/*
This file is part of PacketDotNet
PacketDotNet is free software: you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
PacketDotNet is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with PacketDotNet. If not, see .
*/
/*
* Copyright 2012 Alan Rushforth
*/
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using PacketDotNet.Utils;
using MiscUtil.Conversion;
using System.Net.NetworkInformation;
namespace PacketDotNet
{
namespace Ieee80211
{
///
/// Reassociation request frame.
///
/// Sent when a wireless client is going from one access point to another
/// http://en.wikipedia.org/wiki/IEEE_802.11#Frames
///
public class ReassociationRequestFrame : ManagementFrame
{
private class ReassociationRequestFields
{
public readonly static int CapabilityInformationLength = 2;
public readonly static int ListenIntervalLength = 2;
public readonly static int CapabilityInformationPosition;
public readonly static int ListenIntervalPosition;
public readonly static int CurrentAccessPointPosition;
public readonly static int InformationElement1Position;
static ReassociationRequestFields()
{
CapabilityInformationPosition = MacFields.SequenceControlPosition + MacFields.SequenceControlLength;
ListenIntervalPosition = CapabilityInformationPosition + CapabilityInformationLength;
CurrentAccessPointPosition = ListenIntervalPosition + ListenIntervalLength;
InformationElement1Position = CurrentAccessPointPosition + MacFields.AddressLength;
}
}
///
/// Frame control bytes are the first two bytes of the frame
///
private UInt16 CapabilityInformationBytes
{
get
{
if(header.Length >=
(ReassociationRequestFields.CapabilityInformationPosition + ReassociationRequestFields.CapabilityInformationLength))
{
return EndianBitConverter.Little.ToUInt16(header.Bytes,
header.Offset + ReassociationRequestFields.CapabilityInformationPosition);
}
else
{
return 0;
}
}
set
{
EndianBitConverter.Little.CopyBytes(value,
header.Bytes,
header.Offset + ReassociationRequestFields.CapabilityInformationPosition);
}
}
///
/// Gets or sets the capability information, the type of network the mobile station wants to join
///
///
/// The capability information.
///
public CapabilityInformationField CapabilityInformation {get; set;}
///
/// Gets or sets the listen interval. This is the number of beacon interval time periods that the access
/// point must retain buffered packets for.
///
///
/// The listen interval.
///
public UInt16 ListenInterval {get; set;}
///
/// Gets or sets the listen interval, the length of buffered frame retention
///
///
/// The listen interval.
///
private UInt16 ListenIntervalBytes
{
get
{
if(header.Length >=
(ReassociationRequestFields.ListenIntervalPosition + ReassociationRequestFields.ListenIntervalLength))
{
return EndianBitConverter.Little.ToUInt16(header.Bytes,
header.Offset + ReassociationRequestFields.ListenIntervalPosition);
}
else
{
return 0;
}
}
set
{
EndianBitConverter.Little.CopyBytes(value,
header.Bytes,
header.Offset + ReassociationRequestFields.ListenIntervalPosition);
}
}
///
/// DestinationAddress
///
public PhysicalAddress CurrentAccessPointAddress { get; set; }
private PhysicalAddress CurrentAccessPointAddressBytes
{
get
{
return GetAddressByOffset(header.Offset + ReassociationRequestFields.CurrentAccessPointPosition);
}
set
{
SetAddressByOffset(header.Offset + ReassociationRequestFields.CurrentAccessPointPosition, value);
}
}
///
/// Gets or sets the information elements.
///
///
/// The information elements.
///
public InformationElementList InformationElements { get; set; }
///
/// Gets the size of the frame.
///
///
/// The size of the frame.
///
public override int FrameSize
{
get
{
return (MacFields.FrameControlLength +
MacFields.DurationIDLength +
(MacFields.AddressLength * 3) +
MacFields.SequenceControlLength +
ReassociationRequestFields.CapabilityInformationLength +
ReassociationRequestFields.ListenIntervalLength +
MacFields.AddressLength +
InformationElements.Length);
}
}
///
/// Constructor
///
///
/// A
///
public ReassociationRequestFrame (ByteArraySegment bas)
{
header = new ByteArraySegment (bas);
FrameControl = new FrameControlField (FrameControlBytes);
Duration = new DurationField (DurationBytes);
DestinationAddress = GetAddress (0);
SourceAddress = GetAddress (1);
BssId = GetAddress (2);
SequenceControl = new SequenceControlField (SequenceControlBytes);
CapabilityInformation = new CapabilityInformationField (CapabilityInformationBytes);
ListenInterval = ListenIntervalBytes;
CurrentAccessPointAddress = CurrentAccessPointAddressBytes;
if(bas.Length > ReassociationRequestFields.InformationElement1Position)
{
//create a segment that just refers to the info element section
ByteArraySegment infoElementsSegment = new ByteArraySegment(bas.Bytes,
(bas.Offset + ReassociationRequestFields.InformationElement1Position),
(bas.Length - ReassociationRequestFields.InformationElement1Position));
InformationElements = new InformationElementList(infoElementsSegment);
}
else
{
InformationElements = new InformationElementList();
}
//cant set length until after we have handled the information elements
//as they vary in length
header.Length = FrameSize;
}
///
/// Initializes a new instance of the class.
///
///
/// Source address.
///
///
/// Destination address.
///
///
/// BssId.
///
///
/// Information elements.
///
public ReassociationRequestFrame (PhysicalAddress SourceAddress,
PhysicalAddress DestinationAddress,
PhysicalAddress BssId,
InformationElementList InformationElements)
{
this.FrameControl = new FrameControlField ();
this.Duration = new DurationField ();
this.DestinationAddress = DestinationAddress;
this.SourceAddress = SourceAddress;
this.BssId = BssId;
this.SequenceControl = new SequenceControlField ();
this.CapabilityInformation = new CapabilityInformationField ();
this.InformationElements = new InformationElementList (InformationElements);
this.FrameControl.SubType = FrameControlField.FrameSubTypes.ManagementReassociationRequest;
}
///
/// Writes the current packet properties to the backing ByteArraySegment.
///
public override void UpdateCalculatedValues ()
{
if ((header == null) || (header.Length > (header.BytesLength - header.Offset)) || (header.Length < FrameSize))
{
header = new ByteArraySegment (new Byte[FrameSize]);
}
this.FrameControlBytes = this.FrameControl.Field;
this.DurationBytes = this.Duration.Field;
SetAddress (0, DestinationAddress);
SetAddress (1, SourceAddress);
SetAddress (2, BssId);
this.SequenceControlBytes = this.SequenceControl.Field;
this.CapabilityInformationBytes = this.CapabilityInformation.Field;
//we now know the backing buffer is big enough to contain the info elements so we can safely copy them in
this.InformationElements.CopyTo (header, header.Offset + ReassociationRequestFields.InformationElement1Position);
header.Length = FrameSize;
}
}
}
}