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/* Woodstox XML processor
*
* Copyright (c) 2004- Tatu Saloranta, [email protected]
*
* Licensed under the License specified in file LICENSE, included with
* the source code.
* You may not use this file except in compliance with the License.
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.ctc.wstx.dtd;
import java.text.MessageFormat;
import java.util.*;
import javax.xml.stream.Location;
import org.codehaus.stax2.validation.*;
import com.ctc.wstx.api.WstxInputProperties;
import com.ctc.wstx.exc.WstxValidationException;
import com.ctc.wstx.sr.NsDefaultProvider;
import com.ctc.wstx.sr.InputElementStack;
import com.ctc.wstx.util.DataUtil;
import com.ctc.wstx.util.ExceptionUtil;
/**
* Shared abstract for Woodstox implementations of {@link XMLValidator}.
* Since there are 2 sub-types -- full actual DTD validator, and a dummy
* one that only adds type information and default values, with no actual
* validation -- common functionality was refactored into this base
* class.
*/
public abstract class DTDValidatorBase
extends XMLValidator
implements NsDefaultProvider // for namespace attr defaults
{
/*
/////////////////////////////////////////////////////
// Constants
/////////////////////////////////////////////////////
*/
/**
* Estimated maximum depth of typical documents; used to allocate
* the array for element stack
*/
final static int DEFAULT_STACK_SIZE = 16;
/**
* Estimated maximum number of attributes for a single element
*/
final static int EXP_MAX_ATTRS = 16;
/**
* Let's actually just reuse a local Map...
*/
protected final static HashMap EMPTY_MAP = new HashMap();
/*
///////////////////////////////////////
// Configuration
///////////////////////////////////////
*/
/**
* Flag that indicates whether any of the elements declared has default
* attribute values for namespace declaration pseudo-attributes.
*/
final boolean mHasNsDefaults;
/**
* DTD schema ({@link DTDSubsetImpl}) object that created this validator
* instance.
*/
final DTDSubset mSchema;
/**
* Validation context (owner) for this validator. Needed for adding
* default attribute values, for example.
*/
final ValidationContext mContext;
/**
* Map that contains element specifications from DTD; null if no
* DOCTYPE declaration found.
*/
final Map mElemSpecs;
/**
* General entities defined in DTD subsets; needed for validating
* ENTITY/ENTITIES attributes.
*/
final Map mGeneralEntities;
/**
* Flag that indicates whether parser wants the attribute values
* to be normalized (according to XML specs) or not (which may be
* more efficient, although not compliant with the specs)
*/
protected boolean mNormAttrs;
/*
///////////////////////////////////////////
// Element def/spec/validator stack, state
///////////////////////////////////////////
*/
/**
* This is the element that is currently being validated; valid
* during
* validateElementStart,
* validateAttribute,
* validateElementAndAttributes calls.
*/
protected DTDElement mCurrElem = null;
/**
* Stack of element definitions matching the current active element stack.
* Instances are elements definitions read from DTD.
*/
protected DTDElement[] mElems = null;
/**
* Number of elements in {@link #mElems}.
*/
protected int mElemCount = 0;
/**
* Attribute definitions for attributes the current element may have
*/
protected HashMap mCurrAttrDefs = null;
/**
* List of attribute declarations/specifications, one for each
* attribute of the current element, for which there is a matching
* value (either explicitly defined, or assigned via defaulting).
*/
protected DTDAttribute[] mAttrSpecs = new DTDAttribute[EXP_MAX_ATTRS];
/**
* Number of attribute specification Objects in
* {@link #mAttrSpecs}; needed to store in case type information
* is requested later on.
*/
protected int mAttrCount = 0;
/**
* Index of the attribute of type ID, within current element's
* attribute list. Track of this is kept separate from other
* attribute since id attributes often need to be used for resolving
* cross-references.
*/
protected int mIdAttrIndex = -1;
/*
///////////////////////////////////////
// Temporary helper objects
///////////////////////////////////////
*/
protected final transient NameKey mTmpKey = new NameKey(null, null);
/**
* Temporary buffer attribute instances can share for validation
* purposes
*/
char[] mTmpAttrValueBuffer = null;
/*
///////////////////////////////////////
// Life-cycle
///////////////////////////////////////
*/
public DTDValidatorBase(DTDSubset schema, ValidationContext ctxt, boolean hasNsDefaults,
Map elemSpecs, Map genEntities)
{
mSchema = schema;
mContext = ctxt;
mHasNsDefaults = hasNsDefaults;
mElemSpecs = (elemSpecs == null || elemSpecs.size() == 0) ?
Collections.EMPTY_MAP : elemSpecs;
mGeneralEntities = genEntities;
// By default, let's assume attrs are to be normalized (fully xml compliant)
mNormAttrs = true;
mElems = new DTDElement[DEFAULT_STACK_SIZE];
}
/*
///////////////////////////////////////
// Configuration
///////////////////////////////////////
*/
/**
* Method that allows enabling/disabling attribute value normalization.
* In general, readers by default enable normalization (to be fully xml
* compliant),
* whereas writers do not (since there is usually little to gain, if
* anything -- it is even possible value may be written before validation
* is called in some cases)
*/
public void setAttrValueNormalization(boolean state) {
mNormAttrs = state;
}
/**
* @return True for validator object that actually do validate
* content; false for objects that only use DTD type information.
*/
public abstract boolean reallyValidating();
/*
///////////////////////////////////////
// XMLValidator implementation
///////////////////////////////////////
*/
public final XMLValidationSchema getSchema() {
return mSchema;
}
/**
* Method called to update information about the newly encountered (start)
* element. At this point namespace information has been resolved, but
* no DTD validation has been done. Validator is to do these validations,
* including checking for attribute value (and existence) compatibility.
*/
public abstract void validateElementStart(String localName, String uri, String prefix)
throws XMLValidationException;
public abstract String validateAttribute(String localName, String uri,
String prefix, String value)
throws XMLValidationException;
public abstract String validateAttribute(String localName, String uri,
String prefix,
char[] valueChars, int valueStart,
int valueEnd)
throws XMLValidationException;
public abstract int validateElementAndAttributes()
throws XMLValidationException;
/**
* @return Validation state that should be effective for the parent
* element state
*/
public abstract int validateElementEnd(String localName, String uri, String prefix)
throws XMLValidationException;
public void validateText(String text, boolean lastTextSegment)
throws XMLValidationException
{
/* This method is a NOP, since basic DTD has no mechanism for
* validating textual content.
*/
}
public void validateText(char[] cbuf, int textStart, int textEnd,
boolean lastTextSegment)
throws XMLValidationException
{
/* This method is a NOP, since basic DTD has no mechanism for
* validating textual content.
*/
}
public abstract void validationCompleted(boolean eod)
throws XMLValidationException;
/*
///////////////////////////////////////
// Attribute info access
///////////////////////////////////////
*/
// // // Access to type info
public String getAttributeType(int index)
{
DTDAttribute attr = mAttrSpecs[index];
return (attr == null) ? WstxInputProperties.UNKNOWN_ATTR_TYPE :
attr.getValueTypeString();
}
/**
* Method for finding out the index of the attribute (collected using
* the attribute collector; having DTD-derived info in same order)
* that is of type ID. DTD explicitly specifies that at most one
* attribute can have this type for any element.
*
* @return Index of the attribute with type ID, in the current
* element, if one exists: -1 otherwise
*/
public int getIdAttrIndex()
{
// Let's figure out the index only when needed
int ix = mIdAttrIndex;
if (ix == -2) {
ix = -1;
if (mCurrElem != null) {
DTDAttribute idAttr = mCurrElem.getIdAttribute();
if (idAttr != null) {
DTDAttribute[] attrs = mAttrSpecs;
for (int i = 0, len = attrs.length; i < len; ++i) {
if (attrs[i] == idAttr) {
ix = i;
break;
}
}
}
}
mIdAttrIndex = ix;
}
return ix;
}
/**
* Method for finding out the index of the attribute (collected using
* the attribute collector; having DTD-derived info in same order)
* that is of type NOTATION. DTD explicitly specifies that at most one
* attribute can have this type for any element.
*
* @return Index of the attribute with type NOTATION, in the current
* element, if one exists: -1 otherwise
*/
public int getNotationAttrIndex()
{
/* If necessary, we could find this index when resolving the
* element, could avoid linear search. But who knows how often
* it's really needed...
*/
for (int i = 0, len = mAttrCount; i < len; ++i) {
if (mAttrSpecs[i].typeIsNotation()) {
return i;
}
}
return -1;
}
/*
/////////////////////////////////////////////////////
// NsDefaultProvider interface
/////////////////////////////////////////////////////
*/
/**
* Calling this method before {@link #checkNsDefaults} is necessary
* to pass information regarding the current element; although
* it will become available later on (via normal XMLValidator interface),
* that's too late (after namespace binding and resolving).
*/
public boolean mayHaveNsDefaults(String elemPrefix, String elemLN)
{
mTmpKey.reset(elemPrefix, elemLN);
DTDElement elem = (DTDElement) mElemSpecs.get(mTmpKey);
mCurrElem = elem;
return (elem != null) && elem.hasNsDefaults();
}
public void checkNsDefaults(InputElementStack nsStack)
throws XMLValidationException
{
// We only get called if mCurrElem != null, and has defaults
HashMap m = mCurrElem.getNsDefaults();
if (m != null) {
Iterator it = m.entrySet().iterator();
while (it.hasNext()) {
Map.Entry me = (Map.Entry) it.next();
String prefix = (String) me.getKey();
if (!nsStack.isPrefixLocallyDeclared(prefix)) {
DTDAttribute attr = (DTDAttribute) me.getValue();
String uri = attr.getDefaultValue(mContext);
nsStack.addNsBinding(prefix, uri);
}
}
}
}
/*
///////////////////////////////////////
// Package methods, accessors
///////////////////////////////////////
*/
/**
* Name of current element on the top of the element stack.
*/
NameKey getElemName() {
DTDElement elem = mElems[mElemCount-1];
return elem.getName();
}
Location getLocation() {
return mContext.getValidationLocation();
}
protected abstract ElementIdMap getIdMap();
Map getEntityMap() {
return mGeneralEntities;
}
char[] getTempAttrValueBuffer(int neededLength)
{
if (mTmpAttrValueBuffer == null
|| mTmpAttrValueBuffer.length < neededLength) {
int size = (neededLength < 100) ? 100 : neededLength;
mTmpAttrValueBuffer = new char[size];
}
return mTmpAttrValueBuffer;
}
public boolean hasNsDefaults() {
return mHasNsDefaults;
}
/*
///////////////////////////////////////
// Package methods, error handling
///////////////////////////////////////
*/
/**
* Method called to report validity problems; depending on mode, will
* either throw an exception, or add a problem notification to the
* list of problems.
*/
void reportValidationProblem(String msg)
throws XMLValidationException
{
doReportValidationProblem(msg, null);
}
void reportValidationProblem(String msg, Location loc)
throws XMLValidationException
{
doReportValidationProblem(msg, loc);
}
void reportValidationProblem(String format, String arg)
throws XMLValidationException
{
doReportValidationProblem(MessageFormat.format(format, new Object[] { arg }),
null);
}
void reportValidationProblem(String format, String arg1, String arg2)
throws XMLValidationException
{
doReportValidationProblem(MessageFormat.format(format, new Object[] { arg1, arg2 }),
null);
}
/*
///////////////////////////////////////
// Private/sub-class methods
///////////////////////////////////////
*/
protected void doReportValidationProblem(String msg, Location loc)
throws XMLValidationException
{
if (loc == null) {
loc = getLocation();
}
mContext.reportProblem(new XMLValidationProblem(loc, msg, XMLValidationProblem.SEVERITY_ERROR));
}
protected void doAddDefaultValue(DTDAttribute attr)
throws XMLValidationException
{
/* If we get here, we should have a non-null (possibly empty) default
* value:
*/
String def = attr.getDefaultValue(mContext);
if (def == null) {
ExceptionUtil.throwInternal("null default attribute value");
}
NameKey an = attr.getName();
// Ok, do we need to find the URI?
String prefix = an.getPrefix();
String uri = "";
if (prefix != null && prefix.length() > 0) {
uri = mContext.getNamespaceURI(prefix);
// Can not map to empty NS!
if (uri == null || uri.length() == 0) {
/* Hmmh. This is a weird case where we do have to
* throw a validity exception; even though it really
* is more a ns-well-formedness error...
*/
reportValidationProblem("Unbound namespace prefix '"+prefix+"' for default attribute "+attr);
// May continue if we don't throw errors, just collect them to a list
uri = "";
}
}
int defIx = mContext.addDefaultAttribute(an.getLocalName(), uri, prefix, def);
if (defIx < 0) {
/* 13-Dec-2005, Tatus: Hmmh. For readers this is an error
* condition, but writers may just indicate they are not
* interested in defaults. So let's let context report
* problem(s) if it has any regarding the request.
*/
// nop
} else {
while (defIx >= mAttrSpecs.length) {
mAttrSpecs = (DTDAttribute[]) DataUtil.growArrayBy50Pct(mAttrSpecs);
}
/* Any intervening empty slots? (can happen if other
* validators add default attributes...)
*/
while (mAttrCount < defIx) {
mAttrSpecs[mAttrCount++] = null;
}
mAttrSpecs[defIx] = attr;
mAttrCount = defIx+1;
}
}
}