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authorlmadsen <lmadsen@f38db490-d61c-443f-a65b-d21fe96a405b>2010-02-18 16:46:21 +0000
committerlmadsen <lmadsen@f38db490-d61c-443f-a65b-d21fe96a405b>2010-02-18 16:46:21 +0000
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tree372ecc38d50dd8b0e4262f32af8c7c917e99c167
parentfddb63e469f920f1acc55f17bc46af6fad6ff80b (diff)
Merged revisions 247503 via svnmerge from
https://origsvn.digium.com/svn/asterisk/trunk ................ r247503 | lmadsen | 2010-02-18 11:41:04 -0500 (Thu, 18 Feb 2010) | 18 lines Merged revisions 247502 via svnmerge from https://origsvn.digium.com/svn/asterisk/branches/1.4 ........ r247502 | lmadsen | 2010-02-18 11:38:17 -0500 (Thu, 18 Feb 2010) | 10 lines Add best practices documentation. (issue #16808) Reported by: lmadsen (issue #16810) Reported by: Nick_Lewis Tested by: lmadsen Review: https://reviewboard.asterisk.org/r/507/ ........ ................ git-svn-id: http://svn.digium.com/svn/asterisk/branches/1.6.1@247505 f38db490-d61c-443f-a65b-d21fe96a405b
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+==================
+| Best Practices |
+==================
+
+The purpose of this document is to define best practices when working with
+Asterisk in order to minimize possible security breaches and to provide tried
+examples in field deployments. This is a living document and is subject to
+change over time as best practices are defined.
+
+--------
+Sections
+--------
+
+* Filtering Data:
+ How to protect yourself from redial attacks
+
+* Proper Device Naming:
+ Why to not use numbered extensions for devices
+
+* Secure Passwords:
+ Secure passwords limit your risk to brute force attacks
+
+* Reducing Pattern Match Typos:
+ Using the 'same' prefix, or using Goto()
+
+----------------
+Additional Links
+----------------
+
+Additional links that contain useful information about best practices or
+security are listed below.
+
+* Seven Steps to Better SIP Security:
+ http://blogs.digium.com/2009/03/28/sip-security/
+
+
+==============
+Filtering Data
+==============
+
+In the Asterisk dialplan, several channel variables contain data potentially
+supplied by outside sources. This could lead to a potential security concern
+where those outside sources may send cleverly crafted strings of data which
+could be utilized, e.g. to place calls to unexpected locations.
+
+An example of this can be found in the use of pattern matching and the ${EXTEN}
+channel variable. Note that ${EXTEN} is not the only system created channel
+variable, so it is important to be aware of where the data you're using is
+coming from.
+
+For example, this common dialplan takes 2 or more characters of data, starting
+with a number 0-9, and then accepts any additional information supplied by the
+request.
+
+[NOTE: We use SIP in this example, but is not limited to SIP only; protocols
+ such as Jabber/XMPP or IAX2 are also susceptible to the same sort of
+ injection problem.]
+
+
+[incoming]
+exten => _X.,1,Verbose(2,Incoming call to extension ${EXTEN})
+exten => _X.,n,Dial(SIP/${EXTEN})
+exten => _X.,n,Hangup()
+
+This dialplan may be utilized to accept calls to extensions, which then dial a
+numbered device name configured in one of the channel configuration files (such
+as sip.conf, iax.conf, etc...) (see the section Proper Device Naming for more
+information on why this approach is flawed).
+
+The example we've given above looks harmless enough until you take into
+consideration that several channel technologies accept characters that could
+be utilized in a clever attack. For example, instead of just sending a request
+to dial extension 500 (which in our example above would create the string
+SIP/500 and is then used by the Dial() application to place a call), someone
+could potentially send a string like "500&SIP/itsp/14165551212".
+
+The string "500&SIP/itsp/14165551212" would then be contained within the
+${EXTEN} channel variable, which is then utilized by the Dial() application in
+our example, thereby giving you the dialplan line of:
+
+exten => _X.,n,Dial(SIP/500&SIP/itsp/14165551212)
+
+Our example above has now provided someone with a method to place calls out of
+your ITSP in a place where you didn't expect to allow it. There are a couple of
+ways in which you can mitigate this impact: stricter pattern matching, or using
+the FILTER() dialplan function.
+
+Strict Pattern Matching
+-----------------------
+
+The simple way to mitigate this problem is with a strict pattern match that does
+not utilize the period (.) or bang (!) characters to match on one-or-more
+characters or zero-or-more characters (respectively). To fine tune our example
+to only accept three digit extensions, we could change our pattern match to
+be:
+
+exten => _XXX,n,Dial(SIP/${EXTEN})
+
+In this way, we have minimized our impact because we're not allowing anything
+other than the numbers zero through nine. But in some cases we really do need to
+handle variable pattern matches, such as when dialing international numbers
+or when we want to handle something like a SIP URI. In this case, we'll need to
+utilize the FILTER() dialplan function.
+
+Using FILTER()
+--------------
+
+The FILTER() dialplan function is used to filter strings by only allowing
+characters that you have specified. This is a perfect candidate for controlling
+which characters you want to pass to the Dial() application, or any other
+application which will contain dynamic information passed to Asterisk from an
+external source. Lets take a look at how we can use FILTER() to control what
+data we allow.
+
+Using our previous example to accept any string length of 2 or more characters,
+starting with a number of zero through nine, we can use FILTER() to limit what
+we will accept to just numbers. Our example would then change to something like:
+
+[incoming]
+exten => _X.,1,Verbose(2,Incoming call to extension ${EXTEN})
+exten => _X.,n,Dial(SIP/${FILTER(0-9,${EXTEN})})
+exten => _X.,n,Hangup()
+
+Note how we've wrapped the ${EXTEN} channel variable with the FILTER() function
+which will then only pass back characters that fit into the numerical range that
+we've defined.
+
+Alternatively, if we didn't want to utilize the FILTER() function within the
+Dial() application directly, we could save the value to a channel variable,
+which has a side effect of being usable in other locations of your dialplan if
+necessary, and to handle error checking in a separate location.
+
+[incoming]
+exten => _X.,1,Verbose(2,Incoming call to extension ${EXTEN})
+exten => _X.,n,Set(SAFE_EXTEN=${FILTER(0-9,${EXTEN})})
+exten => _X.,n,Dial(SIP/${SAFE_EXTEN})
+exten => _X.,n,Hangup()
+
+Now we can use the ${SAFE_EXTEN} channel variable anywhere throughout the rest
+of our dialplan, knowing we've already filtered it. We could also perform an
+error check to verify that what we've received in ${EXTEN} also matches the data
+passed back by FILTER(), and to fail the call if things do not match.
+
+[incoming]
+exten => _X.,1,Verbose(2,Incoming call to extension ${EXTEN})
+exten => _X.,n,Set(SAFE_EXTEN=${FILTER(0-9,${EXTEN})})
+exten => _X.,n,GotoIf($[${EXTEN} != ${SAFE_EXTEN}]?error,1)
+exten => _X.,n,Dial(SIP/${SAFE_EXTEN})
+exten => _X.,n,Hangup()
+
+exten => error,1,Verbose(2,Values of EXTEN and SAFE_EXTEN did not match.)
+exten => error,n,Verbose(2,EXTEN: "${EXTEN}" -- SAFE_EXTEN: "${SAFE_EXTEN}")
+exten => error,n,Playback(silence/1&invalid)
+exten => error,n,Hangup()
+
+Another example would be using FILTER() to control the characters we accept when
+we're expecting to get a SIP URI for dialing.
+
+[incoming]
+exten => _[0-9a-zA-Z].,1,Verbose(2,Incoming call to extension ${EXTEN})
+exten => _[0-9a-zA-Z].,n,Dial(SIP/${FILTER(.@0-9a-zA-Z,${EXTEN})
+exten => _[0-9a-zA-Z].,n,Hangup()
+
+Of course the FILTER() function doesn't check the formatting of the incoming
+request. There is also the REGEX() dialplan function which can be used to
+determine if the string passed to it matches the regular expression you've
+created, and to take proper action on whether it matches or not. The creation of
+regular expressions is left as an exercise for the reader.
+
+More information about the FILTER() and REGEX() dialplan functions can be found
+by typing "core show function FILTER" and "core show function REGEX" from your
+Asterisk console.
+
+
+====================
+Proper Device Naming
+====================
+
+In Asterisk, the concept of an extension number being tied to a specific device
+does not exist. Asterisk is aware of devices it can call or receive calls from,
+and how you define in your dialplan how to reach those devices is up to you.
+
+Because it has become common practice to think of a specific device as having an
+extension number associated with it, it only becomes natural to think about
+naming your devices the same as the extension number you're providing it. But
+by doing this, you're limiting the powerful concept of separating user from
+extensions, and extensions from devices.
+
+It can also be a security hazard to name your devices with a number, as this can
+open you up to brute force attacks. Many of the current exploits deal with
+device configurations which utilize a number, and even worse, a password that
+matches the devices name. For example, take a look at this poorly created device
+in sip.conf:
+
+[1000]
+type=friend
+context=international_dialing
+secret=1000
+
+As implied by the context, we've permitted a device named 1000 with a password
+of 1000 to place calls internationally. If your PBX system is accessible via
+the internet, then your system will be vulnerable to expensive international
+calls. Even if your system is not accessible via the internet, people within
+your organization could get access to dialing rules you'd prefer to reserve only
+for certain people.
+
+A more secure example for the device would be to use something like the MAC
+address of the device, along with a strong password (see the section Secure
+Passwords). The following example would be more secure:
+
+[0004f2040001]
+type=friend
+context=international_dialing
+secret=aE3%B8*$jk^G
+
+Then in your dialplan, you would reference the device via the MAC address of the
+device (or if using the softphone, a MAC address of a network interface on the
+computer).
+
+Also note that you should NOT use this password, as it will likely be one of the
+first ones added to the dictionary for brute force attacks.
+
+
+================
+Secure Passwords
+================
+
+Secure passwords are necessary in many (if not all) environments, and Asterisk
+is certainly no exception, especially when it comes to expensive long distance
+calls that could potentially cost your company hundreds or thousands of dollars
+on an expensive monthly phone bill, with little to no recourse to fight the
+charges.
+
+Whenever you are positioned to add a password to your system, whether that is
+for a device configuration, a database connection, or any other secure
+connection, be sure to use a secure password. A good example of a secure
+password would be something like:
+
+aE3%B8*$jk^G
+
+Our password also contains 12 characters with a mixture of upper and
+lower case characters, numbers, and symbols. Because these passwords are likely
+to only be entered once, or loaded via a configuration file, there is
+no need to create simple passwords, even in testing. Some of the holes found in
+production systems used for exploitations involve finding the one test extension
+that contains a weak password that was forgotten prior to putting a system into
+production.
+
+Using a web search you can find several online password generators such as
+http://www.strongpasswordgenerator.com or there are several scripts that can be
+used to generate a strong password.
+
+
+============================
+Reducing Pattern Match Typos
+============================
+
+As of Asterisk 1.6.2, a new method for reducing the number of complex pattern
+matches you need to enter, which can reduce typos in your dialplan, has been
+implemented. Traditionally, a dialplan with a complex pattern match would look
+something like:
+
+exten => _[3-5]XXX,1,Verbose(Incoming call to ${EXTEN})
+exten => _[3-5]XXX,n,Set(DEVICE=${DB(device/mac_address/${EXTEN})})
+exten => _[3-5]XXX,n,Set(TECHNOLOGY=${DB(device/technology/${EXTEN})})
+exten => _[3-5]XXX,n,GotoIf($[${ISNULL(${TECHNOLOGY})} | ${ISNULL(${DEVICE})}]?error,1)
+exten => _[3-5]XXX,n,Dial(${TECHNOLOGY}/${DEVICE},${GLOBAL(TIMEOUT)})
+exten => _[3-5]XXX,n,Set(vmFlag=${IF($[${DIALSTATUS} = BUSY]?b:u)})
+exten => _[3-5]XXX,n,Voicemail(${EXTEN}@${GLOBAL(VOICEMAIL_CONTEXT)},${vmFlag})
+exten => _[3-5]XXX,n,Hangup()
+
+exten => error,1,Verbose(2,Unable to lookup technology or device for extension)
+exten => error,n,Playback(silence/1&num-not-in-db)
+exten => error,n,Hangup()
+
+Of course there exists the possibility for a typo when retyping the pattern
+match _[3-5]XXX which will match on extensions 3000 through 5999. We can
+minimize this error by utilizing the same => prefix on all lines beyond the
+first one. Our same dialplan with using same => would look like the following:
+
+exten => _[3-5]XXX,1,Verbose(Incoming call to ${EXTEN})
+same => n,Set(DEVICE=${DB(device/mac_address/${EXTEN})})
+same => n,Set(TECHNOLOGY=${DB(device/technology/${EXTEN})})
+same => n,GotoIf($[${ISNULL(${TECHNOLOGY})} | ${ISNULL(${DEVICE})}]?error,1)
+same => n,Dial(${TECHNOLOGY}/${DEVICE},${GLOBAL(TIMEOUT)})
+same => n,Set(vmFlag=${IF($[${DIALSTATUS} = BUSY]?b:u)})
+same => n,Voicemail(${EXTEN}@${GLOBAL(VOICEMAIL_CONTEXT)},${vmFlag})
+same => n,Hangup()
+
+exten => error,1,Verbose(2,Unable to lookup technology or device for extension)
+same => n,Playback(silence/1&num-not-in-db)
+same => n,Hangup()