Exploit Database

146,751 exploits tracked across all sources.

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CVE-2020-14945 WRITEUP HIGH
Global RADAR BSA Radar <1.6.7234.24750 - Privilege Escalation
A privilege escalation vulnerability exists within Global RADAR BSA Radar 1.6.7234.24750 and earlier that allows an authenticated, low-privileged user to escalate their privileges to administrator rights (i.e., the BankAdmin role) via modified SaveUser data.
CVSS 8.8
CVE-2020-14946 WRITEUP MEDIUM
Global RADAR BSA Radar <1.6.7234.24750 - Info Disclosure
downloadFile.ashx in the Administrator section of the Surveillance module in Global RADAR BSA Radar 1.6.7234.24750 and earlier allows users to download transaction files. When downloading the files, a user is able to view local files on the web server by manipulating the FileName and FilePath parameters in the URL, or while using a proxy. This vulnerability could be used to view local sensitive files or configuration files.
CVSS 4.3
CVE-2020-15187 WRITEUP LOW
Helm <2.16.11, 3.3.2 - Local Execution
In Helm before versions 2.16.11 and 3.3.2, a Helm plugin can contain duplicates of the same entry, with the last one always used. If a plugin is compromised, this lowers the level of access that an attacker needs to modify a plugin's install hooks, causing a local execution attack. To perform this attack, an attacker must have write access to the git repository or plugin archive (.tgz) while being downloaded (which can occur during a MITM attack on a non-SSL connection). This issue has been patched in Helm 2.16.11 and Helm 3.3.2. As a possible workaround make sure to install plugins using a secure connection protocol like SSL.
CVSS 3.0
CVE-2020-15211 WRITEUP MEDIUM
TensorFlow Lite <2.3.1 - Info Disclosure
In TensorFlow Lite before versions 1.15.4, 2.0.3, 2.1.2, 2.2.1 and 2.3.1, saved models in the flatbuffer format use a double indexing scheme: a model has a set of subgraphs, each subgraph has a set of operators and each operator has a set of input/output tensors. The flatbuffer format uses indices for the tensors, indexing into an array of tensors that is owned by the subgraph. This results in a pattern of double array indexing when trying to get the data of each tensor. However, some operators can have some tensors be optional. To handle this scenario, the flatbuffer model uses a negative `-1` value as index for these tensors. This results in special casing during validation at model loading time. Unfortunately, this means that the `-1` index is a valid tensor index for any operator, including those that don't expect optional inputs and including for output tensors. Thus, this allows writing and reading from outside the bounds of heap allocated arrays, although only at a specific offset from the start of these arrays. This results in both read and write gadgets, albeit very limited in scope. The issue is patched in several commits (46d5b0852, 00302787b7, e11f5558, cd31fd0ce, 1970c21, and fff2c83), and is released in TensorFlow versions 1.15.4, 2.0.3, 2.1.2, 2.2.1, or 2.3.1. A potential workaround would be to add a custom `Verifier` to the model loading code to ensure that only operators which accept optional inputs use the `-1` special value and only for the tensors that they expect to be optional. Since this allow-list type approach is erro-prone, we advise upgrading to the patched code.
CVSS 4.8
CVE-2020-15250 WRITEUP MEDIUM
JUnit4 4.7-4.13 - Local Information Disclosure via TemporaryFolder Rule
In JUnit4 from version 4.7 and before 4.13.1, the test rule TemporaryFolder contains a local information disclosure vulnerability. On Unix like systems, the system's temporary directory is shared between all users on that system. Because of this, when files and directories are written into this directory they are, by default, readable by other users on that same system. This vulnerability does not allow other users to overwrite the contents of these directories or files. This is purely an information disclosure vulnerability. This vulnerability impacts you if the JUnit tests write sensitive information, like API keys or passwords, into the temporary folder, and the JUnit tests execute in an environment where the OS has other untrusted users. Because certain JDK file system APIs were only added in JDK 1.7, this this fix is dependent upon the version of the JDK you are using. For Java 1.7 and higher users: this vulnerability is fixed in 4.13.1. For Java 1.6 and lower users: no patch is available, you must use the workaround below. If you are unable to patch, or are stuck running on Java 1.6, specifying the `java.io.tmpdir` system environment variable to a directory that is exclusively owned by the executing user will fix this vulnerability. For more information, including an example of vulnerable code, see the referenced GitHub Security Advisory.
CVSS 4.4
CVE-2020-15253 WRITEUP HIGH
grocy < 2.7.1 - Authenticated Stored Cross-Site Scripting via Shopping List Deletion
Versions of Grocy <= 2.7.1 are vulnerable to Cross-Site Scripting via the Create Shopping List module, that is rendered upon deleting that Shopping List. The issue was also found in users, batteries, chores, equipment, locations, quantity units, shopping locations, tasks, taskcategories, product groups, recipes and products. Authentication is required to exploit these issues and Grocy should not be publicly exposed. The linked reference details a proof-of-concept.
CVSS 7.3
CVE-2020-15716 WRITEUP MEDIUM
RosarioSIS 6.7.2 - Cross-Site Scripting via Preferences.php Tab Parameter
RosarioSIS 6.7.2 is vulnerable to XSS, caused by improper validation of user-supplied input by the Preferences.php script. A remote attacker could exploit this vulnerability using the tab parameter in a crafted URL.
CVSS 6.1
CVE-2020-15718 WRITEUP MEDIUM
RosarioSIS 6.7.2 - Cross-Site Scripting via PrintSchedules.php include_inactive Parameter
RosarioSIS 6.7.2 is vulnerable to XSS, caused by improper validation of user-supplied input by the PrintSchedules.php script. A remote attacker could exploit this vulnerability using the include_inactive parameter in a crafted URL.
CVSS 6.1
CVE-2020-1712 WRITEUP HIGH
systemd < 245-rc1 - Use-After-Free via Asynchronous Polkit Queries
A heap use-after-free vulnerability was found in systemd before version v245-rc1, where asynchronous Polkit queries are performed while handling dbus messages. A local unprivileged attacker can abuse this flaw to crash systemd services or potentially execute code and elevate their privileges, by sending specially crafted dbus messages.
CVSS 7.8
CVE-2020-26117 WRITEUP HIGH
TigerVNC < 1.11.0 - Improper Certificate Validation
In rfb/CSecurityTLS.cxx and rfb/CSecurityTLS.java in TigerVNC before 1.11.0, viewers mishandle TLS certificate exceptions. They store the certificates as authorities, meaning that the owner of a certificate could impersonate any server after a client had added an exception.
CVSS 8.1
CVE-2020-26164 WRITEUP MEDIUM
KDE Connect < 20.08.2 - Denial of Service via Crafted Network Packets
In kdeconnect-kde (aka KDE Connect) before 20.08.2, an attacker on the local network could send crafted packets that trigger use of large amounts of CPU, memory, or network connection slots, aka a Denial of Service attack.
CVSS 5.5
CVE-2020-26230 WRITEUP HIGH
Radar COVID < 1.0.7 (Android), < 1.0.8 (iOS), < 1.1.0 (Android/iOS), Backend < 1.1.2 - User De-Anonymization
Radar COVID is the official COVID-19 exposure notification app for Spain. In affected versions of Radar COVID, identification and de-anonymization of COVID-19 positive users that upload Radar COVID TEKs to the Radar COVID server is possible. This vulnerability enables the identification and de-anonymization of COVID-19 positive users when using Radar COVID. The vulnerability is caused by the fact that Radar COVID connections to the server (uploading of TEKs to the backend) are only made by COVID-19 positives. Therefore, any on-path observer with the ability to monitor traffic between the app and the server can identify which users had a positive test. Such an adversary can be the mobile network operator (MNO) if the connection is done through a mobile network, the Internet Service Provider (ISP) if the connection is done through the Internet (e.g., a home network), a VPN provider used by the user, the local network operator in the case of enterprise networks, or any eavesdropper with access to the same network (WiFi or Ethernet) as the user as could be the case of public WiFi hotspots deployed at shopping centers, airports, hotels, and coffee shops. The attacker may also de-anonymize the user. For this additional stage to succeed, the adversary needs to correlate Radar COVID traffic to other identifiable information from the victim. This could be achieved by associating the connection to a contract with the name of the victim or by associating Radar COVID traffic to other user-generated flows containing identifiers in the clear (e.g., HTTP cookies or other mobile flows sending unique identifiers like the IMEI or the AAID without encryption). The former can be executed, for instance, by the Internet Service Provider or the MNO. The latter can be executed by any on-path adversary, such as the network provider or even the cloud provider that hosts more than one service accessed by the victim. The farther the adversary is either from the victim (the client) or the end-point (the server), the less likely it may be that the adversary has access to re-identification information. The vulnerability has been mitigated with the injection of dummy traffic from the application to the backend. Dummy traffic is generated by all users independently of whether they are COVID-19 positive or not. The issue was fixed in iOS in version 1.0.8 (uniform distribution), 1.1.0 (exponential distribution), Android in version 1.0.7 (uniform distribution), 1.1.0 (exponential distribution), Backend in version 1.1.2-RELEASE. For more information see the referenced GitHub Security Advisory.
CVSS 7.4
CVE-2020-26272 WRITEUP MEDIUM
Electron <9.4.0, 10.2.0, 11.1.0, 12.0.0-beta.9 - Info Disclosure
The Electron framework lets users write cross-platform desktop applications using JavaScript, HTML and CSS. In versions of Electron IPC prior to 9.4.0, 10.2.0, 11.1.0, and 12.0.0-beta.9, messages sent from the main process to a subframe in the renderer process, through webContents.sendToFrame, event.reply or when using the remote module, can in some cases be delivered to the wrong frame. If your app uses remote, calls webContents.sendToFrame, or calls event.reply in an IPC message handler then it is impacted by this issue. This has been fixed in versions 9.4.0, 10.2.0, 11.1.0, and 12.0.0-beta.9. There are no known workarounds for this issue.
CVSS 5.4
CVE-2020-27619 WRITEUP CRITICAL
Python 3.0.0-3.9.0 - Remote Code Execution via CJK Codec Test HTTP Content
In Python 3 through 3.9.0, the Lib/test/multibytecodec_support.py CJK codec tests call eval() on content retrieved via HTTP.
CVSS 9.8
CVE-2020-8815 WRITEUP HIGH
BearFTP < 0.3.1 - Denial of Service via Slowloris Packet Flood
Improper connection handling in the base connection handler in IKTeam BearFTP before v0.3.1 allows a remote attacker to achieve denial of service via a Slowloris approach by sending a large volume of small packets.
CVSS 7.5
CVE-2021-21261 WRITEUP HIGH
flatpak 0.11.4-1.8.4 - Sandbox Escape via Environment Variable Injection in flatpak-portal
Flatpak is a system for building, distributing, and running sandboxed desktop applications on Linux. A bug was discovered in the `flatpak-portal` service that can allow sandboxed applications to execute arbitrary code on the host system (a sandbox escape). This sandbox-escape bug is present in versions from 0.11.4 and before fixed versions 1.8.5 and 1.10.0. The Flatpak portal D-Bus service (`flatpak-portal`, also known by its D-Bus service name `org.freedesktop.portal.Flatpak`) allows apps in a Flatpak sandbox to launch their own subprocesses in a new sandbox instance, either with the same security settings as the caller or with more restrictive security settings. For example, this is used in Flatpak-packaged web browsers such as Chromium to launch subprocesses that will process untrusted web content, and give those subprocesses a more restrictive sandbox than the browser itself. In vulnerable versions, the Flatpak portal service passes caller-specified environment variables to non-sandboxed processes on the host system, and in particular to the `flatpak run` command that is used to launch the new sandbox instance. A malicious or compromised Flatpak app could set environment variables that are trusted by the `flatpak run` command, and use them to execute arbitrary code that is not in a sandbox. As a workaround, this vulnerability can be mitigated by preventing the `flatpak-portal` service from starting, but that mitigation will prevent many Flatpak apps from working correctly. This is fixed in versions 1.8.5 and 1.10.0.
CVSS 7.3
CVE-2021-23362 WRITEUP MEDIUM
hosted-git-info < 2.8.9 - Regular Expression Denial of Service via shortcutMatch
The package hosted-git-info before 3.0.8 are vulnerable to Regular Expression Denial of Service (ReDoS) via regular expression shortcutMatch in the fromUrl function in index.js. The affected regular expression exhibits polynomial worst-case time complexity.
CVSS 5.3
CVE-2021-25830 WRITEUP CRITICAL
ONLYOFFICE DocumentServer 4.2.0.236-5.6.4.13 - Remote Code Execution via DOCT to DOCX Conversion
A file extension handling issue was found in [core] module of ONLYOFFICE DocumentServer v4.2.0.236-v5.6.4.13. An attacker must request the conversion of the crafted file from DOCT into DOCX format. Using the chain of two other bugs related to improper string handling, an attacker can achieve remote code execution on DocumentServer.
CVSS 9.8
CVE-2021-25833 WRITEUP CRITICAL
ONLYOFFICE DocumentServer 4.2.0.71-5.6.0.21 - Remote Code Execution via File Extension Handling Issue
A file extension handling issue was found in [server] module of ONLYOFFICE DocumentServer v4.2.0.71-v5.6.0.21. The file extension is controlled by an attacker through the request data and leads to arbitrary file overwriting. Using this vulnerability, a remote attacker can obtain remote code execution on DocumentServer.
CVSS 9.8
CVE-2021-28280 WRITEUP MEDIUM
phpfusion 9.03.110 - Cross-Site Request Forgery and Cross-Site Scripting in search.php
CSRF + Cross-site scripting (XSS) vulnerability in search.php in PHPFusion 9.03.110 allows remote attackers to inject arbitrary web script or HTML
CVSS 6.1
CVE-2021-29431 WRITEUP HIGH
Sydent < 2.3.0 - Server-Side Request Forgery via HTTP GET Request
Sydent is a reference Matrix identity server. Sydent can be induced to send HTTP GET requests to internal systems, due to lack of parameter validation or IP address blacklisting. It is not possible to exfiltrate data or control request headers, but it might be possible to use the attack to perform an internal port enumeration. This issue has been addressed in in 9e57334, 8936925, 3d531ed, 0f00412. A potential workaround would be to use a firewall to ensure that Sydent cannot reach internal HTTP resources.
CVSS 7.7
CVE-2021-31800 WRITEUP CRITICAL
Impacket < 0.9.22 - Path Traversal and Arbitrary File Write via SMB Server
Multiple path traversal vulnerabilities exist in smbserver.py in Impacket through 0.9.22. An attacker that connects to a running smbserver instance can list and write to arbitrary files via ../ directory traversal. This could potentially be abused to achieve arbitrary code execution by replacing /etc/shadow or an SSH authorized key.
CVSS 9.8
CVE-2021-33356 WRITEUP HIGH
RaspAP <2.6.5 - Privilege Escalation
Multiple privilege escalation vulnerabilities in RaspAP 1.5 to 2.6.5 could allow an authenticated remote attacker to inject arbitrary commands to /installers/common.sh component that can result in remote command execution with root privileges.
CVSS 8.8
CVE-2021-36980 WRITEUP MEDIUM
Openvswitch < 2.15.0 - Use After Free
Open vSwitch (aka openvswitch) 2.11.0 through 2.15.0 has a use-after-free in decode_NXAST_RAW_ENCAP (called from ofpact_decode and ofpacts_decode) during the decoding of a RAW_ENCAP action.
CVSS 5.5
CVE-2021-3670 WRITEUP MEDIUM
Samba 4.1.0-4.15.9 - Uncontrolled Resource Consumption via MaxQueryDuration LDAP Bypass
MaxQueryDuration not honoured in Samba AD DC LDAP
CVSS 6.5