.1 does not validate an argument path.

SolarWinds Serv-U FTP server before 15.2.1 mishandles the CHMOD command.

The SolarWinds Orion API is vulnerable to an authentication bypass that could allow a remote attacker to execute API commands. This vulnerability could allow a remote attacker to bypass authentication and execute API commands which may result in a compromise of the SolarWinds instance. SolarWinds Orion Platform versions 2019.4 HF 5, 2020.2 with no hotfix installed, and 2020.2 HF 1 are affected.

SolarWinds Orion NPM before 12.4 suffers from a SYSTEM remote code execution vulnerability in the OrionModuleEngine service. This service establishes a NetTcpBinding endpoint that allows remote, unauthenticated clients to connect and call publicly exposed methods. The InvokeActionMethod method may be abused by an attacker to execute commands as the SYSTEM user.

SolarWinds Web Help Desk was found to be susceptible to an authentication bypass vulnerability that, if exploited, could allow an attacker to invoke specific actions within Web Help Desk.

SolarWinds Web Help Desk was found to be susceptible to an untrusted data deserialization vulnerability that could lead to remote code execution, which would allow an attacker to run commands on the host machine. This could be exploited without authentication.

SolarWinds Web Help Desk was found to be susceptible to an untrusted data deserialization vulnerability that could lead to remote code execution, which would allow an attacker to run commands on the host machine. This could be exploited without authentication.

SolarWinds Web Help Desk was found to be susceptible to an authentication bypass vulnerability that if exploited, would allow a malicious actor to execute actions and methods that should be protected by authentication.

SolarWinds Web Help Desk was found to be susceptible to a security control bypass vulnerability that if exploited, could allow an unauthenticated attacker to gain access to certain restricted functionality.

SolarWinds Platform is affected by server-side request forgery vulnerability. Proper input sanitation was not applied allowing for the possibility of a malicious web request.

In SolarWinds Log & Event Manager (LEM) before 6.3.1 Hotfix 4, a menu system is encountered when the SSH service is accessed with "cmc" and "password" (the default username and password). By exploiting a vulnerability in the restrictssh feature of the menuing script, an attacker can escape from the restricted shell.

Serv-U FTP server before 5.1.0.0 has a default account and password for local administration, which allows local users to execute arbitrary commands by connecting to the server using the default administrator account, creating a new user, logging in as that new user, and then using the SITE EXEC command.

SolarWinds Access Rights Manager (ARM) was found to contain a hard-coded credential authentication bypass vulnerability. If exploited, this vulnerability would allow access to the RabbitMQ management console. We thank Trend Micro Zero Day Initiative (ZDI) for its ongoing partnership in coordinating with SolarWinds on responsible disclosure of this and other potential vulnerabilities.

It was discovered that a previous vulnerability was not completely fixed with SolarWinds Access Rights Manager. While some controls were implemented the researcher was able to bypass these and use a different method to exploit the vulnerability.

Buffer overflow in Serv-U ftp before 5.0.0.4 allows remote authenticated users to execute arbitrary code via a long time zone argument to the MDTM command.

The SolarWinds Access Rights Manager was found to be susceptible to an authentication bypass vulnerability. This vulnerability allows an unauthenticated user to gain domain admin access within the Active Directory environment.  

SolarWinds Access Rights Manager (ARM) is susceptible to a Remote Code Execution vulnerability. If exploited, this vulnerability allows an unauthenticated user to perform the actions with SYSTEM privileges.

The SolarWinds Access Rights Manager was susceptible to a Directory Traversal and Information Disclosure Vulnerability. This vulnerability allows an unauthenticated user to perform arbitrary file deletion and leak sensitive information.

The SolarWinds Access Rights Manager was found to be susceptible to an Arbitrary File Deletion and Information Disclosure vulnerability.

SQL injection vulnerability in the LoginServlet page in SolarWinds Storage Manager before 5.1.2, SolarWinds Storage Profiler before 5.1.2, and SolarWinds Backup Profiler before 5.1.2 allows remote attackers to execute arbitrary SQL commands via the loginName field.

Multiple SQL injection vulnerabilities in the Web Services web server in SolarWinds Storage Resource Monitor (SRM) Profiler (formerly Storage Manager (STM)) before 6.2.3 allow remote attackers to execute arbitrary SQL commands via the (1) ScriptSchedule parameter in the ScriptServlet servlet; the (2) winEventId or (3) winEventLog parameter in the WindowsEventLogsServlet servlet; the (4) processOS parameter in the ProcessesServlet servlet; the (5) group, (6) groupName, or (7) clientName parameter in the BackupExceptionsServlet servlet; the (8) valDB or (9) valFS parameter in the BackupAssociationServlet servlet; the (10) orderBy or (11) orderDir parameter in the HostStorageServlet servlet; the (12) fileName, (13) sortField, or (14) sortDirection parameter in the DuplicateFilesServlet servlet; the (15) orderFld or (16) orderDir parameter in the QuantumMonitorServlet servlet; the (17) exitCode parameter in the NbuErrorMessageServlet servlet; the (18) udfName, (19) displayName, (20) udfDescription, (21) udfDataValue, (22) udfSectionName, or (23) udfId parameter in the UserDefinedFieldConfigServlet servlet; the (24) sortField or (25) sortDirection parameter in the XiotechMonitorServlet servlet; the (26) sortField or (27) sortDirection parameter in the BexDriveUsageSummaryServlet servlet; the (28) state parameter in the ScriptServlet servlet; the (29) assignedNames parameter in the FileActionAssignmentServlet servlet; the (30) winEventSource parameter in the WindowsEventLogsServlet servlet; or the (31) name, (32) ipOne, (33) ipTwo, or (34) ipThree parameter in the XiotechMonitorServlet servlet.

The RMI service in SolarWinds Virtualization Manager 6.3.1 and earlier allows remote attackers to execute arbitrary commands via a crafted serialized Java object, related to the Apache Commons Collections (ACC) library.

The SolarWinds Security Event Manager was susceptible to Remote Code Execution Vulnerability. This vulnerability allows an unauthenticated user to abuse SolarWinds’ service, resulting in remote code execution.

SolarWinds Web Help Desk was found to be susceptible to an unauthenticated AjaxProxy deserialization remote code execution vulnerability that, if exploited, would allow an attacker to run commands on the host machine. This vulnerability is a patch bypass of CVE-2024-28988, which in turn is a patch bypass of CVE-2024-28986.

SolarWinds Serv-U FTP server before 15.2.1 allows remote command execution.

Microsoft discovered a remote code execution (RCE) vulnerability in the SolarWinds Serv-U product utilizing a Remote Memory Escape Vulnerability. If exploited, a threat actor may be able to gain privileged access to the machine hosting Serv-U Only. SolarWinds Serv-U Managed File Transfer and Serv-U Secure FTP for Windows before 15.2.3 HF2 are affected by this vulnerability.

This vulnerability allows remote attackers to execute arbitrary code on affected installations of SolarWinds Network Performance Monitor 2020.2.1. Authentication is not required to exploit this vulnerability. The specific flaw exists within the SolarWinds.Serialization library. The issue results from the lack of proper validation of user-supplied data, which can result in deserialization of untrusted data. An attacker can leverage this vulnerability to execute code in the context of SYSTEM. Was ZDI-CAN-12213.

 Insecure job execution mechanism vulnerability. This vulnerability can lead to other attacks as a result.

The SolarWinds Access Rights Manager was susceptible to a Directory Traversal Remote Code Vulnerability. This vulnerability allows an unauthenticated user to achieve the Remote Code Execution.

The SolarWinds Access Rights Manager was susceptible to Remote Code Execution Vulnerability. This vulnerability can be abused by unauthenticated users on SolarWinds ARM Server.

The SolarWinds Access Rights Manager was susceptible to Remote Code Execution Vulnerability. This vulnerability allows an unauthenticated user to abuse a SolarWinds service resulting in a remote code execution.

SolarWinds Web Help Desk was found to be susceptible to a Java Deserialization Remote Code Execution vulnerability that, if exploited, would allow an attacker to run commands on the host machine. While it was reported as an unauthenticated vulnerability, SolarWinds has been unable to reproduce it without authentication after thorough testing.   However, out of an abundance of caution, we recommend all Web Help Desk customers apply the patch, which is now available.

SolarWinds Web Help Desk was found to be susceptible to a Java Deserialization Remote Code Execution vulnerability that, if exploited, would allow an attacker to run commands on the host machine. This vulnerability was found by the ZDI team after researching a previous vulnerability and providing this report. The ZDI team was able to discover an unauthenticated attack during their research.  We recommend all Web Help Desk customers apply the patch, which is now available.  We thank Trend Micro Zero Day Initiative (ZDI) for its ongoing partnership in coordinating with SolarWinds on responsible disclosure of this and other potential vulnerabilities.

The SolarWinds Access Rights Manager was susceptible to a Directory Traversal and Information Disclosure Vulnerability. This vulnerability allows an unauthenticated user to perform remote code execution.

SolarWinds Access Rights Manager (ARM) is susceptible to a Directory Traversal Remote Code Execution vulnerability. If exploited, this vulnerability allows an unauthenticated user to perform the actions with SYSTEM privileges.

The SolarWinds Access Rights Manager was found to be susceptible to a pre-authentication remote code execution vulnerability. If exploited, this vulnerability allows an unauthenticated user to run commands and executables.

The SolarWinds Access Rights Manager was found to contain a hard-coded credential authentication bypass vulnerability. If exploited, this vulnerability allows access to the RabbitMQ management console. We thank Trend Micro Zero Day Initiative (ZDI) for its ongoing partnership in coordinating with SolarWinds on responsible disclosure of this and other potential vulnerabilities.

The SolarWinds Access Rights Manager was found to be susceptible to a Remote Code Execution Vulnerability. If exploited, this vulnerability allows an authenticated user to abuse a SolarWinds service resulting in remote code execution.

The Collector Service in SolarWinds Orion Platform before 2020.2.4 uses MSMQ (Microsoft Message Queue) and doesn't set permissions on its private queues. As a result, remote unauthenticated clients can send messages to TCP port 1801 that the Collector Service will process. Additionally, upon processing of such messages, the service deserializes them in insecure manner, allowing remote arbitrary code execution as LocalSystem.

The AuthenticationFilter class in SolarWinds Storage Manager allows remote attackers to upload and execute arbitrary scripts via unspecified vectors.

A LoadLibraryEX vulnerability in Trend Micro Apex Central could allow an unauthenticated remote attacker to load an attacker-controlled DLL into a key executable, leading to execution of attacker-supplied code under the context of SYSTEM on affected installations.

Origin Validation Error vulnerability in TUBITAK BILGEM Software Technologies Research Institute Liderahenk allows Accessing Functionality Not Properly Constrained by ACLs. This issue affects Liderahenk: from 2.0.1 before 2.0.2.

In axios before 1.7.8, lib/helpers/isURLSameOrigin.js does not use a URL object when determining an origin, and has a potentially unwanted setAttribute('href',href) call. NOTE: some parties feel that the code change only addresses a warning message from a SAST tool and does not fix a vulnerability.

An issue was discovered in API/api/Version in Damstra Smart Asset 2020.7. Cross-origin resource sharing trusts random origins by accepting the arbitrary 'Origin: example.com' header and responding with 200 OK and a wildcard 'Access-Control-Allow-Origin: *' header.

SillyTavern is a locally installed user interface that allows users to interact with text generation large language models, image generation engines, and text-to-speech voice models. Prior to 1.18.0, SillyTavern accepts Remote-User (Authelia) and X-Authentik-Username (Authentik) HTTP headers to automatically log in users when SSO is configured. There is no validation that these headers originate from a trusted reverse proxy. Any network client that can reach the SillyTavern port directly can inject these headers and authenticate as any user, including administrators, without a password. This vulnerability is exploitable only when sso.autheliaAuth: true or sso.authentikAuth: true is set in config.yaml (both default to false). This vulnerability is fixed in 1.18.0.