Adobe Flash Player 11.1.111.64/11.1.115.69/11.2.202.297/11.8.800.94 memory corruption
| CVSS Meta Temp Score | Current Exploit Price (≈) | CTI Interest Score |
|---|---|---|
| 9.5 | $0-$5k | 0.00 |
Summary
A vulnerability was found in Adobe Flash Player 11.1.111.64/11.1.115.69/11.2.202.297/11.8.800.94. It has been classified as critical. Affected by this vulnerability is an unknown functionality of the component Flash Player. Performing a manipulation results in memory corruption. This vulnerability is reported as CVE-2013-3362. No exploit exists. Upgrading the affected component is recommended.
Details
A vulnerability classified as very critical has been found in Adobe Flash Player 11.1.111.64/11.1.115.69/11.2.202.297/11.8.800.94 (Multimedia Player Software). This affects an unknown code block of the component Flash Player. The manipulation with an unknown input leads to a memory corruption vulnerability. CWE is classifying the issue as CWE-119. The product performs operations on a memory buffer, but it can read from or write to a memory location that is outside of the intended boundary of the buffer. This is going to have an impact on confidentiality, integrity, and availability. The summary by CVE is:
Adobe Flash Player before 11.7.700.242 and 11.8.x before 11.8.800.168 on Windows and Mac OS X, before 11.2.202.310 on Linux, before 11.1.111.73 on Android 2.x and 3.x, and before 11.1.115.81 on Android 4.x; Adobe AIR before 3.8.0.1430; and Adobe AIR SDK & Compiler before 3.8.0.1430 allow attackers to execute arbitrary code or cause a denial of service (memory corruption) via unspecified vectors, a different vulnerability than CVE-2013-3361, CVE-2013-3363, and CVE-2013-5324.
The weakness was disclosed 09/10/2013 by Mateusz Jurczyk and Ben Hawkes with Google Security Team as APSB13-21 as not defined advisory (Website). The advisory is shared at adobe.com. The public release has been coordinated in cooperation with Adobe. This vulnerability is uniquely identified as CVE-2013-3362 since 05/06/2013. The exploitability is told to be difficult. It is possible to initiate the attack remotely. No form of authentication is needed for exploitation. Neither technical details nor an exploit are publicly available. The price for an exploit might be around USD $0-$5k at the moment (estimation calculated on 05/24/2021). It is expected to see the exploit prices for this product decreasing in the near future.
The vulnerability scanner Nessus provides a plugin with the ID 69865 (Adobe AIR <= 3.8.0.870 Memory Corruptions (APSB13-21)), which helps to determine the existence of the flaw in a target environment. It is assigned to the family Windows. The commercial vulnerability scanner Qualys is able to test this issue with plugin 121447 (Adobe Flash Player and AIR Multiple Vulnerabilities (APSB13-21)).
Upgrading to version 11.7.700.242 or 11.8.800.168 eliminates this vulnerability. A possible mitigation has been published immediately after the disclosure of the vulnerability.
The vulnerability is also documented in the databases at Tenable (69865), SecurityFocus (BID 62294†), OSVDB (97051†), Secunia (SA54697†) and Vulnerability Center (SBV-41469†). Further details are available at krebsonsecurity.com. The entries VDB-10188, VDB-10189, VDB-10190 and VDB-10191 are pretty similar. If you want to get the best quality for vulnerability data then you always have to consider VulDB.
Affected
- Adobe Flash Player 11.1.111.64/11.1.115.69/11.2.202.297/11.8.800.94
- Adobe AIR 3.8.0.870/3.8.0.910
Product
Type
Vendor
Name
Version
License
Support
Website
- Vendor: https://www.adobe.com/
CPE 2.3
CPE 2.2
CVSSv4
VulDB Vector: 🔍VulDB Reliability: 🔍
CVSSv3
VulDB Meta Base Score: 10.0VulDB Meta Temp Score: 9.5
VulDB Base Score: 10.0
VulDB Temp Score: 9.5
VulDB Vector: 🔍
VulDB Reliability: 🔍
CVSSv2
| AV | AC | Au | C | I | A |
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| 💳 | 💳 | 💳 | 💳 | 💳 | 💳 |
| 💳 | 💳 | 💳 | 💳 | 💳 | 💳 |
| 💳 | 💳 | 💳 | 💳 | 💳 | 💳 |
| Vector | Complexity | Authentication | Confidentiality | Integrity | Availability |
|---|---|---|---|---|---|
| Unlock | Unlock | Unlock | Unlock | Unlock | Unlock |
| Unlock | Unlock | Unlock | Unlock | Unlock | Unlock |
| Unlock | Unlock | Unlock | Unlock | Unlock | Unlock |
VulDB Base Score: 🔍
VulDB Temp Score: 🔍
VulDB Reliability: 🔍
NVD Base Score: 🔍
Exploiting
Class: Memory corruptionCWE: CWE-119
CAPEC: 🔍
ATT&CK: 🔍
Physical: No
Local: No
Remote: Yes
Availability: 🔍
Status: Not defined
EPSS Score: 🔍
EPSS Percentile: 🔍
Price Prediction: 🔍
Current Price Estimation: 🔍
| 0-Day | Unlock | Unlock | Unlock | Unlock |
|---|---|---|---|---|
| Today | Unlock | Unlock | Unlock | Unlock |
Nessus ID: 69865
Nessus Name: Adobe AIR <= 3.8.0.870 Memory Corruptions (APSB13-21)
Nessus File: 🔍
Nessus Risk: 🔍
Nessus Family: 🔍
OpenVAS ID: 803496
OpenVAS Name: Adobe AIR Multiple Vulnerabilities-01 Sep13 (Windows)
OpenVAS File: 🔍
OpenVAS Family: 🔍
Qualys ID: 🔍
Qualys Name: 🔍
Threat Intelligence
Interest: 🔍Active Actors: 🔍
Active APT Groups: 🔍
Countermeasures
Recommended: UpgradeStatus: 🔍
Reaction Time: 🔍
0-Day Time: 🔍
Exposure Time: 🔍
Upgrade: Flash Player 11.7.700.242/11.8.800.168
McAfee IPS Version: 🔍
ISS Proventia IPS: 🔍
PaloAlto IPS: 🔍
Fortigate IPS: 🔍
Timeline
05/06/2013 🔍09/10/2013 🔍
09/10/2013 🔍
09/10/2013 🔍
09/10/2013 🔍
09/10/2013 🔍
09/11/2013 🔍
09/11/2013 🔍
09/12/2013 🔍
05/24/2021 🔍
Sources
Vendor: adobe.comAdvisory: APSB13-21
Researcher: Mateusz Jurczyk, Ben Hawkes
Organization: Google Security Team
Status: Not defined
Confirmation: 🔍
Coordinated: 🔍
CVE: CVE-2013-3362 (🔍)
GCVE (CVE): GCVE-0-2013-3362
GCVE (VulDB): GCVE-100-10197
OVAL: 🔍
IAVM: 🔍
SecurityFocus: 62294 - Adobe Flash Player and AIR CVE-2013-3362 Remote Memory Corruption Vulnerability
Secunia: 54697 - Adobe Flash Player / AIR Multiple Vulnerabilities, Highly Critical
OSVDB: 97051
Vulnerability Center: 41469 - [APSB13-21] Adobe Flash Player Remote Code Execution Vulnerability via a Memory Corruption (CVE-2013-3362), Critical
Misc.: 🔍
See also: 🔍
Entry
Created: 09/11/2013 12:52Updated: 05/24/2021 09:47
Changes: 09/11/2013 12:52 (54), 05/11/2017 08:41 (42), 05/24/2021 09:47 (2)
Complete: 🔍
Cache ID: 216::103
If you want to get the best quality for vulnerability data then you always have to consider VulDB.
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