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//depot/DevDiv/private/Whidbey_Xws/ndp/fx/src/Net/System/UriScheme.cs#4 - edit change 914456 (text)
/*++
Copyright (c) Microsoft Corporation
Module Name:
UriScheme.cs
Abstract:
Provides extensibility contract for System.Uri
The contains only public API definition.
For remaining internal stuff please refer to the _UriSyntax.cs file.
Author:
Alexei Vopilov 19-Dec-2003
Revision History:
Alexei Vopilov 60-July-2004 - Changed the extensiblity model to be based purely on derivation, also has cut Config extensibility option
--*/
namespace System {
using System.Net;
using System.Globalization;
using System.Security.Permissions;
//
// The class is used as a base for custom uri parsing and derived Uri factoring.
// A set of protected .ctors allows to hookup on the builtin parser behaviors.
//
// A developer must implement at least internal default .ctor to participate in the Uri extensibility game.
//
public abstract partial class UriParser {
internal string SchemeName
{
get
{
return m_Scheme;
}
}
internal int DefaultPort {
get {
return m_Port;
}
}
private const UriSyntaxFlags SchemeOnlyFlags = UriSyntaxFlags.MayHavePath;
// This is a "scheme-only" base parser, everything after the scheme is
// returned as the path component.
// The user parser will need to do the majority of the work itself.
//
// However when the ctor is called from OnCreateUri context the calling parser
// settings will later override the result on the base class
//
protected UriParser(): this (SchemeOnlyFlags) { }
//
// Is called on each Uri ctor for every non-simple parser i.e. the one that does have
// user code.
//
protected virtual UriParser OnNewUri()
{
return this;
}
//
// Is called whenever a parser gets registered with some scheme
// The base implementaion is a nop.
//
protected virtual void OnRegister(string schemeName, int defaultPort)
{
}
//
// Parses and validates a Uri object, is called at the Uri ctor time.
//
// This method returns a non null parsingError if Uri being created is invalid:
//
protected virtual void InitializeAndValidate(Uri uri, out UriFormatException parsingError)
{
parsingError = uri.ParseMinimal();
}
//
// Resolves a relative Uri object into new AbsoluteUri.
//
// baseUri - The baseUri used to resolve this Uri.
// relativeuri - A relative Uri string passed by the application.
//
// This method returns:
// The result Uri value used to represent a new Uri
//
protected virtual string Resolve(Uri baseUri, Uri relativeUri, out UriFormatException parsingError)
{
if (baseUri.UserDrivenParsing)
throw new InvalidOperationException(SR.GetString(SR.net_uri_UserDrivenParsing, this.GetType().FullName));
if (!baseUri.IsAbsoluteUri)
throw new InvalidOperationException(SR.GetString(SR.net_uri_NotAbsolute));
string newUriString = null;
bool userEscaped = false;
Uri result = Uri.ResolveHelper(baseUri, relativeUri, ref newUriString, ref userEscaped, out parsingError);
if (parsingError != null)
return null;
if (result != null)
return result.OriginalString;
return newUriString;
}
//
//
//
protected virtual bool IsBaseOf(Uri baseUri, Uri relativeUri)
{
return baseUri.IsBaseOfHelper(relativeUri);
}
//
// This method is invoked to allow a cutsom parser to override the
// internal parser when serving application with Uri componenet strings.
// The output format depends on the "format" parameter
//
// Parameters:
// uriComponents - Which components are to be retrieved.
// uriFormat - The requested output format.
//
// This method returns:
// The final result. The base impementaion could be invoked to get a suggested value
//
protected virtual string GetComponents(Uri uri, UriComponents components, UriFormat format)
{
if (((components & UriComponents.SerializationInfoString) != 0) && components != UriComponents.SerializationInfoString)
throw new ArgumentOutOfRangeException("components", components, SR.GetString(SR.net_uri_NotJustSerialization));
if ((format & ~UriFormat.SafeUnescaped) != 0)
throw new ArgumentOutOfRangeException("format");
if (uri.UserDrivenParsing)
throw new InvalidOperationException(SR.GetString(SR.net_uri_UserDrivenParsing, this.GetType().FullName));
if (!uri.IsAbsoluteUri)
throw new InvalidOperationException(SR.GetString(SR.net_uri_NotAbsolute));
return uri.GetComponentsHelper(components, format);
}
//
//
//
protected virtual bool IsWellFormedOriginalString(Uri uri)
{
return uri.InternalIsWellFormedOriginalString();
}
//
// Static Registration methods
//
//
// Registers a custom Uri parser based on a scheme string
//
public static void Register(UriParser uriParser, string schemeName, int defaultPort)
{
ExceptionHelper.InfrastructurePermission.Demand();
if (uriParser == null)
throw new ArgumentNullException("uriParser");
if (schemeName == null)
throw new ArgumentNullException("schemeName");
if (schemeName.Length == 1)
throw new ArgumentOutOfRangeException("schemeName");
if (!Uri.CheckSchemeName(schemeName))
throw new ArgumentOutOfRangeException("schemeName");
if ((defaultPort >= 0xFFFF || defaultPort < 0) && defaultPort != -1)
throw new ArgumentOutOfRangeException("defaultPort");
schemeName = schemeName.ToLower(CultureInfo.InvariantCulture);
FetchSyntax(uriParser, schemeName, defaultPort);
}
//
// Is a Uri scheme known to System.Uri?
//
public static bool IsKnownScheme(string schemeName)
{
if (schemeName == null)
throw new ArgumentNullException("schemeName");
if (!Uri.CheckSchemeName(schemeName))
throw new ArgumentOutOfRangeException("schemeName");
UriParser syntax = UriParser.GetSyntax(schemeName.ToLower(CultureInfo.InvariantCulture));
return syntax != null && syntax.NotAny(UriSyntaxFlags.V1_UnknownUri);
}
}
}
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