The Vigil@nce team watches public vulnerabilities impacting your computers, and then offers security solutions, a vigilance database and tools to fix them.

Vulnerability of Adobe Acrobat/Reader: multiple vulnerabilities

Synthesis of the vulnerability 

An attacker can use several vulnerabilities of Adobe Acrobat/Reader.
Vulnerable products: Acrobat, Acrobat DC Classic, Acrobat DC Continuous.
Severity of this weakness: 3/4.
Number of vulnerabilities in this bulletin: 75.
Creation date: 12/10/2016.
Références of this bulletin: APSB16-33, CVE-2016-1089, CVE-2016-1091, CVE-2016-4095, CVE-2016-6939, CVE-2016-6940, CVE-2016-6941, CVE-2016-6942, CVE-2016-6943, CVE-2016-6944, CVE-2016-6945, CVE-2016-6946, CVE-2016-6947, CVE-2016-6948, CVE-2016-6949, CVE-2016-6950, CVE-2016-6951, CVE-2016-6952, CVE-2016-6953, CVE-2016-6954, CVE-2016-6955, CVE-2016-6956, CVE-2016-6957, CVE-2016-6958, CVE-2016-6959, CVE-2016-6960, CVE-2016-6961, CVE-2016-6962, CVE-2016-6963, CVE-2016-6964, CVE-2016-6965, CVE-2016-6966, CVE-2016-6967, CVE-2016-6968, CVE-2016-6969, CVE-2016-6970, CVE-2016-6971, CVE-2016-6972, CVE-2016-6973, CVE-2016-6974, CVE-2016-6975, CVE-2016-6976, CVE-2016-6977, CVE-2016-6978, CVE-2016-6979, CVE-2016-6988, CVE-2016-6993, CVE-2016-6994, CVE-2016-6995, CVE-2016-6996, CVE-2016-6997, CVE-2016-6998, CVE-2016-6999, CVE-2016-7000, CVE-2016-7001, CVE-2016-7002, CVE-2016-7003, CVE-2016-7004, CVE-2016-7005, CVE-2016-7006, CVE-2016-7007, CVE-2016-7008, CVE-2016-7009, CVE-2016-7010, CVE-2016-7011, CVE-2016-7012, CVE-2016-7013, CVE-2016-7014, CVE-2016-7015, CVE-2016-7016, CVE-2016-7017, CVE-2016-7018, CVE-2016-7019, CVE-2016-7852, CVE-2016-7853, CVE-2016-7854, VIGILANCE-VUL-20826, ZDI-16-536, ZDI-16-537, ZDI-16-538, ZDI-16-539, ZDI-16-540, ZDI-16-541, ZDI-16-542, ZDI-16-543, ZDI-16-544, ZDI-16-545, ZDI-16-546, ZDI-16-547, ZDI-16-548, ZDI-16-549, ZDI-16-550, ZDI-16-551, ZDI-16-552, ZDI-16-553, ZDI-16-554, ZDI-16-555, ZDI-16-556, ZDI-16-557, ZDI-16-558, ZDI-16-559, ZDI-16-560, ZDI-16-561, ZDI-16-562, ZDI-16-563, ZDI-16-564, ZDI-16-565, ZDI-16-566, ZDI-16-567, ZDI-16-573.

Description of the vulnerability 

Several vulnerabilities were announced in Adobe Acrobat/Reader.

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-1089]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-1091]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6944, ZDI-16-536]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6945, ZDI-16-537]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6946, ZDI-16-554]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6949]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6952, ZDI-16-559]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6953, ZDI-16-560]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6961, ZDI-16-545]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6962, ZDI-16-546]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6963, ZDI-16-547]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6964, ZDI-16-548]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6965, ZDI-16-549]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6967, ZDI-16-551]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6968, ZDI-16-552]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6969, ZDI-16-563]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6971, ZDI-16-561]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6979, ZDI-16-544]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6988, ZDI-16-556]

An attacker can force the usage of a freed memory area, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6993]

An attacker can generate a buffer overflow, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6939]

An attacker can generate a buffer overflow, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6994]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6940, ZDI-16-564]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6941, ZDI-16-565]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6942, ZDI-16-553]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6943]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6947, ZDI-16-555]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6948]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6950, ZDI-16-557]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6951, ZDI-16-558]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6954]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6955]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6956]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6959, ZDI-16-539]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6960, ZDI-16-540]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6966, ZDI-16-550]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6970]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6972, ZDI-16-566]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6973, ZDI-16-562]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6974, ZDI-16-541]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6975, ZDI-16-567]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6976, ZDI-16-542]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6977, ZDI-16-543]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6978, ZDI-16-538]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6995]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6996]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6997]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6998]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7000]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7001]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7002]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7003]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7004]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7005]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7006]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7007]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7008]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7009]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7010]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7011]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7012]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7013]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7014]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7015]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7016]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7017]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7018]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7019]

An attacker can bypass security features via Javascript API, in order to escalate his privileges. [severity:2/4; CVE-2016-6957]

An attacker can bypass security features, in order to escalate his privileges. [severity:2/4; CVE-2016-6958]

An attacker can generate an integer overflow, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-6999]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7852]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7853]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-7854, ZDI-16-573]

An attacker can generate a memory corruption, in order to trigger a denial of service, and possibly to run code. [severity:3/4; CVE-2016-4095]
Full bulletin, software filtering, emails, fixes, ... (Request your free trial)

This computer weakness impacts software or systems such as Acrobat, Acrobat DC Classic, Acrobat DC Continuous.

Our Vigil@nce team determined that the severity of this vulnerability note is important.

The trust level is of type confirmed by the editor, with an origin of document.

This bulletin is about 75 vulnerabilities.

An attacker with a expert ability can exploit this cybersecurity threat.

Solutions for this threat 

Adobe Acrobat/Reader Continuous: version 15.020.20039.
The version 15.020.20039 is fixed:
  https://get.adobe.com/reader/
  http://www.adobe.com/support/downloads/product.jsp?product=1&platform=Windows

Adobe Acrobat/Reader Classic: version 15.006.30243.
The version 15.006.30243 is fixed:
  https://get.adobe.com/reader/
  http://www.adobe.com/support/downloads/product.jsp?product=1&platform=Windows

Adobe Acrobat/Reader: version 11.0.18.
The version 11.0.18 is fixed:
  https://get.adobe.com/reader/
  http://www.adobe.com/support/downloads/product.jsp?product=1&platform=Windows
Full bulletin, software filtering, emails, fixes, ... (Request your free trial)

Computer vulnerabilities tracking service 

Vigil@nce provides software vulnerabilities patches. Each administrator can customize the list of products for which he wants to receive vulnerability alerts.