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reactos/sdk/lib/drivers/ip/transport/udp/udp.c

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/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS TCP/IP protocol driver
* FILE: transport/udp/udp.c
* PURPOSE: User Datagram Protocol routines
* PROGRAMMERS: Casper S. Hornstrup (chorns@users.sourceforge.net)
* REVISIONS:
* CSH 01/08-2000 Created
*/
#include "precomp.h"
BOOLEAN UDPInitialized = FALSE;
PORT_SET UDPPorts;
NTSTATUS AddUDPHeaderIPv4(
PADDRESS_FILE AddrFile,
PIP_ADDRESS RemoteAddress,
USHORT RemotePort,
PIP_ADDRESS LocalAddress,
USHORT LocalPort,
PIP_PACKET IPPacket,
PVOID Data,
UINT DataLength)
/*
* FUNCTION: Adds an IPv4 and UDP header to an IP packet
* ARGUMENTS:
* SendRequest = Pointer to send request
* LocalAddress = Pointer to our local address
* LocalPort = The port we send this datagram from
* IPPacket = Pointer to IP packet
* RETURNS:
* Status of operation
*/
{
PUDP_HEADER UDPHeader;
NTSTATUS Status;
TI_DbgPrint(MID_TRACE, ("Packet: %x NdisPacket %x\n",
IPPacket, IPPacket->NdisPacket));
Status = AddGenericHeaderIPv4
( AddrFile, RemoteAddress, RemotePort,
LocalAddress, LocalPort,
IPPacket, DataLength, IPPROTO_UDP,
sizeof(UDP_HEADER), (PVOID *)&UDPHeader );
if (!NT_SUCCESS(Status))
return Status;
/* Port values are already big-endian values */
UDPHeader->SourcePort = LocalPort;
UDPHeader->DestPort = RemotePort;
UDPHeader->Checksum = 0;
/* Length of UDP header and data */
UDPHeader->Length = WH2N(DataLength + sizeof(UDP_HEADER));
TI_DbgPrint(MID_TRACE, ("Copying data (hdr %x data %x (%d))\n",
IPPacket->Header, IPPacket->Data,
(PCHAR)IPPacket->Data - (PCHAR)IPPacket->Header));
RtlCopyMemory(IPPacket->Data, Data, DataLength);
UDPHeader->Checksum = UDPv4ChecksumCalculate((PIPv4_HEADER)IPPacket->Header,
(PUCHAR)UDPHeader,
DataLength + sizeof(UDP_HEADER));
UDPHeader->Checksum = WH2N(UDPHeader->Checksum);
TI_DbgPrint(MID_TRACE, ("Packet: %d ip %d udp %d payload\n",
(PCHAR)UDPHeader - (PCHAR)IPPacket->Header,
(PCHAR)IPPacket->Data - (PCHAR)UDPHeader,
DataLength));
return STATUS_SUCCESS;
}
NTSTATUS BuildUDPPacket(
PADDRESS_FILE AddrFile,
PIP_PACKET Packet,
PIP_ADDRESS RemoteAddress,
USHORT RemotePort,
PIP_ADDRESS LocalAddress,
USHORT LocalPort,
PCHAR DataBuffer,
UINT DataLen )
/*
* FUNCTION: Builds an UDP packet
* ARGUMENTS:
* Context = Pointer to context information (DATAGRAM_SEND_REQUEST)
* LocalAddress = Pointer to our local address
* LocalPort = The port we send this datagram from
* IPPacket = Address of pointer to IP packet
* RETURNS:
* Status of operation
*/
{
NTSTATUS Status;
TI_DbgPrint(MAX_TRACE, ("Called.\n"));
/* FIXME: Assumes IPv4 */
IPInitializePacket(Packet, IP_ADDRESS_V4);
Packet->TotalSize = sizeof(IPv4_HEADER) + sizeof(UDP_HEADER) + DataLen;
/* Prepare packet */
Status = AllocatePacketWithBuffer(&Packet->NdisPacket,
NULL,
Packet->TotalSize );
if( !NT_SUCCESS(Status) )
{
Packet->Free(Packet);
return Status;
}
TI_DbgPrint(MID_TRACE, ("Allocated packet: %x\n", Packet->NdisPacket));
TI_DbgPrint(MID_TRACE, ("Local Addr : %s\n", A2S(LocalAddress)));
TI_DbgPrint(MID_TRACE, ("Remote Addr: %s\n", A2S(RemoteAddress)));
switch (RemoteAddress->Type) {
case IP_ADDRESS_V4:
Status = AddUDPHeaderIPv4(AddrFile, RemoteAddress, RemotePort,
LocalAddress, LocalPort, Packet, DataBuffer, DataLen);
break;
case IP_ADDRESS_V6:
/* FIXME: Support IPv6 */
TI_DbgPrint(MIN_TRACE, ("IPv6 UDP datagrams are not supported.\n"));
default:
Status = STATUS_UNSUCCESSFUL;
break;
}
if (!NT_SUCCESS(Status)) {
TI_DbgPrint(MIN_TRACE, ("Cannot add UDP header. Status = (0x%X)\n",
Status));
Packet->Free(Packet);
return Status;
}
TI_DbgPrint(MID_TRACE, ("Displaying packet\n"));
DISPLAY_IP_PACKET(Packet);
TI_DbgPrint(MID_TRACE, ("Leaving\n"));
return STATUS_SUCCESS;
}
NTSTATUS UDPSendDatagram(
PADDRESS_FILE AddrFile,
PTDI_CONNECTION_INFORMATION ConnInfo,
PCHAR BufferData,
ULONG DataSize,
PULONG DataUsed )
/*
* FUNCTION: Sends an UDP datagram to a remote address
* ARGUMENTS:
* Request = Pointer to TDI request
* ConnInfo = Pointer to connection information
* Buffer = Pointer to NDIS buffer with data
* DataSize = Size in bytes of data to be sent
* RETURNS:
* Status of operation
*/
{
IP_PACKET Packet;
PTA_IP_ADDRESS RemoteAddressTa = (PTA_IP_ADDRESS)ConnInfo->RemoteAddress;
IP_ADDRESS RemoteAddress;
IP_ADDRESS LocalAddress;
USHORT RemotePort;
NTSTATUS Status;
PNEIGHBOR_CACHE_ENTRY NCE;
KIRQL OldIrql;
LockObject(AddrFile, &OldIrql);
TI_DbgPrint(MID_TRACE,("Sending Datagram(%x %x %x %d)\n",
AddrFile, ConnInfo, BufferData, DataSize));
TI_DbgPrint(MID_TRACE,("RemoteAddressTa: %x\n", RemoteAddressTa));
switch( RemoteAddressTa->Address[0].AddressType ) {
case TDI_ADDRESS_TYPE_IP:
RemoteAddress.Type = IP_ADDRESS_V4;
RemoteAddress.Address.IPv4Address =
RemoteAddressTa->Address[0].Address[0].in_addr;
RemotePort = RemoteAddressTa->Address[0].Address[0].sin_port;
break;
default:
UnlockObject(AddrFile, OldIrql);
return STATUS_UNSUCCESSFUL;
}
LocalAddress = AddrFile->Address;
if (AddrIsUnspecified(&LocalAddress))
{
/* If the local address is unspecified (0),
* then use the unicast address of the
* interface we're sending over
*/
if(!(NCE = RouteGetRouteToDestination( &RemoteAddress ))) {
UnlockObject(AddrFile, OldIrql);
return STATUS_NETWORK_UNREACHABLE;
}
LocalAddress = NCE->Interface->Unicast;
}
else
{
if(!(NCE = NBLocateNeighbor( &LocalAddress, NULL ))) {
UnlockObject(AddrFile, OldIrql);
return STATUS_INVALID_PARAMETER;
}
}
Status = BuildUDPPacket( AddrFile,
&Packet,
&RemoteAddress,
RemotePort,
&LocalAddress,
AddrFile->Port,
BufferData,
DataSize );
UnlockObject(AddrFile, OldIrql);
if( !NT_SUCCESS(Status) )
return Status;
Status = IPSendDatagram(&Packet, NCE);
if (!NT_SUCCESS(Status))
return Status;
*DataUsed = DataSize;
return STATUS_SUCCESS;
}
VOID UDPReceive(PIP_INTERFACE Interface, PIP_PACKET IPPacket)
/*
* FUNCTION: Receives and queues a UDP datagram
* ARGUMENTS:
* NTE = Pointer to net table entry which the packet was received on
* IPPacket = Pointer to an IP packet that was received
* NOTES:
* This is the low level interface for receiving UDP datagrams. It strips
* the UDP header from a packet and delivers the data to anyone that wants it
*/
{
AF_SEARCH SearchContext;
PIPv4_HEADER IPv4Header;
PADDRESS_FILE AddrFile;
PUDP_HEADER UDPHeader;
PIP_ADDRESS DstAddress, SrcAddress;
UINT DataSize, i;
TI_DbgPrint(MAX_TRACE, ("Called.\n"));
switch (IPPacket->Type) {
/* IPv4 packet */
case IP_ADDRESS_V4:
IPv4Header = IPPacket->Header;
DstAddress = &IPPacket->DstAddr;
SrcAddress = &IPPacket->SrcAddr;
break;
/* IPv6 packet */
case IP_ADDRESS_V6:
TI_DbgPrint(MIN_TRACE, ("Discarded IPv6 UDP datagram (%i bytes).\n", IPPacket->TotalSize));
/* FIXME: IPv6 is not supported */
return;
default:
return;
}
UDPHeader = (PUDP_HEADER)IPPacket->Data;
/* Calculate and validate UDP checksum */
i = UDPv4ChecksumCalculate(IPv4Header,
(PUCHAR)UDPHeader,
WH2N(UDPHeader->Length));
if (i != DH2N(0x0000FFFF) && UDPHeader->Checksum != 0)
{
TI_DbgPrint(MIN_TRACE, ("Bad checksum on packet received.\n"));
return;
}
/* Sanity checks */
i = WH2N(UDPHeader->Length);
if ((i < sizeof(UDP_HEADER)) || (i > IPPacket->TotalSize - IPPacket->Position)) {
/* Incorrect or damaged packet received, discard it */
TI_DbgPrint(MIN_TRACE, ("Incorrect or damaged UDP packet received.\n"));
return;
}
DataSize = i - sizeof(UDP_HEADER);
/* Go to UDP data area */
IPPacket->Data = (PVOID)((ULONG_PTR)IPPacket->Data + sizeof(UDP_HEADER));
/* Locate a receive request on destination address file object
and deliver the packet if one is found. If there is no receive
request on the address file object, call the associated receive
handler. If no receive handler is registered, drop the packet */
AddrFile = AddrSearchFirst(DstAddress,
UDPHeader->DestPort,
IPPROTO_UDP,
&SearchContext);
if (AddrFile) {
do {
DGDeliverData(AddrFile,
SrcAddress,
DstAddress,
UDPHeader->SourcePort,
UDPHeader->DestPort,
IPPacket,
DataSize);
DereferenceObject(AddrFile);
} while ((AddrFile = AddrSearchNext(&SearchContext)) != NULL);
} else {
/* There are no open address files that will take this datagram */
/* FIXME: IPv4 only */
TI_DbgPrint(MID_TRACE, ("Cannot deliver IPv4 UDP datagram to address (0x%X).\n",
DN2H(DstAddress->Address.IPv4Address)));
/* FIXME: Send ICMP reply */
}
TI_DbgPrint(MAX_TRACE, ("Leaving.\n"));
}
NTSTATUS UDPStartup(
VOID)
/*
* FUNCTION: Initializes the UDP subsystem
* RETURNS:
* Status of operation
*/
{
NTSTATUS Status;
#ifdef __NTDRIVER__
RtlZeroMemory(&UDPStats, sizeof(UDP_STATISTICS));
#endif
Status = PortsStartup( &UDPPorts, 1, UDP_STARTING_PORT + UDP_DYNAMIC_PORTS );
if( !NT_SUCCESS(Status) ) return Status;
/* Register this protocol with IP layer */
IPRegisterProtocol(IPPROTO_UDP, UDPReceive);
UDPInitialized = TRUE;
return STATUS_SUCCESS;
}
NTSTATUS UDPShutdown(
VOID)
/*
* FUNCTION: Shuts down the UDP subsystem
* RETURNS:
* Status of operation
*/
{
if (!UDPInitialized)
return STATUS_SUCCESS;
PortsShutdown( &UDPPorts );
/* Deregister this protocol with IP layer */
IPRegisterProtocol(IPPROTO_UDP, NULL);
UDPInitialized = FALSE;
return STATUS_SUCCESS;
}
UINT UDPAllocatePort( UINT HintPort ) {
if( HintPort ) {
if( AllocatePort( &UDPPorts, HintPort ) ) return HintPort;
else return (UINT)-1;
} else return AllocatePortFromRange
( &UDPPorts, UDP_STARTING_PORT,
UDP_STARTING_PORT + UDP_DYNAMIC_PORTS );
}
VOID UDPFreePort( UINT Port ) {
DeallocatePort( &UDPPorts, Port );
}
/* EOF */
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