ID CVE-2016-4232
Summary Adobe Flash Player before 18.0.0.366 and 19.x through 22.x before 22.0.0.209 on Windows and OS X and before 11.2.202.632 on Linux allows attackers to obtain sensitive information from process memory via unspecified vectors.
References
Vulnerable Configurations
  • Adobe Flash Player 22.0.0.192 for Chrome
    cpe:2.3:a:adobe:flash_player:22.0.0.192:-:-:-:-:chrome
  • Apple Mac OS X
    cpe:2.3:o:apple:mac_os_x
  • Google Chrome OS
    cpe:2.3:o:google:chrome_os
  • Linux Kernel
    cpe:2.3:o:linux:linux_kernel
  • Microsoft Windows
    cpe:2.3:o:microsoft:windows
  • Apple Mac OS X
    cpe:2.3:o:apple:mac_os_x
  • Microsoft Windows
    cpe:2.3:o:microsoft:windows
  • Adobe Flash Player 22.0.0.192
    cpe:2.3:a:adobe:flash_player:22.0.0.192
  • Adobe Flash Player 11.2.202.626
    cpe:2.3:a:adobe:flash_player:11.2.202.626
  • Linux Kernel
    cpe:2.3:o:linux:linux_kernel
  • Adobe Flash Player 18.0.0.360 Extended Support Release (ESR)
    cpe:2.3:a:adobe:flash_player:18.0.0.360:-:-:-:esr
  • Apple Mac OS X
    cpe:2.3:o:apple:mac_os_x
  • Microsoft Windows
    cpe:2.3:o:microsoft:windows
  • cpe:2.3:o:microsoft:windows_8.1
    cpe:2.3:o:microsoft:windows_8.1
  • Adobe Flash Player 22.0.0.192 for Internet Explorer
    cpe:2.3:a:adobe:flash_player:22.0.0.192:-:-:-:-:internet_explorer
  • cpe:2.3:o:microsoft:windows_10
    cpe:2.3:o:microsoft:windows_10
  • Adobe Flash Player 22.0.0.192 for Edge
    cpe:2.3:a:adobe:flash_player:22.0.0.192:-:-:-:-:edge
  • Adobe Flash Player 22.0.0.192 for Internet Explorer
    cpe:2.3:a:adobe:flash_player:22.0.0.192:-:-:-:-:internet_explorer
CVSS
Base: 5.0 (as of 13-07-2016 - 10:49)
Impact:
Exploitability:
CWE CWE-200
CAPEC
  • Subverting Environment Variable Values
    The attacker directly or indirectly modifies environment variables used by or controlling the target software. The attacker's goal is to cause the target software to deviate from its expected operation in a manner that benefits the attacker.
  • Footprinting
    An attacker engages in probing and exploration activity to identify constituents and properties of the target. Footprinting is a general term to describe a variety of information gathering techniques, often used by attackers in preparation for some attack. It consists of using tools to learn as much as possible about the composition, configuration, and security mechanisms of the targeted application, system or network. Information that might be collected during a footprinting effort could include open ports, applications and their versions, network topology, and similar information. While footprinting is not intended to be damaging (although certain activities, such as network scans, can sometimes cause disruptions to vulnerable applications inadvertently) it may often pave the way for more damaging attacks.
  • Exploiting Trust in Client (aka Make the Client Invisible)
    An attack of this type exploits a programs' vulnerabilities in client/server communication channel authentication and data integrity. It leverages the implicit trust a server places in the client, or more importantly, that which the server believes is the client. An attacker executes this type of attack by placing themselves in the communication channel between client and server such that communication directly to the server is possible where the server believes it is communicating only with a valid client. There are numerous variations of this type of attack.
  • Browser Fingerprinting
    An attacker carefully crafts small snippets of Java Script to efficiently detect the type of browser the potential victim is using. Many web-based attacks need prior knowledge of the web browser including the version of browser to ensure successful exploitation of a vulnerability. Having this knowledge allows an attacker to target the victim with attacks that specifically exploit known or zero day weaknesses in the type and version of the browser used by the victim. Automating this process via Java Script as a part of the same delivery system used to exploit the browser is considered more efficient as the attacker can supply a browser fingerprinting method and integrate it with exploit code, all contained in Java Script and in response to the same web page request by the browser.
  • Session Credential Falsification through Prediction
    This attack targets predictable session ID in order to gain privileges. The attacker can predict the session ID used during a transaction to perform spoofing and session hijacking.
  • Reusing Session IDs (aka Session Replay)
    This attack targets the reuse of valid session ID to spoof the target system in order to gain privileges. The attacker tries to reuse a stolen session ID used previously during a transaction to perform spoofing and session hijacking. Another name for this type of attack is Session Replay.
  • Using Slashes in Alternate Encoding
    This attack targets the encoding of the Slash characters. An attacker would try to exploit common filtering problems related to the use of the slashes characters to gain access to resources on the target host. Directory-driven systems, such as file systems and databases, typically use the slash character to indicate traversal between directories or other container components. For murky historical reasons, PCs (and, as a result, Microsoft OSs) choose to use a backslash, whereas the UNIX world typically makes use of the forward slash. The schizophrenic result is that many MS-based systems are required to understand both forms of the slash. This gives the attacker many opportunities to discover and abuse a number of common filtering problems. The goal of this pattern is to discover server software that only applies filters to one version, but not the other.
Access
VectorComplexityAuthentication
NETWORK LOW NONE
Impact
ConfidentialityIntegrityAvailability
PARTIAL NONE NONE
exploit-db via4
description Adobe Flash - Transform.colorTranform Getter Info Leak. CVE-2016-4232. Dos exploit for Multiple platform
file exploits/multiple/dos/40355.txt
id EDB-ID:40355
last seen 2016-09-08
modified 2016-09-08
platform multiple
port
published 2016-09-08
reporter Google Security Research
source https://www.exploit-db.com/download/40355/
title Adobe Flash - Transform.colorTranform Getter Info Leak
type dos
nessus via4
  • NASL family MacOS X Local Security Checks
    NASL id MACOSX_FLASH_PLAYER_APSB16-25.NASL
    description The version of Adobe Flash Player installed on the remote Mac OS X host is equal or prior to version 22.0.0.192. It is, therefore, affected by multiple vulnerabilities : - Multiple memory corruption issues exist that allow a remote attacker to execute arbitrary code. (CVE-2016-4172, CVE-2016-4175, CVE-2016-4179, CVE-2016-4180, CVE-2016-4181, CVE-2016-4182, CVE-2016-4183, CVE-2016-4184, CVE-2016-4185, CVE-2016-4186, CVE-2016-4187, CVE-2016-4188, CVE-2016-4189, CVE-2016-4190, CVE-2016-4217, CVE-2016-4218, CVE-2016-4219, CVE-2016-4220, CVE-2016-4221, CVE-2016-4233, CVE-2016-4234, CVE-2016-4235, CVE-2016-4236, CVE-2016-4237, CVE-2016-4238, CVE-2016-4239, CVE-2016-4240, CVE-2016-4241, CVE-2016-4242, CVE-2016-4243, CVE-2016-4244, CVE-2016-4245, CVE-2016-4246) - Multiple use-after-free errors exist that allow a remote attacker to execute arbitrary code. (CVE-2016-4173, CVE-2016-4174, CVE-2016-4222, CVE-2016-4226, CVE-2016-4227, CVE-2016-4228, CVE-2016-4229, CVE-2016-4230, CVE-2016-4231, CVE-2016-4248, CVE-2016-7020) - Multiple stack corruption issues exist that allow a remote attacker to execute arbitrary code. (CVE-2016-4176, CVE-2016-4177) - A security bypass vulnerability exists that allows a remote attacker to disclose sensitive information. (CVE-2016-4178) - Multiple type confusion errors exist that allow a remote attacker to execute arbitrary code. (CVE-2016-4223, CVE-2016-4224, CVE-2016-4225) - An unspecified memory leak issue exists that allows an attacker to have an unspecified impact. (CVE-2016-4232) - A race condition exists that allows a remote attacker to disclose sensitive information. (CVE-2016-4247) - A heap buffer overflow condition exists that allows a remote attacker to execute arbitrary code. (CVE-2016-4249)
    last seen 2019-02-21
    modified 2018-07-14
    plugin id 92013
    published 2016-07-12
    reporter Tenable
    source https://www.tenable.com/plugins/index.php?view=single&id=92013
    title Adobe Flash Player for Mac <= 22.0.0.192 Multiple Vulnerabilities (APSB16-25)
  • NASL family SuSE Local Security Checks
    NASL id OPENSUSE-2016-866.NASL
    description Adobe Flash Player was updated to 11.2.202.632 to fix many security issues tracked under the upstream advisory APSB16-25, allowing remote attackers to execute arbitrary code when delivering specially crafted Flash content. The following vulnerabilities were fixed : - CVE-2016-4172: memory corruption vulnerability that could lead to code execution - CVE-2016-4173: use-after-free vulnerability that could lead to code execution - CVE-2016-4174: use-after-free vulnerability that could lead to code execution - CVE-2016-4175: memory corruption vulnerability that could lead to code execution - CVE-2016-4176: stack corruption vulnerability that could lead to code execution - CVE-2016-4177: stack corruption vulnerability that could lead to code execution - CVE-2016-4178: security bypass vulnerability that could lead to information disclosure - CVE-2016-4179: memory corruption vulnerability that could lead to code execution - CVE-2016-4180: memory corruption vulnerability that could lead to code execution - CVE-2016-4181: memory corruption vulnerability that could lead to code execution - CVE-2016-4182: memory corruption vulnerability that could lead to code execution - CVE-2016-4183: memory corruption vulnerability that could lead to code execution - CVE-2016-4184: memory corruption vulnerability that could lead to code execution - CVE-2016-4185: memory corruption vulnerability that could lead to code execution - CVE-2016-4186: memory corruption vulnerability that could lead to code execution - CVE-2016-4187: memory corruption vulnerability that could lead to code execution - CVE-2016-4188: memory corruption vulnerability that could lead to code execution - CVE-2016-4189: memory corruption vulnerability that could lead to code execution - CVE-2016-4190: memory corruption vulnerability that could lead to code execution - CVE-2016-4217: memory corruption vulnerability that could lead to code execution - CVE-2016-4218: memory corruption vulnerability that could lead to code execution - CVE-2016-4219: memory corruption vulnerability that could lead to code execution - CVE-2016-4220: memory corruption vulnerability that could lead to code execution - CVE-2016-4221: memory corruption vulnerability that could lead to code execution - CVE-2016-4222: use-after-free vulnerability that could lead to code execution - CVE-2016-4223: type confusion vulnerability that could lead to code execution - CVE-2016-4224: type confusion vulnerability that could lead to code execution - CVE-2016-4225: type confusion vulnerability that could lead to code execution - CVE-2016-4226: use-after-free vulnerability that could lead to code execution - CVE-2016-4227: use-after-free vulnerability that could lead to code execution - CVE-2016-4228: use-after-free vulnerability that could lead to code execution - CVE-2016-4229: use-after-free vulnerability that could lead to code execution - CVE-2016-4230: use-after-free vulnerability that could lead to code execution - CVE-2016-4231: use-after-free vulnerability that could lead to code execution - CVE-2016-4232: memory leak vulnerability - CVE-2016-4233: memory corruption vulnerability that could lead to code execution - CVE-2016-4234: memory corruption vulnerability that could lead to code execution - CVE-2016-4235: memory corruption vulnerability that could lead to code execution - CVE-2016-4236: memory corruption vulnerability that could lead to code execution - CVE-2016-4237: memory corruption vulnerability that could lead to code execution - CVE-2016-4238: memory corruption vulnerability that could lead to code execution - CVE-2016-4239: memory corruption vulnerability that could lead to code execution - CVE-2016-4240: memory corruption vulnerability that could lead to code execution - CVE-2016-4241: memory corruption vulnerability that could lead to code execution - CVE-2016-4242: memory corruption vulnerability that could lead to code execution - CVE-2016-4243: memory corruption vulnerability that could lead to code execution - CVE-2016-4244: memory corruption vulnerability that could lead to code execution - CVE-2016-4245: memory corruption vulnerability that could lead to code execution - CVE-2016-4246: memory corruption vulnerability that could lead to code execution - CVE-2016-4247: race condition vulnerability that could lead to information disclosure - CVE-2016-4248: use-after-free vulnerability that could lead to code execution - CVE-2016-4249: heap buffer overflow vulnerability that could lead to code execution
    last seen 2019-02-21
    modified 2016-12-07
    plugin id 92043
    published 2016-07-14
    reporter Tenable
    source https://www.tenable.com/plugins/index.php?view=single&id=92043
    title openSUSE Security Update : flash-player (openSUSE-2016-866)
  • NASL family Red Hat Local Security Checks
    NASL id REDHAT-RHSA-2016-1423.NASL
    description An update for flash-plugin is now available for Red Hat Enterprise Linux 5 Supplementary and Red Hat Enterprise Linux 6 Supplementary. Red Hat Product Security has rated this update as having a security impact of Critical. A Common Vulnerability Scoring System (CVSS) base score, which gives a detailed severity rating, is available for each vulnerability from the CVE link(s) in the References section. The flash-plugin package contains a Mozilla Firefox compatible Adobe Flash Player web browser plug-in. This update upgrades Flash Player to version 11.2.202.632. Security Fix(es) : * This update fixes multiple vulnerabilities in Adobe Flash Player. These vulnerabilities, detailed in the Adobe Security Bulletin listed in the References section, could allow an attacker to create a specially crafted SWF file that would cause flash-plugin to crash, execute arbitrary code, or disclose sensitive information when the victim loaded a page containing the malicious SWF content. (CVE-2016-4172, CVE-2016-4173, CVE-2016-4174, CVE-2016-4175, CVE-2016-4176, CVE-2016-4177, CVE-2016-4178, CVE-2016-4179, CVE-2016-4180, CVE-2016-4181, CVE-2016-4182, CVE-2016-4183, CVE-2016-4184, CVE-2016-4185, CVE-2016-4186, CVE-2016-4187, CVE-2016-4188, CVE-2016-4189, CVE-2016-4190, CVE-2016-4217, CVE-2016-4218, CVE-2016-4219, CVE-2016-4220, CVE-2016-4221, CVE-2016-4222, CVE-2016-4223, CVE-2016-4224, CVE-2016-4225, CVE-2016-4226, CVE-2016-4227, CVE-2016-4228, CVE-2016-4229, CVE-2016-4230, CVE-2016-4231, CVE-2016-4232, CVE-2016-4233, CVE-2016-4234, CVE-2016-4235, CVE-2016-4236, CVE-2016-4237, CVE-2016-4238, CVE-2016-4239, CVE-2016-4240, CVE-2016-4241, CVE-2016-4242, CVE-2016-4243, CVE-2016-4244, CVE-2016-4245, CVE-2016-4246, CVE-2016-4247, CVE-2016-4248, CVE-2016-4249)
    last seen 2019-02-21
    modified 2018-12-27
    plugin id 92044
    published 2016-07-14
    reporter Tenable
    source https://www.tenable.com/plugins/index.php?view=single&id=92044
    title RHEL 5 / 6 : flash-plugin (RHSA-2016:1423)
  • NASL family FreeBSD Local Security Checks
    NASL id FREEBSD_PKG_A522D6AC4AED11E697EA002590263BF5.NASL
    description Adobe reports : These updates resolve a race condition vulnerability that could lead to information disclosure (CVE-2016-4247). These updates resolve type confusion vulnerabilities that could lead to code execution (CVE-2016-4223, CVE-2016-4224, CVE-2016-4225). These updates resolve use-after-free vulnerabilities that could lead to code execution (CVE-2016-4173, CVE-2016-4174, CVE-2016-4222, CVE-2016-4226, CVE-2016-4227, CVE-2016-4228, CVE-2016-4229, CVE-2016-4230, CVE-2016-4231, CVE-2016-4248). These updates resolve a heap buffer overflow vulnerability that could lead to code execution (CVE-2016-4249). These updates resolve memory corruption vulnerabilities that could lead to code execution (CVE-2016-4172, CVE-2016-4175, CVE-2016-4179, CVE-2016-4180, CVE-2016-4181, CVE-2016-4182, CVE-2016-4183, CVE-2016-4184, CVE-2016-4185, CVE-2016-4186, CVE-2016-4187, CVE-2016-4188, CVE-2016-4189, CVE-2016-4190, CVE-2016-4217, CVE-2016-4218, CVE-2016-4219, CVE-2016-4220, CVE-2016-4221, CVE-2016-4233, CVE-2016-4234, CVE-2016-4235, CVE-2016-4236, CVE-2016-4237, CVE-2016-4238, CVE-2016-4239, CVE-2016-4240, CVE-2016-4241, CVE-2016-4242, CVE-2016-4243, CVE-2016-4244, CVE-2016-4245, CVE-2016-4246). These updates resolve a memory leak vulnerability (CVE-2016-4232). These updates resolve stack corruption vulnerabilities that could lead to code execution (CVE-2016-4176, CVE-2016-4177). These updates resolve a security bypass vulnerability that could lead to information disclosure (CVE-2016-4178).
    last seen 2019-02-21
    modified 2018-11-10
    plugin id 92343
    published 2016-07-18
    reporter Tenable
    source https://www.tenable.com/plugins/index.php?view=single&id=92343
    title FreeBSD : flash -- multiple vulnerabilities (a522d6ac-4aed-11e6-97ea-002590263bf5)
  • NASL family Windows : Microsoft Bulletins
    NASL id SMB_NT_MS16-093.NASL
    description The remote Windows host is missing KB3174060. It is, therefore, affected by multiple vulnerabilities : - Multiple memory corruption issues exist that allow a remote attacker to execute arbitrary code. (CVE-2016-4172, CVE-2016-4175, CVE-2016-4179, CVE-2016-4180, CVE-2016-4181, CVE-2016-4182, CVE-2016-4183, CVE-2016-4184, CVE-2016-4185, CVE-2016-4186, CVE-2016-4187, CVE-2016-4188, CVE-2016-4189, CVE-2016-4190, CVE-2016-4217, CVE-2016-4218, CVE-2016-4219, CVE-2016-4220, CVE-2016-4221, CVE-2016-4233, CVE-2016-4234, CVE-2016-4235, CVE-2016-4236, CVE-2016-4237, CVE-2016-4238, CVE-2016-4239, CVE-2016-4240, CVE-2016-4241, CVE-2016-4242, CVE-2016-4243, CVE-2016-4244, CVE-2016-4245, CVE-2016-4246) - Multiple use-after-free errors exist that allow a remote attacker to execute arbitrary code. (CVE-2016-4173, CVE-2016-4174, CVE-2016-4222, CVE-2016-4226, CVE-2016-4227, CVE-2016-4228, CVE-2016-4229, CVE-2016-4230, CVE-2016-4231, CVE-2016-4248, CVE-2016-7020) - Multiple stack corruption issues exist that allow a remote attacker to execute arbitrary code. (CVE-2016-4176, CVE-2016-4177) - A security bypass vulnerability exists that allows a remote attacker to disclose sensitive information. (CVE-2016-4178) - Multiple type confusion errors exist that allow a remote attacker to execute arbitrary code. (CVE-2016-4223, CVE-2016-4224, CVE-2016-4225) - An unspecified memory leak issue exists that allows an attacker to have an unspecified impact. (CVE-2016-4232) - A race condition exists that allows a remote attacker to disclose sensitive information. (CVE-2016-4247) - A heap buffer overflow condition exists that allows a remote attacker to execute arbitrary code. (CVE-2016-4249)
    last seen 2019-02-21
    modified 2018-11-15
    plugin id 92024
    published 2016-07-12
    reporter Tenable
    source https://www.tenable.com/plugins/index.php?view=single&id=92024
    title MS16-093: Security Update for Adobe Flash Player (3174060)
  • NASL family Gentoo Local Security Checks
    NASL id GENTOO_GLSA-201607-03.NASL
    description The remote host is affected by the vulnerability described in GLSA-201607-03 (Adobe Flash Player: Multiple vulnerabilities) Multiple vulnerabilities have been discovered in Adobe Flash Player. Please review the CVE identifiers referenced below for details. Impact : A remote attacker could possibly execute arbitrary code with the privileges of the process, cause a Denial of Service condition, obtain sensitive information, or bypass security restrictions. Workaround : There is no known workaround at this time.
    last seen 2019-02-21
    modified 2016-11-11
    plugin id 92042
    published 2016-07-14
    reporter Tenable
    source https://www.tenable.com/plugins/index.php?view=single&id=92042
    title GLSA-201607-03 : Adobe Flash Player: Multiple vulnerabilities
  • NASL family SuSE Local Security Checks
    NASL id OPENSUSE-2016-870.NASL
    description Adobe Flash Player was updated to 11.2.202.632 to fix many security issues tracked under the upstream advisory APSB16-25, allowing remote attackers to execute arbitrary code when delivering specially crafted Flash content. The following vulnerabilities were fixed : - CVE-2016-4172: memory corruption vulnerability that could lead to code execution - CVE-2016-4173: use-after-free vulnerability that could lead to code execution - CVE-2016-4174: use-after-free vulnerability that could lead to code execution - CVE-2016-4175: memory corruption vulnerability that could lead to code execution - CVE-2016-4176: stack corruption vulnerability that could lead to code execution - CVE-2016-4177: stack corruption vulnerability that could lead to code execution - CVE-2016-4178: security bypass vulnerability that could lead to information disclosure - CVE-2016-4179: memory corruption vulnerability that could lead to code execution - CVE-2016-4180: memory corruption vulnerability that could lead to code execution - CVE-2016-4181: memory corruption vulnerability that could lead to code execution - CVE-2016-4182: memory corruption vulnerability that could lead to code execution - CVE-2016-4183: memory corruption vulnerability that could lead to code execution - CVE-2016-4184: memory corruption vulnerability that could lead to code execution - CVE-2016-4185: memory corruption vulnerability that could lead to code execution - CVE-2016-4186: memory corruption vulnerability that could lead to code execution - CVE-2016-4187: memory corruption vulnerability that could lead to code execution - CVE-2016-4188: memory corruption vulnerability that could lead to code execution - CVE-2016-4189: memory corruption vulnerability that could lead to code execution - CVE-2016-4190: memory corruption vulnerability that could lead to code execution - CVE-2016-4217: memory corruption vulnerability that could lead to code execution - CVE-2016-4218: memory corruption vulnerability that could lead to code execution - CVE-2016-4219: memory corruption vulnerability that could lead to code execution - CVE-2016-4220: memory corruption vulnerability that could lead to code execution - CVE-2016-4221: memory corruption vulnerability that could lead to code execution - CVE-2016-4222: use-after-free vulnerability that could lead to code execution - CVE-2016-4223: type confusion vulnerability that could lead to code execution - CVE-2016-4224: type confusion vulnerability that could lead to code execution - CVE-2016-4225: type confusion vulnerability that could lead to code execution - CVE-2016-4226: use-after-free vulnerability that could lead to code execution - CVE-2016-4227: use-after-free vulnerability that could lead to code execution - CVE-2016-4228: use-after-free vulnerability that could lead to code execution - CVE-2016-4229: use-after-free vulnerability that could lead to code execution - CVE-2016-4230: use-after-free vulnerability that could lead to code execution - CVE-2016-4231: use-after-free vulnerability that could lead to code execution - CVE-2016-4232: memory leak vulnerability - CVE-2016-4233: memory corruption vulnerability that could lead to code execution - CVE-2016-4234: memory corruption vulnerability that could lead to code execution - CVE-2016-4235: memory corruption vulnerability that could lead to code execution - CVE-2016-4236: memory corruption vulnerability that could lead to code execution - CVE-2016-4237: memory corruption vulnerability that could lead to code execution - CVE-2016-4238: memory corruption vulnerability that could lead to code execution - CVE-2016-4239: memory corruption vulnerability that could lead to code execution - CVE-2016-4240: memory corruption vulnerability that could lead to code execution - CVE-2016-4241: memory corruption vulnerability that could lead to code execution - CVE-2016-4242: memory corruption vulnerability that could lead to code execution - CVE-2016-4243: memory corruption vulnerability that could lead to code execution - CVE-2016-4244: memory corruption vulnerability that could lead to code execution - CVE-2016-4245: memory corruption vulnerability that could lead to code execution - CVE-2016-4246: memory corruption vulnerability that could lead to code execution - CVE-2016-4247: race condition vulnerability that could lead to information disclosure - CVE-2016-4248: use-after-free vulnerability that could lead to code execution - CVE-2016-4249: heap buffer overflow vulnerability that could lead to code execution
    last seen 2019-02-21
    modified 2016-12-07
    plugin id 92309
    published 2016-07-15
    reporter Tenable
    source https://www.tenable.com/plugins/index.php?view=single&id=92309
    title openSUSE Security Update : flash-player (openSUSE-2016-870)
  • NASL family Windows
    NASL id FLASH_PLAYER_APSB16-25.NASL
    description The version of Adobe Flash Player installed on the remote Windows host is equal or prior to version 22.0.0.192. It is, therefore, affected by multiple Vulnerabilities : - Multiple memory corruption issues exist that allow a remote attacker to execute arbitrary code. (CVE-2016-4172, CVE-2016-4175, CVE-2016-4179, CVE-2016-4180, CVE-2016-4181, CVE-2016-4182, CVE-2016-4183, CVE-2016-4184, CVE-2016-4185, CVE-2016-4186, CVE-2016-4187, CVE-2016-4188, CVE-2016-4189, CVE-2016-4190, CVE-2016-4217, CVE-2016-4218, CVE-2016-4219, CVE-2016-4220, CVE-2016-4221, CVE-2016-4233, CVE-2016-4234, CVE-2016-4235, CVE-2016-4236, CVE-2016-4237, CVE-2016-4238, CVE-2016-4239, CVE-2016-4240, CVE-2016-4241, CVE-2016-4242, CVE-2016-4243, CVE-2016-4244, CVE-2016-4245, CVE-2016-4246) - Multiple use-after-free errors exist that allow a remote attacker to execute arbitrary code. (CVE-2016-4173, CVE-2016-4174, CVE-2016-4222, CVE-2016-4226, CVE-2016-4227, CVE-2016-4228, CVE-2016-4229, CVE-2016-4230, CVE-2016-4231, CVE-2016-4248, CVE-2016-7020) - Multiple stack corruption issues exist that allow a remote attacker to execute arbitrary code. (CVE-2016-4176, CVE-2016-4177) - A security bypass vulnerability exists that allows a remote attacker to disclose sensitive information. (CVE-2016-4178) - Multiple type confusion errors exist that allow a remote attacker to execute arbitrary code. (CVE-2016-4223, CVE-2016-4224, CVE-2016-4225) - An unspecified memory leak issue exists that allows an attacker to have an unspecified impact. (CVE-2016-4232) - A race condition exists that allows a remote attacker to disclose sensitive information. (CVE-2016-4247) - A heap buffer overflow condition exists that allows a remote attacker to execute arbitrary code. (CVE-2016-4249)
    last seen 2019-02-21
    modified 2018-07-11
    plugin id 92012
    published 2016-07-12
    reporter Tenable
    source https://www.tenable.com/plugins/index.php?view=single&id=92012
    title Adobe Flash Player <= 22.0.0.192 Multiple Vulnerabilities (APSB16-25)
redhat via4
advisories
rhsa
id RHSA-2016:1423
refmap via4
bid 91724
confirm https://helpx.adobe.com/security/products/flash-player/apsb16-25.html
exploit-db 40355
gentoo GLSA-201607-03
ms MS16-093
sectrack 1036280
suse
  • SUSE-SU-2016:1826
  • openSUSE-SU-2016:1802
Last major update 28-11-2016 - 15:16
Published 12-07-2016 - 22:00
Last modified 12-10-2018 - 18:14
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