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windows-server-2003/net/nwlink/ipx/packet.c

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/*++
Copyright (c) 1989-1993 Microsoft Corporation
Module Name:
packet.c
Abstract:
This module contains code that implements the SEND_PACKET and
RECEIVE_PACKET objects, which describe NDIS packets used
by the transport.
Environment:
Kernel mode
Revision History:
Sanjay Anand (SanjayAn) - 22-Sept-1995
BackFill optimization changes added under #if BACK_FILL
--*/
#include "precomp.h"
#pragma hdrstop
NTSTATUS
IpxInitializeSendPacket(
IN PDEVICE Device,
IN PIPX_SEND_PACKET Packet,
IN PUCHAR Header
)
/*++
Routine Description:
This routine initializes a send packet by chaining the
buffer for the header on it.
Arguments:
Device - The device.
Packet - The packet to initialize.
Header - Points to storage for the header.
Return Value:
None.
--*/
{
NDIS_STATUS NdisStatus;
NTSTATUS Status;
PNDIS_BUFFER NdisMacBuffer;
PNDIS_BUFFER NdisIpxBuffer;
PIPX_SEND_RESERVED Reserved;
IpxAllocateSendPacket (Device, Packet, &Status);
if (Status != STATUS_SUCCESS) {
// ERROR LOG
return Status;
}
NdisAllocateBuffer(
&NdisStatus,
&NdisMacBuffer,
Device->NdisBufferPoolHandle,
Header,
MAC_HEADER_SIZE);
if (NdisStatus != NDIS_STATUS_SUCCESS) {
IpxFreeSendPacket (Device, Packet);
// ERROR LOG
return STATUS_INSUFFICIENT_RESOURCES;
}
NdisAllocateBuffer(
&NdisStatus,
&NdisIpxBuffer,
Device->NdisBufferPoolHandle,
Header + MAC_HEADER_SIZE,
IPX_HEADER_SIZE + RIP_PACKET_SIZE);
if (NdisStatus != NDIS_STATUS_SUCCESS) {
IpxFreeSendPacket (Device, Packet);
// ERROR LOG
return STATUS_INSUFFICIENT_RESOURCES;
}
NdisChainBufferAtFront (PACKET(Packet), NdisMacBuffer);
NdisChainBufferAtBack (PACKET(Packet), NdisIpxBuffer);
//
// This flag optimizes the virtual to physical address X-ln
// in the MAC drivers on x86
//
NdisMacBuffer->MdlFlags|=MDL_NETWORK_HEADER;
NdisIpxBuffer->MdlFlags|=MDL_NETWORK_HEADER;
Reserved = SEND_RESERVED(Packet);
Reserved->Identifier = IDENTIFIER_IPX;
Reserved->SendInProgress = FALSE;
Reserved->Header = Header;
Reserved->HeaderBuffer = NdisMacBuffer;
Reserved->PaddingBuffer = NULL;
#if BACK_FILL
Reserved->BackFill = FALSE;
#endif
ExInterlockedInsertHeadList(
&Device->GlobalSendPacketList,
&Reserved->GlobalLinkage,
&Device->Lock);
return STATUS_SUCCESS;
} /* IpxInitializeSendPacket */
#if BACK_FILL
NTSTATUS
IpxInitializeBackFillPacket(
IN PDEVICE Device,
IN PIPX_SEND_PACKET Packet,
IN PUCHAR Header
)
/*++
Routine Description:
This routine initializes a send packet by chaining the
buffer for the header on it.
Arguments:
Device - The device.
Packet - The packet to initialize.
Header - Points to storage for the header.
Return Value:
None.
--*/
{
NDIS_STATUS NdisStatus;
NTSTATUS Status;
PNDIS_BUFFER NdisMacBuffer;
PNDIS_BUFFER NdisIpxBuffer;
PIPX_SEND_RESERVED Reserved;
IPX_DEBUG (PACKET, ("Initializing backfill packet\n"));
IpxAllocateSendPacket (Device, Packet, &Status);
if (Status != STATUS_SUCCESS) {
// ERROR LOG
return Status;
}
Reserved = SEND_RESERVED(Packet);
Reserved->Identifier = IDENTIFIER_IPX;
Reserved->SendInProgress = FALSE;
Reserved->Header = NULL;
Reserved->HeaderBuffer = NULL;
Reserved->PaddingBuffer = NULL;
Reserved->BackFill = TRUE;
ExInterlockedInsertHeadList(
&Device->GlobalBackFillPacketList,
&Reserved->GlobalLinkage,
&Device->Lock);
IPX_DEBUG (PACKET, ("Initializing backfill packet Done\n"));
return STATUS_SUCCESS;
} /* IpxInitializeBackFillPacket */
#endif
NTSTATUS
IpxInitializeReceivePacket(
IN PDEVICE Device,
IN PIPX_RECEIVE_PACKET Packet
)
/*++
Routine Description:
This routine initializes a receive packet.
Arguments:
Device - The device.
Packet - The packet to initialize.
Return Value:
None.
--*/
{
NTSTATUS Status;
PIPX_RECEIVE_RESERVED Reserved;
IpxAllocateReceivePacket (Device, Packet, &Status);
if (Status != STATUS_SUCCESS) {
// ERROR LOG
return Status;
}
Reserved = RECEIVE_RESERVED(Packet);
Reserved->Identifier = IDENTIFIER_IPX;
Reserved->TransferInProgress = FALSE;
Reserved->SingleRequest = NULL;
Reserved->ReceiveBuffer = NULL;
InitializeListHead (&Reserved->Requests);
ExInterlockedInsertHeadList(
&Device->GlobalReceivePacketList,
&Reserved->GlobalLinkage,
&Device->Lock);
return STATUS_SUCCESS;
} /* IpxInitializeReceivePacket */
NTSTATUS
IpxInitializeReceiveBuffer(
IN PADAPTER Adapter,
IN PIPX_RECEIVE_BUFFER ReceiveBuffer,
IN PUCHAR DataBuffer,
IN ULONG DataBufferLength
)
/*++
Routine Description:
This routine initializes a receive buffer by allocating
an NDIS_BUFFER to describe the data buffer.
Arguments:
Adapter - The adapter.
ReceiveBuffer - The receive buffer to initialize.
DataBuffer - The data buffer.
DataBufferLength - The length of the data buffer.
Return Value:
None.
--*/
{
NDIS_STATUS NdisStatus;
PNDIS_BUFFER NdisBuffer;
PDEVICE Device = Adapter->Device;
NdisAllocateBuffer(
&NdisStatus,
&NdisBuffer,
Device->NdisBufferPoolHandle,
DataBuffer,
DataBufferLength);
if (NdisStatus != NDIS_STATUS_SUCCESS) {
// ERROR LOG
return STATUS_INSUFFICIENT_RESOURCES;
}
ReceiveBuffer->NdisBuffer = NdisBuffer;
ReceiveBuffer->Data = DataBuffer;
ReceiveBuffer->DataLength = 0;
ExInterlockedInsertHeadList(
&Device->GlobalReceiveBufferList,
&ReceiveBuffer->GlobalLinkage,
&Device->Lock);
return STATUS_SUCCESS;
} /* IpxInitializeReceiveBuffer */
NTSTATUS
IpxInitializePaddingBuffer(
IN PDEVICE Device,
IN PIPX_PADDING_BUFFER PaddingBuffer,
IN ULONG DataBufferLength
)
/*++
Routine Description:
This routine initializes a padding buffer by allocating
an NDIS_BUFFER to describe the data buffer.
Arguments:
Adapter - The adapter.
PaddingBuffer - The receive buffer to initialize.
DataBufferLength - The length of the data buffer.
Return Value:
None.
--*/
{
NDIS_STATUS NdisStatus;
PNDIS_BUFFER NdisBuffer;
NdisAllocateBuffer(
&NdisStatus,
&NdisBuffer,
Device->NdisBufferPoolHandle,
PaddingBuffer->Data,
DataBufferLength);
if (NdisStatus != NDIS_STATUS_SUCCESS) {
// ERROR LOG
return STATUS_INSUFFICIENT_RESOURCES;
}
NDIS_BUFFER_LINKAGE(NdisBuffer) = (PNDIS_BUFFER)NULL;
PaddingBuffer->NdisBuffer = NdisBuffer;
PaddingBuffer->DataLength = DataBufferLength;
RtlZeroMemory (PaddingBuffer->Data, DataBufferLength);
return STATUS_SUCCESS;
} /* IpxInitializePaddingBuffer */
VOID
IpxDeinitializeSendPacket(
IN PDEVICE Device,
IN PIPX_SEND_PACKET Packet
)
/*++
Routine Description:
This routine deinitializes a send packet.
Arguments:
Device - The device.
Packet - The packet to deinitialize.
Return Value:
None.
--*/
{
PNDIS_BUFFER NdisBuffer;
PNDIS_BUFFER NdisIpxBuffer;
PIPX_SEND_RESERVED Reserved;
CTELockHandle LockHandle;
Reserved = SEND_RESERVED(Packet);
CTEGetLock (&Device->Lock, &LockHandle);
RemoveEntryList (&Reserved->GlobalLinkage);
CTEFreeLock (&Device->Lock, LockHandle);
//
// Free the packet in a slightly unconventional way; this
// allows us to not have to NULL out HeaderBuffer's linkage
// field during normal operations when we put it back in
// the free pool.
//
NdisBuffer = Reserved->HeaderBuffer;
NdisIpxBuffer = NDIS_BUFFER_LINKAGE(NdisBuffer);
NDIS_BUFFER_LINKAGE (NdisBuffer) = NULL;
NDIS_BUFFER_LINKAGE (NdisIpxBuffer) = NULL;
#if 0
NdisAdjustBufferLength (NdisBuffer, PACKET_HEADER_SIZE);
#endif
NdisAdjustBufferLength (NdisBuffer, MAC_HEADER_SIZE);
NdisAdjustBufferLength (NdisIpxBuffer, IPX_HEADER_SIZE + RIP_PACKET_SIZE);
NdisFreeBuffer (NdisBuffer);
NdisFreeBuffer (NdisIpxBuffer);
NdisReinitializePacket (PACKET(Packet));
IpxFreeSendPacket (Device, Packet);
} /* IpxDeinitializeSendPacket */
#if BACK_FILL
VOID
IpxDeinitializeBackFillPacket(
IN PDEVICE Device,
IN PIPX_SEND_PACKET Packet
)
/*++
Routine Description:
This routine deinitializes a back fill packet.
Arguments:
Device - The device.
Packet - The packet to deinitialize.
Return Value:
None.
--*/
{
PNDIS_BUFFER NdisBuffer;
PNDIS_BUFFER NdisIpxBuffer;
PIPX_SEND_RESERVED Reserved;
CTELockHandle LockHandle;
IPX_DEBUG (PACKET, ("DeInitializing backfill packet\n"));
Reserved = SEND_RESERVED(Packet);
CTEGetLock (&Device->Lock, &LockHandle);
RemoveEntryList (&Reserved->GlobalLinkage);
CTEFreeLock (&Device->Lock, LockHandle);
NdisReinitializePacket (PACKET(Packet));
IpxFreeSendPacket (Device, Packet);
IPX_DEBUG (PACKET, ("DeInitializing backfill packet Done\n"));
} /* IpxDeinitializeBackFillPacket */
#endif
VOID
IpxDeinitializeReceivePacket(
IN PDEVICE Device,
IN PIPX_RECEIVE_PACKET Packet
)
/*++
Routine Description:
This routine initializes a receive packet.
Arguments:
Device - The device.
Packet - The packet to initialize.
Return Value:
None.
--*/
{
PIPX_RECEIVE_RESERVED Reserved;
CTELockHandle LockHandle;
Reserved = RECEIVE_RESERVED(Packet);
CTEGetLock (&Device->Lock, &LockHandle);
RemoveEntryList (&Reserved->GlobalLinkage);
CTEFreeLock (&Device->Lock, LockHandle);
IpxFreeReceivePacket (Device, Packet);
} /* IpxDeinitializeReceivePacket */
VOID
IpxDeinitializeReceiveBuffer(
IN PADAPTER Adapter,
IN PIPX_RECEIVE_BUFFER ReceiveBuffer,
IN ULONG DataBufferLength
)
/*++
Routine Description:
This routine deinitializes a receive buffer.
Arguments:
Device - The device.
ReceiveBuffer - The receive buffer.
DataBufferLength - The allocated length of the receive buffer.
Return Value:
None.
--*/
{
CTELockHandle LockHandle;
PDEVICE Device = Adapter->Device;
CTEGetLock (&Device->Lock, &LockHandle);
RemoveEntryList (&ReceiveBuffer->GlobalLinkage);
CTEFreeLock (&Device->Lock, LockHandle);
NdisAdjustBufferLength (ReceiveBuffer->NdisBuffer, DataBufferLength);
NdisFreeBuffer (ReceiveBuffer->NdisBuffer);
} /* IpxDeinitializeReceiveBuffer */
VOID
IpxDeinitializePaddingBuffer(
IN PDEVICE Device,
IN PIPX_PADDING_BUFFER PaddingBuffer,
IN ULONG DataBufferLength
)
/*++
Routine Description:
This routine deinitializes a padding buffer.
Arguments:
Device - The device.
PaddingBuffer - The padding buffer.
DataBufferLength - The allocated length of the padding buffer.
Return Value:
None.
--*/
{
NdisAdjustBufferLength (PaddingBuffer->NdisBuffer, DataBufferLength);
NdisFreeBuffer (PaddingBuffer->NdisBuffer);
} /* IpxDeinitializePaddingBuffer */
VOID
IpxAllocateSendPool(
IN PDEVICE Device
)
/*++
Routine Description:
This routine adds 10 packets to the pool for this device.
Arguments:
Device - The device.
Return Value:
None.
--*/
{
PIPX_SEND_POOL SendPool;
UINT HeaderSize;
UINT PacketNum;
IPX_SEND_PACKET Packet;
PIPX_SEND_RESERVED Reserved;
PUCHAR Header;
NDIS_STATUS Status;
CTELockHandle LockHandle;
SendPool = (PIPX_SEND_POOL)IpxAllocateMemory (sizeof(IPX_SEND_POOL), MEMORY_PACKET, "SendPool");
if (SendPool == NULL) {
IPX_DEBUG (PACKET, ("Could not allocate send pool memory\n"));
return;
}
HeaderSize = PACKET_HEADER_SIZE * Device->InitDatagrams;
Header = (PUCHAR)IpxAllocateMemory (HeaderSize, MEMORY_PACKET, "SendPool");
if (Header == NULL) {
IPX_DEBUG (PACKET, ("Could not allocate header memory\n"));
//290901
IpxFreeMemory(SendPool, sizeof(IPX_SEND_POOL), MEMORY_PACKET, "SendPool");
return;
}
SendPool->PoolHandle = (void *) NDIS_PACKET_POOL_TAG_FOR_NWLNKIPX;
NdisAllocatePacketPoolEx(
&Status,
&SendPool->PoolHandle,
Device->InitDatagrams,
0,
sizeof(IPX_SEND_RESERVED)
);
if (Status == NDIS_STATUS_RESOURCES) {
IPX_DEBUG (PACKET, ("Could not allocate Ndis pool memory\n"));
//290901
IpxFreeMemory(SendPool, sizeof(IPX_SEND_POOL), MEMORY_PACKET, "SendPool");
IpxFreeMemory(Header, HeaderSize, MEMORY_PACKET, "SendPool");
return;
}
NdisSetPacketPoolProtocolId(SendPool->PoolHandle, NDIS_PROTOCOL_ID_IPX);
Device->MemoryUsage += Device->InitDatagrams * sizeof(IPX_SEND_RESERVED);
IPX_DEBUG (PACKET, ("Initializing send pool %lx, %d packets\n",
SendPool, Device->InitDatagrams));
SendPool->Header = Header;
for (PacketNum = 0; PacketNum < Device->InitDatagrams; PacketNum++) {
NdisAllocatePacket(&Status, &PACKET(&Packet), SendPool->PoolHandle);
if (IpxInitializeSendPacket (Device, &Packet, Header) != STATUS_SUCCESS) {
IPX_DEBUG (PACKET, ("Could not initialize packet %lx\n", Packet));
break;
}
Reserved = SEND_RESERVED(&Packet);
Reserved->Address = NULL;
Reserved->OwnedByAddress = FALSE;
#ifdef IPX_TRACK_POOL
Reserved->Pool = SendPool;
#endif
IPX_PUSH_ENTRY_LIST (&Device->SendPacketList, &Reserved->PoolLinkage, &Device->SListsLock);
Header += PACKET_HEADER_SIZE;
}
CTEGetLock (&Device->Lock, &LockHandle);
Device->AllocatedDatagrams += PacketNum;
InsertTailList (&Device->SendPoolList, &SendPool->Linkage);
CTEFreeLock (&Device->Lock, LockHandle);
} /* IpxAllocateSendPool */
#if BACK_FILL
VOID
IpxAllocateBackFillPool(
IN PDEVICE Device
)
/*++
Routine Description:
This routine adds 10 packets to the pool for this device.
Arguments:
Device - The device.
Return Value:
None.
--*/
{
UINT PacketNum;
IPX_SEND_PACKET Packet;
PIPX_SEND_RESERVED Reserved;
CTELockHandle LockHandle;
PIPX_SEND_POOL BackFillPool;
NDIS_STATUS Status;
IPX_DEBUG (PACKET, ("Allocating backfill pool\n"));
// Allocate pool for back fillable packets
BackFillPool = (PIPX_SEND_POOL)IpxAllocateMemory (sizeof(IPX_SEND_POOL), MEMORY_PACKET, "BafiPool");
if (BackFillPool == NULL) {
IPX_DEBUG (PACKET, ("Could not allocate backfill pool memory\n"));
return;
}
BackFillPool->PoolHandle = (void *) NDIS_PACKET_POOL_TAG_FOR_NWLNKIPX;
NdisAllocatePacketPoolEx(
&Status,
&BackFillPool->PoolHandle,
Device->InitDatagrams,
0,
sizeof(IPX_SEND_RESERVED)
);
if (Status == NDIS_STATUS_RESOURCES) {
IPX_DEBUG (PACKET, ("Could not allocate Ndis pool memory\n"));
return;
}
NdisSetPacketPoolProtocolId(BackFillPool->PoolHandle, NDIS_PROTOCOL_ID_IPX);
Device->MemoryUsage += Device->InitDatagrams * sizeof(IPX_SEND_RESERVED);
for (PacketNum = 0; PacketNum < Device->InitDatagrams; PacketNum++) {
NdisAllocatePacket(&Status, &PACKET(&Packet), BackFillPool->PoolHandle);
if (IpxInitializeBackFillPacket (Device, &Packet, NULL) != STATUS_SUCCESS) {
IPX_DEBUG (PACKET, ("Could not initialize packet %lx\n", Packet));
break;
}
Reserved = SEND_RESERVED(&Packet);
Reserved->Address = NULL;
Reserved->OwnedByAddress = FALSE;
#ifdef IPX_TRACK_POOL
Reserved->Pool = BackFillPool;
#endif
IPX_PUSH_ENTRY_LIST (&Device->BackFillPacketList, &Reserved->PoolLinkage, &Device->SListsLock);
}
CTEGetLock (&Device->Lock, &LockHandle);
InsertTailList (&Device->BackFillPoolList, &BackFillPool->Linkage);
CTEFreeLock (&Device->Lock, LockHandle);
} /* IpxAllocateBackFillPool */
#endif
VOID
IpxAllocateReceivePool(
IN PDEVICE Device
)
/*++
Routine Description:
This routine adds receive packets to the pool for this device.
Arguments:
Device - The device.
Return Value:
None.
--*/
{
PIPX_RECEIVE_POOL ReceivePool;
UINT PacketNum;
IPX_RECEIVE_PACKET Packet;
PIPX_RECEIVE_RESERVED Reserved;
CTELockHandle LockHandle;
NDIS_STATUS Status;
ReceivePool = (PIPX_SEND_POOL)IpxAllocateMemory (sizeof(IPX_RECEIVE_POOL), MEMORY_PACKET, "ReceivePool");
if (ReceivePool == NULL) {
IPX_DEBUG (PACKET, ("Could not allocate receive pool memory\n"));
return;
}
ReceivePool->PoolHandle = (void *) NDIS_PACKET_POOL_TAG_FOR_NWLNKIPX;
NdisAllocatePacketPoolEx(
&Status,
&ReceivePool->PoolHandle,
Device->InitDatagrams,
0,
sizeof(IPX_SEND_RESERVED)
);
if (Status == NDIS_STATUS_RESOURCES) {
IPX_DEBUG (PACKET, ("Could not allocate receive pool memory\n"));
return;
}
NdisSetPacketPoolProtocolId(ReceivePool->PoolHandle, NDIS_PROTOCOL_ID_IPX);
IPX_DEBUG (PACKET, ("Initializing receive pool %lx, %d packets\n",
ReceivePool, Device->InitReceivePackets));
Device->MemoryUsage += Device->InitDatagrams * sizeof(IPX_SEND_RESERVED);
for (PacketNum = 0; PacketNum < Device->InitReceivePackets; PacketNum++) {
NdisAllocatePacket(&Status, &PACKET(&Packet), ReceivePool->PoolHandle);
if (IpxInitializeReceivePacket (Device, &Packet) != STATUS_SUCCESS) {
IPX_DEBUG (PACKET, ("Could not initialize packet %lx\n", Packet));
break;
}
Reserved = RECEIVE_RESERVED(&Packet);
Reserved->Address = NULL;
Reserved->OwnedByAddress = FALSE;
#ifdef IPX_TRACK_POOL
Reserved->Pool = ReceivePool;
#endif
IPX_PUSH_ENTRY_LIST (&Device->ReceivePacketList, &Reserved->PoolLinkage, &Device->SListsLock);
}
CTEGetLock (&Device->Lock, &LockHandle);
Device->AllocatedReceivePackets += PacketNum;
InsertTailList (&Device->ReceivePoolList, &ReceivePool->Linkage);
CTEFreeLock (&Device->Lock, LockHandle);
} /* IpxAllocateReceivePool */
VOID
IpxAllocateReceiveBufferPool(
IN PADAPTER Adapter
)
/*++
Routine Description:
This routine adds receive buffers to the pool for this adapter.
Arguments:
Adapter - The adapter.
Return Value:
None.
--*/
{
PIPX_RECEIVE_BUFFER ReceiveBuffer;
UINT ReceiveBufferPoolSize;
UINT BufferNum;
PIPX_RECEIVE_BUFFER_POOL ReceiveBufferPool;
PDEVICE Device = Adapter->Device;
UINT DataLength;
PUCHAR Data;
CTELockHandle LockHandle;
DataLength = Adapter->MaxReceivePacketSize;
ReceiveBufferPoolSize = FIELD_OFFSET (IPX_RECEIVE_BUFFER_POOL, Buffers[0]) +
(sizeof(IPX_RECEIVE_BUFFER) * Device->InitReceiveBuffers) +
(DataLength * Device->InitReceiveBuffers);
ReceiveBufferPool = (PIPX_RECEIVE_BUFFER_POOL)IpxAllocateMemory (ReceiveBufferPoolSize, MEMORY_PACKET, "ReceiveBufferPool");
if (ReceiveBufferPool == NULL) {
IPX_DEBUG (PACKET, ("Could not allocate receive buffer pool memory\n"));
return;
}
IPX_DEBUG (PACKET, ("Init recv buffer pool %lx, %d buffers, data %d\n",
ReceiveBufferPool, Device->InitReceiveBuffers, DataLength));
Data = (PUCHAR)(&ReceiveBufferPool->Buffers[Device->InitReceiveBuffers]);
for (BufferNum = 0; BufferNum < Device->InitReceiveBuffers; BufferNum++) {
ReceiveBuffer = &ReceiveBufferPool->Buffers[BufferNum];
if (IpxInitializeReceiveBuffer (Adapter, ReceiveBuffer, Data, DataLength) != STATUS_SUCCESS) {
IPX_DEBUG (PACKET, ("Could not initialize buffer %lx\n", ReceiveBuffer));
break;
}
#ifdef IPX_TRACK_POOL
ReceiveBuffer->Pool = ReceiveBufferPool;
#endif
Data += DataLength;
}
ReceiveBufferPool->BufferCount = BufferNum;
ReceiveBufferPool->BufferFree = BufferNum;
CTEGetLock (&Device->Lock, &LockHandle);
for (BufferNum = 0; BufferNum < ReceiveBufferPool->BufferCount; BufferNum++) {
ReceiveBuffer = &ReceiveBufferPool->Buffers[BufferNum];
IPX_PUSH_ENTRY_LIST (&Adapter->ReceiveBufferList, &ReceiveBuffer->PoolLinkage, &Device->SListsLock);
}
InsertTailList (&Adapter->ReceiveBufferPoolList, &ReceiveBufferPool->Linkage);
Adapter->AllocatedReceiveBuffers += ReceiveBufferPool->BufferCount;
CTEFreeLock (&Device->Lock, LockHandle);
} /* IpxAllocateReceiveBufferPool */
PSLIST_ENTRY
IpxPopSendPacket(
PDEVICE Device
)
/*++
Routine Description:
This routine allocates a packet from the device context's pool.
If there are no packets in the pool, it allocates one up to
the configured limit.
Arguments:
Device - Pointer to our device to charge the packet to.
Return Value:
The pointer to the Linkage field in the allocated packet.
--*/
{
PSLIST_ENTRY s;
s = IPX_POP_ENTRY_LIST(
&Device->SendPacketList,
&Device->SListsLock);
if (s != NULL) {
return s;
}
//
// No packets in the pool, see if we can allocate more.
//
if (Device->AllocatedDatagrams < Device->MaxDatagrams) {
//
// Allocate a pool and try again.
//
IpxAllocateSendPool (Device);
s = IPX_POP_ENTRY_LIST(
&Device->SendPacketList,
&Device->SListsLock);
return s;
} else {
return NULL;
}
} /* IpxPopSendPacket */
#if BACK_FILL
PSLIST_ENTRY
IpxPopBackFillPacket(
PDEVICE Device
)
/*++
Routine Description:
This routine allocates a packet from the device context's pool.
If there are no packets in the pool, it allocates one up to
the configured limit.
Arguments:
Device - Pointer to our device to charge the packet to.
Return Value:
The pointer to the Linkage field in the allocated packet.
--*/
{
PSLIST_ENTRY s;
IPX_DEBUG (PACKET, ("Popping backfill packet\n"));
s = IPX_POP_ENTRY_LIST(
&Device->BackFillPacketList,
&Device->SListsLock);
if (s != NULL) {
return s;
}
//
// No packets in the pool, see if we can allocate more.
//
if (Device->AllocatedDatagrams < Device->MaxDatagrams) {
//
// Allocate a pool and try again.
//
IpxAllocateBackFillPool (Device);
s = IPX_POP_ENTRY_LIST(
&Device->BackFillPacketList,
&Device->SListsLock);
IPX_DEBUG (PACKET, ("Popping backfill packet done\n"));
return s;
} else {
return NULL;
}
} /* IpxPopBackFillPacket */
#endif //BackFill
PSLIST_ENTRY
IpxPopReceivePacket(
IN PDEVICE Device
)
/*++
Routine Description:
This routine allocates a packet from the device context's pool.
If there are no packets in the pool, it allocates one up to
the configured limit.
Arguments:
Device - Pointer to our device to charge the packet to.
Return Value:
The pointer to the Linkage field in the allocated packet.
--*/
{
PSLIST_ENTRY s;
s = IPX_POP_ENTRY_LIST(
&Device->ReceivePacketList,
&Device->SListsLock);
if (s != NULL) {
return s;
}
//
// No packets in the pool, see if we can allocate more.
//
if (Device->AllocatedReceivePackets < Device->MaxReceivePackets) {
//
// Allocate a pool and try again.
//
IpxAllocateReceivePool (Device);
s = IPX_POP_ENTRY_LIST(
&Device->ReceivePacketList,
&Device->SListsLock);
return s;
} else {
return NULL;
}
} /* IpxPopReceivePacket */
PSLIST_ENTRY
IpxPopReceiveBuffer(
IN PADAPTER Adapter
)
/*++
Routine Description:
This routine allocates a receive buffer from the adapter's pool.
If there are no buffers in the pool, it allocates one up to
the configured limit.
Arguments:
Adapter - Pointer to our adapter to charge the buffer to.
Return Value:
The pointer to the Linkage field in the allocated receive buffer.
--*/
{
PSLIST_ENTRY s;
PDEVICE Device = Adapter->Device;
s = IPX_POP_ENTRY_LIST(
&Adapter->ReceiveBufferList,
&Device->SListsLock);
if (s != NULL) {
return s;
}
//
// No buffer in the pool, see if we can allocate more.
//
if (Adapter->AllocatedReceiveBuffers < Device->MaxReceiveBuffers) {
//
// Allocate a pool and try again.
//
IpxAllocateReceiveBufferPool (Adapter);
s = IPX_POP_ENTRY_LIST(
&Adapter->ReceiveBufferList,
&Device->SListsLock);
return s;
} else {
return NULL;
}
} /* IpxPopReceiveBuffer */
PIPX_PADDING_BUFFER
IpxAllocatePaddingBuffer(
IN PDEVICE Device
)
/*++
Routine Description:
This routine allocates a padding buffer for use by all devices.
Arguments:
Device - Pointer to our device to charge the packet to.
Return Value:
The pointer to the allocated padding buffer.
--*/
{
PIPX_PADDING_BUFFER PaddingBuffer;
ULONG PaddingBufferSize;
//
// We are assuming that we can use 1 global padding buffer for ALL
// transmits! We must therefore test to make sure that EthernetExtraPadding
// is not greater than 1. Otherwise, we must assume that the extra padding
// is being used for something and we therefore cannot share across all
// transmit requests.
//
//
// We cannot support more than 1 byte padding space, since we allocate only
// one buffer for all transmit requests.
//
if ( Device->EthernetExtraPadding > 1 ) {
IPX_DEBUG (PACKET, ("Padding buffer cannot be more than 1 byte\n"));
DbgBreakPoint();
}
//
// Allocate a padding buffer if possible.
//
PaddingBufferSize = FIELD_OFFSET (IPX_PADDING_BUFFER, Data[0]) + Device->EthernetExtraPadding;
PaddingBuffer = IpxAllocateMemory (PaddingBufferSize, MEMORY_PACKET, "PaddingBuffer");
if (PaddingBuffer != NULL) {
if (IpxInitializePaddingBuffer (Device, PaddingBuffer, Device->EthernetExtraPadding) !=
STATUS_SUCCESS) {
IpxFreeMemory (PaddingBuffer, PaddingBufferSize, MEMORY_PACKET, "Padding Buffer");
} else {
IPX_DEBUG (PACKET, ("Allocate padding buffer %lx\n", PaddingBuffer));
return PaddingBuffer;
}
}
return NULL;
} /* IpxAllocatePaddingBuffer */
VOID
IpxFreePaddingBuffer(
IN PDEVICE Device
)
/*++
Routine Description:
This routine deallocates the padding buffer.
Arguments:
Device - Pointer to our device to charge the packet to.
Return Value:
None
--*/
{
ULONG PaddingBufferSize;
if ( IpxPaddingBuffer == (PIPX_PADDING_BUFFER)NULL ) {
return;
}
PaddingBufferSize = FIELD_OFFSET (IPX_PADDING_BUFFER, Data[0]) + Device->EthernetExtraPadding;
IpxFreeMemory( IpxPaddingBuffer, PaddingBufferSize, MEMORY_PACKET, "Padding Buffer" );
IpxPaddingBuffer = (PIPX_PADDING_BUFFER)NULL;
} /* IpxFreePaddingBuffer */