Rapid7 Metasploit Pro installers prior to version 4.13.0-2017022101 contain a DLL preloading vulnerability, wherein it is possible for the installer to load a malicious DLL located in the current working directory of the installer.
Rapid7 Insight Collector installers prior to version 1.0.16 contain a DLL preloading vulnerability, wherein it is possible for the installer to load a malicious DLL located in the current working directory of the installer.
Rapid7 AppSpider Pro installers prior to version 6.14.053 contain a DLL preloading vulnerability, wherein it is possible for the installer to load a malicious DLL located in the current working directory of the installer.
Editions of Rapid7 AppSpider Pro installers prior to version 6.14.060 contain a DLL preloading vulnerability, wherein it is possible for the installer to load a malicious DLL located in the current working directory of the installer.
Cross-site request forgery (CSRF) vulnerability in Rapid7 Nexpose Security Console before 5.5.4 allows remote attackers to hijack the authentication of unspecified victims for requests that delete scan data and sites via a request to data/site/delete.
In Rapid7 Nexpose installer versions prior to 6.6.40, the Nexpose installer calls an executable which can be placed in the appropriate directory by an attacker with access to the local machine. This would prevent the installer from distinguishing between a valid executable called during a Security Console installation and any arbitrary code executable using the same file name.
By launching the drb_remote_codeexec exploit, a Metasploit Framework user will inadvertently expose Metasploit to the same deserialization issue that is exploited by that module, due to the reliance on the vulnerable Distributed Ruby class functions. Since Metasploit Framework typically runs with elevated privileges, this can lead to a system compromise on the Metasploit workstation. Note that an attacker would have to lie in wait and entice the Metasploit user to run the affected module against a malicious endpoint in a "hack-back" type of attack. Metasploit is only vulnerable when the drb_remote_codeexec module is running. In most cases, this cannot happen automatically.
Versions of Nexpose prior to 6.4.66 fail to adequately validate the source of HTTP requests intended for the Automated Actions administrative web application, and are susceptible to a cross-site request forgery (CSRF) attack.
Rapid7 Metasploit Framework versions before 5.0.85 suffers from an instance of CWE-78: OS Command Injection, wherein the libnotify plugin accepts untrusted user-supplied data via a remote computer's hostname or service name. An attacker can create a specially-crafted hostname or service name to be imported by Metasploit from a variety of sources and trigger a command injection on the operator's terminal. Note, only the Metasploit Framework and products that expose the plugin system is susceptible to this issue -- notably, this does not include Rapid7 Metasploit Pro. Also note, this vulnerability cannot be triggered through a normal scan operation -- the attacker would have to supply a file that is processed with the db_import command.
The default SSH configuration in Rapid7 Nexpose hardware appliances shipped before June 2017 does not specify desired algorithms for key exchange and other important functions. As a result, it falls back to allowing ALL algorithms supported by the relevant version of OpenSSH and makes the installations vulnerable to a range of MITM, downgrade, and decryption attacks.
Rapid7 Nexpose versions 6.5.50 and prior suffer from insufficient session expiration when an administrator performs a security relevant edit on an existing, logged on user. For example, if a user's password is changed by an administrator due to an otherwise unrelated credential leak, that user account's current session is still valid after the password change, potentially allowing the attacker who originally compromised the credential to remain logged in and able to cause further damage.
A Cross-Site Request Forgery (CSRF) vulnerability was found in Rapid7 Nexpose InsightVM Security Console versions 6.5.0 through 6.5.68. This issue allows attackers to exploit CSRF vulnerabilities on API endpoints using Flash to circumvent a cross-domain pre-flight OPTIONS request.
The Rapid7 InsightAppSec broker suffers from a DLL injection vulnerability in the 'prunsrv.exe' component of the product. If exploited, a local user of the system (who must already be authenticated to the operating system) can elevate their privileges with this vulnerability to the privilege level of InsightAppSec (usually, SYSTEM). This issue affects version 2019.06.24 and prior versions of the product.
A remote code execution vulnerability exists when the Visual Studio C++ Redistributable Installer improperly validates input before loading dynamic link library (DLL) files, aka 'Visual Studio Remote Code Execution Vulnerability'.
DLL Search Order Hijacking vulnerability in Microsoft Windows Client in McAfee True Key (TK) before 5.1.165 allows local users to execute arbitrary code via specially crafted malware.
A DLL hijacking vulnerability exists in Schneider Electric's SoMove Software and associated DTM software components in all versions prior to 2.6.2 which could allow an attacker to execute arbitrary code.
In SUPERAntiSpyware Professional Trial 6.0.1254, SUPERAntiSpyware.exe allows DLL hijacking, leading to Escalation of Privileges.
An issue was discovered in PureVPN through 5.19.4.0 on Windows. The client installation grants the Everyone group Full Control permission to the installation directory. In addition, the PureVPNService.exe service, which runs under NT Authority\SYSTEM privileges, tries to load several dynamic-link libraries using relative paths instead of the absolute path. When not using a fully qualified path, the application will first try to load the library from the directory from which the application is started. As the residing directory of PureVPNService.exe is writable to all users, this makes the application susceptible to privilege escalation through DLL hijacking.
Untrusted search path vulnerability in the installer for TrueCrypt 7.2 and 7.1a, VeraCrypt before 1.17-BETA, and possibly other products allows local users to execute arbitrary code with administrator privileges and conduct DLL hijacking attacks via a Trojan horse DLL in the "application directory", as demonstrated with the USP10.dll, RichEd20.dll, NTMarta.dll and SRClient.dll DLLs.
March Hare WINCVS before 2.8.01 build 6610, and CVS Suite before 2009R2 build 6610, contains an Insecure Library Loading vulnerability in the wincvs2.exe or wincvs.exe file, which may allow local users to gain privileges via a Trojan horse Python or TCL DLL file in the current working directory.
Untrusted search path vulnerability in Snort 2.9.7.0-WIN32 allows remote attackers to execute arbitrary code and conduct DLL hijacking attacks via a Trojan horse tcapi.dll that is located in the same folder on a remote file share as a pcap file that is being processed.
An issue was discovered in DisplayLink Core Software Cleaner Application 8.2.1956. When the drivers are updated to a newer version, the product launches a process as SYSTEM to uninstall the old version: cl_1956.exe is run as SYSTEM on the %systemroot%\Temp folder, where any user can write a DLL (e.g., version.dll) to perform DLL Hijacking and elevate privileges to SYSTEM.
Untrusted search path vulnerability in the installer of Houkokusyo Sakusei Shien Tool ver3.0.2 (For the first installation) (The version which was available on the website from 2017 April 4 to 2017 May 18) and ver2.0 and later (For the first installation) (The versions which were available on the website prior to 2017 April 4) allows an attacker to gain privileges via a Trojan horse DLL in an unspecified directory.
In Puppet Agent 1.10.x prior to 1.10.13, Puppet Agent 5.3.x prior to 5.3.7, Puppet Agent 5.5.x prior to 5.5.2, Facter on Windows is vulnerable to a DLL preloading attack, which could lead to a privilege escalation.
DLL Side-Loading vulnerability in Microsoft Windows Client in McAfee True Key before 4.20.110 allows local users to gain privilege elevation via not verifying a particular DLL file signature.
Adobe Creative Cloud Desktop Application before 4.5.5.342 (installer) has an insecure library loading (dll hijacking) vulnerability. Successful exploitation could lead to privilege escalation.
Unauthorized code execution from specific DLL and is known as DLL Hijacking attack in Kaspersky Password Manager versions before 8.0.6.538.
Adobe InDesign versions 13.0 and below have an exploitable Untrusted Search Path vulnerability. Successful exploitation could lead to local privilege escalation.
Untrusted search path vulnerability in F-Secure Online Scanner allows remote attackers to execute arbitrary code and conduct DLL hijacking attacks via a Trojan horse DLL that is located in the same folder as F-SecureOnlineScanner.exe.
Norton Security (Windows client) prior to 22.16.3 and SEP SBE (Windows client) prior to Cloud Agent 3.00.31.2817, NIS-22.15.2.22 & SEP-12.1.7484.7002, may be susceptible to a DLL Preloading vulnerability, which is a type of issue that can occur when an application looks to call a DLL for execution and an attacker provides a malicious DLL to use instead.
A DLL hijacking vulnerability in Trend Micro Security 2019 (Consumer) versions below 15.0.0.1163 and below could allow an attacker to manipulate a specific DLL and escalate privileges on vulnerable installations.
NoMachine before 5.3.27 and 6.x before 6.3.6 allows attackers to gain privileges via a Trojan horse wintab32.dll file located in the same directory as a .nxs file, as demonstrated by a scenario where the .nxs file and the DLL are in the current working directory, and the Trojan horse code is executed. (The directory could, in general, be on a local filesystem or a network share.).
Untrusted search path vulnerability in UNARJ32.DLL for Win32, LHMelting for Win32, and LMLzh32.DLL (UNARJ32.DLL for Win32 Ver 1.10.1.25 and earlier, LHMelting for Win32 Ver 1.65.3.6 and earlier, LMLzh32.DLL Ver 2.67.1.2 and earlier) allows an attacker to gain privileges via a Trojan horse DLL in an unspecified directory.
Untrusted search path vulnerability in the installer of MARKET SPEED Ver.16.4 and earlier allows an attacker to gain privileges via a Trojan horse DLL in an unspecified directory.
Untrusted search path vulnerability in Installer of Mapping Tool 2.0.1.6 and 2.0.1.7 allows remote attackers to gain privileges via a Trojan horse DLL in an unspecified directory.
Flash Player versions 31.0.0.153 and earlier, and 31.0.0.108 and earlier have an insecure library loading (dll hijacking) vulnerability. Successful exploitation could lead to privilege escalation.
Adobe Framemaker versions 1.0.5.1 and below have an insecure library loading (dll hijacking) vulnerability. Successful exploitation could lead to privilege escalation.
IBM Notes 8.5 and 9.0 is vulnerable to a DLL hijacking attack. A remote attacker could trick a user to double click a malicious executable in an attacker-controlled directory, which could result in code execution. IBM X-Force ID: 139563.
Untrusted Search Path in GitHub repository vim/vim prior to 9.0.1833.
IBM Notes 8.5 and 9.0 could allow an attacker to execute arbitrary code on the system, caused by an error related to multiple untrusted search path. A local attacker could exploit this vulnerability to DLL hijacking to execute arbitrary code on the system or cause the application to crash. IBM X-Force ID: 139565.
IBM DB2 for Linux, UNIX and Windows (includes DB2 Connect Server) 9.7, 10,1, 10.5 and 11.1 could allow a local user to execute arbitrary code and conduct DLL hijacking attacks. IBM X-Force ID: 140209.
Polaris Office 2017 8.1 allows attackers to execute arbitrary code via a Trojan horse puiframeworkproresenu.dll file in the current working directory.
AnyDesk before "12.06.2018 - 4.1.3" on Windows 7 SP1 has a DLL preloading vulnerability.
BestXsoftware Best Free Keylogger before 6.0.0 allows local users to gain privileges via a Trojan horse "%PROGRAMFILES%\BFK 5.2.9\syscrb.exe" file because of insecure permissions for the BUILTIN\Users group.
Symantec Endpoint Protection Manager (SEPM) prior to and including 12.1 RU6 MP9 and prior to 14.2 RU1 may be susceptible to a DLL Preloading vulnerability, which is a type of issue that can occur when an application looks to call a DLL for execution and an attacker provides a malicious DLL to use instead.
Huawei EC156, EC176, and EC177 USB Modem products with software before UTPS-V200R003B015D02SP07C1014 (23.015.02.07.1014) and before V200R003B015D02SP08C1014 (23.015.02.08.1014) use a weak ACL for the "Mobile Partner" directory, which allows remote attackers to gain SYSTEM privileges by compromising a low privilege account and modifying Mobile Partner.exe.
The Whale browser installer 0.4.3.0 and earlier versions allows DLL hijacking.
Symantec Endpoint Protection prior to 14.2 MP1 may be susceptible to a DLL Preloading vulnerability, which in this case is an issue that can occur when an application being installed unintentionally loads a DLL provided by a potential attacker. Note that this particular type of exploit only manifests at install time; no remediation is required for software that has already been installed. This issue only impacted the Trialware media for Symantec Endpoint Protection, which has since been updated.
Untrusted search path vulnerability in Skype for Windows allows an attacker to gain privileges via a Trojan horse DLL in an unspecified directory.
Untrusted search path vulnerability in The installer of PhishWall Client Internet Explorer edition Ver. 3.7.15 and earlier allows an attacker to gain privileges via a Trojan horse DLL in an unspecified directory.