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#
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# OWASP Enterprise Security API (ESAPI) Properties file -- PRODUCTION Version
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#
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# This file is part of the Open Web Application Security Project (OWASP)
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# Enterprise Security API (ESAPI) project. For details, please see
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# http://www.owasp.org/index.php/ESAPI.
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#
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# Copyright (c) 2008,2009 - The OWASP Foundation
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#
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# DISCUSS: This may cause a major backwards compatibility issue, etc. but
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# from a name space perspective, we probably should have prefaced
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# all the property names with ESAPI or at least OWASP. Otherwise
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# there could be problems is someone loads this properties file into
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# the System properties. We could also put this file into the
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# esapi.jar file (perhaps as a ResourceBundle) and then allow an external
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# ESAPI properties be defined that would overwrite these defaults.
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# That keeps the application's properties relatively simple as usually
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# they will only want to override a few properties. If looks like we
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# already support multiple override levels of this in the
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# DefaultSecurityConfiguration class, but I'm suggesting placing the
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# defaults in the esapi.jar itself. That way, if the jar is signed,
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# we could detect if those properties had been tampered with. (The
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# code to check the jar signatures is pretty simple... maybe 70-90 LOC,
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# but off course there is an execution penalty (similar to the way
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# that the separate sunjce.jar used to be when a class from it was
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# first loaded). Thoughts?
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###############################################################################
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#
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# WARNING: Operating system protection should be used to lock down the .esapi
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# resources directory and all the files inside and all the directories all the
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# way up to the root directory of the file system. Note that if you are using
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# file-based implementations, that some files may need to be read-write as they
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# get updated dynamically.
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#
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# Before using, be sure to update the MasterKey and MasterSalt as described below.
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# N.B.: If you had stored data that you have previously encrypted with ESAPI 1.4,
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# you *must* FIRST decrypt it using ESAPI 1.4 and then (if so desired)
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# re-encrypt it with ESAPI 2.0. If you fail to do this, you will NOT be
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# able to decrypt your data with ESAPI 2.0.
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#
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# YOU HAVE BEEN WARNED!!! More details are in the ESAPI 2.0 Release Notes.
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#
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#===========================================================================
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# ESAPI Configuration
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#
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# If true, then print all the ESAPI properties set here when they are loaded.
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# If false, they are not printed. Useful to reduce output when running JUnit tests.
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# If you need to troubleshoot a properties related problem, turning this on may help.
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# This is 'false' in the src/test/resources/.esapi version. It is 'true' by
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# default for reasons of backward compatibility with earlier ESAPI versions.
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ESAPI.printProperties=true
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# ESAPI is designed to be easily extensible. You can use the reference implementation
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# or implement your own providers to take advantage of your enterprise's security
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# infrastructure. The functions in ESAPI are referenced using the ESAPI locator, like:
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#
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# String ciphertext =
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# ESAPI.encryptor().encrypt("Secret message"); // Deprecated in 2.0
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# CipherText cipherText =
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# ESAPI.encryptor().encrypt(new PlainText("Secret message")); // Preferred
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#
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# Below you can specify the classname for the provider that you wish to use in your
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# application. The only requirement is that it implement the appropriate ESAPI interface.
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# This allows you to switch security implementations in the future without rewriting the
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# entire application.
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#
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# ExperimentalAccessController requires ESAPI-AccessControlPolicy.xml in .esapi directory
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ESAPI.AccessControl=org.owasp.esapi.reference.DefaultAccessController
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# FileBasedAuthenticator requires users.txt file in .esapi directory
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ESAPI.Authenticator=org.owasp.esapi.reference.FileBasedAuthenticator
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ESAPI.Encoder=org.owasp.esapi.reference.DefaultEncoder
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ESAPI.Encryptor=org.owasp.esapi.reference.crypto.JavaEncryptor
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ESAPI.Executor=org.owasp.esapi.reference.DefaultExecutor
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ESAPI.HTTPUtilities=org.owasp.esapi.reference.DefaultHTTPUtilities
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ESAPI.IntrusionDetector=org.owasp.esapi.reference.DefaultIntrusionDetector
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# Log4JFactory Requires log4j.xml or log4j.properties in classpath - http://www.laliluna.de/log4j-tutorial.html
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ESAPI.Logger=org.owasp.esapi.reference.Log4JLogFactory
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#ESAPI.Logger=org.owasp.esapi.reference.JavaLogFactory
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ESAPI.Randomizer=org.owasp.esapi.reference.DefaultRandomizer
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ESAPI.Validator=org.owasp.esapi.reference.DefaultValidator
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#===========================================================================
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# ESAPI Authenticator
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#
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Authenticator.AllowedLoginAttempts=3
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Authenticator.MaxOldPasswordHashes=13
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Authenticator.UsernameParameterName=username
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Authenticator.PasswordParameterName=password
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# RememberTokenDuration (in days)
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Authenticator.RememberTokenDuration=14
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# Session Timeouts (in minutes)
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Authenticator.IdleTimeoutDuration=20
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Authenticator.AbsoluteTimeoutDuration=120
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#===========================================================================
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# ESAPI Encoder
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#
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# ESAPI canonicalizes input before validation to prevent bypassing filters with encoded attacks.
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# Failure to canonicalize input is a very common mistake when implementing validation schemes.
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# Canonicalization is automatic when using the ESAPI Validator, but you can also use the
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# following code to canonicalize data.
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#
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# ESAPI.Encoder().canonicalize( "%22hello world"" );
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#
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# Multiple encoding is when a single encoding format is applied multiple times, multiple
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# different encoding formats are applied, or when multiple formats are nested. Allowing
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# multiple encoding is strongly discouraged.
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Encoder.AllowMultipleEncoding=false
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#
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# The default list of codecs to apply when canonicalizing untrusted data. The list should include the codecs
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# for all downstream interpreters or decoders. For example, if the data is likely to end up in a URL, HTML, or
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# inside JavaScript, then the list of codecs below is appropriate. The order of the list is not terribly important.
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Encoder.DefaultCodecList=HTMLEntityCodec,PercentCodec,JavaScriptCodec
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#===========================================================================
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# ESAPI Encryption
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#
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# The ESAPI Encryptor provides basic cryptographic functions with a simplified API.
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# To get started, generate a new key using java -classpath esapi.jar org.owasp.esapi.reference.crypto.JavaEncryptor
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# There is not currently any support for key rotation, so be careful when changing your key and salt as it
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# will invalidate all signed, encrypted, and hashed data.
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#
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# WARNING: Not all combinations of algorithms and key lengths are supported.
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# If you choose to use a key length greater than 128, you MUST download the
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# unlimited strength policy files and install in the lib directory of your JRE/JDK.
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# See http://java.sun.com/javase/downloads/index.jsp for more information.
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#
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# Backward compatibility with ESAPI Java 1.4 is supported by the two deprecated API
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# methods, Encryptor.encrypt(String) and Encryptor.decrypt(String). However, whenever
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# possible, these methods should be avoided as they use ECB cipher mode, which in almost
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# all circumstances a poor choice because of it's weakness. CBC cipher mode is the default
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# for the new Encryptor encrypt / decrypt methods for ESAPI Java 2.0. In general, you
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# should only use this compatibility setting if you have persistent data encrypted with
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# version 1.4 and even then, you should ONLY set this compatibility mode UNTIL
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# you have decrypted all of your old encrypted data and then re-encrypted it with
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# ESAPI 2.0 using CBC mode. If you have some reason to mix the deprecated 1.4 mode
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# with the new 2.0 methods, make sure that you use the same cipher algorithm for both
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# (256-bit AES was the default for 1.4; 128-bit is the default for 2.0; see below for
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# more details.) Otherwise, you will have to use the new 2.0 encrypt / decrypt methods
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# where you can specify a SecretKey. (Note that if you are using the 256-bit AES,
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# that requires downloading the special jurisdiction policy files mentioned above.)
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#
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# ***** IMPORTANT: Do NOT forget to replace these with your own values! *****
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# To calculate these values, you can run:
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# java -classpath esapi.jar org.owasp.esapi.reference.crypto.JavaEncryptor
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#
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Encryptor.MasterKey=
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Encryptor.MasterSalt=
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# Provides the default JCE provider that ESAPI will "prefer" for its symmetric
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# encryption and hashing. (That is it will look to this provider first, but it
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# will defer to other providers if the requested algorithm is not implemented
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# by this provider.) If left unset, ESAPI will just use your Java VM's current
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# preferred JCE provider, which is generally set in the file
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# "$JAVA_HOME/jre/lib/security/java.security".
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#
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# The main intent of this is to allow ESAPI symmetric encryption to be
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# used with a FIPS 140-2 compliant crypto-module. For details, see the section
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# "Using ESAPI Symmetric Encryption with FIPS 140-2 Cryptographic Modules" in
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# the ESAPI 2.0 Symmetric Encryption User Guide, at:
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# http://owasp-esapi-java.googlecode.com/svn/trunk/documentation/esapi4java-core-2.0-symmetric-crypto-user-guide.html
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# However, this property also allows you to easily use an alternate JCE provider
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# such as "Bouncy Castle" without having to make changes to "java.security".
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# See Javadoc for SecurityProviderLoader for further details. If you wish to use
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# a provider that is not known to SecurityProviderLoader, you may specify the
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# fully-qualified class name of the JCE provider class that implements
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# java.security.Provider. If the name contains a '.', this is interpreted as
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# a fully-qualified class name that implements java.security.Provider.
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#
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# NOTE: Setting this property has the side-effect of changing it in your application
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# as well, so if you are using JCE in your application directly rather than
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# through ESAPI (you wouldn't do that, would you? ;-), it will change the
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# preferred JCE provider there as well.
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#
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# Default: Keeps the JCE provider set to whatever JVM sets it to.
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Encryptor.PreferredJCEProvider=
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# AES is the most widely used and strongest encryption algorithm. This
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# should agree with your Encryptor.CipherTransformation property.
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# By default, ESAPI Java 1.4 uses "PBEWithMD5AndDES" and which is
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# very weak. It is essentially a password-based encryption key, hashed
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# with MD5 around 1K times and then encrypted with the weak DES algorithm
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# (56-bits) using ECB mode and an unspecified padding (it is
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# JCE provider specific, but most likely "NoPadding"). However, 2.0 uses
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# "AES/CBC/PKCSPadding". If you want to change these, change them here.
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# Warning: This property does not control the default reference implementation for
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# ESAPI 2.0 using JavaEncryptor. Also, this property will be dropped
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# in the future.
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# @deprecated
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Encryptor.EncryptionAlgorithm=AES
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# For ESAPI Java 2.0 - New encrypt / decrypt methods use this.
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Encryptor.CipherTransformation=AES/CBC/PKCS5Padding
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# Applies to ESAPI 2.0 and later only!
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# Comma-separated list of cipher modes that provide *BOTH*
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# confidentiality *AND* message authenticity. (NIST refers to such cipher
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# modes as "combined modes" so that's what we shall call them.) If any of these
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# cipher modes are used then no MAC is calculated and stored
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# in the CipherText upon encryption. Likewise, if one of these
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# cipher modes is used with decryption, no attempt will be made
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# to validate the MAC contained in the CipherText object regardless
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# of whether it contains one or not. Since the expectation is that
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# these cipher modes support support message authenticity already,
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# injecting a MAC in the CipherText object would be at best redundant.
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#
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# Note that as of JDK 1.5, the SunJCE provider does not support *any*
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# of these cipher modes. Of these listed, only GCM and CCM are currently
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# NIST approved. YMMV for other JCE providers. E.g., Bouncy Castle supports
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# GCM and CCM with "NoPadding" mode, but not with "PKCS5Padding" or other
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# padding modes.
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Encryptor.cipher_modes.combined_modes=GCM,CCM,IAPM,EAX,OCB,CWC
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# Applies to ESAPI 2.0 and later only!
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# Additional cipher modes allowed for ESAPI 2.0 encryption. These
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# cipher modes are in _addition_ to those specified by the property
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# 'Encryptor.cipher_modes.combined_modes'.
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# Note: We will add support for streaming modes like CFB & OFB once
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# we add support for 'specified' to the property 'Encryptor.ChooseIVMethod'
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# (probably in ESAPI 2.1).
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# DISCUSS: Better name?
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Encryptor.cipher_modes.additional_allowed=CBC
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# 128-bit is almost always sufficient and appears to be more resistant to
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# related key attacks than is 256-bit AES. Use '_' to use default key size
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# for cipher algorithms (where it makes sense because the algorithm supports
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# a variable key size). Key length must agree to what's provided as the
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# cipher transformation, otherwise this will be ignored after logging a
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# warning.
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#
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# NOTE: This is what applies BOTH ESAPI 1.4 and 2.0. See warning above about mixing!
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Encryptor.EncryptionKeyLength=128
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# Because 2.0 uses CBC mode by default, it requires an initialization vector (IV).
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# (All cipher modes except ECB require an IV.) There are two choices: we can either
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# use a fixed IV known to both parties or allow ESAPI to choose a random IV. While
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# the IV does not need to be hidden from adversaries, it is important that the
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# adversary not be allowed to choose it. Also, random IVs are generally much more
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# secure than fixed IVs. (In fact, it is essential that feed-back cipher modes
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# such as CFB and OFB use a different IV for each encryption with a given key so
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# in such cases, random IVs are much preferred. By default, ESAPI 2.0 uses random
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# IVs. If you wish to use 'fixed' IVs, set 'Encryptor.ChooseIVMethod=fixed' and
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# uncomment the Encryptor.fixedIV.
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#
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# Valid values: random|fixed|specified 'specified' not yet implemented; planned for 2.1
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Encryptor.ChooseIVMethod=random
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# If you choose to use a fixed IV, then you must place a fixed IV here that
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# is known to all others who are sharing your secret key. The format should
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# be a hex string that is the same length as the cipher block size for the
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# cipher algorithm that you are using. The following is an example for AES
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# from an AES test vector for AES-128/CBC as described in:
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# NIST Special Publication 800-38A (2001 Edition)
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# "Recommendation for Block Cipher Modes of Operation".
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# (Note that the block size for AES is 16 bytes == 128 bits.)
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#
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Encryptor.fixedIV=0x000102030405060708090a0b0c0d0e0f
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# Whether or not CipherText should use a message authentication code (MAC) with it.
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# This prevents an adversary from altering the IV as well as allowing a more
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# fool-proof way of determining the decryption failed because of an incorrect
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# key being supplied. This refers to the "separate" MAC calculated and stored
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# in CipherText, not part of any MAC that is calculated as a result of a
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# "combined mode" cipher mode.
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#
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# If you are using ESAPI with a FIPS 140-2 cryptographic module, you *must* also
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# set this property to false.
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Encryptor.CipherText.useMAC=true
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# Whether or not the PlainText object may be overwritten and then marked
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# eligible for garbage collection. If not set, this is still treated as 'true'.
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Encryptor.PlainText.overwrite=true
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# Do not use DES except in a legacy situations. 56-bit is way too small key size.
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#Encryptor.EncryptionKeyLength=56
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#Encryptor.EncryptionAlgorithm=DES
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# TripleDES is considered strong enough for most purposes.
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# Note: There is also a 112-bit version of DESede. Using the 168-bit version
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# requires downloading the special jurisdiction policy from Sun.
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#Encryptor.EncryptionKeyLength=168
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#Encryptor.EncryptionAlgorithm=DESede
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Encryptor.HashAlgorithm=SHA-512
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Encryptor.HashIterations=1024
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Encryptor.DigitalSignatureAlgorithm=DSA
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Encryptor.DigitalSignatureKeyLength=1024
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Encryptor.RandomAlgorithm=SHA1PRNG
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Encryptor.CharacterEncoding=UTF-8
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#===========================================================================
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# ESAPI HttpUtilties
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#
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# The HttpUtilities provide basic protections to HTTP requests and responses. Primarily these methods
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# protect against malicious data from attackers, such as unprintable characters, escaped characters,
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# and other simple attacks. The HttpUtilities also provides utility methods for dealing with cookies,
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# headers, and CSRF tokens.
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#
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# Default file upload location (remember to escape backslashes with \\)
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HttpUtilities.UploadDir=C:\\ESAPI\\testUpload
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HttpUtilities.UploadTempDir=C:\\temp
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# Force flags on cookies, if you use HttpUtilities to set cookies
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HttpUtilities.ForceHttpOnlySession=false
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HttpUtilities.ForceSecureSession=false
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HttpUtilities.ForceHttpOnlyCookies=true
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HttpUtilities.ForceSecureCookies=true
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# File upload configuration
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HttpUtilities.ApprovedUploadExtensions=.zip,.pdf,.doc,.docx,.ppt,.pptx,.tar,.gz,.tgz,.rar,.war,.jar,.ear,.xls,.rtf,.properties,.java,.class,.txt,.xml,.jsp,.jsf,.exe,.dll
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HttpUtilities.MaxUploadFileBytes=500000000
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# Using UTF-8 throughout your stack is highly recommended. That includes your database driver,
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# container, and any other technologies you may be using. Failure to do this may expose you
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# to Unicode transcoding injection attacks. Use of UTF-8 does not hinder internationalization.
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HttpUtilities.ResponseContentType=text/html; charset=UTF-8
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#===========================================================================
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# ESAPI Executor
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# CHECKME - Not sure what this is used for, but surely it should be made OS independent.
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Executor.WorkingDirectory=C:\\Windows\\Temp
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Executor.ApprovedExecutables=C:\\Windows\\System32\\cmd.exe,C:\\Windows\\System32\\runas.exe
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#===========================================================================
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# ESAPI Logging
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# Set the application name if these logs are combined with other applications
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Logger.ApplicationName=ExampleApplication
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# If you use an HTML log viewer that does not properly HTML escape log data, you can set LogEncodingRequired to true
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Logger.LogEncodingRequired=false
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# Determines whether ESAPI should log the application name. This might be clutter in some single-server/single-app environments.
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Logger.LogApplicationName=true
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# Determines whether ESAPI should log the server IP and port. This might be clutter in some single-server environments.
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Logger.LogServerIP=true
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# LogFileName, the name of the logging file. Provide a full directory path (e.g., C:\\ESAPI\\ESAPI_logging_file) if you
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# want to place it in a specific directory.
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Logger.LogFileName=ESAPI_logging_file
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# MaxLogFileSize, the max size (in bytes) of a single log file before it cuts over to a new one (default is 10,000,000)
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Logger.MaxLogFileSize=10000000
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#===========================================================================
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# ESAPI Intrusion Detection
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344
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#
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345
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# Each event has a base to which .count, .interval, and .action are added
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346
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# The IntrusionException will fire if we receive "count" events within "interval" seconds
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347
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# The IntrusionDetector is configurable to take the following actions: log, logout, and disable
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348
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# (multiple actions separated by commas are allowed e.g. event.test.actions=log,disable
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349
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#
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350
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# Custom Events
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351
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# Names must start with "event." as the base
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352
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# Use IntrusionDetector.addEvent( "test" ) in your code to trigger "event.test" here
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353
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# You can also disable intrusion detection completely by changing
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354
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# the following parameter to true
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355
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#
|
356
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IntrusionDetector.Disable=false
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357
|
#
|
358
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IntrusionDetector.event.test.count=2
|
359
|
IntrusionDetector.event.test.interval=10
|
360
|
IntrusionDetector.event.test.actions=disable,log
|
361
|
|
362
|
# Exception Events
|
363
|
# All EnterpriseSecurityExceptions are registered automatically
|
364
|
# Call IntrusionDetector.getInstance().addException(e) for Exceptions that do not extend EnterpriseSecurityException
|
365
|
# Use the fully qualified classname of the exception as the base
|
366
|
|
367
|
# any intrusion is an attack
|
368
|
IntrusionDetector.org.owasp.esapi.errors.IntrusionException.count=1
|
369
|
IntrusionDetector.org.owasp.esapi.errors.IntrusionException.interval=1
|
370
|
IntrusionDetector.org.owasp.esapi.errors.IntrusionException.actions=log,disable,logout
|
371
|
|
372
|
# for test purposes
|
373
|
# CHECKME: Shouldn't there be something in the property name itself that designates
|
374
|
# that these are for testing???
|
375
|
IntrusionDetector.org.owasp.esapi.errors.IntegrityException.count=10
|
376
|
IntrusionDetector.org.owasp.esapi.errors.IntegrityException.interval=5
|
377
|
IntrusionDetector.org.owasp.esapi.errors.IntegrityException.actions=log,disable,logout
|
378
|
|
379
|
# rapid validation errors indicate scans or attacks in progress
|
380
|
# org.owasp.esapi.errors.ValidationException.count=10
|
381
|
# org.owasp.esapi.errors.ValidationException.interval=10
|
382
|
# org.owasp.esapi.errors.ValidationException.actions=log,logout
|
383
|
|
384
|
# sessions jumping between hosts indicates session hijacking
|
385
|
IntrusionDetector.org.owasp.esapi.errors.AuthenticationHostException.count=2
|
386
|
IntrusionDetector.org.owasp.esapi.errors.AuthenticationHostException.interval=10
|
387
|
IntrusionDetector.org.owasp.esapi.errors.AuthenticationHostException.actions=log,logout
|
388
|
|
389
|
|
390
|
#===========================================================================
|
391
|
# ESAPI Validation
|
392
|
#
|
393
|
# The ESAPI Validator works on regular expressions with defined names. You can define names
|
394
|
# either here, or you may define application specific patterns in a separate file defined below.
|
395
|
# This allows enterprises to specify both organizational standards as well as application specific
|
396
|
# validation rules.
|
397
|
#
|
398
|
Validator.ConfigurationFile=validation.properties
|
399
|
|
400
|
# Validators used by ESAPI
|
401
|
Validator.AccountName=^[a-zA-Z0-9]{3,20}$
|
402
|
Validator.SystemCommand=^[a-zA-Z\\-\\/]{1,64}$
|
403
|
Validator.RoleName=^[a-z]{1,20}$
|
404
|
|
405
|
#the word TEST below should be changed to your application
|
406
|
#name - only relative URL's are supported
|
407
|
Validator.Redirect=^\\/test.*$
|
408
|
|
409
|
# Global HTTP Validation Rules
|
410
|
# Values with Base64 encoded data (e.g. encrypted state) will need at least [a-zA-Z0-9\/+=]
|
411
|
Validator.HTTPScheme=^(http|https)$
|
412
|
Validator.HTTPServerName=^[a-zA-Z0-9_.\\-]*$
|
413
|
Validator.HTTPParameterName=^[a-zA-Z0-9_]{1,32}$
|
414
|
Validator.HTTPParameterValue=^[a-zA-Z0-9.\\-\\/+=_ ]*$
|
415
|
Validator.HTTPCookieName=^[a-zA-Z0-9\\-_]{1,32}$
|
416
|
Validator.HTTPCookieValue=^[a-zA-Z0-9\\-\\/+=_ ]*$
|
417
|
Validator.HTTPHeaderName=^[a-zA-Z0-9\\-_]{1,32}$
|
418
|
Validator.HTTPHeaderValue=^[a-zA-Z0-9()\\-=\\*\\.\\?;,+\\/:&_ ]*$
|
419
|
Validator.HTTPContextPath=^[a-zA-Z0-9.\\-_]*$
|
420
|
Validator.HTTPPath=^[a-zA-Z0-9.\\-_]*$
|
421
|
Validator.HTTPQueryString=^[a-zA-Z0-9()\\-=\\*\\.\\?;,+\\/:&_ %]*$
|
422
|
Validator.HTTPURI=^[a-zA-Z0-9()\\-=\\*\\.\\?;,+\\/:&_ ]*$
|
423
|
Validator.HTTPURL=^.*$
|
424
|
Validator.HTTPJSESSIONID=^[A-Z0-9]{10,30}$
|
425
|
|
426
|
# Validation of file related input
|
427
|
Validator.FileName=^[a-zA-Z0-9!@#$%^&{}\\[\\]()_+\\-=,.~'` ]{1,255}$
|
428
|
Validator.DirectoryName=^[a-zA-Z0-9:/\\\\!@#$%^&{}\\[\\]()_+\\-=,.~'` ]{1,255}$
|
429
|
|