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// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
// See the LICENSE file in the project root for more information.
namespace Microsoft.Xml.Schema
{
using System;
using Microsoft.Xml;
using System.IO;
using System.Text;
using System.Collections;
using System.Diagnostics;
using System.Globalization;
using System.Runtime.Versioning;
#pragma warning disable 618
internal sealed class XdrValidator : BaseValidator
{
private const int STACK_INCREMENT = 10;
private HWStack _validationStack; // validaton contexts
private Hashtable _attPresence;
private XmlQualifiedName _name = XmlQualifiedName.Empty;
private XmlNamespaceManager _nsManager;
private bool _isProcessContents = false;
private Hashtable _IDs;
private IdRefNode _idRefListHead;
private Parser _inlineSchemaParser = null;
private const string x_schema = "x-schema:";
internal XdrValidator(BaseValidator validator) : base(validator)
{
Init();
}
internal XdrValidator(XmlValidatingReaderImpl reader, XmlSchemaCollection schemaCollection, IValidationEventHandling eventHandling) : base(reader, schemaCollection, eventHandling)
{
Init();
}
private void Init()
{
_nsManager = reader.NamespaceManager;
if (_nsManager == null)
{
_nsManager = new XmlNamespaceManager(NameTable);
_isProcessContents = true;
}
_validationStack = new HWStack(STACK_INCREMENT);
textValue = new StringBuilder();
_name = XmlQualifiedName.Empty;
_attPresence = new Hashtable();
Push(XmlQualifiedName.Empty);
schemaInfo = new SchemaInfo();
checkDatatype = false;
}
public override void Validate()
{
if (IsInlineSchemaStarted)
{
ProcessInlineSchema();
}
else
{
switch (reader.NodeType)
{
case XmlNodeType.Element:
ValidateElement();
if (reader.IsEmptyElement)
{
goto case XmlNodeType.EndElement;
}
break;
case XmlNodeType.Whitespace:
ValidateWhitespace();
break;
case XmlNodeType.Text: // text inside a node
case XmlNodeType.CDATA: // <![CDATA[...]]>
case XmlNodeType.SignificantWhitespace:
ValidateText();
break;
case XmlNodeType.EndElement:
ValidateEndElement();
break;
}
}
}
private void ValidateElement()
{
elementName.Init(reader.LocalName, XmlSchemaDatatype.XdrCanonizeUri(reader.NamespaceURI, NameTable, SchemaNames));
ValidateChildElement();
if (SchemaNames.IsXDRRoot(elementName.Name, elementName.Namespace) && reader.Depth > 0)
{
_inlineSchemaParser = new Parser(SchemaType.XDR, NameTable, SchemaNames, EventHandler);
_inlineSchemaParser.StartParsing(reader, null);
_inlineSchemaParser.ParseReaderNode();
}
else
{
ProcessElement();
}
}
private void ValidateChildElement()
{
if (context.NeedValidateChildren)
{
int errorCode = 0;
context.ElementDecl.ContentValidator.ValidateElement(elementName, context, out errorCode);
if (errorCode < 0)
{
XmlSchemaValidator.ElementValidationError(elementName, context, EventHandler, reader, reader.BaseURI, PositionInfo.LineNumber, PositionInfo.LinePosition, null);
}
}
}
private bool IsInlineSchemaStarted
{
get { return _inlineSchemaParser != null; }
}
private void ProcessInlineSchema()
{
if (!_inlineSchemaParser.ParseReaderNode())
{ // Done
_inlineSchemaParser.FinishParsing();
SchemaInfo xdrSchema = _inlineSchemaParser.XdrSchema;
if (xdrSchema != null && xdrSchema.ErrorCount == 0)
{
foreach (string inlineNS in xdrSchema.TargetNamespaces.Keys)
{
if (!this.schemaInfo.HasSchema(inlineNS))
{
schemaInfo.Add(xdrSchema, EventHandler);
SchemaCollection.Add(inlineNS, xdrSchema, null, false);
break;
}
}
}
_inlineSchemaParser = null;
}
}
private void ProcessElement()
{
Push(elementName);
if (_isProcessContents)
{
_nsManager.PopScope();
}
context.ElementDecl = ThoroughGetElementDecl();
if (context.ElementDecl != null)
{
ValidateStartElement();
ValidateEndStartElement();
context.NeedValidateChildren = true;
context.ElementDecl.ContentValidator.InitValidation(context);
}
}
private void ValidateEndElement()
{
if (_isProcessContents)
{
_nsManager.PopScope();
}
if (context.ElementDecl != null)
{
if (context.NeedValidateChildren)
{
if (!context.ElementDecl.ContentValidator.CompleteValidation(context))
{
XmlSchemaValidator.CompleteValidationError(context, EventHandler, reader, reader.BaseURI, PositionInfo.LineNumber, PositionInfo.LinePosition, null);
}
}
if (checkDatatype)
{
string stringValue = !hasSibling ? textString : textValue.ToString(); // only for identity-constraint exception reporting
CheckValue(stringValue, null);
checkDatatype = false;
textValue.Length = 0; // cleanup
textString = string.Empty;
}
}
Pop();
}
// SxS: This method processes resource names read from the source document and does not expose
// any resources to the caller. It is fine to disable the SxS warning.
private SchemaElementDecl ThoroughGetElementDecl()
{
if (reader.Depth == 0)
{
LoadSchema(string.Empty);
}
if (reader.MoveToFirstAttribute())
{
do
{
string objectNs = reader.NamespaceURI;
string objectName = reader.LocalName;
if (Ref.Equal(objectNs, SchemaNames.NsXmlNs))
{
LoadSchema(reader.Value);
if (_isProcessContents)
{
_nsManager.AddNamespace(reader.Prefix.Length == 0 ? string.Empty : reader.LocalName, reader.Value);
}
}
if (
Ref.Equal(objectNs, SchemaNames.QnDtDt.Namespace) &&
Ref.Equal(objectName, SchemaNames.QnDtDt.Name)
)
{
reader.SchemaTypeObject = XmlSchemaDatatype.FromXdrName(reader.Value);
}
} while (reader.MoveToNextAttribute());
reader.MoveToElement();
}
SchemaElementDecl elementDecl = schemaInfo.GetElementDecl(elementName);
if (elementDecl == null)
{
if (schemaInfo.TargetNamespaces.ContainsKey(context.Namespace))
{
SendValidationEvent(ResXml.Sch_UndeclaredElement, XmlSchemaValidator.QNameString(context.LocalName, context.Namespace));
}
}
return elementDecl;
}
private void ValidateStartElement()
{
if (context.ElementDecl != null)
{
if (context.ElementDecl.SchemaType != null)
{
reader.SchemaTypeObject = context.ElementDecl.SchemaType;
}
else
{
reader.SchemaTypeObject = context.ElementDecl.Datatype;
}
if (reader.IsEmptyElement && !context.IsNill && context.ElementDecl.DefaultValueTyped != null)
{
reader.TypedValueObject = context.ElementDecl.DefaultValueTyped;
context.IsNill = true; // reusing IsNill
}
if (this.context.ElementDecl.HasRequiredAttribute)
{
_attPresence.Clear();
}
}
if (reader.MoveToFirstAttribute())
{
do
{
if ((object)reader.NamespaceURI == (object)SchemaNames.NsXmlNs)
{
continue;
}
try
{
reader.SchemaTypeObject = null;
SchemaAttDef attnDef = schemaInfo.GetAttributeXdr(context.ElementDecl, QualifiedName(reader.LocalName, reader.NamespaceURI));
if (attnDef != null)
{
if (context.ElementDecl != null && context.ElementDecl.HasRequiredAttribute)
{
_attPresence.Add(attnDef.Name, attnDef);
}
reader.SchemaTypeObject = (attnDef.SchemaType != null) ? (object)attnDef.SchemaType : (object)attnDef.Datatype;
if (attnDef.Datatype != null)
{
string attributeValue = reader.Value;
// need to check the contents of this attribute to make sure
// it is valid according to the specified attribute type.
CheckValue(attributeValue, attnDef);
}
}
}
catch (XmlSchemaException e)
{
e.SetSource(reader.BaseURI, PositionInfo.LineNumber, PositionInfo.LinePosition);
SendValidationEvent(e);
}
} while (reader.MoveToNextAttribute());
reader.MoveToElement();
}
}
private void ValidateEndStartElement()
{
if (context.ElementDecl.HasDefaultAttribute)
{
for (int i = 0; i < context.ElementDecl.DefaultAttDefs.Count; ++i)
{
reader.AddDefaultAttribute((SchemaAttDef)context.ElementDecl.DefaultAttDefs[i]);
}
}
if (context.ElementDecl.HasRequiredAttribute)
{
try
{
context.ElementDecl.CheckAttributes(_attPresence, reader.StandAlone);
}
catch (XmlSchemaException e)
{
e.SetSource(reader.BaseURI, PositionInfo.LineNumber, PositionInfo.LinePosition);
SendValidationEvent(e);
}
}
if (context.ElementDecl.Datatype != null)
{
checkDatatype = true;
hasSibling = false;
textString = string.Empty;
textValue.Length = 0;
}
}
// [ResourceConsumption(ResourceScope.Machine)]
// [ResourceExposure(ResourceScope.Machine)]
private void LoadSchemaFromLocation(string uri)
{
// is x-schema
if (!XdrBuilder.IsXdrSchema(uri))
{
return;
}
string url = uri.Substring(x_schema.Length);
XmlReader reader = null;
SchemaInfo xdrSchema = null;
try
{
Uri ruri = this.XmlResolver.ResolveUri(BaseUri, url);
Stream stm = (Stream)this.XmlResolver.GetEntity(ruri, null, null);
reader = new XmlTextReader(ruri.ToString(), stm, NameTable);
((XmlTextReader)reader).XmlResolver = this.XmlResolver;
Parser parser = new Parser(SchemaType.XDR, NameTable, SchemaNames, EventHandler);
parser.XmlResolver = this.XmlResolver;
parser.Parse(reader, uri);
while (reader.Read()) ;// wellformness check
xdrSchema = parser.XdrSchema;
}
catch (XmlSchemaException e)
{
SendValidationEvent(ResXml.Sch_CannotLoadSchema, new string[] { uri, e.Message }, XmlSeverityType.Error);
}
catch (Exception e)
{
SendValidationEvent(ResXml.Sch_CannotLoadSchema, new string[] { uri, e.Message }, XmlSeverityType.Warning);
}
finally
{
if (reader != null)
{
reader.Close();
}
}
if (xdrSchema != null && xdrSchema.ErrorCount == 0)
{
schemaInfo.Add(xdrSchema, EventHandler);
SchemaCollection.Add(uri, xdrSchema, null, false);
}
}
// [ResourceConsumption(ResourceScope.Machine)]
// [ResourceExposure(ResourceScope.Machine)]
private void LoadSchema(string uri)
{
if (this.schemaInfo.TargetNamespaces.ContainsKey(uri))
{
return;
}
if (this.XmlResolver == null)
{
return;
}
SchemaInfo schemaInfo = null;
if (SchemaCollection != null)
schemaInfo = SchemaCollection.GetSchemaInfo(uri);
if (schemaInfo != null)
{
if (schemaInfo.SchemaType != SchemaType.XDR)
{
throw new XmlException(ResXml.Xml_MultipleValidaitonTypes, string.Empty, this.PositionInfo.LineNumber, this.PositionInfo.LinePosition);
}
this.schemaInfo.Add(schemaInfo, EventHandler);
return;
}
LoadSchemaFromLocation(uri);
}
private bool HasSchema { get { return schemaInfo.SchemaType != SchemaType.None; } }
public override bool PreserveWhitespace
{
get { return context.ElementDecl != null ? context.ElementDecl.ContentValidator.PreserveWhitespace : false; }
}
private void ProcessTokenizedType(
XmlTokenizedType ttype,
string name
)
{
switch (ttype)
{
case XmlTokenizedType.ID:
if (FindId(name) != null)
{
SendValidationEvent(ResXml.Sch_DupId, name);
}
else
{
AddID(name, context.LocalName);
}
break;
case XmlTokenizedType.IDREF:
object p = FindId(name);
if (p == null)
{ // add it to linked list to check it later
_idRefListHead = new IdRefNode(_idRefListHead, name, this.PositionInfo.LineNumber, this.PositionInfo.LinePosition);
}
break;
case XmlTokenizedType.ENTITY:
ProcessEntity(schemaInfo, name, this, EventHandler, reader.BaseURI, PositionInfo.LineNumber, PositionInfo.LinePosition);
break;
default:
break;
}
}
public override void CompleteValidation()
{
if (HasSchema)
{
CheckForwardRefs();
}
else
{
SendValidationEvent(new XmlSchemaException(ResXml.Xml_NoValidation, string.Empty), XmlSeverityType.Warning);
}
}
private void CheckValue(
string value,
SchemaAttDef attdef
)
{
try
{
reader.TypedValueObject = null;
bool isAttn = attdef != null;
XmlSchemaDatatype dtype = isAttn ? attdef.Datatype : context.ElementDecl.Datatype;
if (dtype == null)
{
return; // no reason to check
}
if (dtype.TokenizedType != XmlTokenizedType.CDATA)
{
value = value.Trim();
}
if (value.Length == 0)
{
return; // don't need to check
}
object typedValue = dtype.ParseValue(value, NameTable, _nsManager);
reader.TypedValueObject = typedValue;
// Check special types
XmlTokenizedType ttype = dtype.TokenizedType;
if (ttype == XmlTokenizedType.ENTITY || ttype == XmlTokenizedType.ID || ttype == XmlTokenizedType.IDREF)
{
if (dtype.Variety == XmlSchemaDatatypeVariety.List)
{
string[] ss = (string[])typedValue;
for (int i = 0; i < ss.Length; ++i)
{
ProcessTokenizedType(dtype.TokenizedType, ss[i]);
}
}
else
{
ProcessTokenizedType(dtype.TokenizedType, (string)typedValue);
}
}
SchemaDeclBase decl = isAttn ? (SchemaDeclBase)attdef : (SchemaDeclBase)context.ElementDecl;
if (decl.MaxLength != uint.MaxValue)
{
if (value.Length > decl.MaxLength)
{
SendValidationEvent(ResXml.Sch_MaxLengthConstraintFailed, value);
}
}
if (decl.MinLength != uint.MaxValue)
{
if (value.Length < decl.MinLength)
{
SendValidationEvent(ResXml.Sch_MinLengthConstraintFailed, value);
}
}
if (decl.Values != null && !decl.CheckEnumeration(typedValue))
{
if (dtype.TokenizedType == XmlTokenizedType.NOTATION)
{
SendValidationEvent(ResXml.Sch_NotationValue, typedValue.ToString());
}
else
{
SendValidationEvent(ResXml.Sch_EnumerationValue, typedValue.ToString());
}
}
if (!decl.CheckValue(typedValue))
{
if (isAttn)
{
SendValidationEvent(ResXml.Sch_FixedAttributeValue, attdef.Name.ToString());
}
else
{
SendValidationEvent(ResXml.Sch_FixedElementValue, XmlSchemaValidator.QNameString(context.LocalName, context.Namespace));
}
}
}
catch (XmlSchemaException)
{
if (attdef != null)
{
SendValidationEvent(ResXml.Sch_AttributeValueDataType, attdef.Name.ToString());
}
else
{
SendValidationEvent(ResXml.Sch_ElementValueDataType, XmlSchemaValidator.QNameString(context.LocalName, context.Namespace));
}
}
}
public static void CheckDefaultValue(
string value,
SchemaAttDef attdef,
SchemaInfo sinfo,
XmlNamespaceManager nsManager,
XmlNameTable NameTable,
object sender,
ValidationEventHandler eventhandler,
string baseUri,
int lineNo,
int linePos
)
{
try
{
XmlSchemaDatatype dtype = attdef.Datatype;
if (dtype == null)
{
return; // no reason to check
}
if (dtype.TokenizedType != XmlTokenizedType.CDATA)
{
value = value.Trim();
}
if (value.Length == 0)
{
return; // don't need to check
}
object typedValue = dtype.ParseValue(value, NameTable, nsManager);
// Check special types
XmlTokenizedType ttype = dtype.TokenizedType;
if (ttype == XmlTokenizedType.ENTITY)
{
if (dtype.Variety == XmlSchemaDatatypeVariety.List)
{
string[] ss = (string[])typedValue;
for (int i = 0; i < ss.Length; ++i)
{
ProcessEntity(sinfo, ss[i], sender, eventhandler, baseUri, lineNo, linePos);
}
}
else
{
ProcessEntity(sinfo, (string)typedValue, sender, eventhandler, baseUri, lineNo, linePos);
}
}
else if (ttype == XmlTokenizedType.ENUMERATION)
{
if (!attdef.CheckEnumeration(typedValue))
{
XmlSchemaException e = new XmlSchemaException(ResXml.Sch_EnumerationValue, typedValue.ToString(), baseUri, lineNo, linePos);
if (eventhandler != null)
{
eventhandler(sender, new ValidationEventArgs(e));
}
else
{
throw e;
}
}
}
attdef.DefaultValueTyped = typedValue;
}
#if DEBUG && disabled
catch (XmlSchemaException ex) {
Debug.WriteLineIf(DiagnosticsSwitches.XmlSchema.TraceError, ex.Message);
#else
catch
{
#endif
XmlSchemaException e = new XmlSchemaException(ResXml.Sch_AttributeDefaultDataType, attdef.Name.ToString(), baseUri, lineNo, linePos);
if (eventhandler != null)
{
eventhandler(sender, new ValidationEventArgs(e));
}
else
{
throw e;
}
}
}
internal void AddID(string name, object node)
{
// Note: It used to be true that we only called this if _fValidate was true,
// but due to the fact that you can now dynamically type somethign as an ID
// that is no longer true.
if (_IDs == null)
{
_IDs = new Hashtable();
}
_IDs.Add(name, node);
}
public override object FindId(string name)
{
return _IDs == null ? null : _IDs[name];
}
private void Push(XmlQualifiedName elementName)
{
context = (ValidationState)_validationStack.Push();
if (context == null)
{
context = new ValidationState();
_validationStack.AddToTop(context);
}
context.LocalName = elementName.Name;
context.Namespace = elementName.Namespace;
context.HasMatched = false;
context.IsNill = false;
context.NeedValidateChildren = false;
}
private void Pop()
{
if (_validationStack.Length > 1)
{
_validationStack.Pop();
context = (ValidationState)_validationStack.Peek();
}
}
private void CheckForwardRefs()
{
IdRefNode next = _idRefListHead;
while (next != null)
{
if (FindId(next.Id) == null)
{
SendValidationEvent(new XmlSchemaException(ResXml.Sch_UndeclaredId, next.Id, reader.BaseURI, next.LineNo, next.LinePos));
}
IdRefNode ptr = next.Next;
next.Next = null; // unhook each object so it is cleaned up by Garbage Collector
next = ptr;
}
// not needed any more.
_idRefListHead = null;
}
private XmlQualifiedName QualifiedName(string name, string ns)
{
return new XmlQualifiedName(name, XmlSchemaDatatype.XdrCanonizeUri(ns, NameTable, SchemaNames));
}
};
#pragma warning restore 618
}
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