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198 lines
6.8 KiB
198 lines
6.8 KiB
// -*- mode: C++; tab-width: 4; indent-tabs-mode: nil -*- (for GNU Emacs)
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//
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// Copyright (c) 1985-2000 Microsoft Corporation
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//
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// This file is part of the Microsoft Research IPv6 Network Protocol Stack.
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// You should have received a copy of the Microsoft End-User License Agreement
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// for this software along with this release; see the file "license.txt".
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// If not, please see http://www.research.microsoft.com/msripv6/license.htm,
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// or write to Microsoft Research, One Microsoft Way, Redmond, WA 98052-6399.
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//
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// Abstract:
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//
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// Definitions for using IPv4 as a link-layer for IPv6.
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//
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#ifndef TUNNEL_INCLUDED
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#define TUNNEL_INCLUDED 1
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//
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// A few IPv4 definitions that we need.
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// Including the v4 header files causes errors.
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// REVIEW: can we fix this?
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//
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#define INADDR_LOOPBACK 0x0100007f
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//
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// IP Header format.
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//
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typedef struct IPHeader {
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uchar iph_verlen; // Version and length.
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uchar iph_tos; // Type of service.
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ushort iph_length; // Total length of datagram.
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ushort iph_id; // Identification.
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ushort iph_offset; // Flags and fragment offset.
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uchar iph_ttl; // Time to live.
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uchar iph_protocol; // Protocol.
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ushort iph_xsum; // Header checksum.
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IPAddr iph_src; // Source address.
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IPAddr iph_dest; // Destination address.
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} IPHeader;
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//
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// ICMP Header format.
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//
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typedef struct ICMPHeader {
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uchar ich_type; // Type of ICMP packet.
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uchar ich_code; // Subcode of type.
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ushort ich_xsum; // Checksum of packet.
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ulong ich_param; // Type-specific parameter field.
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} ICMPHeader;
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#define ICMP_DEST_UNREACH 3
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#define ICMP_SOURCE_QUENCH 4
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#define ICMP_TIME_EXCEED 11
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#define ICMP_PARAM_PROBLEM 12
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#define ICMP_TTL_IN_TRANSIT 0
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#define ICMP_TTL_IN_REASSEM 1
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#define ICMP_NET_UNREACH 0
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#define ICMP_HOST_UNREACH 1
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#define ICMP_PROT_UNREACH 2
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#define ICMP_PORT_UNREACH 3
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#define ICMP_FRAG_NEEDED 4
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#define ICMP_SR_FAILED 5
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#define ICMP_DEST_NET_UNKNOWN 6
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#define ICMP_DEST_HOST_UNKNOWN 7
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#define ICMP_SRC_ISOLATED 8
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#define ICMP_DEST_NET_ADMIN 9
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#define ICMP_DEST_HOST_ADMIN 10
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#define ICMP_NET_UNREACH_TOS 11
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#define ICMP_HOST_UNREACH_TOS 12
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//
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// Tunnel protocol constants.
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//
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#define WideStr(x) L#x
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#define TUNNEL_DEVICE_NAME(proto) (DD_RAW_IP_DEVICE_NAME L"\\" WideStr(proto))
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#define TUNNEL_6OVER4_TTL 16
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//
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// We don't yet support Path MTU Discovery inside a tunnel,
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// so we use a single MTU for the tunnel.
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// Our buffer size for receiving IPv4 packets must be larger
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// than that MTU, because other implementations might use
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// a different value for their tunnel MTU.
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//
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#define TUNNEL_DEFAULT_MTU IPv6_MINIMUM_MTU
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#define TUNNEL_MAX_MTU (64 * 1024 - sizeof(IPHeader) - 1)
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#define TUNNEL_RECEIVE_BUFFER (64 * 1024)
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#define TUNNEL_DEFAULT_PREFERENCE 1
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//
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// Each tunnel interface (including the pseudo-interface)
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// provides a TunnelContext to the IPv6 code as its link-level context.
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//
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// Each tunnel interface uses a separate v4 TDI address object
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// for sending packets. This allows v4 attributes of the packets
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// (like source address and TTL) to be controlled individually
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// for each tunnel interface.
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//
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// The pseudo-tunnel interface does not control the v4 source address
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// of the packets that it sends; the v4 stack is free to chose
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// any v4 address. Note that this means a packet with a v4-compatible
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// v6 source address might be sent using a v4 source address
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// that is not derived from the v6 source address.
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//
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// The 6-over-4 and point-to-point virtual interfaces, however,
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// do strictly control the v4 source addresses of their packets.
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// As "real" interfaces, they participate in Neighbor Discovery
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// and their link-level (v4) address is important.
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//
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// In contrast to sending, the receive path uses a single address object
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// for all tunnel interfaces. We use the TDI address object
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// associated with the pseudo-interface; because it's bound to INADDR_ANY
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// it receives all encapsulated v6 packets sent to the machine.
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//
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typedef struct TunnelContext {
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struct TunnelContext *Prev, *Next;
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//
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// This DstAddr must follow SrcAddr in memory;
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// see BindInfo.lip_addr initialization.
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//
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IPAddr SrcAddr; // Our v4 address.
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IPAddr DstAddr; // Address of the other tunnel endpoint.
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// (Zero for 6-over-4 tunnels.)
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IPAddr TokenAddr; // The link-layer address. Same as
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// SrcAddr on interfaces except the ISATAP one.
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Interface *IF; // Holds a reference.
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//
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// This field is effectively locked by IF->WorkerLock.
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//
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int SetMCListOK; // Can TunnelSetMulticastAddressList proceed?
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//
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// Although we only use AOFile (the pointer version of AOHandle),
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// we must keep AOHandle open so AOFile will work. AOHandle
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// is in the kernel process context, so any open/close operations
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// must be done in the kernel process context.
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//
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PFILE_OBJECT AOFile;
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HANDLE AOHandle;
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} TunnelContext;
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//
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// Information we keep globally.
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//
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// The spinlock and the mutex are used together to protect
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// the chains of tunnel contexts rooted at Tunnel.List and Tunnel.AOList.
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// Both must be held to modify a list; either is sufficient for read.
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// If both are acquired, the order is mutex first then spinlock.
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//
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typedef struct TunnelGlobals {
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KSPIN_LOCK Lock;
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KMUTEX Mutex;
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PDEVICE_OBJECT V4Device; // Does not hold a reference.
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//
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// List.IF is NULL; it is not a context for an interface.
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// But the other fields (particularly AOFile and AOHandle)
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// do store global values.
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//
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TunnelContext List; // List of tunnel contexts.
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// Used by TunnelReceive/TunnelReceiveComplete.
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PIRP ReceiveIrp; // Protected by Tunnel.Lock.
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TDI_CONNECTION_INFORMATION ReceiveInputInfo;
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TDI_CONNECTION_INFORMATION ReceiveOutputInfo;
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PEPROCESS KernelProcess; // For later comparisons.
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HANDLE TdiHandle; // For unregistering.
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//
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// This is not actually a list of tunnels.
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// We use a list of TunnelContext structures
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// to track mappings from IPv4 address to TDI address object.
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// See TunnelTransmit for more information.
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//
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TunnelContext AOList; // List of address objects.
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//
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// For receiving ICMPv4 packets.
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//
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PFILE_OBJECT IcmpFile;
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HANDLE IcmpHandle;
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} TunnelGlobals;
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extern TunnelGlobals Tunnel;
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#endif // TUNNEL_INCLUDED
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