The JDK and Java XML APIs have been improved over the years with various measures and tools that can help prevent applications from being exploited by XML-related attacks. This guide shows you how to use the secure processing features of Java API for XML Processing (JAXP) to safeguard your applications and systems.
XML processing can expose applications to certain vulnerabilities. Among the most prominent and well-known attacks are the XML External Entity (XXE) injection attack and the exponential entity expansion attack, also know as the XML bomb or billion laughs attack. These attacks can potentially cause serious damage to a system by denying its services or worse, lead to the loss of sensitive data.
You should evaluate your applications' requirements and operating environment to assess the level of potential threat, for example, whether or to what extent the applications are exposed to untrusted XML sources.
The XML, XML Schema, and XSLT standards define a number of structures that enable the embedding of external content in XML documents through system identifiers that reference external resources. In general, XML processors resolve and retrieve almost all of these external resources; see External Resources Supported by XML, Schema, and XSLT Standards for a list of constructs that support the inclusion of external resources. In addition, some constructs enable the execution of applications through external functions. XML External Entity (XXE) injection attacks exploit XML processors that have not been secured by restricting the external resources that it may resolve, retrieve, or execute. This can result in disclosing sensitive data such as passwords or enabling arbitrary execution of code.
XML, Schema, and XSLT standards support the following constructs that require external resources. The default behavior of the JDK XML processors is to make a connection and fetch the external resources as specified.
External DTD: references an external Document Type Definition (DTD), for example:
<!DOCTYPE root_element SYSTEM "url">
External Entity Reference: Refers to external data, the following is the syntax:
<!ENTITYname
SYSTEM "url
">
General entity reference, for example:
<?xml version="1.0" standalone="no" ?> <!DOCTYPE doc [<!ENTITY otherFile SYSTEM "otherFile.xml">]> <doc> <a> <b>&otherFile;</b> </a> </doc>
External Parameter Entities: The following is the syntax:
<!ENTITY %name
SYSTEMuri
>
The following is an example:
<?xml version="1.0" standalone="no"?> <!DOCTYPE doc [ <!ENTITY % ent1 SYSTEM "http://www.example.com/student.dtd"> %ent1; ]>
<Book xmlns:xi="http://www.w3.org/2001/XInclude"> <xi:include href=toc.xml"/> <xi:include href=part1.xml"/> <xi:include href=part2.xml"/> <xi:include href=index.xml"/> </Book>
References to XML Schema components using the
schemaLocation
attribute and import
and
include
elements, for example:
<xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema"> <xs:include schemaLocation="http://www.example.com/schema/schema1.xsd"/> <!-- ... --> </xs:schema>
<xsl:include href="include
.xsl"/>
xml-stylesheet
processing instruction: Used to
include a stylesheet in an XML document, for example:
<?xml-stylesheet href="include.xsl" type="text/xsl"?>
document()
function: Used to access nodes
in an external XML document, for example:
<xsl:variable select="document('DocumentFunc2.xml')"/>
The exponential entity expansion attack, also know as the XML bomb or billion laughs attack, is a denial-of-service attack that involves XML parsers. The basic exploit is to have several layers of nested entities, each referring to a number of entities of the next layer. The following is a sample SOAP document that contains deeply nested entity references:
<?xml version="1.0" encoding ="UTF-8"?> <!DOCTYPE bbb[ <!ENTITY x100 "bbb"> <!ENTITY x99 "&x100;&x100;"> <!ENTITY x98 "&x99;&x99;"> ... <!ENTITY x2 "&x3;&x3;"> <!ENTITY x1 "&x2;&x2;"> ]> <SOAP-ENV:Envelope xmlns:SOAP-ENV=...> <SOAP-ENV:Body> <ns1:aaa xmlns:ns1="urn:aaa" SOAP-ENV:encodingStyle="..."> <foobar xsi:type="xsd:string">&x1;</foobar> </ns1:aaa> </SOAP-ENV:Body> </SOAP-ENV:Envelope>
When an XML parser encounters such a document, it will attempt to resolve the entity declaration by expanding the references. Because the references are nested, the expansion becomes exponential by the number of entities each refers to. Such a process can lead the XML parser to consume 100% of CPU time and a large amount of memory, and eventually the system runs out of memory.
Feature for Secure Processing (FSP), which is defined as
javax.xml.XMLConstants.FEATURE_SECURE_PROCESSING
, is the central mechanism to help safeguard XML processing. It instructs XML processors, such as parsers and transformers, to try and process XML securely.
By default, the JDK turns on FSP for DOM and SAX parsers and XML schema validators, which sets a number of processing limits on the processors. Conversely, by default, the JDK turns off FSP for transformers and XPath, which enables extension functions for XSLT and XPath.
Turn on and off FSP by calling the setFeature method on factories and setting XMLConstants.FEATURE_SECURE_PROCESSING
to either true
or false
. For example, the following code snippet turns on FSP for SAX parsers that are created by the factory spf
by setting XMLConstants.FEATURE_SECURE_PROCESSING
to true
:
SAXParserFactory spf = SAXParserFactory.newInstance(); spf.setFeature(XMLConstants.FEATURE_SECURE_PROCESSING, true);
While FSP can be turned on and off through factories, it is always on when a Java Security Manager is present and cannot be turned off. The Java XML processors therefore will enforce limits and restrictions when a Java Security Manager is present. You can however adjust individual properties depending on the specific needs of your applications. There are two types of JAXP properties:
The following sections describe these two types of JAXP properties.
XML processing can sometimes be a memory intensive operation. Applications, especially those that accept XML, XSD and XSL from untrusted sources, should take steps to guard against excessive memory consumption by using JAXP properties for processing limits.
Evaluate your application's requirements and operating
environment to determine the acceptable processing limits for
your system configurations and set these limits accordingly. For
example, use size-related limits to prevent malformed XML sources
from consuming large amounts of memory. Use
EntityExpansionLimit
to enable an application to control
memory consumption under an acceptable level.
The JDK XML parsers observe processing limits by default. Both DOM and SAX parsers have Feature for Secure Processing (FSP) turned on by default and therefore turn on the limits. The StAX parser also observes processing limits by default even though it doesn't support FSP.
The JDK XML processors enable you to adjust processing limits individually in three ways:
jaxp.properties
fileSee Using JAXP Properties and Scope and Order.
The following tables describe the JAXP properties for processing limits supported in the JDK.
Attribute | Description |
---|---|
Name |
http://www.oracle.com/xml/jaxp/properties/elementAttributeLimit |
Definition | Limits the number of attributes an element can have. |
Value | A
positive integer. A value less than or equal to 0 indicates no
limit. If the value is not an integer, a
NumericFormatException is thrown. |
Default value | 10000 |
System property |
jdk.xml.elementAttributeLimit |
Since | 7u45, 8 |
Attribute | Description |
---|---|
Name |
http://www.oracle.com/xml/jaxp/properties/entityExpansionLimit |
Definition | Limits the number of entity expansions. |
Value | A
positive integer. A value less than or equal to 0 indicates no
limit. If the value is not an integer, a
NumericFormatException is thrown. |
Default value | 64000 |
System property |
jdk.xml.entityExpansionLimit |
Since | 7u45, 8 |
Attribute | Description |
---|---|
Name |
http://www.oracle.com/xml/jaxp/properties/entityReplacementLimit |
Definition | Limits the total number of nodes in all entity references. |
Value | A
positive integer. A value less than or equal to 0 indicates no
limit. If the value is not an integer, a
NumericFormatException is thrown. |
Default value | 3000000 |
System property |
jdk.xml.entityReplacementLimit |
Since | 7u111, 8u101 |
Attribute | Description |
---|---|
Name |
http://www.oracle.com/xml/jaxp/properties/maxElementDepth |
Definition | Limits the maximum element depth. |
Value | A
positive integer. A value less than or equal to 0 indicates no
limit. If the value is not an integer, a
NumericFormatException is thrown. |
Default value | 0 |
System property |
jdk.xml.maxElementDepth |
Since | 7u65, 8u11 |
Attribute | Description |
---|---|
Name |
http://www.oracle.com/xml/jaxp/properties/maxGeneralEntitySizeLimit |
Definition | Limits the maximum size of any general entities. |
Value | A
positive integer. A value less than or equal to 0 indicates no
limit. If the value is not an integer, a
NumericFormatException is thrown. |
Default value | 0 |
System property |
jdk.xml.maxGeneralEntitySizeLimit |
Since | 7u45, 8 |
Attribute | Description |
---|---|
Name |
http://www.oracle.com/xml/jaxp/properties/maxOccurLimit |
Definition |
Limits the number of content model nodes that may be created when
building a grammar for a W3C XML Schema that contains
maxOccurs attributes with values other than
"unbounded". |
Value | A
positive integer. A value less than or equal to 0 indicates no
limit. If the value is not an integer, a
NumericFormatException is thrown. |
Default value | 5000 |
System property |
jdk.xml.maxOccurLimit |
Since | 7u45, 8 |
Attribute | Description |
---|---|
Name |
http://www.oracle.com/xml/jaxp/properties/maxParameterEntitySizeLimit |
Definition | Limits the maximum size of any parameter entities, including the result of nesting multiple parameter entities. |
Value | A
positive integer. A value less than or equal to 0 indicates no
limit. If the value is not an integer, a
NumericFormatException is thrown. |
Default value | 1000000 |
System property |
jdk.xml.maxParameterEntitySizeLimit |
Since | 7u45, 8 |
Attribute | Description |
---|---|
Name |
http://www.oracle.com/xml/jaxp/properties/maxXMLNameLimit |
Definition | Limits the maximum size of XML names, including element name, attribute name and namespace prefix and URI. |
Value | A
positive integer. A value less than or equal to 0 indicates no
limit. If the value is not an integer, a
NumericFormatException is thrown. |
Default value | 1000 |
System property |
jdk.xml.maxXMLNameLimit |
Since | 7u91, 8u65 |
Attribute | Description |
---|---|
Name |
http://www.oracle.com/xml/jaxp/properties/totalEntitySizeLimit |
Definition | Limits the total size of all entities that include general and parameter entities. The size is calculated as an aggregation of all entities. |
Value | A
positive integer. A value less than or equal to 0 indicates no
limit. If the value is not an integer, a
NumericFormatException is thrown. |
Default value | 5x10^7 |
System property |
jdk.xml.totalEntitySizeLimit |
Since | 7u45, 8 |
These properties, which were introduced in JDK 5.0 and 6, continue to be supported for backward compatibility.
System Property | Since | New System Property |
---|---|---|
entityExpansionLimit |
1.5 |
jdk.xml.entityExpansionLimit |
elementAttributeLimit |
1.5 |
jdk.xml.elementAttributeLimit |
maxOccurLimit |
1.6 |
jdk.xml.maxOccur |
The JAXP Properties for external access restrictions, along with their corresponding System properties, enable you to regulate external connections.
External access restrictions enable you to specify the type of external connections that can or cannot be permitted. The property values are a list of protocols. The JAXP processors check if a given external connection is permitted by matching the protocol with those in the list. Processors will attempt to establish the connection if it is on the list, or reject it if not. Use these JAXP properties along with custom resolvers (see Using Java XML Resolvers) to reduce the risk of external connections by rejecting and resolving them with local resources.
Note: Explicitly turning on Feature for
Secure Processing (FSP) through the API, for example,
factory.setFeature(XMLConstants.FEATURE_SECURE_PROCESSING,
true)
, disables all external connections.
The external access restrictions JAXP properties are defined
in javax.xml.XMLConstants
as follows:
javax.xml.XMLConstants.ACCESS_EXTERNAL_DTD
javax.xml.XMLConstants.ACCESS_EXTERNAL_SCHEMA
javax.xml.XMLConstants.ACCESS_EXTERNAL_STYLESHEET
Attribute | Description |
---|---|
Name |
http://javax.xml.XMLConstants/property/accessExternalDTD |
Definition | Restricts access to external DTDs and external entity references to the protocols specified. |
Value | See Values of External Access Restrictions JAXP Properties |
Default value | all, connection permitted to all protocols |
System property |
javax.xml.accessExternalDTD |
Attribute | Description |
---|---|
Name |
http://javax.xml.XMLConstants/property/accessExternalSchema |
Definition |
Restricts access to the protocols specified for external
references set by the schemaLocation attribute,
import element, and include
element. |
Value | See Values of External Access Restrictions JAXP Properties |
Default value | all, connection permitted to all protocols. |
System property |
javax.xml.accessExternalSchema |
Attribute | Description |
---|---|
Name |
http://javax.xml.XMLConstants/property/accessExternalStylesheet |
Definition |
Restricts access to the protocols specified for external
references set by the stylesheet processing
instruction, document function, and
import and include elements. |
Value | See Values of External Access Restrictions JAXP Properties |
Default value | all, connection permitted to all protocols. |
System property |
javax.xml.accessExternalStylesheet |
All JAXP properties for external access restrictions have values of the same format:
Value: A list of protocols separated by
comma. A protocol is the scheme portion of an URI, or in the case
of the JAR protocol, jar
plus the scheme portion
separated by colon. A scheme is defined as:
scheme = alpha *( alpha |
digit | "+" | "-" | "." )
where alpha
= a-z
and
A-Z
.
jar[:scheme]
Protocols are case-insensitive. Any whitespace characters as
defined by Character.isSpaceChar
in the value are
ignored. Examples of protocols are file
,
http
, and jar:file
.
Default value: The default value is
implementation specific. For the JDK, the default value is
all
, which grants permissions to all protocols.
Granting all access: The keyword
all
grants permission to all protocols. For example,
specifying javax.xml.accessExternalDTD=all
in the
jaxp.properties
file enables a system to work as
before with no restrictions on accessing external DTDs and entity
references.
Denying any access: An empty string
(""
) means that no permission is granted to any
protocol. For example, specifying
javax.xml.accessExternalDTD=""
in the
jaxp.properties
file instructs JAXP processors to
deny any external connections.
Feature for Secure Processing (FSP) is required for XML processors including DOM, SAX, schema validation, XSLT, and XPath.
When FSP is turned on, then default processing limits (see JAXP Properties for Processing Limits) are enforced. Turning off FSP does not change the limits.
When FSP is "explicitly" turned on through the API, for
example,
factory.setFeature(XMLConstants.FEATURE_SECURE_PROCESSING,
true)
, then external access restrictions (see JAXP
Properties for External Access Restrictions) are set to the
empty string, which means that no permission is granted to any
protocol. Although FSP is turned on by default for DOM, SAX and
schema validation, it is not treated as if "explicitly" turned
on; therefore, the default value for external access restrictions
is all
, which means that permission is granted to
all protocols.
When a Java Security Manager is present, FSP is turned on and cannot be turned off.
In general, JAXP properties set in a smaller scope override those in a larger one:
jaxp.properties
file, and FSP.jaxp.properties
file, or set by FSP.jaxp.properties
file
affect the entire JDK and override processing limit and external
access restriction values set by default or set by FSP.External access restrictions have no effect on the relevant constructs that they attempt to restrict in the following situations:
When there is a resolver and the source returned by the
resolver is not null: This applies to entity resolvers that may
be set on SAX and DOM parsers, XML resolvers on StAX parsers,
LSResourceResolver
on SchemaFactory
, a
Validator
or ValidatorHandler
, or
URIResolver
on a transformer.
When a schema is created explicitly by calling the
newSchema
method from
SchemaFactory
.
When external resources are not required: For example, the following features and properties are supported by the JDK and may be used to instruct the processor to not load the external DTD or resolve external entities:
http://apache.org/xml/features/disallow-doctype-decl true http://apache.org/xml/features/nonvalidating/load-external-dtd false http://xml.org/sax/features/external-general-entities false http://xml.org/sax/features/external-parameter-entities false
JAXP properties are checked first before a connection is
attempted, whether or not a SecurityManager
is
present. This means that a connection may be blocked even if it
is granted permission by the SecurityManager
. For
example, if the JAXP properties are set to disallow the HTTP
protocol, then they will effectively block any connection attempt
even when an application has a SocketPermission
.
For the purpose of restricting connections, the
SecurityManager
can be viewed as being at a lower
level. Permissions are checked after JAXP properties are
evaluated. For example, if an application does not have a
SocketPermission
, then a
SecurityException
will be thrown even if JAXP
properties are set to allow HTTP connections.
When a SecurityManager
is present, Feature for
Secure Processing (FSP) is set to true. This behavior does not
turn on any external access restrictions.
When determining which processing limits to apply and what values to use, at the system level, consider the amount of memory available for applications and whether XML, XSD, or XSL sources from untrusted sources are accepted and processed. At the application level, consider whether certain constructs such as DTDs are used.
XML processing can be very memory intensive. The amount of memory that should be allowed to be consumed depends on the requirements of the applications in a specific environment. Processing of malformed XML data must be prevented from consuming excessive memory.
The default limits are generally set to allow legitimate XML inputs for most applications with memory usage allowed for a small hardware system, such as a PC. It is recommended that the limits are set to the smallest possible values, so that any malformed input can be caught before it consumes large amounts of memory.
The limits are correlated, but not entirely redundant. You should set appropriate values for all of the limits: usually the limits should be set to a much smaller value than the default.
For example, ENTITY_EXPANSION_LIMIT
and
GENERAL_ENTITY_SIZE_LIMIT
can be set to prevent
excessive entity references. But when the exact combination of
the expansion and entity sizes are unknown,
TOTAL_ENTITY_SIZE_LIMIT
can serve as a overall
control. Similarly, while TOTAL_ENTITY_SIZE_LIMIT
controls the total size of a replacement text, if the text is a
very large chunk of XML, ENTITY_REPLACEMENT_LIMIT
sets a restriction on the total number of nodes that can appear
in the text and prevents overloading the system.
To help you analyze what values you should set for the limits,
a special property called
http://www.oracle.com/xml/jaxp/properties/getEntityCountInfo
is available. The following code snippet, from
Processing Limit Samples in The Java Tutorials, shows an example of using the property:
public static final String ORACLE_JAXP_PROPERTY_PREFIX = "http://www.oracle.com/xml/jaxp/properties/"; // ... public static final String JDK_ENTITY_COUNT_INFO = ORACLE_JAXP_PROPERTY_PREFIX + "getEntityCountInfo"; // ... parser.setProperty(JDK_ENTITY_COUNT_INFO, "yes");
When you run the processing limit sample with the DTD in W3C MathML 3.0, it prints out the following table:
Property | Limit | Total Size | Size | Entity Name |
---|---|---|---|---|
ENTITY_EXPANSION_LIMIT |
64000 | 1417 | 0 | null |
MAX_OCCUR_NODE_LIMIT |
5000 | 0 | 0 | null |
ELEMENT_ATTRIBUTE_LIMIT |
10000 | 0 | 0 | null |
TOTAL_ENTITY_SIZE_LIMIT |
50000000 | 55425 | 0 | null |
GENERAL_ENTITY_SIZE_LIMIT |
0 | 0 | 0 | null |
PARAMETER_ENTITY_SIZE_LIMIT |
1000000 | 0 | 7303 |
%MultiScriptExpression |
MAX_ELEMENT_DEPTH_LIMIT |
0 | 2 | 0 | null |
MAX_NAME_LIMIT |
1000 | 13 | 13 | null |
ENTITY_REPLACEMENT_LIMIT |
3000000 | 0 | 0 | null |
In this example, the total number of entity references, or the
entity expansion, is 1417; the default limit is 64000. The total
size of all entities is 55425; the default limit is 50000000. The
biggest parameter entity is %MultiScriptExpression
with a length of 7303 after all references are resolved; the
default limit is 1000000.
If this is the largest file that the application is expected
to process, it is recommended that the limits be set to smaller
numbers. For example, 2000 for
ENTITY_EXPANSION_LIMIT
, 100000 for
TOTAL_ENTITY_SIZE_LIMIT
, and 10000 for
PARAMETER_ENTITY_SIZE_LIMIT
.
The XML processors, by default, attempt to connect and read external resources that are referenced in XML sources. Note that this may potentially expose applications and systems to risks posed by external connections. It's therefore recommended that applications consider limiting external connections with external access restriction properties.
Internal applications and systems that handle only trusted XML documents may not need these restrictions. Applications and systems that rely on the Java Security Manager to regulate external connections may also have no need for them. However, keep in mind that external access restrictions are specific to the XML processors and at the top layer of the process, which means that the processors check these restrictions before any connections are made. They may therefore serve as an additional and more direct protection against external connection risks.
You can use external access restriction properties along with custom resolvers and catalogs (see Using Java XML Resolvers) to effectively manage external connections and reduce risks.
Even in a trusted environment with trusted sources, it's recommended that you use both external access restrictions and resolvers to minimize dependencies on external sources.
If you can modify your application's code, or you're creating a new application, then setting JAXP properties through JAXP factories or a parser is the preferred method. Set these properties through the following interfaces:
DocumentBuilderFactory dbf = DocumentBuilderFactory.newInstance(); dbf.setAttribute(name, value); SAXParserFactory spf = SAXParserFactory.newInstance(); SAXParser parser = spf.newSAXParser(); parser.setProperty(name, value); XMLInputFactory xif = XMLInputFactory.newInstance(); xif.setProperty(name, value); SchemaFactory schemaFactory = SchemaFactory.newInstance(schemaLanguage); schemaFactory.setProperty(name, value); TransformerFactory factory = TransformerFactory.newInstance(); factory.setAttribute(name, value);
The following is an example of setting processing limits:
dbf.setAttribute(JDK_ENTITY_EXPANSION_LIMIT, "2000"); dbf.setAttribute(TOTAL_ENTITY_SIZE_LIMIT, "100000"); dbf.setAttribute(PARAMETER_ENTITY_SIZE_LIMIT, "10000"); dbf.setAttribute(JDK_MAX_ELEMENT_DEPTH, "100");
The following is an example of limiting a DOM parser to only local connections for external DTDs:
dbf.setAttribute(XMLConstants.ACCESS_EXTERNAL_DTD, "file, jar:file");
If a parser module within the application handles untrusted
sources, it may further restrict access. The following code
overrides those in the jaxp.properties
file and
those specified by System properties and enables the XML
processor to read local files only:
DocumentBuilderFactory dbf = DocumentBuilderFactory.newInstance(); dbf.setAttribute(XMLConstants.ACCESS_EXTERNAL_DTD, "file"); // ... SchemaFactory schemaFactory = SchemaFactory.newInstance(XMLConstants.W3C_XML_SCHEMA_NS_URI); schemaFactory.setProperty(XMLConstants.ACCESS_EXTERNAL_DTD, "file"); schemaFactory.setProperty(XMLConstants.ACCESS_EXTERNAL_SCHEMA, "file");
As described in Scope and Order of
Setting JAXP Properties, JAXP properties specified through
JAXP factories have the narrowest scope, affecting only the
processors created by the factories, and therefore override any
default settings, System properties, and those in the
jaxp.properties
file. By setting JAXP properties
through JAXP factories, you can ensure that your applications
behave the same way regardless of which JDK release you're using
or whether JAXP properties are set through other means.
System properties may be useful if you can't modify your application's code.
To set JAXP properties for an entire JDK invocation, set their corresponding System properties on the command line.
To set JAXP properties for only a portion of the application, set their corresponding System properties before the portion, and then clear them afterward. For example, if your application requires access to external DTDs and schemas, then add these lines to your application's initialization code block:
System.setProperty("javax.xml.accessExternalDTD", "file, http"); System.setProperty("javax.xml.accessExternalSchema", "file, http");
Then, once your application is done processing XML documents or before it exits, clear out the properties as follows:
System.clearProperty("javax.xml.accessExternalDTD"); System.clearProperty("javax.xml.accessExternalSchema");
The following code, from
Processing Limit Samples in The Java Tutorials, is another example that shows how to do this
for the processing limit
maxGeneralEntitySizeLimit
:
public static final String SP_GENERAL_ENTITY_SIZE_LIMIT = "jdk.xml.maxGeneralEntitySizeLimit"; // Set limits using System property; // this setting will affect all processing after it's set System.setProperty(SP_GENERAL_ENTITY_SIZE_LIMIT, "2000"); // Perform some processing here // After it is done, clear the property System.clearProperty(SP_GENERAL_ENTITY_SIZE_LIMIT);
Note that processing limit values are integers. A
NumberFormatException
is thrown if a processing
limit's value is not a parsable integer; see the method
java.lang.Integer.parseInt(String)
.
The following example allows the resolution of external schemas for a portion of an application:
// Allow resolution of external schemas // This setting will affect all processing after it's set System.setProperty("javax.xml.accessExternalSchema", "file, http"); // Perform some processing here // After it's done, clear the property System.clearProperty("javax.xml.accessExternalSchema");
If you want to specify a JAXP property that affects every JDK
invocation, then create a configuration file named
<java-home>/lib/jaxp.properties
and specify names and values of JAXP properties in it, one
name-value pair on each line. For example, the following
jaxp.properties
file sets the
maxGeneralEntitySizeLimit
processing limit property
to 2000 and restricts access to the file and HTTP protocols for
external references set by the stylesheet
processing
instruction, document
function, and the
import
and include
elements.
jdk.xml.maxGeneralEntitySizeLimit=2000 javax.xml.accessExternalStylesheet=file, http
If you don't want to allow any external connection by XML
processors, you can set all access external restrictions to
file
only:
javax.xml.accessExternalDTD=file javax.xml.accessExternalSchema=file javax.xml.accessExternalStylesheet=file
If you want to prevent applications from accidentally reading
external files through an XML processor, set the external access
restrictions as follows in the jaxp.properties
file
as follows:
javax.xml.accessExternalDTD="" javax.xml.accessExternalSchema="" javax.xml.accessExternalStylesheet=""
Note:
jaxp.properties
file. Processing limit System
properties have the prefix jdk.xml
. External access
restriction System properties have the prefix
javax.xml
.NumberFormatException
is thrown if a processing
limit's value is not a parsable integer; see the method
java.lang.Integer.parseInt(String)
.It is recommended that applications catch
org.xml.sax.SAXNotRecognizedException
when setting
JAXP properties so that the applications will work properly on
older releases that don't support them.
For example, the following method,
isNewPropertySupported
, from
Processing Limit Samples in The Java Tutorials, detects if the sample
is run with a version of the JDK that supports the
JDK_GENERAL_ENTITY_SIZE_LIMIT
property:
public boolean isNewPropertySupported() { try { SAXParser parser = getSAXParser(false, false, false); parser.setProperty(JDK_GENERAL_ENTITY_SIZE_LIMIT, "10000"); } catch (ParserConfigurationException ex) { fail(ex.getMessage()); } catch (SAXException ex) { String err = ex.getMessage(); if (err.indexOf("Property '" + JDK_GENERAL_ENTITY_SIZE_LIMIT + "' is not recognized.") > -1) { // expected before this patch debugPrint("New limit properties not supported. Samples not run."); return false; } } return true; }
When input files contain constructs that cause an over-the-limit exception, applications may check the error code to determine the nature of the failure. The following error codes are defined for processing limits:
EntityExpansionLimit
: JAXP00010001ElementAttributeLimit
: JAXP00010002MaxEntitySizeLimit
: JAXP00010003TotalEntitySizeLimit
: JAXP00010004MaxXMLNameLimit
: JAXP00010005maxElementDepth
: JAXP00010006EntityReplacementLimit
: JAXP00010007The error code has the following format:
"JAXP" + components (two digits) + error category (two digits) + sequence number
The code JAXP00010001, therefore, represents the JAXP base
parser security limit EntityExpansionLimit
.
If access to external resources is denied due to the restrictions set by external access restrictions, then an exception will be thrown with an error in the following format:
[type of construct]: Failed to read [type of construct] "[name of the external resource]", because "[type of restriction]" access is not allowed due to restriction set by the [property name] property.
For example, suppose the following:
The ACCESS_EXTERNAL_DTD
JAXP property is set as
follows:
parser.setProperty( "http://javax.xml.XMLConstants/property/accessExternalDTD", "file");
Your application tries to fetch an external DTD with the HTTP protocol.
The parser parsed an XML file that contains an external
reference to
http://www.example.com/dtd/properties.dtd
.
The error message would look like the following:
External DTD: Failed to read external DTD "http://www.example.com/dtd/properties.dtd", because "http" access is not allowed due to restriction set by the accessExternalDTD property.
Streaming API for XML (StAX), JSR 173, does not support FSP nor does it support external access restrictions. However, JDK's StAX implementation supports processing limits, and StAX in the context of JAXP supports external access restrictions.
JDK's StAX implementation supports processing limits and their corresponding System properties. However, because FSP is not supported, you can't turn on or off processing limits for StAX by turning on or off FSP. Processing limits continue to behave as described in JAXP Properties for Processing Limits.
JDK's StAX implementation supports the JAXP properties related
to external access restrictions. Setting them is similar to SAX
or DOM, but through the XMLInputFactory
class, for
example:
XMLInputFactory xif = XMLInputFactory.newInstance(); xif.setProperty( "http://javax.xml.XMLConstants/property/accessExternalDTD", "file");
For compatibility, StAX properties and features take precedence over the processing limit and external access restriction properties. For example, the SupportDTD
property, when set to false
, causes a program to throw an exception when an input file contains a DTD before it can be parsed. Therefore, processing limits and external access restrictions on DTDs will have no effect on applications that have disabled DTDs by setting the SupportDTD
property to false
.
Because Feature for Secure Processing (FSP) is off by default
for Transformer
and XPath
, extension
functions are allowed. For applications processing documents from
untrusted sources, it is recommended to turn off the extension
functions feature. There are two ways to do so:
By setting FSP to true, for example:
TransformerFactory tf = TransformerFactory.newInstance(); tf.setFeature(XMLConstants.FEATURE_SECURE_PROCESSING, true);
By setting the enableExtensionFunctions
property
to false:
final static String ENABLE_EXTENSION_FUNCTIONS = "http://www.oracle.com/xml/jaxp/properties/enableExtensionFunctions"; // ... TransformerFactory tf = TransformerFactory.newInstance(); tf.setFeature(ENABLE_EXTENSION_FUNCTIONS, false);
In cases where extension functions are disabled as a result of
installing a Java Security Manager, applications may also choose
to re-enable the extension functions feature by setting the
property enableExtensionFunctions
to true. The
following table defines this property:
Attribute | Description |
---|---|
Name |
http://www.oracle.com/xml/jaxp/properties/enableExtensionFunctions |
Definition | Determines whether XSLT and XPath extension functions are allowed. |
Value | A boolean. True indicates that extension functions are allowed; False otherwise. |
Default value | true |
System property | jdk.xml.enableExtensionFunctions |
Since | 7u60 |
If your applications don't require DTDs, then consider disabling DTD processing to safeguard against many common DTD-related attacks, including denial-of-service, XML external entity (XXE), and server-side request forgery (SSRF).
To disable DTD processing for SAX and DOM parsers, set the
feature
http://apache.org/xml/features/disallow-doctype-decl
to true through a factory. The following code snippet disables
DTDs for SAX parsers. A fatal error is thrown if the incoming XML
document contains a DOCTYPE declaration.
final static String DISALLOW_DTD = "http://apache.org/xml/features/disallow-doctype-decl"; // ... SAXParserFactory spf = SAXParserFactory.newInstance(); spf.setFeature(DISALLOW_DTD, true);
To disable DTD processing for StAX parsers, set the property
SupportDTD
with the the
XMLInputFactory.setProperty
method:
XMLInputFactory xif = XMLInputFactory.newInstance(); xif.setProperty(XMLInputFactory.SUPPORT_DTD, Boolean.FALSE);
You can register custom resolvers on a JDK XML processor to intercept any references to external resources and resolve them with local ones. This feature eliminates the need to read and access external resources, thus helping to remove a source of potential risk.
The Java XML API supports various resolvers that you can
register on JDK XML processors to resolve external resources. These
resolvers includes entity resolvers for SAX and DOM parsers, XML
resolvers for StAX parsers, LSResourceResolver
for
validation, and URIResolver
for transformation.
SAX defines an interface that DOM also supports,
org.xml.sax.EntityResolver
. It enables applications
to step into the entity resolution process and perform entity
resolution on their own terms. The following is the interface's
definition:
package org.xml.sax; public interface EntityResolver { public InputSource resolveEntity(String publicID, String systemID) throws SAXException; }
You can then register an implementation of the interface on a SAX driver:
EntityResolver resolver = ...; SAXParserFactory factory = SAXParserFactory.newInstance(); factory.setNamespaceAware(true); XMLReader reader = factory.newSAXParser().getXMLReader(); reader.setEntityResolver(resolver);
Alternatively, you can register it on a DOM builder:
DocumentBuilder builder = DocumentBuilderFactory.newInstance().newDocumentBuilder(); docBuilder.setEntityResolver(resolver);
StAX defines a javax.xml.stream.XMLResolver
interface:
package javax.xml.stream; public interface XMLResolver { public Object resolveEntity( String publicID, String systemID, String baseURI, String namespace) throws XMLStreamException; }
You can register it on a StAX factory:
XMLResolver resolver = ...; XMLInputFactory xif = XMLInputFactory.newInstance(); xif.setProperty(XMLInputFactory.RESOLVER, resolver);
The javax.xml.transform
API supports custom
resolution of external resources through the
URIResolver
interface:
package javax.xml.transform; public interface URIResolver { public Source resolve(String href, String base) throws TransformerException; }
You can register an implementation of URIResolver
on a Transformer
as follows:
URIResolver resolver = ...; TransformerFactory tf = TransformerFactory.newInstance(); Transformer t = tf.newTransformer(new StreamSource( new StringReader("xsl source"))); t.setURIResolver(resolver);
The javax.xml.validation
API supports Document
Object Model Level 3 Load and Save (DOM LS) DOM through the
LSResourceResolver
interface:
package org.w3c.dom.ls; public interface LSResourceResolver { public LSInput resolveResource( String type, String namespaceURI, String publicId, String systemId, String baseURI); }
You can register an implementation of
LSResourceResolver
on a SchemaFactory
as follows:
SchemaFactory schemaFactory = SchemaFactory.newInstance("http://www.w3.org/2001/XMLSchema"); LSResourceResolver resolver = ...; schemaFactory.setResourceResolver(resolver);
The JDK will always use its system-default parser even when
there's a third-party parser on the classpath. To override the
JDK system-default parser, set the
jdk.xml.overrideDefaultParser
property to true.
Attribute | Description |
---|---|
Name | jdk.xml.overrideDefaultParser |
Definition | Enables the use of a third-party's parser implementation
to override the system-default parser for the JDK's
Transformer , Validator , and
XPath implementations. The property can be set
through JAXP factories, System properties, or the
jaxp.properties file. |
Value | A boolean. Setting it to true enables third-party parser
implementations to override the system-default implementation
during XML transformation, XML validation, or XPath operations.
Setting it to false disables the use of third-party parser
implementations. When the value is specified as a String, the
returning value will be that of
Boolean.parseBoolean . |
Default value | false |
System property | jdk.xml.overrideDefaultParser |
Since | 6u181, 7u171, 8u161, 9.0.4 |
The following code snippets instruct the factories to use a
third-party parser, if found on the classpath, by setting the
jdk.xml.overrideDefaultParser
property with the
setFeature
method:
static final String JDK_OVERRIDE_PARSER = "jdk.xml.overrideDefaultParser"; ... TransformerFactory tFactory = TransformerFactory.newInstance(); tFactory.setFeature(JDK_OVERRIDE_PARSER, true); ... XPathFactory xf = XPathFactory.newInstance(); xf.setFeature(JDK_OVERRIDE_PARSER, true); ... SchemaFactory schemaFactory = SchemaFactory.newInstance(XMLConstants.W3C_XML_SCHEMA_NS_URI); schemaFactory.setFeature(JDK_OVERRIDE_PARSER, true); ... Schema schema = schemaFactory.newSchema(new File("mySchema.xsd")); Validator validator = schema.newValidator(); validator.setFeature(JDK_OVERRIDE_PARSER, true);
The following code snippet sets
jdk.xml.overrideDefaultParser
as a System
property:
System.setProperty("jdk.xml.overrideDefaultParser", "true"));
You can add the following line to the
jaxp.properties
file to enable third-party
parsers:
jdk.xml.overrideDefaultParser=true
The following are general recommendations for configuring JAXP properties and features to help secure your applications and systems:
Term | Definition |
---|---|
JAXP | Java API for XML Processing |
Java SE XML API | APIs defined in the JAXP JSR and integrated into Java SE |
Java XML API | Equivalent term for Java SE XML API |
Java XML Features and Properties | XML-related features and properties defined by the Java SE specification |
JDK XML | The JDK implementation of the Java XML API |
JDK XML Parsers | The JDK implementation of the XML parsers |
JDK XML Properties | The JDK Implementation-only properties |
FSP | FEATURE_SECURE_PROCESSING |
Java and JDK XML features and properties are defined in the
javax.xml.XMLConstants
class. The features have a
prefix http://javax.xml.XMLConstants/feature
, the
properties http://javax.xml.XMLConstants/property
.
If there is a corresponding System property, its prefix is
javax.xml
.
The JDK XML properties are JDK implementation-only properties. Their prefixes vary depending on the JDK version. The following table summarizes this naming convention:
Scope | API Property Prefix | System Property Prefix | Java SE and JDK Version |
---|---|---|---|
Java SE | http://javax.xml.XMLConstants/feature http://javax.xml.XMLConstants/property |
javax.xml |
Since 1.4 |
JDK |
http://www.oracle.com/xml/jaxp/properties |
jdk.xml |
Since 7 |