| CVE |
Vendors |
Products |
Updated |
CVSS v3.1 |
| distribute-cache.c in ImageMagick re-uses objects after they have been destroyed, which allows remote attackers to have unspecified impact via unspecified vectors. |
| The Googlemaps plugin before 3.1 for Joomla! allows remote attackers to conduct XML injection attacks via the url parameter to plugin_googlemap2_proxy.php. |
| In WordPress before 4.7.5, there is insufficient redirect validation in the HTTP class, leading to SSRF. |
| The flash-based vSphere Web Client (6.0 prior to 6.0 U3c and 5.5 prior to 5.5 U3f) i.e. not the new HTML5-based vSphere Client, contains SSRF and CRLF injection issues due to improper neutralization of URLs. An attacker may exploit these issues by sending a POST request with modified headers towards internal services leading to information disclosure. |
| Ruby-saml before 1.3.0 allows attackers to perform XML signature wrapping attacks via unspecified vectors. |
| Multiple server-side request forgery (SSRF) vulnerabilities in Yeager CMS 1.2.1 allow remote attackers to trigger outbound requests and enumerate open ports via the dbhost parameter to libs/org/adodb_lite/tests/test_adodb_lite.php, libs/org/adodb_lite/tests/test_datadictionary.php, or libs/org/adodb_lite/tests/test_adodb_lite_sessions.php. |
| Netlock Mokka before 2.7.8.1204 allows remote attackers to perform XML signature wrapping attacks via an e-akta signed document with a ds:Object node with a crafted payload prepended to a valid ds:Object. |
| Microsec e-Szigno before 3.2.7.12 allows remote attackers to perform XML signature wrapping attacks via an e-akta signed document with a ds:Object node with a crafted payload prepended to a valid ds:Object. |
| In the GetSimple CMS CE 3.3.19 management page, Server-Side Request Forgery (SSRF) can be achieved in the plug-in download address in the backend management system. |
| An issue was discovered in Logpoint before 7.4.0. Due to a lack of input validation on URLs in threat intelligence, an attacker with low-level access to the system can trigger Server Side Request Forgery. |
| An issue was discovered in Logpoint before 7.4.0. A path injection vulnerability is seen while adding a CSV enrichment source. The source_name parameter could be changed to an absolute path; this will write the CSV file to that path inside the /tmp directory. |
| SparkShop <=1.1.7 is vulnerable to server-side request forgery (SSRF). This vulnerability allows attacks to scan ports on the Intranet or local network where the server resides, attack applications running on the Intranet or local network, or read metadata on the cloud server. |
| The tested version of Dominion Voting Systems ImageCast X has a Terminal Emulator application which could be leveraged by an attacker to gain elevated privileges on a device and/or install malicious code. |
|
IBM Cognos Analytics 11.1.7 11.2.0, and 11.2.1 could be vulnerable to a Server-Side Request Forgery Attack (SSRF) attack by constructing URLs from user-controlled data. This could enable attackers to make arbitrary requests to the internal network or to the local file system. IBM X-Force ID: 234180.
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| An issue was discovered in RWS WorldServer before 11.7.3. An authenticated, remote attacker can perform a ws-legacy/load_dtd?system_id= blind SSRF attack to deploy JSP code to the Apache Axis service running on the localhost interface, leading to command execution. |
| Wildix WMS 6 before 6.02.20221216, WMS 5 before 5.04.20221214, and WMS4 before 4.04.45396.23 allows Server-side request forgery (SSRF) via ZohoClient.php. |
| The affected Bachmann Electronic M-Base Controllers of version MSYS v1.06.14 and later use weak cryptography to protect device passwords. Affected controllers that are actively supported include MX207, MX213, MX220, MC206, MC212, MC220, and MH230 hardware controllers, and affected end-of-life controller include MC205, MC210, MH212, ME203, CS200, MP213, MP226, MPC240, MPC265, MPC270, MPC293, MPE270, and CPC210 hardware controllers. Security Level 0 is set at default from the manufacturer, which could allow an unauthenticated remote attacker to gain access to the password hashes. Security Level 4 is susceptible if an authenticated remote attacker or an unauthenticated person with physical access to the device reads and decrypts the password to conduct further attacks. |
| This vulnerability could allow an attacker to force the server to create and execute a web request granting access to backend APIs that are only accessible to the Mimosa MMP server, or request pages that could perform some actions themselves. The attacker could force the server into accessing routes on those cloud-hosting platforms, accessing secret keys, changing configurations, etc. Affecting MMP: All versions prior to v1.0.3, PTP C-series: Device versions prior to v2.8.6.1, and PTMP C-series and A5x: Device versions prior to v2.5.4.1. |
| The affected Baker Hughes Bentley Nevada products (3500 System 1 6.x, Part No. 3060/00 versions 6.98 and prior, 3500 System 1, Part No. 3071/xx & 3072/xx versions 21.1 HF1 and prior, 3500 Rack Configuration, Part No. 129133-01 versions 6.4 and prior, and 3500/22M Firmware, Part No. 288055-01 versions 5.05 and prior) utilize a weak encryption algorithm for storage and transmission of sensitive data, which may allow an attacker to more easily obtain credentials used for access. |
| It was possible to construct specific XSLT markup that would be able to bypass an iframe sandbox. This vulnerability affects Firefox ESR < 91.5, Firefox < 96, and Thunderbird < 91.5. |
