Updated all README files.

3 år sedan · 40f6c9f1f2
--- a/SNFMultiSDK_Windows_Base/AuthenticationProtocol.swf
+++ b/SNFMultiSDK_Windows_Base/AuthenticationProtocol.swf
--- a/SNFMultiSDK_Windows_Base/ChangeLog.txt
+++ b/SNFMultiSDK_Windows_Base/ChangeLog.txt
@@ -0,0 +1,68 @@
 20090707 Upgraded Engine to SNFMulti V3.0.8 (contains minor bug fixes).

 20090704 Getting closer - new DLL, new features, a little polish.

 NOTE: Beginning with this update this ChangeLog will only list hilights.
 For more details check the logs at https://svn.microneil.com/websvn/

 * snfmulti.dll is now at version 3.0, engine 3.0.7

 * Used newer MinGW with improved optimizations

 * Using newest SNF engine with several minor bug fixes

 * Added startupSNFAuthenticated() so OEMs can protect SNF license info

 * Added getIPReputation() to aid in converting GBUdb stats to weights

 * Added C++ sample code

 * Reorganized SNFMulti code base.

 20090317 Work in progess toward SDK release.

 * Included latest getRulebase.cmd and curl.exe

 * Included SNFClient_readme.txt and SNFServer_readme.txt

 * Included / updated SNFClient, and snf_engine.xml

 * Added ReadMe.html - includes API documentation

 * Added missing snf_ERROR_EXCEPTION to snfmultidll.h file

 * Removed redundant #define EXP __declspec(dllexport) from snfmultidll.cpp

 20080723 Version 2.9r3 - Engine 3.0

 * Compiled DLL using new SNF engine V3.0.

 * Added snf_ERROR_EXCEPTION result (-3) to show when an exception occurred
 during a call that could not be expressed with one of the normal SNF result
 codes.

 * Wraped DLLMain() functions in a try/catch to eat any exceptions. If an
 exception occurs the function will return false;

 * Added pre-allocation to result cache buffers to minimize heap allocation
 during operations. The pre-allocated amount should be sufficient for all
 cases. If it is not then the string objects will allocate more as needed.

 * Changed snf_ERROR_UNKNOWN to snf_ERROR_EXCEPTION for startupSNF() and
 shutdownSNF().

 * Wrapped testIP() in try/catch - now returns snf_ERROR_EXCEPTION if an
 exception occurs.

 * Wrapped getScanXHeaders() in try/catch - now returns snf_ERROR_EXCEPTION 
 if an exception occurs.

 * Wrapped getScanXMLLog() in try/catch - now returns snf_ERROR_EXCEPTION 
 if an exception occurs.

 * Wrapped getScanClassicLog() in try/catch - now returns snf_ERROR_EXCEPTION 
 if an exception occurs.

 * Wrapped closeScan() in try/catch - now returns snf_ERROR_EXCEPTION 
 if an exception occurs.

--- a/SNFMultiSDK_Windows_Base/GBUdbIgnoreList.txt
+++ b/SNFMultiSDK_Windows_Base/GBUdbIgnoreList.txt
@@ -0,0 +1,9 @@
 # List of IPs to Ignore on startup
 # Each IP in this list is set to Ignore in GBUdb when
 # The configuration is loaded.
 # Hash mark on the beginning of a line indicates a comment.
 # Comments after an IP are also ignored.
 # One line per IP. Sorry, no CIDR yet.
 # Be sure to list ALL of your gateways :-)

 127.0.0.1	# ignore localhost, of course.
--- a/SNFMultiSDK_Windows_Base/ReadMe.html
+++ b/SNFMultiSDK_Windows_Base/ReadMe.html
@@ -0,0 +1,562 @@
 <!-- Copyright 2009, ARM Research Labs, LLC -->

 <html>
 <body>
 <font face="sans-serif">

 <h1>Message Sniffer SDK for Win* V3.1</h1>
 <h2>Contents</h2>
 </font><h3><ol>
    <p><font face="sans-serif">Introduction</font></p>
 	<li><font face="sans-serif"><a href="#Begin">Before you begin!</a></font></li>
 	<li><font face="sans-serif"><a href="#Contents">Contents of the SDK</a></font></li>
 	<li><font face="sans-serif"><a href="#Description">SNFMulti DLL Description</a></font></li>
 	<li><font face="sans-serif"><a href="ChangeLog.txt">Change Log</a></font></li>
 	<p><font face="sans-serif">Setup notes and important instructions</font></p>
 	<li><font face="sans-serif"><a href="SNFServer_readme.txt">SNFServer Setup Readme</a></font></li>
 	<li><font face="sans-serif"><a href="SNFClient_readme.txt">SNFClient Setup Readme</a></font></li>
 	<p><font face="sans-serif">Code Samples</font></p>
 	<li><font face="sans-serif"><a href="32bitDll/snfmultidll.h">C Header File (snfmultidll.h></a></font></li>
 	<li><font face="sans-serif"><a href="32bitDll/libsnfmulti.def">Module Definition File (libsnfmulti.def)</a></font></li>
 	<li><font face="sans-serif"><a href="C++/main.cpp">C++ Sample Code</a></font></li>
 	<li><font face="sans-serif"><a href="VB/SNFMulti_in_VB.Net.txt">VB.Net Sample Code</a></font></li>
 	<p><font face="sans-serif">API Reference - Functions listed in the order they should be used</font></p>
 	<li><font face="sans-serif"><a href="#startupSNF">startupSNF()</a> - Initializes the SNF engine and loads the rule base</font></li>
    <li><font face="sans-serif"><a href="#startupSNFAuthenticated">startupSNFAuthenticated()</a> - Initializes SNF with license info</font></li>
 	<li><font face="sans-serif"><a href="#setThrottle">setThrottle()</a> - Sets a concurrent thread limit (if desired)</font></li>
 	<li><font face="sans-serif"><a href="#testIP">testIP()</a> - Returns the GBUdb reputation range for an IP</font></li>
    <li><font face="sans-serif"><a href="#getIPReputation">getIPReputation()</a> - Returns IP Reputation Figure for an IP</font></li>
 	<li><font face="sans-serif"><a href="#scanBuffer">scanBuffer()</a> - Scans a message buffer</font></li>
 	<li><font face="sans-serif"><a href="#scanFile">scanFile()</a> - Scans a message file</font></li>
 	<li><font face="sans-serif"><a href="#getScanXHeaders">getScanXHeaders()</a> - Returns the scan result and XHeaders</font></li>
 	<li><font face="sans-serif"><a href="#getScanXMLLog">getScanXMLLog()</a> - Returns the scan result and XML Log data</font></li>
 	<li><font face="sans-serif"><a href="#getScanClassicLog">getScanClassicLog()</a> - Returns the scan result and Classic Log Data</font></li>
 	<li><font face="sans-serif"><a href="#getScanResult">getScanResult()</a> - Returns the scan result (nothing else)</font></li>
 	<li><font face="sans-serif"><a href="#closeScan">closeScan()</a> - Closes the scan and releases resources</font></li>
 	<li><font face="sans-serif"><a href="#shutdownSNF">shutdownSNF()</a> - Shuts down the SNF engine</font></li>
 	<p><font face="sans-serif">Miscellaneous</font></p>
 	<li><font face="sans-serif"><a href="#ResultCodes">Result Codes</a> - Error and Scan Result Mnemonics</font></li>
 </ol></h3><font face="sans-serif">

 <hr/>
 <a name="Begin"><h3>Before you begin!</h3></a>

 <p>This SDK contains a complete Message Sniffer engine. You MUST be familiar with that engine
 before you can effectively use this SDK. If you do not already have an OEM license or trial
 SNF rule base license then please <a href="http://www.armresearch.com/">visit our web site first
 and get one!</a> The engine won't run without it.</p>

 <p>We highly recommend that you have some experience with our SNFServer and SNFClient applications
 before you begin writing your own or begin integrating the SNF engine into your own software.</p>

 <p>We're not saying it's hard to do -- quite the opposite actually, BUT SNF is a sophisticated
 piece of software with a lot of capabilities and options. You will have much better results
 if you are familiar with these before you begin ;-)</p>

 <hr/>
 <a name="Contents"><h3>Contents of the SDK</h3></a>

 <p>This SDK contains the following:
 <ol>
 	<li><font face="sans-serif">Documentation files, including
 	this file.</font></li>
 	<li><font face="sans-serif">DLLs (both 32 bit and 64 bit
 	versions) and the required header files (in
 	directory <b>include</b>).</font></li>
 	<li><font face="sans-serif">Sample programs in C++ (in
 	directory <b>CPPSample</b>), C# (<b>CSSample</b>), and Visual
 	Basic (<b>VBSample</b>).</font></li>
 	<li><font face="sans-serif">VS 2008 Solution files to build
 	the sample program in C++ (in
 	directory <b>VS2008CPPSample</b>), in C#
 	(<b>VS2008CSSample</b>), and Visual Basic
 	(<b>VS2008VBSample</b>).<br>
        The <b>VS2008CPPSample\README</b> contains instructions for
 	creating the SNFMulti import libraries for use with VS 2008.
        </font></li>
 	<li><font face="sans-serif">Other applications
 	(<b>curl</b>, <b>SNFClient</b>, and <b>getRulebase</b>) and
 	configuration files needed to support SNF
 	operation.</font></li>
 </ol>
 There are also directions for building VS 2008 import libraries in <b>VS2008CPPSample\README</b>.
 </p>

 <hr/>
 <a name="Description"><h3>SNFMulti DLL Description</h3></a>

 <p>The SNF SDK for Win* is based on a DLL. The DLLs for both the 32 bit
  and 64 bit versions are included here.
 </p>

 <p>The DLL contains the entire SNFServer engine and provides a simple API for starting the
 engine, scanning messages, and retrieving the results. Since the entire SNFServer engine is
 included you also have the option of using the SNFClient utility once your application has
 started the SNF engine. You can also make calls to the engine using the XCI protocol (which
 is how SNFClient does it's work)</p>

 <p>Of course the best way to use the DLL is to perform scans directly through the API. The
 best performance can be achieved by scanning a message in memory via the scanBuffer() function
 since this can be done at the full speed of the processor without waiting for IO operations.</p>

 <p>The DLL is fully thread-safe so you can perform as many concurrent scans as you wish. Also,
 just in case it will make things easier for you, the DLL provides a throttling function which
 can limit the number of concurrent scans. (It won't unless you ask it to.)</p>

 <p>The general form of an application using the DLL will first start the engine, then
 optionally set the throttle, then perform scans (perform a scan, get results, close the scan, repeat),
 and finally it will shutdown the engine.</p>

 <p>Since the DLL contains the entire SNFServer engine, it can (and must) be configured in 
 exactly the same way as SNFServer. <a href="http://www.armresearch.com/support/articles/software/snfServer/config/index.jsp">
 Documentation for configuring SNFServer can be found on our web site.</a></p>
 <p>New in snfmulti.dll V3.0!</p>
 <p>OEM developers can now protect their licenseID and Authentication string by providing it directly to the SNF engine at run-time. When combined with an internal mechanism for downloading rule base files this makes it practical to control SNF license information entirely within the OEM's application. <a href="#startupSNFAuthenticated">See startupSNFAuthenticated() for details.</a></p>

 <hr/>
 <a name="startupSNF"><h3>int startupSNF(char* path);</h3></a>

 <p>This function initializes the SNF scanning engine using the configuration file provided.
 The configuration file identifies all of the operational parameters for the SNF engine including
 the location of the working directories and rule base file, SNF license information, and
 much more. <a href="http://www.armresearch.com/support/articles/software/snfServer/config/index.jsp">
 See our web site for details on configuring the SNF engine.</a></p>

 <dl>
 <dd><b>path</b> = The full path to the snf_engine.xml file as a null terminated string.</dd>
 <dd><b>returns</b> snf_SUCCESS when successful, otherwise see <a href="#ResultCodes">Error Codes</a>.</dd>
 </dl>

 <hr/>
 <a name="startupSNFAuthenticated"><h3>int startupSNFAuthenticated(char* path, char* lic, char* auth);</h3></a>

 <p>This function initializes the SNF scanning engine using the configuration file and authentication
 information provided. When SNF is started with this function the identity.xml file can be omitted and
 the identity= attribute of the &lt;node/&gt; element in snf_engine.xml can be omitted. This allows OEM
 developers to protect their authentication string by retrieving it from an encrypted source at run-time
 and providing it directly to the SNF engine.</p>

 <p>In all other ways the SNF engine is configured in the same as when using <a href="#startupSNF">startupSNF() (see above)</a></p>

 <p>Note that if you intend to use this mechanism to protect your SNF license information you will also need to
 address the mechanism you use to download and verify rule base files. Either build a mechanism to download and
 authenticate your rule base file without exposing your authentication string or you might modify the existing
 getRulebase script to remove the snf2check operation and the associated authentication string. The SNF engine will
 check all rule base files before they are loaded for scanning and will refuse to load a rule base file that does
 not authenticate properly.</p>

 <dl>
 <dd><b>path</b> = The full path to the snf_engine.xml file as a null terminated string.</dd>
 <dd><b>lic</b> = The 8 character license id as a null terminated string.</dd>
 <dd><b>auth</b> = The 16 character authentication string as a null terminated string.</dd>
 <dd><b>returns</b> snf_SUCCESS when successful, otherwise see <a href="#ResultCodes">Error Codes</a>.</dd>
 </dl>

 <hr/>
 <a name="setThrottle"><h3>int setThrottle(int Threads);</h3></a>

 <p>This function establishes a limit on the number of concurrent scans that can run. Any additional
 threads will block until at least one of the active scans is completed.</p>

 <p>The default value for the throttle setting is zero. When the throttle is set to zero then no limits
 are placed on the number of concurrent scans. In this mode the application must limit the number of
 concurrent scans.</p>

 <dl>
 <dd><b>Threads</b> = The number of concurrent scans allowed.</dd>
 <dd><b>returns</b> the number of Threads if successful otherwise snf_ERROR_EXCEPTION.</dd>
 </dl>

 <hr/>
 <a name="testIP"><h3>int testIP(unsigned long int IPToCheck);</h3></a>

 <p>This function tests an IP against the GBUdb. This function returns very quickly and can be called
 as often as required without any follow-up actions as long as the SNF Engine is active (between startupSNF()
 and shutdownSNF()). This function is thread-safe and does not interfere with other scanning functions.</p>

 <p>GBUdb gathers it's statistics based on the message scans that are performed. Information about those
 scans is also shared with other SNF nodes approximately once every minute. No external queries are
 performed to gather GBUdb data. As a result GBUdb can only provide an IP reputation for IPs that sourced
 messages scanned by this SNF node.</p>

 <p>Put another way - GBUdb does not work like a conventional real-time black list. Message scans must
 be performed in order for GBUdb to provide IP reputation information.</p>

 <p>For more information on how GBUdb works visit the 
 <a href="http://www.armresearch.com/support/articles/technology/GBUdb/index.jsp">
 GBUdb Technology section of our web site.</a></p>

 <dl>
 <dd><b>IPToCheck</b> = The IP to test.</dd>
 <dd><b>returns</b> an integer representing the GBUdb Range associated with the IP if successful
                   otherwise snf_ERROR_EXCEPTION.</dd>
 </dl>

 <h4>GBUdb Range MNemonics from enum snfIPRange</h4>
 <dl>
 	<dd>Unknown, snf_IP_Unknown = 0</dd>
 	<dd>White, snf_IP_White = 1</dd>
 	<dd>Normal, snf_IP_Normal = 2</dd>
 	<dd>New, snf_IP_New = 3</dd>
 	<dd>Caution, snf_IP_Caution = 4</dd>
 	<dd>Black, snf_IP_Black = 5</dd>
 	<dd>Truncate, snf_IP_Truncate = 6</dd>
 </dl>

 <hr/>
 <a name="getIPReputation"><h3>double getIPReputation(unsigned long int IPToCheck);</h3></a>

 <p>This function returns a number representing the overall reputation of the IP based on local GBUdb statistics.
 This number (Reputation Figure) can be easily manipulated to provide additional weight values in systems that combine
 multiple tests using a weight based scoring system. The Reputation Figure is calculated by combining the Probability figure and the Confidence figure using the formula:</p>

 <pre>R = sign(P) * sqrt(abs(P * C))</pre>

 <p>This function returns very quickly and can be called as often as required without any follow-up actions as long
 as the SNF Engine is active (between startupSNF...() and shutdownSNF()). This function is thread-safe and does not interfere with other scanning functions.</p>

 <dl>
 <dd><b>IPToCheck</b> = The IP to test.</dd>
 <dd><b>returns</b> a number between -1.0 and +1.0 representing the combined probability that the IP will produce spam.</dd>
 </dl>

 <h4>Converting IP Reputation Figures To Weights</h4>

 <p>There are a number of ways to convert a Reputation figure to a weight value. The simplest is to simply multiply
 the Reputation figure by the maximum weight you wish to give to this test.</p>

 <pre>SimpleWeight = R * MaxReputationWeight</pre>

 <p>Since many legitimate ISPs also produce a lot of spam it might be useful to apply a bias to this weight so that
 these systems appear closer to zero. For example if you applied a maximum weight of 10 and found that many ISPs
 regularly scored 5 or more then you might add a Bias of -5 to bring those systems toward zero.</p>


 <pre>BiasedWeight = (R * MaxReputationWeight) + Bias</pre>

 <p>A more sophisticated system might allow for different weights on the positive and negative going Reputation
 figures so that the amount of negative or positive weight that can be applied can be adjusted independently. Such
 a system might also wish to apply a bias directly to the reputation figure before doing that calculation so that
 the zero point can be adjusted to compensate for averages.</p>

 <p>In a system like this if legitimate ISPs tended to get a Reputation Figure of 0.5 then the bias might be -0.5
 so that this would become the zero point. Then the positive and negative weight factors could be adjusted so that
 the desired maximum and minimum weights can be achieved... Note that in this scenario the positive and negative
 weight settings are not maximum values.

 <pre>SplitWeight = (0 > (R + Bias)) ? ((R + Bias) * NegativeWeightFactor) : ((R + Bias) * PositiveWeightFactor)

 MaximumNegativeWeight is given by (-1.0 + Bias) * NegativeWeightFactor
 MaximumPositiveWeight is given by (+1.0 + Bias) * PositiveWeightFactor

 When R + Bias == 0.0, the weight will be 0.</pre>

 <p>The most sophisticated system might provide a graphic interface that maps the reputation figure directly
 to a desired weight. This would allow the user to shape the effect of the Reputation figure any way they wish in
 order to gain very tight control over their systems accuracy.</p>

 <hr/>
 <a name="scanBuffer"><h3>int scanBuffer(unsigned char* Bfr, int Length, char* Name, int Setup);</h3></a>

 <p>This function scans an SMTP message from a buffer. A scan result block is allocated for the scan
 and a handle representing the scan result block is returned. The application can then use this handle to retrieve
 the scan results using the get...() functions. When the application is finished it MUST release the
 scan result block with a call to closeScan().</p> 

 <p>The message buffer is expected to contain the raw SMTP data for the message with the local Received:
 header at the top. The message should not be broken into MIME segments before it is scanned by SNFMulti.
 This is important because Message Sniffer examines the entire message as well as how the message was
 assembled by the originating system. Any additional processing is both unnecessary and may remove subtle
 defects and artifacts that will help Message Sniffer classify the message.</p>

 <p>If the message is particularly large it is acceptable to scan only the first 32K bytes of the message.
 This means that if the calling application wants to scan a large incoming message before it has received
 all of the DATA during the SMTP connection then it can scan the first 32K of the message and potentially
 reject the remainder based on the scan result.</p>

 <p>When the application is finished with the results from this scan it must release the scan result block
 with a call to closeScan(). Scan result blocks are allocated as needed and then recycled in order to improve
 performance. If the application fails to close the scan result blocks then the DLL will continue to
 allocate additional blocks until there is no more RAM.</p>

 <p>The entire scan is performed before this function returns. After that the scanning thread is no longer
 considered to be active. The resulting scan result buffer may be accessed as often as needed to gather
 results data from this scan without impacting any other scan operations.</p>

 <p>Any number of scan...() operations may be active concurrently up to the limits of the platform.</p>

 <p>The scanBuffer() function accepts two additional parameters that are passed on to the logging system
 to aid in debugging.</p>

 <p>The Name parameter is a null terminated string containing an identifier for the
 message being scanned. This can be any name that can be used later to identify this particular message
 in the log files such as a serial number, unique hash, or the message-id. For example, when the
 scanFile() function is called this parameter is filled in with the path to the file that was scanned.</p>

 <p>The Setup parameter is an integer representing the number of milliseconds spent so far setting up
 the message to be scanned. This can be any useful metric - but generally it should represent how much
 time the system has spent working on preparing and evaluating the message so far. For example, when the
 scanFile() function is called this value is automatically established with the amount of time spent
 opening and reading the message file.</p>

 <p><b>IMPORTANT:</b> SNF expects to identify the source IP for the message by searching Received: headers
 in the message. The application must ensure that the local Received: header is present as the first
 Received: header in the message in order for this search to be accurate. If necessary the calling application can
 simulate the local received header using the following minimal form:</p>

 <p><pre>Received: from connecting.mta.example.com [12.34.56.78] by this.scanning.system</pre></p>

 <p>where <b><i>connecting.mta.example.com</i></b> is the optional reverse DNS resolved for the connecting MTA;
 <b><i>12.34.56.78</i></b> is the IP of the connecting MTA; and <b><i>by this.scanning.system</i></b> is an optional
 reference to the calling application.</p>

 </font><dl>
 	<dd><font face="sans-serif"><b>Bfr</b> = a pointer to the buffer that is to be scanned.</font></dd>
 	<dd><font face="sans-serif"><b>Length</b> = the length of the message buffer in bytes.</font></dd>
 	<dd><font face="sans-serif"><b>Name</b> = a message identifier as a null terminated string.</font></dd>
 	<dd><font face="sans-serif"><b>Setup</b> = the time in milliseconds already spent setting up this message for scanning.</font></dd>
 	<dd><font face="sans-serif"><b>returns</b> a handle to the scan result block upon success otherwise an error code:
 		</font><dl>
 			<dd><font face="sans-serif">snf_ERROR_NO_HANDLE - There was a problem allocating a scan result block.</font></dd>
 			<dd><font face="sans-serif">snf_ERROR_SCAN_FAILED - There was a problem performing the scan.</font></dd>
 		</dl>
 		<p><font face="sans-serif">In general a result > 0 indicates a valid scan handle and a result <= 0 indicates an error.
 		NOTE that the scan may have failed even if you get a valid handle. The scan result code you retrieve
 		from get...() may indicate an error. <a href="#ResultCodes">See Result Codes</a> for details.</font></p>
 	</dd>
 </dl><font face="sans-serif">

 <hr/>
 <a name="scanFile"><h3>int scanFile(char* FilePath, int Setup);</h3></a>

 <p>This function scans an SMTP message from a file. A scan result block is allocated for the scan
 and a handle representing the results is returned. The application can then use this handle to retrieve
 the scan results using the get...() functions. When the application is finished it MUST release the
 scan result block with a call to closeScan().</p>

 <p>The scanFile() function is nearly identical to the <a href="#scanBuffer">scanBuffer() function (see above)</a>
 except that this function accepts the path to a file (null terminated string) instead of a pointer to a message
 buffer.</p>

 <p>One other key difference with between scanBuffer() and scanFile() is that the SNF engine can be configured
 to inject it's X- headers when scanFile() is used. These same X- headers are available to the calling application
 when using scanBuffer(), however if the application wishes to pass the message file on to other additional
 scanners and external processes then scanFile() might be more convenient.</p>

 <p>NOTE: There are significant performance implications to scanning files and injecting headers. Each time
 headers are injected into a message the message file must be rewritten. For optimal performance it is best
 to collect headers from scanning tools before writing the message to disk so that the message only needs to
 be written once. Extra file IO is the cost of the convenience of passing a message file to external processes.</p>

 <p>The Setup time passed to scanFile() will be added to the time required to open and read the message file
 prior to scanning. This value will be passed on to the logging system. For example, the calling application
 might include the number of milliseconds required to perform any previous message testing and the time it
 has taken to create a temporary message file for scanning. The log will then reflect the complete setup time
 separately from the time required to perform the SNF message scan.</p>

 <p>The FilePath will be passed on to the logging system to identify this message scan in the logs.</p>

 </font><dl>
 	<dd><font face="sans-serif"><b>FilePath</b> = The full path (a null terminated string) to the message file to be scanned.</font></dd>
 	<dd><font face="sans-serif"><b>Setup</b> = The time in milliseconds spent so far preparing this message to be scanned.</font></dd>
 	<dd><font face="sans-serif"><b>returns</b> a handle to the scan result block upon success otherwise an error code:
 		</font><dl>
 			<dd><font face="sans-serif">snf_ERROR_NO_HANDLE - There was a problem allocating a scan result block.</font></dd>
 			<dd><font face="sans-serif">snf_ERROR_SCAN_FAILED - There was a problem performing the scan.</font></dd>
 		</dl>
 		<p><font face="sans-serif">In general a result > 0 indicates a valid scan handle and a result <= 0 indicates an error.
 		NOTE that the scan may have failed even if you get a valid handle. The scan result code you retrieve
 		from get...() may indicate an error. <a href="#ResultCodes">See Result Codes</a> for details.</font></p>
 	</dd>
 </dl><font face="sans-serif">

 <hr/>
 <a name="getScanXHeaders"><h3>int getScanXHeaders(int ScanHandle, char** Bfr, int* Length);</h3></a>

 <p>This function returns the scan result code <a href="#ResultCodes">(see Result Codes)</a> and a pointer
 to a buffer containing any X- headers that were produced for the scan associated with the ScanHandle.</p>

 <p>The function is passed a valid ScanHandle which identifies the scan result block to query; the address of
 a char* which will be changed to point to a buffer containing any X- headers that
 were produced; and the address of an integer which will be changed to the length of the
 X- headers buffer.</p>

 <p>If no X- headers were produced for the scan then the pointer Bfr will point to a safe empty string
 and Length will be set to zero. Put another way, Bfr and Length will be consistent with an empty null terminated
 string.</p>

 <p>The char* Bfr and the int Length will remain valid until closeScan() is called for this ScanHandle.</p>

 <p>In order for X- headers to be produced the engine must be configured properly. For details visit the 
 <a href="http://www.armresearch.com/support/articles/software/snfServer/config/node/logs/scan/xheaders/index.jsp">
 XHeader configuration documentation</a> on our web site.</p>

 <dl>
 	<dd><b>ScanHandle</b> = a valid scan handle from scanBuffer() or scanFile().</dd>
 	<dd><b>Bfr</b> = a pointer to a char* where the char* will be changed to point to the XHeaders.</dd>
 	<dd><b>Length</b> = a pointer to an int where the int will be changed to the length of the XHeaders.</dd>
 	<dd><b>returns</b> the scan result code upon success otherwise an error code:
 		<dl>
 			<dd>snf_ERROR_NO_HANDLE - The ScanHandle is not valid.</dd>
 			<dd>snf_ERROR_EXCEPTION - There was a problem retrieving the data.</dd>
 			<dd><a href="#ResultCodes">See Result Codes</a> for other possible return values.</dd>
 		</dl>
 	</dd>
 </dl>

 <hr/>
 <a name="getScanXMLLog"><h3>int getScanXMLLog(int ScanHandle, char** Bfr, int* Length);</h3></a>

 <p>This function returns the scan result code <a href="#ResultCodes">(see Result Codes)</a> and a pointer
 to a buffer containing any XML Log Data that was produced for the scan associated with the ScanHandle.</p>

 <p>The function is passed a valid ScanHandle which identifies the scan result block to query; the address of
 a char* which will be changed to point to a buffer containing any XML Log Data that
 was produced; and the address of an integer which will be changed to the length of the
 XML Log Data buffer.</p>

 <p>If no XML Log Data was produced for the scan then the pointer Bfr will point to a safe empty string
 and Length will be set to zero. Put another way, Bfr and Length will be consistent with an empty null terminated
 string.</p>

 <p>The char* Bfr and the int Length will remain valid until closeScan() is called for this ScanHandle.</p>

 <p>In order for XML Log Data to be produced the engine must be configured properly. For details visit the 
 <a href="http://www.armresearch.com/support/articles/software/snfServer/config/node/logs/scan/xml.jsp">
 XML Log configuration documentation</a> on our web site.</p>

 <dl>
 	<dd><b>ScanHandle</b> = a valid scan handle from scanBuffer() or scanFile().</dd>
 	<dd><b>Bfr</b> = a pointer to a char* where the char* will be changed to point to the XML Log Data.</dd>
 	<dd><b>Length</b> = a pointer to an int where the int will be changed to the length of the XML Log Data.</dd>
 	<dd><b>returns</b> the scan result code upon success otherwise an error code:
 		<dl>
 			<dd>snf_ERROR_NO_HANDLE - The ScanHandle is not valid.</dd>
 			<dd>snf_ERROR_EXCEPTION - There was a problem retrieving the data.</dd>
 			<dd><a href="#ResultCodes">See Result Codes</a> for other possible return values.</dd>
 		</dl>
 	</dd>
 </dl>

 <hr/>
 <a name="getScanClassicLog"><h3>int getScanClassicLog(int ScanHandle, char** Bfr, int* Length);</h3></a>

 <p>This function returns the scan result code <a href="#ResultCodes">(see Result Codes)</a> and a pointer
 to a buffer containing any Classic Log Data that was produced for the scan associated with the ScanHandle.</p>

 <p>The function is passed a valid ScanHandle which identifies the scan result block to query; the address of
 a char* which will be changed to point to a buffer containing any Classic Log Data that
 was produced; and the address of an integer which will be changed to the length of the
 Classic Log Data buffer.</p>

 <p>If no Classic Log Data was produced for the scan then the pointer Bfr will point to a safe empty string
 and Length will be set to zero. Put another way, Bfr and Length will be consistent with an empty null terminated
 string.</p>

 <p>The char* Bfr and the int Length will remain valid until closeScan() is called for this ScanHandle.</p>

 <p>In order for XML Log Data to be produced the engine must be configured properly. For details visit the 
 <a href="http://www.armresearch.com/support/articles/software/snfServer/config/node/logs/scan/classic.jsp">
 Classic Log configuration documentation</a> on our web site.</p>

 <dl>
 	<dd><b>ScanHandle</b> = a valid scan handle from scanBuffer() or scanFile().</dd>
 	<dd><b>Bfr</b> = a pointer to a char* where the char* will be changed to point to the Classic Log Data.</dd>
 	<dd><b>Length</b> = a pointer to an int where the int will be changed to the length of the Classic Log Data.</dd>
 	<dd><b>returns</b> the scan result code upon success otherwise an error code:
 		<dl>
 			<dd>snf_ERROR_NO_HANDLE - The ScanHandle is not valid.</dd>
 			<dd>snf_ERROR_EXCEPTION - There was a problem retrieving the data.</dd>
 			<dd><a href="#ResultCodes">See Result Codes</a> for other possible return values.</dd>
 		</dl>
 	</dd>
 </dl>

 <hr/>
 <a name="getScanResult"><h3>int getScanResult(int ScanHandle);</h3></a>

 <p>This function returns the scan result code <a href="#ResultCodes">(see Result Codes)</a> 
 for the scan associated with the ScanHandle.</p>

 <dl>
 	<dd><b>ScanHandle</b> = a valid scan handle from scanBuffer() or scanFile().</dd>
 	<dd><b>returns</b> the scan result code upon success otherwise an error code:
 		<dl>
 			<dd>snf_ERROR_NO_HANDLE - The ScanHandle is not valid.</dd>
 			<dd><a href="#ResultCodes">See Result Codes</a> for other possible return values.</dd>
 		</dl>
 	</dd>
 </dl>

 <hr/>
 <a name="closeScan"><h3>int closeScan(int ScanHandle);</h3></a>

 <p>This function closes a ScanHandle and releases the associated Scan Result Block to the pool. This
 function MUST be called once for each ScanHandle produced in a scan...() function. Once this function
 is called the ScanHandle is no longer valid and any pointers returned by previous
 calls to get...() functions should be discarded (forgotten, not freed!)</p>

 <dl>
 	<dd><b>ScanHandle</b> = a valid scan handle from scanBuffer() or scanFile().</dd>
 	<dd><b>returns:</b>
 		<dl>
 			<dd>snf_SUCCESS - The ScanHandle was closed successfully.</dd>
 			<dd>snf_ERROR_NO_HANDLE - The ScanHandle is not valid.</dd>
 			<dd>snf_ERROR_EXCEPTION - There was a problem closing the ScanHandle.</dd>
 		</dl>
 	</dd>
 </dl>

 <hr/>
 <a name="shutdownSNF"><h3>int shutdownSNF();</h3></a>

 <p>This function shuts down the SNFMulti engine. All previously allocated ScanHandles MUST be closed
 before this function is called. This should be the last function in the DLL that is called by your
 application (call no other SNFMultiDLL functions after this).</p>

 <dl>
 	<dd><b>returns:</b>
 		<dl>
 			<dd>snf_SUCCESS - The shutdown was successful.</dd>
 			<dd>snf_ERROR_EXCEPTION - An error occurred during shutdown.</dd>
 		</dl>
 	</dd>
 </dl>

 <hr/>
 <a name="ResultCodes"><h3>Result Codes</h3></a>
 <h4>Error Codes</h4>
 </font><dl>
 	<dd><font face="sans-serif">snf_SUCCESS = 0</font></dd>
 	<dd><font face="sans-serif">snf_ERROR_CMD_LINE = 65</font></dd>
 	<dd><font face="sans-serif">snf_ERROR_LOG_FILE = 66</font></dd>
 	<dd><font face="sans-serif">snf_ERROR_RULE_FILE = 67</font></dd>
 	<dd><font face="sans-serif">snf_ERROR_RULE_DATA = 68</font></dd>
 	<dd><font face="sans-serif">snf_ERROR_RULE_AUTH = 73</font></dd>
 	<dd><font face="sans-serif">snf_ERROR_MSG_FILE = 69</font></dd>
 	<dd><font face="sans-serif">snf_ERROR_ALLOCATION = 70</font></dd>
 	<dd><font face="sans-serif">snf_ERROR_BAD_MATRIX = 71</font></dd>
 	<dd><font face="sans-serif">snf_ERROR_MAX_EVALS = 72</font></dd>
 	<dd><font face="sans-serif">snf_ERROR_UNKNOWN = 99</font></dd>
 	<font face="sans-serif"><br/>
 	<dd>snf_ERROR_NO_HANDLE = -1, Invalid scan handle used or created.</dd></font>
 	<dd><font face="sans-serif">snf_ERROR_SCAN_FAILED = -2, An unexpected exception during a scan. </font></dd>
 	<dd><font face="sans-serif">snf_ERROR_EXCEPTION = -3, An unexpected exception occurred.</font></dd>
 </dl><font face="sans-serif">

 <p>
 <a href="http://www.armresearch.com/support/articles/software/snfServer/errors.jsp">
 See our web site for more detailed descriptions of these error codes.</a></p>

 <h4>Scan Result Codes</h4>
 <p>Scan results codes 0 through 63 represent normal scan results. By convention a result of
 0 indicates ham (not spam); a result of 1 indicates a white-ruled message; and other non-zero
 result values that are less than 64 indicate some kind of spam or malware was detected. 
 <a href="http://www.armresearch.com/support/articles/software/snfServer/core.jsp">
 For more details on message scan result codes please see our web site.</a></p>

 <hr/>
 <div align="right"><font size="-3">Copyright (C) 2009 ARM Research Labs, LLC</font></div>
 </font>
 </body>
 </html>
--- a/SNFMultiSDK_Windows_Base/SNFClient.exe
+++ b/SNFMultiSDK_Windows_Base/SNFClient.exe
--- a/SNFMultiSDK_Windows_Base/SNFClient_readme.txt
+++ b/SNFMultiSDK_Windows_Base/SNFClient_readme.txt
@@ -0,0 +1,184 @@
 SNFClient Readme

 Copyright (c) 2010 ARM Research Laboratories

 Command line client for SNF. This utility formats and processes SNF_XCI
 requests through the SNF Engine working on the local machine. In general
 this utility can be used as a replacement for the earlier SNF command
 line scanner. It is also useful for other uses such as debugging and
 communicating with GBUdb.

 Note: Unlike prior versions of SNF, this command line utility does not
 need to be "branded" (renamed for the SNF license id).

 _________
 Help Mode

 SNFClient.exe

  When called with no command line parameters the utility produces
  help and version information.

 __________
 Debug Mode

 SNFDebugClient.exe

  When "debug" or "Debug" appears in the path to the program name
  or if the program's name is altered to include the word "debug" or
  "Debug" then the program will produce additional information about
  it's operation to aid in debugging problems. This includes the
  entire raw SNF_XCI request and response.

 __________________
 Message Scan Modes

  These modes are used to scan email message files (the data part of
  smtp). This utility can be used as a drop-in replacement for previous
  verions of SNF (Message Sniffer) for scanning messages. However, this
  new version does not need to be "branded" (renamed for the license id)
  and will ignore the authentication string if it is provided. Also,
  since the newer version of SNF uses a client-server model and not a
  peer-server model, there is no need for a "persistent" mode.

  If "persistent" is passed to this utility on the command line as it
  would be used in prior versions of SNF then it will be treated like
  a file name and the scan will normally fail since a file named
  "persistent" is not likely to exist.

 SNFClient.exe <FileNameToScan>

  Scan Mode: Scans <FileNameToScan> and returns a result code.

 SNFClient.exe <authenticationxx> <FileNameToScan>

  Compatibility Mode: Ignores <authenticationxx> then scans the
  <FileNameToScan> and returns a result code. This mode provides
  drop-in compatibility with previous versions of SNF.

 SNFClient.exe -xhdr <FileNameToScan>

  XHeader Mode: Scans <FileNameToScan> and returns the result. Also
  outputs the contents of the X-Headers created by the SNF engine. If
  the SNF engine is configured to inject these headers then they will
  also have been injected into the <FileNameToScan>.

  The SNF Engine can be configured to provide the X-Headers only to
  the API without injecting them. In this case the XHeader Mode will
  display the X-Headers that would be injected, but they will not
  have been injected into the <FileNameToScan>.

  If the SNF Engine is configured not to produce X-Headers (none) then
  the XHeader Mode will not produce X-Headers because they will not
  have been generated by the engine.

  (note: -xhdr and -source options can be combined)


 SNFClient.exe -source=<IP4Address> <FileNameToScan>

  Source-IP Mode: Scans <FileNameToScan> and returns the result. The
  provided source IP is injected into the scan as the first Received
  header so that the scanning engine will presume the IP is the source
  of the message. This allows you to pre-define the source IP for the
  message when there is no other received header or when the received
  headers may be incorrect or may not present the actual source of
  the message.

  (note: -xhdr and -source options can be combined)

 _____________________________
 SNFServer Status Report Modes

 SNFClient.exe -status.second
 SNFClient.exe -status.minute
 SNFClient.exe -status.hour

  This mode returns the latest posted status report as indicated.
  Normally these status reports are also posted to files in the
  SNFServer workspace.

  In this mode the SNFClient will return a result code (error level)
  of 0 when the request is successful and 99 (or some nonzero value)
  when the request is not successful. This allows the SNFClient to
  be used to verify that the SNFServer is running.

  Note: In most other modes the SNFClient returns a fail-safe 0
  result code to avoid tagging messages as spam when there are errors.

 ________________________
 XCI Server Command Modes 

 These features will expand as needed in later versions.

 SNFClient.exe -shutdown

  If the SNF Engine is running in an application that accepts SNF_XCI
  server commands then this mode will send that command. The shutdown
  command may have no effect if the application does not use the SNF_XCI
  server commnand interface or does not recognize the command.

 ___________
 GBUdb Modes

  These modes are used to communicate with the GBUdb system on the
  local node. It is possible to test (read out) an IP record or make
  any of a number of changes to IP data in the GBUdb.

 SNFClient.exe -test <IP4Address>

  Returns the current GBUdb statistics for the <IP4Address>

  SNFClient also returns a result code that matches the GBUdb range
  for the tested IP. These ranges are defined in the SNFServer
  configuration file. By default they are:

  20 - Truncate
  63 - Black
  40 - Caution
   0 - Normal

 SNFClient.exe -set <IP4Address> <flag> <bad> <good>

  Creates or updates the data for <IP4Address> as provided. The
  <IP4Address> must be provided as well as at least one of
  <flag>, <bad>, and <good>. If <flag>, <bad>, or <good> are
  to be left unchanged then they should be entered as a dash "-".

  Examples:

  Set all data for an IP. The flag will be "ugly", the bad count
  will be 0 and the good count will be 1000.

  SNFClient.exe -set 12.34.56.78 Ugly 0 1000

  Set the flag to "ignore" and do not change the counts.

  SNFClient.exe -set 12.34.56.78 ignore - -

  Set the good count to 400 and do not change anything else.

  SNFClient.exe -set 12.34.56.78 - - 400

 SNFClient.exe -good <IP4Address>

  Creates or updates statistics for the <IP4Address>. Increases the
  good count by one. (Record a good event)

 SNFClient.exe -bad <IP4Address>

  Creates or updates statistics for the <IP4Address>. Increases the
  bad count by one. (Record a bad event)

 SNFClient.exe -drop <IP4Address>

  Removes all local data for the <IP4Address>. Anything the local
  system "knows" about the IP is forgotten. Next time the IP is
  encountered it will be treated as new.

 ____________________
 For More Information

 See www.armresearch.com
 Copyright (C) 2007-2008 Arm Research Labs, LLC.

--- a/SNFMultiSDK_Windows_Base/SNFServer_readme.txt
+++ b/SNFMultiSDK_Windows_Base/SNFServer_readme.txt
@@ -0,0 +1,200 @@
 SNF_Server V3.0 installation brief

 Copyright (c) 2010 ARM Research Laboratories

 This is a generalized guide. For specific platform guides see:
 http://www.armresearch.com/support/articles/installation/index.jsp

 Create a directory for SNF_Server. ( c:\SNF or /var/spool/snfilter )

 Copy all of the files to that directory.

 Make a copy of the SNFServer<version>.exe file and give it the name
 SNFServer.exe. Later on if newer versions are provided you will
 be able to keep track of them by name and swap newer versions into
 place by copying them over your SNFServer.exe file. If you decide
 you have to go back to a previous version then you will be able to
 do that easily by deleting your SNFServer.exe file and copying the
 version you wish to use into place.

 Modify the identity.xml file to match your SNF license ID and your
 authentication string.

 Download your .snf file and place that in the SNF_Server working
 directory.

 RULEBASE UPDATES (NEW!): The latest version of the SNFServer engine
 includes a mechanism that will run an a script when the rulebase file
 on our server is newer than the active file in SNF. By default this
 feature is configured to run the included getRulebase script. If
 the script is not successful it will be launched again every 3 minutes
 until the rulebase file is successfully updated.

 Be sure to modify the top of the getRulebase script to include
 your correct license ID, authentication string, and working directory.

 Be sure to verify that the <update-script/> section of your snf_engine
 file is correct (points to the correct location of getRulebase).

 getRulebase uses wget and gzip (included for your convenience in 
 the Win* distribution. See About-Wget-and-Gzip.txt.). These are open
 source utilities for downloading files from web servers and unzipping
 those files -- in this case, SNF rulebase files.  

 If you have any gateways or other internal systems that will relay
 mail to SNF then include their IPs in GBUdbIgnoreList.txt. The GBUdb
 component of SNF uses the IPs in this list to determine the actual
 source IP for a message by reviewing the Received headers. Each
 Received header is evaluated in turn. If the source (connect) IP is
 found in the Ignore list then that Received IP is considered to be
 part of your infrastructure and is ignored. The first Received IP 
 found that is NOT in the Ignore list is selected as the source IP.

 The GBUdbIgnoreList is a "safety net" that ensures the listed IPs are
 present in your GBUdb with their Ignore flag set. It is loaded every
 time the configuration is changed, SNFServer is started, or a new
 rulebase is loaded. This way if your GBUdb database is lost then your
 critical infrastructure will be re-listed in the new .gbx file that
 is created.

 The ignore list allows only SINGLE IP ENTRIES. This can be a problem
 in some cases - such as when you want to ignore large blocks of network
 addresses.

 SNF can learn to Ignore large blocks of IPs using the <drilldown/>
 feature. For example if you want to ignore all of 12.34.56.0/24 then
 you can make an entry in the <drilldown/> training section like this:

 <training on-off='on'>
  ...
  <drilldown>
    <received ordinal='0' find='[12.34.56.'/>
  </drilldown>
  ...
 </training>

 GBUdb learns the behavior of source IPs so it is important that GBUdb
 knows any friendly sources that might send spammy messages to your
 server or else it will learn that those sources are not to be trusted.

 Since not all friendly spam sources can be identified by IP ahead of
 time, there are features in the <training/> section of snf_engine.xml
 that allow you to adjust the training scenarios to compensate. The
 most likely of these is that you may wish to bypass training for
 messages that are to your support addresses or spam submission
 addresses. For example:

 <training on-off='on'>
  ...
  <bypass>
    <header name='To:' find='support@example.com'/>
    <header name='To:' find='spam@example.com'/>
  </bypass>
  ...
 </training>

 Evaluate the snf_engine.xml file carefully. In most cases the
 default settings are appropriate, however you may want to alter
 some of the settings to match your system policies or particular
 installation.

 IMPORTANT: Be sure that any file paths / directories referenced in
 the configuration file exist on your system and that SNF has full
 access rights to these - especially the SNF working directory.

 ** If you selected a working directory for SNF other than c:\SNF\
 then be sure you have changed these paths in the top of your
 snf_engine.xml file. Pay close attentiont to these 5 elements:

 <node identity='c:/SNF/identity.xml'>
 <log path='c:/SNF/'/>
 <rulebase path='c:/SNF/'/>
 <workspace path='c:/SNF/'/>
 <update-script ... call='c:/SNF/getRulebase.cmd' ... />

 Once you are happy with your configuration and you have all of your
 files and directories in place (including your .snf file) then you
 can start SNF_Server.

 The command line (from inside the SNF workspace) is:

 SNFServer.exe snf_engine.xml

 That is: SNFServer <configuration>

 If you want to lauch SNFServer from some other location it would be
 best to use the entire path for both the SNFServer engine and the
 configuration file:

 c:\SNF\SNFServer.exe c:\SNF\snf_engine.xml

 You should begin by testing SNFServer by running it in a command line
 window where you can watch it's output.

 Once you are happy with it then you will probably want to run it as
 a service using a utility such as the srvany utility from the win2k 
 toolkit, or detached as a daemon on *nix systems (snfctrl file example
 included).

 This section of our site might be helpful:

 http://www.armresearch.com/support/articles/installation/serviceSetup/index.jsp

 SNFServer is the server side of a client/server system. In order to
 scan messages you will need to use the client utility (SNFClient.exe
 or SNFIMailShim.exe) to scan messages.

 SNFClient.exe is a drop-in replacement for the production (2-3.x)
 SNF program when it is called from Declude or mxGuard or other similar
 software. There is no need to "brand" the SNFClient.exe
 program and it is not necessary to include the authentication string
 on the command line -- however, if you do it will be accepted and
 ignored without an error.

 SNFServer MUST be running for SNFClient to work. If SNFClient cannot
 reach SNFServer then it will wait for quite a while as it attempts to
 make contact.

 Here are a few ways to call SNFClient.exe:

 SNFClient.exe -shutdown

 	Sends the Shutdown command to the SNF_Server.

 SNFClient.exe authenticationxx filetoscan

 	Compatibility mode - ignores authenticationxx and scans filetoscan.

 SNFClient.exe filetoscan

 	Normal scan mode - scans filetoscan.

 SNFClient.exe -xhdr filetoscan

 	XHDR scan mode - scans filetoscan and returns X Headers.

 See the SNFClient_Readme.txt file for details.

 The SNF Client/Server pair communicate using short XML messages via a local
 TCP connection (typically to port 9001). Examples of SNF_XCI messages are
 included in snf_xci.xml (not a well formed xml file! - just some examples).

 It is possible to communicate directly with the SNF_Server engine via TCP
 from your software using the SNF_XCI (SNF XML Command Interface) protocol. The
 server expects to see one connection per request. The client sends an SNF_XCI
 request to the server. The server responds with an appropriate SNF_XCI
 formatted response and terminates the connection.

 Requests and responses are expected to terminate with a newline character.

 You can see the XCI protocol at work by running the SNFClient in debug mode
 (SNFdebugClient).

 If you run into trouble check out our web site: www.armresearch.com and/or
 contact us by email: support@armresearch.com

 ____________________
 For More Information

 See www.armresearch.com
 Copyright (C) 2007-2008 Arm Research Labs, LLC.
--- a/SNFMultiSDK_Windows_Base/curl.exe
+++ b/SNFMultiSDK_Windows_Base/curl.exe
--- a/SNFMultiSDK_Windows_Base/getRulebase.cmd
+++ b/SNFMultiSDK_Windows_Base/getRulebase.cmd
@@ -0,0 +1,70 @@
@ECHO OFF
 SETLOCAL 


 REM ----- Edit This Section --------

 SET SNIFFER_PATH=c:\SNF
 SET AUTHENTICATION=authenticationxx
 SET LICENSE_ID=licensid

 REM --------------------------------

 CD /d %SNIFFER_PATH%

 echo Running SNF getRulebase.cmd > getRulebase.txt

 if not exist UpdateReady.txt echo No UpdateReady.txt >> getRulebase.txt
 if not exist UpdateReady.txt goto DONE

 REM The next line may cause trouble if your system stops while this
 REM script is running. It is not needed when this script is run
 REM from SNF's <update-script/> feature since only one copy will run
 REM at a time. However, if you are going to run a version of this
 REM script as a scheduled task you will want to uncomment the next
 REM line to make sure only one copy runs at a time-- just be sure to
 REM clean out any stale .lck files after a restart.

 REM if exist UpdateReady.lck echo getRulebase.cmd locked/running >> getRulebase.txt
 REM if exist UpdateReady.lck goto DONE

 :DOWNLOAD
 
 copy UpdateReady.txt UpdateReady.lck > nul

 if exist %LICENSE_ID%.new del %LICENSE_ID%.new

 echo.

 curl -v "http://www.sortmonster.net/Sniffer/Updates/%LICENSE_ID%.snf" -o %LICENSE_ID%.new -s -S -R -z %LICENSE_ID%.snf -H "Accept-Encoding:gzip" --compressed -u sniffer:ki11sp8m 2>> getRulebase.txt

 if %ERRORLEVEL% NEQ 0 del %LICENSE_ID%.new 2> nul
 if not exist %LICENSE_ID%.new echo New rulebase file NOT downloaded >> getRulebase.txt
 if not exist %LICENSE_ID%.new goto CLEANUP

 snf2check.exe %LICENSE_ID%.new %AUTHENTICATION% 2>> getRulebase.txt

 if errorlevel 1 goto CLEANUP

 echo New rulebase file tested OK >> getRulebase.txt

 if exist %LICENSE_ID%.old del %LICENSE_ID%.old
 if exist %LICENSE_ID%.snf rename %LICENSE_ID%.snf %LICENSE_ID%.old
 rename %LICENSE_ID%.new %LICENSE_ID%.snf

 if exist UpdateReady.txt del UpdateReady.txt
 if exist UpdateReady.lck del UpdateReady.lck

 :CLEANUP

 if exist %LICENSE_ID%.new del %LICENSE_ID%.new
 if exist UpdateReady.lck del UpdateReady.lck 

 :DONE

 echo Done >> getRulebase.txt

 REM This is a good place to add a line that will email getrulebase.txt to
 REM yourself so that you know what just happened.

 ENDLOCAL
--- a/SNFMultiSDK_Windows_Base/identity.xml
+++ b/SNFMultiSDK_Windows_Base/identity.xml
@@ -0,0 +1,4 @@
 <!-- Change 'licenseid' and 'xxxxxxxxxxxxxxxx' to match your license info -->
 <snf><identity licenseid='licensid' authentication='authenticationxx'/></snf>


--- a/SNFMultiSDK_Windows_Base/snf_engine.xml
+++ b/SNFMultiSDK_Windows_Base/snf_engine.xml
@@ -0,0 +1,150 @@
 <!-- SNFMulti V3.0 Configuration File, Setup: Typical of Win* Client / Server -->
 <!-- http://www.armresearch.com/support/articles/software/snfServer/config/snfEngine.jsp -->

 <snf>
    <node identity='c:/SNF/identity.xml'>

        <paths>
            <log path='c:/SNF/'/>
            <rulebase path='c:/SNF/'/>
            <workspace path='c:/SNF/'/>
        </paths>

        <logs>

            <rotation localtime='no'/>

            <status>
                <second log='yes' append='no'/>
                <minute log='yes' append='no'/>
                <hour log='no' append='no'/>
            </status>

            <scan>
                <identifier force-message-id='no'/>
                <classic mode='none' rotate='yes' matches='unique'/>
                <xml mode='file' rotate='yes' matches='all' performance='yes' gbudb='yes'/>

                <xheaders>
                    <output mode='none'/>

                    <version on-off='off'>X-MessageSniffer-Version</version>
                    <license on-off='off'>X-MessageSniffer-License</license>
                    <rulebase on-off='off'>X-MessageSniffer-RulebaseUTC</rulebase>
                    <identifier  on-off='off'>X-MessageSniffer-Identifier</identifier>
                    <gbudb on-off='on'>X-GBUdb-Analysis</gbudb>
                    <result on-off='off'>X-MessageSniffer-Scan-Result</result>
                    <matches on-off='on'>X-MessageSniffer-Rules</matches>

                    <black on-off='off'>X-MessageSniffer-Spam: Yes</black>
                    <white on-off='off'>X-MessageSniffer-White: Yes</white>
                    <clean on-off='off'>X-MessageSniffer-Clean: Yes</clean>
                    <symbol on-off='off' n='0'>X-MessageSniffer-SNF-Group: OK</symbol>
                    <symbol on-off='off' n='20'>X-MessageSniffer-SNF-Group: Truncated</symbol>
                    <symbol on-off='off' n='40'>X-MessageSniffer-SNF-Group: Caution</symbol>
                    <symbol on-off='off' n='63'>X-MessageSniffer-SNF-Group: Black</symbol>
                    <symbol on-off='off' n='62'>X-MessageSniffer-SNF-Group: Obfuscation</symbol>
                    <symbol on-off='off' n='61'>X-MessageSniffer-SNF-Group: Abstract</symbol>
                    <symbol on-off='off' n='60'>X-MessageSniffer-SNF-Group: General</symbol>
                    <symbol on-off='off' n='59'>X-MessageSniffer-SNF-Group: Casinos-Gambling</symbol>
                    <symbol on-off='off' n='58'>X-MessageSniffer-SNF-Group: Debt-Credit</symbol>
                    <symbol on-off='off' n='57'>X-MessageSniffer-SNF-Group: Get-Rich</symbol>
                    <symbol on-off='off' n='56'>X-MessageSniffer-SNF-Group: Ink-Toner</symbol>
                    <symbol on-off='off' n='55'>X-MessageSniffer-SNF-Group: Malware</symbol>
                    <symbol on-off='off' n='54'>X-MessageSniffer-SNF-Group: Porn-Dating-Adult</symbol>
                    <symbol on-off='off' n='53'>X-MessageSniffer-SNF-Group: Scam-Phishing</symbol>
                    <symbol on-off='off' n='52'>X-MessageSniffer-SNF-Group: Snake-Oil</symbol>
                    <symbol on-off='off' n='51'>X-MessageSniffer-SNF-Group: Spamware</symbol>
                    <symbol on-off='off' n='50'>X-MessageSniffer-SNF-Group: Media-Theft</symbol>
                    <symbol on-off='off' n='49'>X-MessageSniffer-SNF-Group: AV-Push</symbol>
                    <symbol on-off='off' n='48'>X-MessageSniffer-SNF-Group: Insurance</symbol>
                    <symbol on-off='off' n='47'>X-MessageSniffer-SNF-Group: Travel</symbol>

                </xheaders>
            </scan>
        </logs>

        <network>
            <sync secs='30' host='sync.messagesniffer.net' port='25'/>
            <update-script on-off='on' call='c:/SNF/getRulebase.cmd' guard-time='180'/>
        </network>

        <xci on-off='on' port='9001'/>

        <gbudb>
            <database>

                <condense minimum-seconds-between='600'>
                    <time-trigger on-off='on' seconds='86400'/>
                    <posts-trigger on-off='off' posts='1200000'/>
                    <records-trigger on-off='off' records='600000'/>
                    <size-trigger on-off='on' megabytes='150'/>
                </condense>

                <checkpoint on-off='on' secs='3600'/>

            </database>

            <regions>

                <white on-off='on' symbol='0'>
                    <edge probability='-1.0' confidence='0.4'/>
                    <edge probability='-0.8' confidence='1.0'/>
                    <panic on-off='on' rule-range='1000'/>
                </white>

                <caution on-off='on' symbol='40'>
                    <edge probability='0.4' confidence='0.0'/>
                    <edge probability='0.8' confidence='0.5'/>
                </caution>

                <black on-off='on' symbol='63'>
                    <edge probability='0.8' confidence='0.2'/>
                    <edge probability='0.8' confidence='1.0'/>
                    <truncate on-off='on' probability='0.9' peek-one-in='5' symbol='20'/>
                    <sample on-off='on' probability='0.8' grab-one-in='5' passthrough='no' passthrough-symbol='0'/>
                </black>

            </regions>

            <training on-off='on'>

                <bypass>
                    <!-- <header name='To:' find='spam@example.com'/> -->
                    <!-- <header name='Received:' ordinal='1' find='friendlyhost.com'/> -->
                </bypass>

                <drilldown>
                    <!-- <received ordinal='0' find='[12.34.56.'/> where we want to ignore 12.34.56.0/24 -->
                    <!-- <received ordinal='0' find='mixed-source.com'/> -->
                    <!-- <received ordinal='1' find='mixed-source-internal.com'/> -->
                </drilldown>

                <source>
                    <!-- <header name='X-Use-This-Source:' received='mixedsource.com [' ordinal='0' /> -->
                    <!-- <header name='X-Originating-IP:' received='hotmail.com [' ordinal='0' /> -->
                </source>

                <white>
                    <result code='1'/>
                    <!-- <header name='Received:' ordinal='0' find='.friendlyhost.com'/> -->
                </white>

            </training>

         </gbudb>

         <rule-panics>
             <!--
             <rule id='123456'/>
             <rule id='123457'/>
             -->
         </rule-panics>

         <platform/>

         <msg-file type='rfc822'/>

    </node>
 </snf>

--- a/SNFMultiSDK_Windows_Base/snf_xci.xml
+++ b/SNFMultiSDK_Windows_Base/snf_xci.xml
@@ -0,0 +1,52 @@
 <!-- SNF Xml Command Interface Examples -->
 <!-- Scanner -->
 <snf><xci><scanner><scan file='filepath'/></scanner></xci></snf>
 <snf><xci><scanner><result code='63'/></scanner></xci></snf>

 <snf><xci><scanner><scan file='filepath' xhdr='yes' log='no' ip='12.34.56.78'/></scanner></xci></snf>
 <snf><xci><scanner><result code='63'><xhdr>
 X-Signature-Violations:
    57-1404199-965-976-m
    57-1404199-1352-1363-m
    57-1404199-965-976-f
 </xhdr></result></scanner></xci></snf>

 <!-- GBUdb -->
 <snf><xci><gbudb><set ip='12.34.56.78' type='good'/></gbudb></xci></snf> <!-- Set flag to good on ip -->
 <snf><xci><gbudb><set ip='12.34.56.78' type='bad'/></gbudb></xci></snf> <!-- Set flag to bad on ip -->
 <snf><xci><gbudb><set ip='12.34.56.78' type='ugly'/></gbudb></xci></snf> <!-- Set flag to ugly on ip -->
 <snf><xci><gbudb><set ip='12.34.56.78' type='ignore'/></gbudb></xci></snf> <!-- Set flag to ignore on ip -->
 <snf><xci><gbudb><set ip='12.34.56.78' type='ugly' b='1' g='0'/></gbudb></xci></snf> <!-- Set flag and counts on ip -->

 <snf><xci><gbudb><good ip='12.34.56.78'/></gbudb></xci></snf> <!-- Record a "good" event on ip -->
 <snf><xci><gbudb><bad ip='12.34.56.78'/></gbudb></xci></snf> <!-- Record a "bad" event on ip -->
 <snf><xci><gbudb><test ip='12.34.56.78'/></gbudb></xci></snf> <!-- Return the state of ip -->
 <snf><xci><gbudb><drop ip='12.34.56.78'/></gbudb></xci></snf> <!-- Forget the IP -->

 <!-- GBUdb Result, always -->
 <snf><xci><gbudb><result ip='12.34.56.78' type='ugly' p='1.0' c='0.001' b='1' g='0' range='caution' code='40'/></gbudb></xci></snf>

 <!-- status report request -->
 <snf><xci><report><request><status class='second'/></request></report></xci></snf>

 <!-- status report result -->
 <snf><xci><report><response><!-- actual status report --></response></report></xcl></snf>

 <!-- Server -->

 <snf><xci><server><command command='shutdown'/></server></xci></snf>
 <snf><xci><server><response message='shutdown in progress' code='0'/></server></xci></snf>

 <!-- Specialized Server Requests -->

 <snf><xci><server><command command='systemdefinedcommand'>
    <system-defined/><command/><elements/>
 </command></server></xci></snf>
 <snf><xci><server><response message='shutdown in progress' code='0'>
    <system-defined/><response/><elements/>
 </response></server></xci></snf>

 <!-- XCI Error Response -->

 <snf><xci><error message="What was that?"/></xci></snf>

--- a/createDistribution
+++ b/createDistribution
@@ -0,0 +1,80 @@
 #!/usr/bin/bash
 #
 # This scripts copies the files for a distribution to a zipfile.
 #
 # Usage: createDistribution VERSION
 #
 # where VERSION is the version of the distribution.
 #
 # The files are copied to a new directory named SNFMultiSDK_Windows,
 # which is zipped to create the zipfile.
 #
 ############################################################################

 # Name of the directory.
 DirName=SNFMultiSDK_Windows

 # Get the version.
 if [ "$#" -ne 1 ]
 then
    echo Usage:  $0 VERSION
    echo where VERSION is the version of the distribution to create
    exit -1
 fi

 VERSION=$1

 ZipFile="$DirName"_$VERSION.zip

 # Create the directory.
 rm -rf $DirName

 cp --archive SNFMultiSDK_Windows_Base $DirName

 for dir in 32bitDll 64bitDLL CPPSample include VS2019CPPSample VS2019CSSample VS2019VBSample
 do
    mkdir $DirName/$dir
 done

 # Copy 32-bit DLL files
 for file in IMPORTANT.txt libgcc_s_sjlj-1.dll libstdc++-6.dll libwinpthread-1.dll snfmulti.def snfmulti.dll vs2019_snfmulti.exp vs2019_snfmulti.lib
 do
    cp 32bitDLL/$file $DirName/32bitDLL
 done

 # Copy 64-bit DLL files
 for file in IMPORTANT.txt  libgcc_s_seh-1.dll  libstdc++-6.dll  libwinpthread-1.dll  snfmulti.def  snfmulti.dll  vs2019_snfmulti.exp  vs2019_snfmulti.lib
 do
    cp 64bitDLL/$file $DirName/64bitDLL
 done

 # Copy CPP sample files.
 for file in main.cpp main.cpp.html README.txt
 do
    cp CPPSample/$file $DirName/CPPSample
 done

 for file in README VS2019CPPSample.sln VS2019CPPSample.vcxproj VS2019CPPSample.vcxproj.filters VS2019CPPSample.vcxproj.user
 do
    cp VS2019CPPSample/$file $DirName/VS2019CPPSample
 done

 # Copy C# sample files.
 for file in main.cs README VS2019CSSample.csproj VS2019CSSample.csproj.user VS2019CSSample.sln
 do
    cp VS2019CSSample/$file $DirName/VS2019CSSample
 done

 # Copy VB sample files.
 for file in main.vb README VS2019VBSample.sln  VS2019VBSample.vbproj  VS2019VBSample.vbproj.user
 do
    cp VS2019VBSample/$file $DirName/VS2019VBSample
 done

 # Copy include file.
 cp include/snfmultidll.h include/snfmultidll.h.html $DirName/include

 # Create the zipfile.
 jzip -p -r $ZipFile $DirName

 echo Created zipfile $ZipFile
--- a/readme
+++ b/readme
@@ -50,24 +50,25 @@ file with further information):
  Studio files for building the C# and VB example applications, and
  the C++ test.

 To build the applications in the MinGW-64, MinGW-32, CodeBlocks, and
 VS2008 directories:
 To build the applications in the MinGW-64, MinGW-32, and VS2019
 directories:

  1) Ensure that the SNFMultiTest, SNFMulti, and CodeDweller
  directories are present.

  2) Install the 64-bit MinGW toolchain.  Unpack the 64-bit toolchain
  (e.g.  mingw-w64-bin_i686-mingw_20090220.zip) into c:\MinGW-64.  If
  done correctly, c:\MinGW-64 should have the directories bin,
  include, x86_64-pc-mingw32, and other directories.  The MinGW .CMD
  files and the Code::Blocks project files are configured to use the
  64-bit toolchain in c:\MinGW-64.
  2) Install the 64-bit MinGW toolchain.  The scripts in MinGW-64 are
     for MinGW-W64 version 8.1.0, posix threads, and seh exception.
     If a different version is installed, the scripts would need to be
     modified.

  3) Install the 32-bit MinGW toolchain to C:\MinGW.
  3) Install the 32-bit MinGW toolchain (i686 architecture), version
     8.1.0, posix threads, and sjlj exception.  If a different version
     is installed, the scripts would need to be modified.

  4) Install VS 2008.
  4) Install VS 2019. and the .NET runtime.

  5) Follow the directions in each directorie's README file.
  5) Follow the directions in README file in MinGW-32, MinGW-64, and
     VS2019 directories.

 To build and test the SDK:

@@ -79,7 +80,7 @@ To build and test the SDK:

     c) buildSNFMultiTestDLL.cmd.

     d) buildvs2008SNFMultiImportLib.cmd (in vs2008 command prompt).
     d) buildvs2019SNFMultiImportLib.cmd (in vs2019 command prompt).

     e) SNFMultiTest.exe.

@@ -87,34 +88,25 @@ To build and test the SDK:

  2) Repeat in MinGW-64.

  3) Build and run VS2008CPPSample, x32 and x64.  First copy
     snf_engine.xml to VS2008CPPSample.  For x32, copy *.dll from
     32bitDll to VS2008CPPSample.  For x64, copy *.dll from 64bitDll
     to VS2008CPPSample.
  3) Build and run VS2019CPPSample, x32 and x64, following the
     instructions in the README file.

  4) Build and run VS2008CSSample, any, x32, and x64.  Copy
     snf_engine.xml to VS2008CSSample.  Modify main.cs to specify
     the location of snf_engine.xml and snfmulti.dll, which is
     different for any, x32, and x64.
  4) Build and run VS2019CSSample, any, x32, and x64, following the
     instructions in the README file.

  5) Build and run VS2008VBSample, any, x32, and x64.  Copy
     snf_engine.xml to VS2008VBSample.  Modify main.vb to specify
     the location of snf_engine.xml and snfmulti.dll, which is
     different for any, x32, and x64.
  5) Build and run VS2019VBSample, any, x32, and x64, following the
     instructions in the README file.

 To create a zipfile distribution:

  1) Install jZip.

  2) Edit BuildDistribution.cmd to specify the DISTDIR variable, and
     optionally the TEMPDIR variable.
  2) Add jZip to the path for the MinGW-W64 bash command line.

  3) Run BuildDistribution.  This creates a zip file in the current
     directory with the name %DISTDIR%.zip.
  3) At a MinGW bash prompt, run

 Note: When you run BuildDistribution, you will get a message saying
 that %DISTDIR%.zip could not be found.  This message can be ignored.
       ./createDistribution VERSION

 Note: For more information on the procedure for creating a zipfile
 distribution, see the BuildDistribution.cmd file and the
 BuildDistribution\README file.
     where VERSION is the version to create.  This creates a
     distribution in SNFMultiSDK_Windows, and zips the distribution
     into SNFMultiSDK_Windows_VERSION.zip.