Focus on openclinic_ga_project vulnerabilities and metrics.
Last updated: 08 Mar 2025, 23:25 UTC
This page consolidates all known Common Vulnerabilities and Exposures (CVEs) associated with openclinic_ga_project. We track both calendar-based metrics (using fixed periods) and rolling metrics (using gliding windows) to give you a comprehensive view of security trends and risk evolution. Use these insights to assess risk and plan your patching strategy.
For a broader perspective on cybersecurity threats, explore the comprehensive list of CVEs by vendor and product. Stay updated on critical vulnerabilities affecting major software and hardware providers.
Total openclinic_ga_project CVEs: 31
Earliest CVE date: 20 Jul 2020, 15:15 UTC
Latest CVE date: 26 Oct 2021, 14:15 UTC
Latest CVE reference: CVE-2021-37364
30-day Count (Rolling): 0
365-day Count (Rolling): 0
Calendar-based Variation
Calendar-based Variation compares a fixed calendar period (e.g., this month versus the same month last year), while Rolling Growth Rate uses a continuous window (e.g., last 30 days versus the previous 30 days) to capture trends independent of calendar boundaries.
Month Variation (Calendar): 0%
Year Variation (Calendar): 0%
Month Growth Rate (30-day Rolling): 0.0%
Year Growth Rate (365-day Rolling): 0.0%
Average CVSS: 6.74
Max CVSS: 10.0
Critical CVEs (≥9): 2
| Range | Count |
|---|---|
| 0.0-3.9 | 0 |
| 4.0-6.9 | 19 |
| 7.0-8.9 | 10 |
| 9.0-10.0 | 2 |
These are the five CVEs with the highest CVSS scores for openclinic_ga_project, sorted by severity first and recency.
OpenClinic GA 5.194.18 is affected by Insecure Permissions. By default the Authenticated Users group has the modify permission to openclinic folders/files. A low privilege account is able to rename mysqld.exe or tomcat8.exe files located in bin folders and replace with a malicious file that would connect back to an attacking computer giving system level privileges (nt authority\system) due to the service running as Local System. While a low privilege user is unable to restart the service through the application, a restart of the computer triggers the execution of the malicious file. The application also have unquoted service path issues.
An exploitable SQL injection vulnerability exists in ‘listImmoLabels.jsp’ page of OpenClinic GA 5.173.3 application. The immoComment parameter in the ‘listImmoLabels.jsp’ page is vulnerable to authenticated SQL injection. An attacker can make an authenticated HTTP request to trigger this vulnerability.
An exploitable SQL injection vulnerability exists in ‘listImmoLabels.jsp’ page of OpenClinic GA 5.173.3 application. The immoBuyer parameter in the ‘listImmoLabels.jsp’ page is vulnerable to authenticated SQL injection. An attacker can make an authenticated HTTP request to trigger this vulnerability.
An exploitable SQL injection vulnerability exists in ‘listImmoLabels.jsp’ page of OpenClinic GA 5.173.3 application. The immoCode parameter in the ‘listImmoLabels.jsp’ page is vulnerable to authenticated SQL injection. An attacker can make an authenticated HTTP request to trigger this vulnerability.
An exploitable SQL injection vulnerability exists in ‘listImmoLabels.jsp’ page of OpenClinic GA 5.173.3 application. The immoService parameter in the ‘listImmoLabels.jsp’ page is vulnerable to authenticated SQL injection. An attacker can make an authenticated HTTP request to trigger this vulnerability.
An exploitable SQL injection vulnerability exists in ‘listImmoLabels.jsp’ page of OpenClinic GA 5.173.3 application. The immoLocation parameter in the ‘listImmoLabels.jsp’ page is vulnerable to authenticated SQL injection. An attacker can make an authenticated HTTP request to trigger this vulnerability.
An exploitable SQL injection vulnerability exists in ‘manageServiceStocks.jsp’ page of OpenClinic GA 5.173.3. A specially crafted HTTP request can lead to SQL injection. An attacker can make an authenticated HTTP request to trigger this vulnerability.
A number of exploitable SQL injection vulnerabilities exists in ‘patientslist.do’ page of OpenClinic GA 5.173.3 application. The findDistrict parameter in ‘‘patientslist.do’ page is vulnerable to authenticated SQL injection. An attacker can make an authenticated HTTP request to trigger this vulnerability.
A number of exploitable SQL injection vulnerabilities exists in ‘patientslist.do’ page of OpenClinic GA 5.173.3 application. The findSector parameter in ‘‘patientslist.do’ page is vulnerable to authenticated SQL injection An attacker can make an authenticated HTTP request to trigger this vulnerability.
A number of exploitable SQL injection vulnerabilities exists in ‘patientslist.do’ page of OpenClinic GA 5.173.3 application. The findPersonID parameter in ‘‘patientslist.do’ page is vulnerable to authenticated SQL injection. An attacker can make an authenticated HTTP request to trigger this vulnerability.
An exploitable SQL injection vulnerability exists in ‘quickFile.jsp’ page of OpenClinic GA 5.173.3. A specially crafted HTTP request can lead to SQL injection. An attacker can make an authenticated HTTP request to trigger this vulnerability.
An exploitable SQL injection vulnerability exists in ‘getAssets.jsp’ page of OpenClinic GA 5.173.3. The serialnumber parameter in the getAssets.jsp page is vulnerable to unauthenticated SQL injection. An attacker can make an authenticated HTTP request to trigger this vulnerability.
An exploitable SQL injection vulnerability exists in ‘getAssets.jsp’ page of OpenClinic GA 5.173.3. The componentStatus parameter in the getAssets.jsp page is vulnerable to unauthenticated SQL injection An attacker can make an authenticated HTTP request to trigger this vulnerability.
An exploitable SQL injection vulnerability exists in ‘getAssets.jsp’ page of OpenClinic GA 5.173.3. The assetStatus parameter in the getAssets.jsp page is vulnerable to unauthenticated SQL injection An attacker can make an authenticated HTTP request to trigger this vulnerability.
An exploitable SQL injection vulnerability exists in ‘getAssets.jsp’ page of OpenClinic GA 5.173.3. The code parameter in the getAssets.jsp page is vulnerable to unauthenticated SQL injection. An attacker can make an authenticated HTTP request to trigger this vulnerability.
An exploitable SQL injection vulnerability exists in ‘getAssets.jsp’ page of OpenClinic GA 5.173.3. The code parameter in the The nomenclature parameter in the getAssets.jsp page is vulnerable to unauthenticated SQL injection. An attacker can make an authenticated HTTP request to trigger this vulnerability.
An exploitable SQL injection vulnerability exists in ‘getAssets.jsp’ page of OpenClinic GA 5.173.3 in the compnomenclature parameter. An attacker can make an authenticated HTTP request to trigger this vulnerability.
An exploitable SQL injection vulnerability exists in ‘getAssets.jsp’ page of OpenClinic GA 5.173.3 in the description parameter. An attacker can make an authenticated HTTP request to trigger this vulnerability.
An exploitable SQL injection vulnerability exists in ‘getAssets.jsp’ page of OpenClinic GA 5.173.3 in the serviceUID parameter. An attacker can make an authenticated HTTP request to trigger this vulnerability.
An exploitable SQL injection vulnerability exists in ‘getAssets.jsp’ page of OpenClinic GA 5.173.3 in the supplierUID parameter. An attacker can make an authenticated HTTP request to trigger this vulnerability.
An incorrect default permissions vulnerability exists in the installation functionality of OpenClinic GA 5.173.3. Overwriting the binary can result in privilege escalation. An attacker can replace a file to exploit this vulnerability.
An exploitable unatuhenticated command injection exists in the OpenClinic GA 5.173.3. Specially crafted web requests can cause commands to be executed on the server. An attacker can send a web request with parameters containing specific parameter to trigger this vulnerability, potentially allowing exfiltration of the database, user credentials and compromise underlying operating system.
An attacker may bypass permission/authorization checks in OpenClinic GA 5.09.02 and 5.89.05b by ignoring the redirect of a permission failure, which may allow unauthorized execution of commands.
A low-privilege user may use SQL syntax to write arbitrary files to the OpenClinic GA 5.09.02 and 5.89.05b server, which may allow the execution of arbitrary commands.
OpenClinic GA 5.09.02 and 5.89.05b does not properly neutralize user-controllable input, which may allow the execution of malicious code within the user’s browser.
OpenClinic GA 5.09.02 and 5.89.05b includes arbitrary local files specified within its parameter and executes some files, which may allow disclosure of sensitive files or the execution of malicious uploaded files.
OpenClinic GA 5.09.02 and 5.89.05b stores passwords using inadequate hashing complexity, which may allow an attacker to recover passwords using known password cracking techniques.
OpenClinic GA versions 5.09.02 and 5.89.05b contain an authentication mechanism within the system that does not provide sufficient complexity to protect against brute force attacks, which may allow unauthorized users to access the system after no more than a fixed maximum number of attempts.
OpenClinic GA versions 5.09.02 and 5.89.05b do not properly check permissions before executing SQL queries, which may allow a low-privilege user to access privileged information.
OpenClinic GA versions 5.09.02 and 5.89.05b may allow an attacker to bypass client-side access controls or use a crafted request to initiate a session with limited functionality, which may allow execution of admin functions such as SQL queries.
OpenClinic GA versions 5.09.02 and 5.89.05b may allow an attacker to bypass the system’s account lockout protection, which may allow brute force password attacks.