Vulnerabilities > CVE-2016-8018 - Cross-Site Request Forgery (CSRF) vulnerability in Mcafee Virusscan Enterprise

047910
CVSS 4.3 - MEDIUM
Attack vector
NETWORK
Attack complexity
LOW
Privileges required
HIGH
Confidentiality impact
LOW
Integrity impact
LOW
Availability impact
LOW
network
low complexity
mcafee
CWE-352
nessus
exploit available

Summary

Cross-site request forgery (CSRF) vulnerability in Intel Security VirusScan Enterprise Linux (VSEL) 2.0.3 (and earlier) allows authenticated remote attackers to execute unauthorized commands via a crafted user input.

Common Weakness Enumeration (CWE)

Common Attack Pattern Enumeration and Classification (CAPEC)

  • JSON Hijacking (aka JavaScript Hijacking)
    An attacker targets a system that uses JavaScript Object Notation (JSON) as a transport mechanism between the client and the server (common in Web 2.0 systems using AJAX) to steal possibly confidential information transmitted from the server back to the client inside the JSON object by taking advantage of the loophole in the browser's Same Origin Policy that does not prohibit JavaScript from one website to be included and executed in the context of another website. An attacker gets the victim to visit his or her malicious page that contains a script tag whose source points to the vulnerable system with a URL that requests a response from the server containing a JSON object with possibly confidential information. The malicious page also contains malicious code to capture the JSON object returned by the server before any other processing on it can take place, typically by overriding the JavaScript function used to create new objects. This hook allows the malicious code to get access to the creation of each object and transmit the possibly sensitive contents of the captured JSON object to the attackers' server. There is nothing in the browser's security model to prevent the attackers' malicious JavaScript code (originating from attacker's domain) to set up an environment (as described above) to intercept a JSON object response (coming from the vulnerable target system's domain), read its contents and transmit to the attackers' controlled site. The same origin policy protects the domain object model (DOM), but not the JSON.
  • Cross-Domain Search Timing
    An attacker initiates cross domain HTTP / GET requests and times the server responses. The timing of these responses may leak important information on what is happening on the server. Browser's same origin policy prevents the attacker from directly reading the server responses (in the absence of any other weaknesses), but does not prevent the attacker from timing the responses to requests that the attacker issued cross domain. For GET requests an attacker could for instance leverage the "img" tag in conjunction with "onload() / onerror()" javascript events. For the POST requests, an attacker could leverage the "iframe" element and leverage the "onload()" event. There is nothing in the current browser security model that prevents an attacker to use these methods to time responses to the attackers' cross domain requests. The timing for these responses leaks information. For instance, if a victim has an active session with their online e-mail account, an attacker could issue search requests in the victim's mailbox. While the attacker is not able to view the responses, based on the timings of the responses, the attacker could ask yes / no questions as to the content of victim's e-mails, who the victim e-mailed, when, etc. This is but one example; There are other scenarios where an attacker could infer potentially sensitive information from cross domain requests by timing the responses while asking the right questions that leak information.
  • Cross Site Identification
    An attacker harvests identifying information about a victim via an active session that the victim's browser has with a social networking site. A victim may have the social networking site open in one tab or perhaps is simply using the "remember me" feature to keep his or her session with the social networking site active. An attacker induces a payload to execute in the victim's browser that transparently to the victim initiates a request to the social networking site (e.g., via available social network site APIs) to retrieve identifying information about a victim. While some of this information may be public, the attacker is able to harvest this information in context and may use it for further attacks on the user (e.g., spear phishing). In one example of an attack, an attacker may post a malicious posting that contains an image with an embedded link. The link actually requests identifying information from the social networking site. A victim who views the malicious posting in his or her browser will have sent identifying information to the attacker, as long as the victim had an active session with the social networking site. There are many other ways in which the attacker may get the payload to execute in the victim's browser mainly by finding a way to hide it in some reputable site that the victim visits. The attacker could also send the link to the victim in an e-mail and trick the victim into clicking on the link. This attack is basically a cross site request forgery attack with two main differences. First, there is no action that is performed on behalf of the user aside from harvesting information. So standard CSRF protection may not work in this situation. Second, what is important in this attack pattern is the nature of the data being harvested, which is identifying information that can be obtained and used in context. This real time harvesting of identifying information can be used as a prelude for launching real time targeted social engineering attacks on the victim.
  • Cross Site Request Forgery (aka Session Riding)
    An attacker crafts malicious web links and distributes them (via web pages, email, etc.), typically in a targeted manner, hoping to induce users to click on the link and execute the malicious action against some third-party application. If successful, the action embedded in the malicious link will be processed and accepted by the targeted application with the users' privilege level. This type of attack leverages the persistence and implicit trust placed in user session cookies by many web applications today. In such an architecture, once the user authenticates to an application and a session cookie is created on the user's system, all following transactions for that session are authenticated using that cookie including potential actions initiated by an attacker and simply "riding" the existing session cookie.

Exploit-Db

descriptionMcAfee Virus Scan Enterprise for Linux - Remote Code Execution. CVE-2016-8016,CVE-2016-8017,CVE-2016-8018,CVE-2016-8019,CVE-2016-8020,CVE-2016-8021,CVE-2016-...
fileexploits/linux/remote/40911.py
idEDB-ID:40911
last seen2016-12-13
modified2016-12-13
platformlinux
port
published2016-12-13
reporterExploit-DB
sourcehttps://www.exploit-db.com/download/40911/
titleMcAfee Virus Scan Enterprise for Linux - Remote Code Execution
typeremote

Nessus

NASL familyMisc.
NASL idMCAFEE_VSEL_SB10181.NASL
descriptionThe remote host has a version of McAfee VirusScan Enterprise for Linux (VSEL) installed that is prior or equal to 2.0.3. It is, therefore, affected by multiple vulnerabilities : - An information disclosure vulnerability exists in the web interface due to improper error reporting. An authenticated, remote attacker can exploit this, by manipulating the
last seen2020-06-01
modified2020-06-02
plugin id95812
published2016-12-14
reporterThis script is Copyright (C) 2016-2019 and is owned by Tenable, Inc. or an Affiliate thereof.
sourcehttps://www.tenable.com/plugins/nessus/95812
titleMcAfee VirusScan Enterprise for Linux <= 2.0.3 Multiple vulnerabilities (SB10181)
code
#TRUSTED 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
#
# (C) Tenable Network Security, Inc.
#

include("compat.inc");

if (description)
{
  script_id(95812);
  script_version("1.9");
  script_cvs_date("Date: 2019/11/13");

  script_cve_id(
    "CVE-2016-8016",
    "CVE-2016-8017",
    "CVE-2016-8018",
    "CVE-2016-8019",
    "CVE-2016-8020",
    "CVE-2016-8021",
    "CVE-2016-8022",
    "CVE-2016-8023",
    "CVE-2016-8024",
    "CVE-2016-8025"
  );
  script_bugtraq_id(94823);
  script_xref(name:"MCAFEE-SB", value:"SB10181");
  script_xref(name:"CERT", value:"245327");
  script_xref(name:"EDB-ID", value:"40911");

  script_name(english:"McAfee VirusScan Enterprise for Linux <= 2.0.3 Multiple vulnerabilities (SB10181)");
  script_summary(english:"Checks VSEL version");

  script_set_attribute(attribute:"synopsis", value:
"The remote host is affected by multiple vulnerabilities.");
  script_set_attribute(attribute:"description", value:
"The remote host has a version of McAfee VirusScan Enterprise for Linux
(VSEL) installed that is prior or equal to 2.0.3. It is, therefore,
affected by multiple vulnerabilities :

  - An information disclosure vulnerability exists in the
    web interface due to improper error reporting. An
    authenticated, remote attacker can exploit this, by
    manipulating the 'tplt' parameter, to disclose filenames
    on the system. (CVE-2016-8016)

  - An information disclosure vulnerability exists in the
    parser due to improper handling of template files. An
    authenticated, remote attacker can exploit this, via
    specially crafted text elements, to disclose the
    contents of arbitrary files subject to the privileges of
    the 'nails' account. (CVE-2016-8017)

  - Multiple cross-site request forgery (XSRF)
    vulnerabilities exist in the web interface due to a
    failure to require multiple steps, explicit
    confirmation, or a unique token when performing certain
    sensitive actions. An unauthenticated, remote attacker
    can exploit these vulnerabilities, by convincing a user
    to follow a specially crafted link, to execute arbitrary
    script code or commands in a user's browser session.
    (CVE-2016-8018)

  - Multiple cross-site scripting (XSS) vulnerabilities
    exist due to improper validation of user-supplied input
    to the 'info:7' and 'info:5' parameters when the 'tplt'
    parameter is set in NailsConfig.html or
    MonitorHost.html. An unauthenticated, remote attacker
    can exploit these vulnerabilities, via a specially
    crafted request, to execute arbitrary script code in a
    user's browser session. (CVE-2016-8019)

  - A remote code execution vulnerability exists due to
    improper validation of user-supplied input to the
    'nailsd.profile.ODS_9.scannerPath' variable in the last
    page of the system scan form. An authenticated, remote
    attacker can exploit this, via a specially crafted HTTP
    request, to execute arbitrary code as the root user.
    (CVE-2016-8020)

  - A remote code execution vulnerability exists in the web
    interface when downloading update files from a specified
    update server due to a race condition. An authenticated,
    remote attacker can exploit this to place and execute a
    downloaded file before integrity checks are completed.
    (CVE-2016-8021)

  - A security bypass vulnerability exists in the web
    interface due to improper handling of authentication
    cookies. The authentication cookie stores the IP address 
    of the client and is checked to ensure it matches the
    IP address of the client sending it; however, an 
    unauthenticated, remote attacker can cause the cookie to
    be incorrectly parsed by adding a number of spaces to
    the IP address stored within the cookie, resulting in a
    bypass of the security mechanism. (CVE-2016-8022)

  - A security bypass vulnerability exists in the web
    interface due to improper handling of the nailsSessionId
    authentication cookie. An unauthenticated, remote
    attacker can exploit this, by brute-force guessing the
    server start authentication token within the cookie, to
    bypass authentication mechanisms. (CVE-2016-8023)

  - An HTTP response splitting vulnerability exists due to
    improper sanitization of carriage return and line feed
    (CRLF) character sequences passed to the 'info:0'
    parameter before being included in HTTP responses. An
    authenticated, remote attacker can exploit this to
    inject additional headers in responses and disclose
    sensitive information. (CVE-2016-8024)

  - A SQL injection (SQLi) vulnerability exists in the web
    interface due to improper sanitization of user-supplied
    input to the 'mon:0' parameter. An authenticated, remote
    attacker can exploit this to inject or manipulate SQL
    queries in the back-end database, resulting in the
    manipulation or disclosure of arbitrary data.
    (CVE-2016-8025)");
  script_set_attribute(attribute:"see_also", value:"https://kc.mcafee.com/corporate/index?page=content&id=SB10181");
  script_set_attribute(attribute:"see_also", value:"https://nation.state.actor/mcafee.html");
  script_set_attribute(attribute:"solution", value:
"Upgrade to Endpoint Security for Linux (ENSL) version 10.2.0 or later.
Alternatively, as a workaround, open the following line in a text editor:
'/var/opt/NAI/LinuxShield/etc/nailsd.cfg' and change 'nailsd.disableCltWEbUI: false' 
to the value of true and restart the nails service.");
  script_set_cvss_base_vector("CVSS2#AV:N/AC:M/Au:N/C:P/I:P/A:P");
  script_set_cvss_temporal_vector("CVSS2#E:POC/RL:OF/RC:C");
  script_set_cvss3_base_vector("CVSS:3.0/AV:N/AC:H/PR:N/UI:N/S:U/C:H/I:H/A:H");
  script_set_cvss3_temporal_vector("CVSS:3.0/E:P/RL:O/RC:C");
  script_set_attribute(attribute:"cvss_score_source", value:"CVE-2016-8024");

  script_set_attribute(attribute:"exploitability_ease", value:"Exploits are available");
  script_set_attribute(attribute:"exploit_available", value:"true");
  script_set_attribute(attribute:"in_the_news", value:"true");

  script_set_attribute(attribute:"vuln_publication_date", value:"2016/12/12");
  script_set_attribute(attribute:"patch_publication_date", value:"2016/12/12");
  script_set_attribute(attribute:"plugin_publication_date", value:"2016/12/14");

  script_set_attribute(attribute:"plugin_type", value:"local");
  script_set_attribute(attribute:"cpe", value:"cpe:/a:mcafee:virusscan_enterprise");
  script_end_attributes();

  script_category(ACT_GATHER_INFO);
  script_family(english:"Misc.");

  script_copyright(english:"This script is Copyright (C) 2016-2019 and is owned by Tenable, Inc. or an Affiliate thereof.");

  script_dependencies("mcafee_vsel_detect.nbin");
  script_require_keys("installed_sw/McAfee VirusScan Enterprise for Linux");

  exit(0);
}

include("audit.inc");
include("global_settings.inc");
include("misc_func.inc");
include("install_func.inc");
include("ssh_func.inc");
include("telnet_func.inc");
include("hostlevel_funcs.inc");

if ( islocalhost() )
{
  port = 0;
  if ( ! defined_func("pread") ) exit(1, "'pread()' is not defined.");
    info_t = INFO_LOCAL;
}
else
{
  port = kb_ssh_transport();
  if (!get_port_state(port)) audit(AUDIT_PORT_CLOSED, port);

  ret = ssh_open_connection();
  if (!ret) audit(AUDIT_FN_FAIL, "ssh_open_connection()");

    info_t = INFO_SSH;
}

app_name = "McAfee VirusScan Enterprise for Linux";
get_install_count(app_name:app_name, exit_if_zero:TRUE);

install = get_single_install(app_name:app_name, exit_if_unknown_ver:TRUE);
version = install['version'];
vuln = FALSE;

if (ver_compare(ver:version, fix:"2.0.3", strict:FALSE) <= 0 || version =~ "^2\.0\.3") 
{
  cmd = 'grep nailsd.disableCltWebUI /var/opt/NAI/LinuxShield/etc/nailsd.cfg | tr -d "\n"';
  buf = info_send_cmd(cmd:cmd);
  # match = is temporary workaround in place?
  match = pregmatch(pattern:'nailsd.disableCltWebUI: true', string:buf);
  if (!isnull(match)) audit(AUDIT_HOST_NOT, "affected because 'nailsd.disableCltWebUI' is set to true");
  # set to false & vulnerable
  notSet = pregmatch(pattern:'nailsd.disableCltWebUI: false', string:buf);
  # no config setting & vuln
  dne = pregmatch(pattern:'nailsd.disableCltWebUI:', string:buf);
  # if false or if the config does not exist and we are v2.0.3 then flag as vuln
  if (!isnull(notSet) || isnull(dne)) vuln = TRUE;
}


if (vuln)
{
  port = 0;
  report ='\nInstalled version : ' + version +
          '\nSolution          : Upgrade to McAfee Endpoint Security for Linux (ENSL) 10.2.0 or later.\n';
  security_report_v4(severity:SECURITY_WARNING, extra:report, port:port, xss:TRUE, sqli:TRUE, xsrf:TRUE);
}
else audit(AUDIT_INST_VER_NOT_VULN, version);

Packetstorm

data sourcehttps://packetstormsecurity.com/files/download/140147/mvsel-exec.txt
idPACKETSTORM:140147
last seen2016-12-14
published2016-12-14
reporterAndrew Fasano
sourcehttps://packetstormsecurity.com/files/140147/McAfee-Virus-Scan-Enterprise-For-Linux-Remote-Code-Execution.html
titleMcAfee Virus Scan Enterprise For Linux Remote Code Execution

Saint

bid94823
descriptionMcAfee VirusScan Enterprise for Linux authentication token brute force
titlemcafee_virus_scan_linux_brute
typeremote