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Securing Mac OS X

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Security Hardening Guidelines

Patching & Maintenance

7GUI

Mac OS X uses the Software Update tool to download and install system and application patches. It is recommended that it be configured to check for new updates daily and can also be configured to perform downloads in the background and notify the user when the update is ready for installation.

Figure 1Figure 1

Command Line

Software updates can also be listed and applied through the command line tool: /usr/sbin/softwareupdate. This makes it possible to install updates in shell scripts, or to invoke it remotely through SSH. For example the following command should be executed to automatically install all required updates and log the output to a file:

sudo /usr/sbin/softwareupdate –i –r 2>&1 >> /Library/Logs/auto-softwareupdate.log

Caution should be used when adding software update to the crontab, as some required updates need the system to be manually rebooted before taking effect.

Physical Access Controls

In environments where attackers could gain physical access to the system, it is important that additional security mechanisms are in place to protect the system from unauthorized access. Should an attacker gain physical access to a system, they could boot an alternate operating system and read data stored on the hard drive, or enable a firmware password that will render the system inoperable. The best solution is to control physical access to systems by putting them under lock and key but sometimes this isn't possible; especially for mobile users or desktop users in shared environments.

Open Firmware security

Open Firmware is the BIOS used by most Apple systems, and is used to provide low level control to some parts of the hardware. Open Firmware uses a command line driven interface more similar to that used by Sun Microsystems than the graphical BIOS used by x86 PCs. For the purposes of securing the system, two operations need to be performed in Open Firmware: Setting a password, and changing the security level. These features are only available in Open Firmware version 4.1.7 or later (see: http://docs.info.apple.com/article.html?artnum=106482 ).

Caveats

Open Firmware security can be subverted in a number of ways and therefore does not provide complete protection from an attacker with physical access. It does, however, provide more protection than the default settings and will make it more difficult for an attacker to gain access to data.

Accessing Open Firmware (OF)

The changes to the firmware described below are made directly from the Open Firmware command line. Apple has released a graphical tool1 that sets the firmware password, but it does not allow granular control of the security mode. To access the OF command line, the system should be rebooted and Command-Option-O-F held down while the system boots. A screen that similar to the following should be presented:

Apple PowerMac,4 4.4.9f1 BootRom build on 11/13/02 at 13:41:09
Copyright 1994-2002 Apple Computer, Inc.
All Rights Reserved

Welcome to Open Firmware, the system time and date is: 02:36:52 01/15/2003
Full security mode.

To continue booting, type "mac-boot" and press return.
To shut down, type "shut-down" and press return.

ok
0> 

Setting a firmware password

From the Open Firmware command line, type:

password

When prompted, enter and re-enter the chosen password. The password should comply with the organization's security policy.

0> password
Enter a new password: ********
Enter password again: ********
Password will be in place on the next boot! Ok
0> 

Once the password is set, it is necessary to set the security mode to one of the three values: none, command or full, which are described in more detail below:

  • None – This is the default setting and provides no Open Firmware security protection. Even if a password is set, it has no effect if the security mode is none. It is also possible to set another firmware password without first entering the old one.

  • Command – This setting causes the system to prompt for a password when any changes to Open Firmware are attempted. It will also require a password when booting from any device besides the default boot device.

  • Full – This mode requires that a password be entered before booting and before any changes are made to Open Firmware. A password will be required before every reboot.

Once the appropriate security mode has been selected, it can be set by typing:

setenv security-mode full

To save the changes and reboot, type:

reset-all

Login

Banner

A login banner informs users accessing a system about the system's function, ownership and consequences of unauthorized access. This information should be displayed at all points of entry to the system, usually, login prompts on the desktop, shell logins and ftp access prompts. An appropriate login banner should be defined, after consultation with the organization's legal team if appropriate. An example login banner could be similar to:

This is a private computer system and is for authoriSed use only. 
Any or all use of this system and all files on this system may be intercepted and monitored.
Unauthorized or improper use of this system may result in disciplinary and/or legal action. By continuing to use this system you indicate your awareness of and consent to these terms and conditions of use.
LOG OFF IMMEDIATELY if you are not an authorised user of this system or do not agree to the conditions stated in this warning.

The first place that this banner should be displayed is at the desktop login prompt where all local users will see it. To insert a login banner in the Mac OS X login window, edit the file (as the super-user): /Library/Preferences/com.apple.loginwindow.plist and insert the bold text below:

...
<plist version="1.0">
<dict>
    <key>LoginwindowText</key>
    <string>Insert your login banner here</string>
    <key>MasterPasswordHint</key>
    <string></string>
...

The new login window will be displayed after a reboot.

A number of other services should use the same login banner and it will be useful at this point to create a text file containing the banner in /etc/login_banner. Since each service that displays the banner will format it according to its own protocol, the length of each line should be less than 80 characters (which is the default for many terminal applications).

Automatic login

Automatic login should be disabled for all users of the system; ensuring that each user must enter their username and password before being granted access. This can be enforced as a system wide setting from the Security pane of System Preferences:

Figure 2Figure 2

Displayed usernames

By default, OS X displays a list of usernames with accompanying graphic at the console login prompt. This provides too much information for passing attackers and should be disabled, requiring users to enter their usernames and passwords.

Disable this setting from: System Preferences -> Login Options -> Display Login Window as: Name and password.

Password hints

Password hints allow users to set a hint if they have forgotten their passwords. While this is a helpful feature for some home users who don't login very often, it is typically not appropriate in a corporate environment, as it increases the risk of an attacker successfully guessing the password.

There is no global setting to ensure that all users have disabled password hints, so each user account will have to be checked. From System Preferences -> Accounts, select each user and ensure that the 'Password hint' text box in the 'Password' pane is left blank.

Screensaver

A screensaver should be activated after a short period of inactivity, and should require a password to unlock the workstation. This prevents unauthorized passers-by from accessing an unattended workstation that is logged in. A ten-minute period of inactivity before the screensaver is triggered should suit most organizations. The screensaver can be enabled from System Preferences -> Desktop & Screensaver. To enable password protection on the screensaver Require password to wake this computer from sleep or screensaver should be selected from the Security pane of System Preferences.

Keychain

The Keychain allows users and applications to store and access authentication details in one place. Users can lock or unlock this keychain with a single password; applications can only access authentication details when the keychain is unlocked. By default, the Keychain password is the same as the login password and the Keychain is unlocked when a user logs in and is locked again when the logout.

The security of the Keychain can be further improved by locking the Keychain after a period of inactivity and requiring a password when the system wakes from sleep. These options are accessed from the Edit -> Change settings for Keychain menu in the Keychain application (Applications -> Utilities).

Figure 3Figure 3

The Keychain application also allows individual access controls to be placed on each key in the Keychain. Where keys grant access to particularly sensitive information, it is recommended that the access control be changed to 'Ask for Keychain password'.

Figure 4Figure 4

In high security environments, it is recommended that the Keychain password be a different password than is used for login. This can be changed from 'Edit -> Change Password for Keychain'

Data Encryption

OS X provides built in data encryption features using the AES2 algorithm with 128 bit keys. This allows users to encrypt data with military strength cryptographic functions.

The first of the encryption features is the FileVault function which encrypts and decrypts a user's entire home folder, protecting the data from unauthorized access. Decryption is performed in real-time as needed and appears seamless to the user.

The user's login password is used to decrypt the encrypted folder. An additional 'master password' may also be set which will be able to decrypt all FileVault protected folders on the system. This provides the ability to recover a user's data should they forget their password or leave the organization, allowing the holder access to all users' encrypted data. Organizational access control policies should dictate whether this is desirable, and who should hold the master password. The ability to decrypt user data is currently a requirement of the UK's RIP Act (http://www.homeoffice.gov.uk/crimpol/crimreduc/regulation/). FileVault can be enabled on a per-user basis from the Security pane of System Preferences.

The Disk Utility application (Applications -> Utilities -> Disk Utility) can also be used to encrypt data. When a new image is created, 'AES-128 (Recommended)' should be selected as the encryption setting. A password will be required to decrypt the image when mounted. This is especially useful for exchanging encrypted data, or for mobile users who wish to store their data on external drives. An option is provided to store the password for an encrypted volume in the user's Keychain, this is useful for most users and should only be ignored by users with the utmost concern for the confidentiality of their data

Figure 5Figure 5

Antivirus solutions

Viruses, trojans and other malware are relatively uncommon on the OS X platform, and as a result currently present a far lower risk than on Windows systems. In some organizations, security policies may mandate the use of anti-virus systems for all desktop systems, regardless of the relative absence of OS X viruses.

A number of well-known anti-virus vendors now ship versions of their products for OS X, including:

Controlling Administrative Access

The root user

The default installation of OS X ships with the root user disabled, making it impossible to login or su to root. This reduces the risk of many common attacks traditionally aimed at UNIX operating systems. It is possible to enable the root user but this is strongly discouraged. The status of the root user can be checked from the Security menu in the NetInfo Manager application.

Administrative user

The access control mechanisms of the system may be further secured by granting administrative rights to only specific users. For each administrative user, there should be two user accounts, one to perform normal user operations, and the other to perform administrative functions. For example, if the user James is a designated administrator he should have a standard system account "james" with no special privileges and an administrative account "admin_james" with administrator rights. This provides accountability where there is more than one administrator on a system. The administrative users should be restricted from logging in to the system from network services using their administrative accounts. This further reduces the risk of the authentication credentials being compromised. To restrict remote access, the configuration of each network service will have to be altered as described in section 4.8.

Sudo

Since the root user is disabled, it is not possible to use the su command to obtain root privileges; instead, OS X makes use of the sudo program. By default Panther allows all administrative users access to the sudo command and it allows these users to run any program with sudo. In some circumstances, this may contravene system usage policies. In these cases, it is possible to disallow sudo access to the administrator group and instead, enable it on a per user basis.

From the terminal, edit the /etc/sudoers file by typing:

sudo visudo

Insert a hash (#) character, in front of the line

%admin ALL=(ALL) ALL

To allow only the user 'bob' access to sudo add the line:

bob	ALL = (ALL) ALL

Make sure that at least one user has permissions to run sudo before saving the file! Access controls within the sudoers file can be specified minutely, for example, it is possible to grant the user james access to the file /usr/bin/kill, but only with the privileges of user tim. See the sudoers man page for more details on tightening access controls through sudo.

Firewall

OS X is derived from BSD, and as such features the IPFW firewall. By default, the firewall is disabled (as are most network services), it can be activated and configured from the Firewall tab in the Sharing pane of System Preferences. The simplistic GUI does not provide access to the full capabilities of the ipfw firewall, however. To enable a more granular control of network traffic it's first necessary to stop the firewall through the GUI and then create a new startup item which defines the firewall's behaviour.

Create the directory /Library/StartupItems/Firewall

Create and open the file /Library/StartupItems/Firewall/StartupParameters.plist in a text editor and insert the following:

{
  Description = "Firewall";
  OrderPreference = "None";
  Provides = ("Firewall");
  Requires = ("Network");
  Messages =
  {
   start = "Starting firewall";
   stop = "Stopping firewall";
  };
}

Create and open the file /Library/StartupItems/Firewall/Firewall in a text editor and add a firewall script that defines the firewall rule base. This is a shell script that will be launched as part of the system start-up process and should contain all the actions to be performed by the firewall, including the definition of a rule base. This should be a direct reflection of your organization's network access policy. An example of a minimal configuration is included below:

#!/bin/sh

# Enable verbose logging
/usr/sbin/sysctl -w net.inet.ip.fw.verbose=1

# DEFINE VARIABLES
# Replace xxx.xxx.xxx.xxx with the external address of your system
EXT="xxx.xxx.xxx.xxx"
FW="/sbin/ipfw"

# DEFINE NETWORKS AND HOSTS
SSH_HOST="192.168.0.1"
# Replace yyy.yyy.yyy.yyy with the address of your primary DNS server
DNS1="yyy.yyy.yyy.yyy"

# START OF FIREWALL RULES
# First flush the firewall rules
$FW -q flush

# Allow all traffic from the loopback interface
$FW add allow all from any to any via lo0

# Allow the system itself to initiate any connections externally
$FW add allow all from $EXT to any

# Allow established connections to continue
$FW add allow tcp from any to any established

# Allow DNS replies back to the system
$FW add allow udp from $DNS1 53 to $EXT

# Allow certain hosts to SSH in
$FW add allow tcp from $SSH_HOST to $EXT 22

# Deny all other traffic
$FW add 65534 deny log ip from any to any

A more detailed example with service based restrictions can be found at: http://www.novajo.ca/firewall.html.

Since this file is used system wide, the ownership and permissions of the Firewall directory should be changed as follows:

sudo chown –R root:wheel /Library/StartupItems/Firewall
sudo chmod –R 700 /Library/StartupItems/Firewall

Mac OS X startup items have dependencies, and it's possible to further tighten the network by ensuring that network services start after the firewall has started. This involves changing the system startup items in /System/Library/StartupItems.

As an example, we'll change /System/Library/StartupItems/IPServices, which starts SSH and other common network services.

In the file /System/Library/StartupItems/IPServices/StartupParameters.plist, add the following line, (between the lines that start with: Provides and Uses):

Requires = ("Firewall");

Notice that "Firewall" is the same name we used to describe what our firewall service "Provides" in /Library/StartupItems/Firewall/StartupParameters.plist. For the new firewall rules to take effect, either reboot, or manually execute the /Library/StartupItems/Firewall/Firewall script with super user privileges:

sudo /Library/StartupItems/Firewall/Firewall

The state of the firewall (enabled or disabled) of the firewall can be changed by directly changing a kernel parameter:

sysctl -w net.inet.ip.fw.enable=0

disables the firewall, while

sysctl -w net.inet.ip.fw.enable=1

enables it.

Network Services

The xinetd super-server

By default all networking services are disabled, which provides less opportunities for remote attackers. Enabling network services (SSH, Apache (Personal Web Sharing), FTP etc.) allows users some form of remote access to systems. Under Mac OS X, some of these services are started through a "super server" called xinetd, which accepts the initial connection and then passes it on to the appropriate service.

The xinetd package used by Panther provides a number of security features including the ability to finely control access based on source IP address and time of access. It features extensive logging and also provides some protection from denial of service attacks. The configuration of xinetd, and the degree to which access is limited will depend largely on the defined function of the server and the organization's access control policies.

Global defaults for all services launched through xinetd are configured in the file /etc/xinetd.conf:

# man xinetd.conf for more information

defaults
{
    instances        = 60
    log_type        = SYSLOG daemon
    log_on_success     = HOST PID
    log_on_failure     = HOST
    cps           = 25 30
}
includedir /etc/xinetd.d

The first configuration option "instances" specifies the maximum number of connections permitted for any one service. This can be used to protect the system from certain types of denial of service attacks. The value chosen will depend on the available system resources and bandwidth. Another denial of service protection mechanism is to limit the number of connections from a single host. To enable this functionality, add the following line to the configuration (just below "cps = 25 30"):

per_source		= 10

this will limit each host to only 10 connections per service.

By default, xinetd accepts connections from all hosts; to change this behaviour, add the line:

only_from		=

to the configuration options. This will deny access to all hosts for all services, by default. The hosts permitted to connect to specific services will have to be configured in each of those services' configuration settings.

Xinetd uses separate configuration files to define the behaviour of each service it supports. These are found in the /etc/xinetd.d directory. For example, to permit access from 192.168.2.2 and 10.1.1.1 to the SSH (remote login) service, edit the /etc/xinetd.d/ssh file:

service ssh
{
    disable = no
    socket_type   = stream
    wait      = no
    user      = root
    server     = /usr/libexec/sshd-keygen-wrapper
    server_args   = -i
    groups     = yes
    flags      = REUSE IPv6
    session_create = yes
}

And add the lines (just after the line 'session_create = yes'):

only_from		= 192.168.2.2 10.1.1.1

If any hosts are to be explicitly denied access, the no_access setting can be used, for example:

no_access		= 10.1.1.9

It is also possible to add networks instead of individual IP addresses to either of the configuration settings mentioned above. These can be specified in a number of formats (see the xinetd.conf man page for more details).

Any settings specified in service specific configuration files override the global settings specified in /etc/xinetd.conf. For example, to override the default maximum number of instances of SSH, add the line:

instances		= 8

NOTE

By default, Mac OS X enables IP version 6 on all network services started through the xinetd service, but since the IP addresses specified above are in IPv4 notation, they will not work as expected. It is necessary to disable IPv6 compatibility on all network services where access controls are specified using the IPv4 notation. This is done, by removing the string "IPv6" from the line:

flags  = REUSE IPv6

from each service's configuration file. Restart the xinetd process for the changes to the configuration files to take effect.

SSH

OS X includes the OpenSSH suite of tools to provide encrypted remote shell, copy and tunnel access to a system. It is recommended that, where possible, SSH access to a system be permitted from certain hosts only (as demonstrated above). This reduces the risk of an attacker using compromised authentication details to access a system remotely or launching dictionary attacks against the SSH service.

Login banner

SSH should be configured to display a login banner before a user authenticates to the service. As discussed in section 4.2.2.1, a text file containing the login banner should be created in /etc/login_banner. To display the login banner to users, edit the /etc/sshd_config file and replace the line:

#Banner /some/path

With:

Banner /etc/login_banner

The sshd service will have to be restarted before the changes take effect. This banner will be displayed to all users attempting to access the system through SSH.

User access controls

By default, all users who have local accounts on the system are permitted to login through SSH. This is often not necessary and only provides attackers with more avenues for attack. Users with permission to SSH to the systems should be clearly defined and SSH configured to only allow access to those users. To enable this, edit /etc/sshd_config and add the following line towards the top of the file:

AllowUsers username1 username2

replacing 'username1' and 'username2' with the name of the users who should be granted access. Once the AllowUsers directive is enabled, only those users will be granted access to the system, it is not necessary to explicitly deny all other user with the DenyUsers directive – and explicitly permitting access is a better control strategy than explicitly denying it.

The AllowUsers directive can be further restricted by using the format: user@host, which will only allow access to a specific user from a specific host, for example:

AllowUsers glyn@192.168.5.3

Will allow glyn access from only the 192.168.5.3 host, and deny him access if he attempts to connect from anywhere else. For more information on controlling the access control mechanisms in SSH see the man pages for sshd_config.

NOTE

Four different ways of controlling access to SSH based on the source IP address have been discussed, namely:

  • by creating a firewall rule;

  • by controlling access through the global options of /etc/xinetd.conf;

  • by controlling access through the SSH specific options in /etc/xinetd.d/ssh; and

  • by controlling access through the ssh daemon itself.

NOTE

None of these is inherently better than any other, but the system administration procedures within your organization will play a large role in deciding which is used. Generally, it's better to specify host based access controls in as few places as possible to avoid unnecessary administrative headaches. Since most of the access control mechanisms mentioned above are available on all UNIX systems, the configuration of OS X systems may have to conform to organization wide system administration standards.

SSH Options

The default installation of OpenSSH allows both SSH version 1 and version 2 connections. There have been many improvements to the security of version 1, and it is strongly recommended that only version 2 be used. To disable version 1 connections, edit the file /etc/sshd_config and change the line that starts with:

#Protocol 2, 1

to:

Protocol 2

As is common with most configuration files on UNIX systems, the # character is used to specify a comment. When it is removed, the directive behind it becomes active.

By default, a security feature called 'privilege separation' is enabled. This ensures that any buffer overflow bugs will only grant attackers access to an unprivileged user (sshd).

OpenSSH has a number of authentication options including plain text, Kerberos and RSA keys. In most cases, plain text authentication in combination with good password management practices should be sufficient. For further information on configuring SSH authentication options see http://www.openssh.org/manual.html

FTP

FTP, the File Transfer Protocol, is a well-established protocol for transferring data. It is a clear text protocol which transmits both the authentication credentials and the data itself unencrypted between the client and server. For this reason it is susceptible to network sniffing attacks and its use on un-trusted network segments should be avoided if possible.

The SSH service offers file transfer mechanisms in the form of scp (secure copy) and sftp (secure file transfer) which encrypt all traffic between the client and server. However, encrypting data incurs a processing overhead which makes the SSH file transfer services significantly slower than FTP. In some circumstances, for example, transferring large amounts of non-sensitive data, it may make more sense to use the FTP service.

FTP can be enabled from the Sharing section of System Preferences.

Login banner

By default, the FTP server login banner is stored in a specific file. To display the login banner defined above, it is necessary to create a link to the correct file name:

sudo ln -s /etc/login_banner /etc/ftpwelcome

This banner will be displayed to users who attempt to connect to the ftp server.

User access controls

All users with local accounts on the system are granted ftp access by default. It is recommended that this access be further restricted so that only users with a clearly defined need for ftp are permitted access. Furthermore, the administrative user should not be permitted ftp access to the system since the clear text nature of the protocol poses too great a risk for credential theft. Other users can be restricted based on their username and/or source IP address.

To restrict access on a per user basis, create and edit the file /etc/ftpusers, an example could be:

tim deny
jane allow
glyn
martin@192.168.0.1 allow
martin

The format of the file is: 'username@host directive'. The most simple entry is a username without a directive, where FTP assumes the user is denied access. In the example above, user glyn will be denied access, along with tim; jane is permitted access. The user martin will be able to access ftp from host 192.168.0.1, but will be denied access from all other hosts. Any network based access controls stipulated by the xinetd service will take precedence over hosts specified in this file (as xinetd determines whether requests are passed to the FTP daemon). If the 192.168.0.1 host is denied access by xinetd, martin will not be able to login to ftp, irrespective of the ftp configuration.

Chroot jail

Users accessing the system through ftp are allowed to move about the entire file system as if connected locally. Read, write, create and delete access to files is limited by their user access privileges and the file permissions. To further protect the system and restrict access to potentially sensitive data, it is recommended that users are only permitted ftp access to their home folders. To enable this feature, create the file /etc/ftpchroot and insert all the usernames who will be granted ftp access, but have their access limited to their home folders. The file is a simple list of usernames, such as:

james
bob
design 

Apache (Personal web sharing)

Personal web sharing is provided through the Apache web server, commonly used as a commercial and personal web-server throughout the Internet. Apache is a full featured, complex web server with a multitude of configurations and their associated security implications. Using Apache to share files is not recommended for most organizations, since more secure alternatives with better authentication mechanisms such as SSH are available.

This section details basic changes to the default installation to allow users to serve access-controlled web pages. A full secure web-server deployment is beyond the scope of this document.

Access control

This configuration is suitable for personal web pages where the server is to serve content from users' home directories; access to all other resources will be denied by default. Edit the /etc/httpd/httpd.conf file and find the following section:

<Directory />
  Options FollowSymLinks
  AllowOverride None
</Directory> 

and change it to this:

<Directory />
  Options FollowSymLinks
  AllowOverride None
  Order deny,allow
  Deny from all
</Directory>

<Directory /Users/*/Sites>
    <Limit GET POST>
    </Limit>
    Order deny,allow
    Deny from all
</Directory>

Access to the URL http://your.mac.system/ will now be denied for everyone. The second 'Directory' section explicitly denies access to all users' Sites directories, but this behaviour is still overridden by the user specific configuration files found in /etc/httpd/users. At the end of the general /etc/httpd/httpd.conf file is the line:

Include /private/etc/httpd/users/*.conf

This loads individual configuration files for each user, overriding the general access controls that have previously been specified. These user files are automatically created when a new user is added to the system. It's recommended that instead of reading the configuration files of all users, only those of users that are authorised to use web sharing will be read. Instead of using the * wildcard character to read all files, specify each users configuration file explicitly:

Include /private/etc/httpd/users/martin.conf
Include /private/etc/httpd/users/jane.conf
Include /private/etc/httpd/users/james.conf

Granting access

Once access has been denied by default, and only specific users are permitted to share their ~/Sites directories, it is now possible to edit the default configuration for each user file and secure it further. The files are merely extensions to the main configuration file, and follow the same format. A default configuration is included below:

<Directory "/Users/martin/Sites/">
  Options Indexes MultiViews
  AllowOverride None
  Order allow,deny
  Allow from all
</Directory>

By default, everyone is allowed access. If the source IP address(es) of the users who will be accessing this web site are known, then these can be specified to further restrict access, for example:

<Directory "/Users/martin/Sites/">
  Options Indexes MultiViews
  AllowOverride None
  Order deny,allow
  Allow from 10.0.1.1
  Allow from 192.168.0.1
</Directory>

This has the effect of only allowing access to the http://your.mac.system/~martin URL to users from the 10.0.1.1 and 192.168.0.1 systems.

The default configuration of Apache on OS X provides for unencrypted HTTP transport. However, the OpenSSL suite is included in the OS and can be enabled to provide full encryption of web server traffic. See http://developer.apple.com/internet/serverside/modssl.html for more information.

Obfuscating server version

As part of a standard HTTP exchange, the server sends a header used to identify itself. Under a default installation of Mac OS X this is returned as: "Apache/1.3.29 (Darwin)" which reveals both the exact version of Apache installed, and the underlying operating system. Attackers using remote scanning software frequently identify vulnerable system by their version numbers obtained from these banners. It is considered good security practice to remove such information from servers, particularly those accessible from public networks.

To change the HTTP server header, edit the /etc/httpd/httpd.conf file, and add the line:

ServerTokens prod

Once the server is restarted, it will return a header string of "Apache". This may be further restricted through the use of the mod_header Apache component, although its use is beyond the scope of this document. See http://www.apache.org.

File Sharing

SSH provides the most secure options for sharing files, but is not always convenient for many users, however, it is possible to use SSH to create an encrypted tunnel which can be used by more familiar sharing protocols such as AFP.

Which file sharing services are enabled should largely be dictated by the location of the OS X system on the network and the sensitivity of the data transferred. As a general rule, only encrypted transfer mechanisms such as SSH and VPNs should be used over un-trusted networks. Unencrypted file sharing protocols such as FTP, Microsoft's SMB, NFS and Apple's AFP should only be used on trusted networks. When unencrypted file sharing protocols are used, the authentication credentials of users' can be compromised by network sniffing. This is an added problem when the same credentials are used for remote system access.

SSH provides a secure method for transferring files across un-trusted networks and also allows the creation of VPN tunnels between an SSH server and client. Apple have used this in OS X Server (>10.2) to allow users to tunnel AFP over SSH by enabling "secure connections" on the server. Even without OS X Server, it is still possible to manually create a tunnel for AFP over SSH.

From the client's command line enter:

ssh username@remote.server –L 10548:127.0.0.1:548

This tells the SSH client, to connect to the SSH server and map the local port 10548 to the remote port 548. This means that all connections to the local system on port 10548 will be encrypted and forwarded to the remote host on port 548 (The port used by AFP). Once entered, SSH will prompt for a password and then open a shell on the remote system. If the shell is closed, the tunnel will be closed too.

At this point AFP connections can be initiated to the remote server by pointing the server connection wizard at the local system, port 10548:

Figure 6Figure 6

If the server is going to serve AFP only over SSH, then access to the AFP port from remote addresses can safely be denied by the firewall.

Intrusion Detection Systems (IDS)

IDSs can assist administrators in identifying successful and attempted attacks on a system by monitoring file system integrity or by analysing network traffic for dangerous payloads. The most important consideration when it comes to IDSs is not the technology used, but the soundness of the process in which it is used. The software only detects attacks and alerts the administrator, it takes no corrective action. For this reason, the real value of an IDS is only seen when there are clear and defined processes for correctly managing the alerts generated by these systems. Without these processes, the resources consumed by an IDS are largely wasted.

File integrity checkers

Host based intrusion detection on OS X comes mainly in the form of file integrity checking programs such as tripwire. These programs, take a snapshot of important system files and folders, sign them, and store them in a secure database. Periodic checks are then performed on the system that compare the current system files with those in the database. If any differences are noticed, in size, ownership or permissions, the designated administrator is notified.

A number of free software packages exist which provide this kind of functionality:

  • Tripwire – is the most mature and tested version with support for almost every OS platform (A commercial version of this program is also available, though not for OS X);

  • Radmind – a popular program with a native OS X graphical interface;

  • Samhein – tested on FreeBSD, but should work under OS X;

  • Osiris – supports all UNIXs.

Host based IDSs provide a means of alerting administrators if an attacker has managed to gain access to a system, and is actively changing files on it. As essential as it is, this form of alerting is often not quick enough to prevent costly damage to a system. Where systems are deployed in high threat environments, it is recommended that a network based IDS be deployed.

Network IDS

Most network IDSs are based on packet capturing technology that reads network traffic, checks it for known or suspicious payloads, and alerts the administrator if anything untoward is detected. Since they analyse traffic at the network level, it is possible to be informed of an attack in real-time. There are some systems that use anomaly detection to spot malicious traffic, but by far the most popular method in current technology is to use signature based matching, similar to anti-virus software.

A well-known and free network-based IDS is snort which is available on a multitude of platforms. It is distributed in source form and will require compilation and some modification before working on OS X. There is a native OS X package available that makes installing and managing snort easy: http://seiryu.home.comcast.net/henwen.html

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Overview


Pearson Education, Inc., 221 River Street, Hoboken, New Jersey 07030, (Pearson) presents this site to provide information about Peachpit products and services that can be purchased through this site.

This privacy notice provides an overview of our commitment to privacy and describes how we collect, protect, use and share personal information collected through this site. Please note that other Pearson websites and online products and services have their own separate privacy policies.

Collection and Use of Information


To conduct business and deliver products and services, Pearson collects and uses personal information in several ways in connection with this site, including:

Questions and Inquiries

For inquiries and questions, we collect the inquiry or question, together with name, contact details (email address, phone number and mailing address) and any other additional information voluntarily submitted to us through a Contact Us form or an email. We use this information to address the inquiry and respond to the question.

Online Store

For orders and purchases placed through our online store on this site, we collect order details, name, institution name and address (if applicable), email address, phone number, shipping and billing addresses, credit/debit card information, shipping options and any instructions. We use this information to complete transactions, fulfill orders, communicate with individuals placing orders or visiting the online store, and for related purposes.

Surveys

Pearson may offer opportunities to provide feedback or participate in surveys, including surveys evaluating Pearson products, services or sites. Participation is voluntary. Pearson collects information requested in the survey questions and uses the information to evaluate, support, maintain and improve products, services or sites; develop new products and services; conduct educational research; and for other purposes specified in the survey.

Contests and Drawings

Occasionally, we may sponsor a contest or drawing. Participation is optional. Pearson collects name, contact information and other information specified on the entry form for the contest or drawing to conduct the contest or drawing. Pearson may collect additional personal information from the winners of a contest or drawing in order to award the prize and for tax reporting purposes, as required by law.

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Service Announcements

On rare occasions it is necessary to send out a strictly service related announcement. For instance, if our service is temporarily suspended for maintenance we might send users an email. Generally, users may not opt-out of these communications, though they can deactivate their account information. However, these communications are not promotional in nature.

Customer Service

We communicate with users on a regular basis to provide requested services and in regard to issues relating to their account we reply via email or phone in accordance with the users' wishes when a user submits their information through our Contact Us form.

Other Collection and Use of Information


Application and System Logs

Pearson automatically collects log data to help ensure the delivery, availability and security of this site. Log data may include technical information about how a user or visitor connected to this site, such as browser type, type of computer/device, operating system, internet service provider and IP address. We use this information for support purposes and to monitor the health of the site, identify problems, improve service, detect unauthorized access and fraudulent activity, prevent and respond to security incidents and appropriately scale computing resources.

Web Analytics

Pearson may use third party web trend analytical services, including Google Analytics, to collect visitor information, such as IP addresses, browser types, referring pages, pages visited and time spent on a particular site. While these analytical services collect and report information on an anonymous basis, they may use cookies to gather web trend information. The information gathered may enable Pearson (but not the third party web trend services) to link information with application and system log data. Pearson uses this information for system administration and to identify problems, improve service, detect unauthorized access and fraudulent activity, prevent and respond to security incidents, appropriately scale computing resources and otherwise support and deliver this site and its services.

Cookies and Related Technologies

This site uses cookies and similar technologies to personalize content, measure traffic patterns, control security, track use and access of information on this site, and provide interest-based messages and advertising. Users can manage and block the use of cookies through their browser. Disabling or blocking certain cookies may limit the functionality of this site.

Do Not Track

This site currently does not respond to Do Not Track signals.

Security


Pearson uses appropriate physical, administrative and technical security measures to protect personal information from unauthorized access, use and disclosure.

Children


This site is not directed to children under the age of 13.

Marketing


Pearson may send or direct marketing communications to users, provided that

  • Pearson will not use personal information collected or processed as a K-12 school service provider for the purpose of directed or targeted advertising.
  • Such marketing is consistent with applicable law and Pearson's legal obligations.
  • Pearson will not knowingly direct or send marketing communications to an individual who has expressed a preference not to receive marketing.
  • Where required by applicable law, express or implied consent to marketing exists and has not been withdrawn.

Pearson may provide personal information to a third party service provider on a restricted basis to provide marketing solely on behalf of Pearson or an affiliate or customer for whom Pearson is a service provider. Marketing preferences may be changed at any time.

Correcting/Updating Personal Information


If a user's personally identifiable information changes (such as your postal address or email address), we provide a way to correct or update that user's personal data provided to us. This can be done on the Account page. If a user no longer desires our service and desires to delete his or her account, please contact us at customer-service@informit.com and we will process the deletion of a user's account.

Choice/Opt-out


Users can always make an informed choice as to whether they should proceed with certain services offered by Adobe Press. If you choose to remove yourself from our mailing list(s) simply visit the following page and uncheck any communication you no longer want to receive: www.peachpit.com/u.aspx.

Sale of Personal Information


Pearson does not rent or sell personal information in exchange for any payment of money.

While Pearson does not sell personal information, as defined in Nevada law, Nevada residents may email a request for no sale of their personal information to NevadaDesignatedRequest@pearson.com.

Supplemental Privacy Statement for California Residents


California residents should read our Supplemental privacy statement for California residents in conjunction with this Privacy Notice. The Supplemental privacy statement for California residents explains Pearson's commitment to comply with California law and applies to personal information of California residents collected in connection with this site and the Services.

Sharing and Disclosure


Pearson may disclose personal information, as follows:

  • As required by law.
  • With the consent of the individual (or their parent, if the individual is a minor)
  • In response to a subpoena, court order or legal process, to the extent permitted or required by law
  • To protect the security and safety of individuals, data, assets and systems, consistent with applicable law
  • In connection the sale, joint venture or other transfer of some or all of its company or assets, subject to the provisions of this Privacy Notice
  • To investigate or address actual or suspected fraud or other illegal activities
  • To exercise its legal rights, including enforcement of the Terms of Use for this site or another contract
  • To affiliated Pearson companies and other companies and organizations who perform work for Pearson and are obligated to protect the privacy of personal information consistent with this Privacy Notice
  • To a school, organization, company or government agency, where Pearson collects or processes the personal information in a school setting or on behalf of such organization, company or government agency.

Links


This web site contains links to other sites. Please be aware that we are not responsible for the privacy practices of such other sites. We encourage our users to be aware when they leave our site and to read the privacy statements of each and every web site that collects Personal Information. This privacy statement applies solely to information collected by this web site.

Requests and Contact


Please contact us about this Privacy Notice or if you have any requests or questions relating to the privacy of your personal information.

Changes to this Privacy Notice


We may revise this Privacy Notice through an updated posting. We will identify the effective date of the revision in the posting. Often, updates are made to provide greater clarity or to comply with changes in regulatory requirements. If the updates involve material changes to the collection, protection, use or disclosure of Personal Information, Pearson will provide notice of the change through a conspicuous notice on this site or other appropriate way. Continued use of the site after the effective date of a posted revision evidences acceptance. Please contact us if you have questions or concerns about the Privacy Notice or any objection to any revisions.

Last Update: November 17, 2020